Preface
Since the Great Wall Hover is put into the market, it has won the favor from the customers for its
elegant appearance, excellent performance&price ratio,concept of double area and eternal safety.The car is
furnished with Mitsubishi 4G64 engine.It has both the type of five shifts manual transmission and the type of
automatic transmission as an option. At the same time, there are also options of ABS and safety airbag, etc.
Before of its complex structure, high technical intervention and difficulty of maintenance, its maintenance
needs the reference of related documents. Upon the request of the after-sale maintenance technical personnel
of Great Wall, we have prepared this Hover Maintenance Manual. The manual is oriented towards the aftersale maintenance technical personnel of the Great Wall, and mainly introduces the disassembly of the various
systems of Hover (refer to the maintenance manual of motor for the introduction of the motor), the
troubleshooting, matters needing attention for maintenance and the related technical parameters.
During the preparation of this book, a lot of professional personnel have given support and help, here we
would like to express our sincere thanks.
Though we have made efforts to prepare this manual earnestly, we cannot guarantee that the content in
the manual is totally accurate and without error. The user cannot raise improper request to the Great Wall
Company with the manual as legal basis. We cannot bear any responsibility for the losses caused by using
this manual. Confined to the knowledge of the editor, the fault and errors are inevitable, your advice and
comment are appreciated.
The final authority for the interpretation of this manual belongs to the Great Wall Motor Co., Ltd.
Instroduction-1
Instrodution
How to use this mannual................................................2
Identification mark........................................................
Instruction to comprehensive maintenance......................5
Instroduction-2
Maintenance procedure
How to use this manual
Most part of the maintenance operation can be started
In order to help you to use this manual, the chapter name and main
from referencing the illustration. These illustrations help
topics are given at the upper side of each page.
you recognize the parts and show the mutual coordination.
To introduce to you the maintenance items, there is an index on the first
page of each chapter.
At the beginning of each chapter, there are also the matters needing
attention of all the maintenance operations.
Please read the following matters needing attention before starting the
maintenance work.
The failure diagnostic list of each system can help you to diagnose the
failure of the system and find out the causes of failure.
The maintenance method with regard to the possible causes is given in
the column of maintenance method to facilitate you to acquire the method
of solving the problem quickly.
For example:
washer
upper arm shaft
upper arm bush
upper arm bush
washer
upper arm
upper ball pin
split pin
Specified torque
Used component which can not be used any more.
.Pregummed components
Instroduction-3
The maintenance procedure is explained in the form step by step:
The illustration shows what to do and where to do.
The topic of maintenance work tells you what to do.
The detailed instruction tells you how to finish the maintenance
work and introduce other related issues, such as specification and
warning, etc.
Work topics: what to do
For example
Detailed instruction:
3. Check the drive of ball pin
How to do
a. Remove the ball pin.
b. As shown in the Figure, shake the ball pin back and forth for
several times before mounting the cap nut,
c. Turn the but with torque meter continuously, turn one cycle
every 2 to 4 seconds, read the torque meter at the fifth cycle.
Specification
Tightening torque (for rotary):
Upper ball pin
Lower ball pin
0.1
This format can help the experienced technical personnel to locate the
causes of failure quickly. The maintenance personnel can browse the
work topics, and reference the detailed explanation below it only when
necessary. The important specification and warnings are given in bold
face letter.
Specification
In the whole manual, each maintenance step is given with corresponding
specification in bold face letter, so there is no need to stop working to
look at the specification. All the specification can be located quickly in
Annex A.
Warning, Attention, Remarks:
The Warning is given in bold face letter, which means there is the
possibility of harming both the person himself and others.
The Attention is written in bold face letter, which means there is
the possibility of damaging the parts under maintenance.
The Remarks is written separately in the instruction, it is also in
bold face letter. Its main function is to make some additional
explaining to help you to finish the repair work more efficiently.
Instroduction-4
Identification mark
The identification code of the car is a unique code of 17 bits to identify
nameplate
the car. Besides appearing on the label plate of the entire car, it is also
inscripted on the external right side of the right stringer (chassis number)
nameplate
and on the VIN nameplate at the upper left part of the panel.
vehicle VIN NO.
Motor serial number
The manufacture number of motor is inscripted on the right side of the
cylinder .
Instroduction-5
Comprehensive maintenance instruction
1. Use the protection plate, seat and floor covering cloth to make
the car clean and prevent it from being damaged.
2. During the disassembling, place the components in order for the
convenience of assembly.
Observe the following issues:
a. Before conducting the electrical work, remove the negative pole of
the cable from the accumulator terminal.
b. When it is necessary to remove the accumulator for checking or
maintenance, the cable shall be removed from the negative pole
(
) connected to the car body.
c. In order to avoid the damage of accumulator terminal, when removing
the cable, loosen the terminal nut, then pull the cable upwards
vertically, do not twist or pry it.
d. Please use cleaning cloth to clean the accumulator terminal. Do not
use file or other similar tools, which may scuff them.
e. Mount the cable terminal onto the binding post of the loosened nut,
then tighten the nut. Does not use hammer to knock at the terminal
onto the post.
f. Do remember to check whether the positive pole ( ) terminal cap
is in its position.
4. Check all the soft tubes and wire terminal, check to see whether
they are connected correctly and firmly.
5. Used component which can not be used any more.
a. The following spare parts needs always to be renewed: split pin,
seal gasket, O ring and oil seal, etc.
b. For the used component which can not be used any more, it is
indicated by symbol “¦” in elements diagram.
6. Precoated component
The precoated component includes the bolt and nut which is precoated
with the locking sealant in factory.
a. If the precoated component is tightened, loosed or moved by any
reason, it must be recoated with the specified sealant.
b. Coating procedure of precoated component
Remove the old sealant from the screw of component by washing.
Dry it by compressed air.
Coat the screw of components with the specified locking sealant.
c. The precoated component is indicated by symbol “?” in elements
diagram.
7. It can use the sealant or seal ring to prevent the leakage if
necessary.
8. Abide by all specifications for bolt torque strictly. It should use
the torque wrench.
Instroduction-6
9. Determine the necessity of using special maintenance tools and
special maintenance material according to the practical situation
of maintenance. Use them on the necessary position, and go on
with the maintenance according to proper procedures.
10. To replace the fuse, check to see whether the rated current of
new fuse is correct. Do not exceed the rated current of the fuse,
or do not use the fuse with low rated current.
11. When jacking up or supporting the car, lift or support the car on
proper position with care.
a. If only jacking up the car in the front part or rear part, choke up the
wheel to ensure the safety.
b. After the car is jacked up, use frame to support it. It is dangerous to
conduct maintenance on the car that is only jacked up with one
screw jack, even for the minor maintenance that can be finished
error
correct
quickly.
12. Paying attention to the following matters to avoid the damage
of components:
a. If it is not absolutely necessary, do not open the housing of the
ECU and the computers (if the IC terminals are touched, the IC
may have electrostatic damage).
b. When removing the vacuum tube, pull the end of the tube instead of
the central part of the tube.
c. When pulling the wire terminal, pull the terminal itself instead of
the wire.
d. Take care to not make the electrical components fallen, such as the
sensor or relay.
If they fall to the hard ground, they must be replaced.
e. Never use the striking wrench to remove or install the electric
thermostat or thermostat sensor.
f. When checking the conducting state of the wire connector, insert
the multimeter with care, do not bend the terminal.
g. When using the vacuum meter, do not insert the soft tube onto large
connector. Use the stepped terminal. Once the soft tube is swelled
and tightened, there may be leakage.
Preface
Table of Contents
Instruction How to use the manual
Chapter 1 Overview of the entire car (parameters)
Chapter 2 Fuel supply system and exhaust air system
Chapter 3 Clutch
Chapter 4 Transmission
Chapter 5 Automatic transmission
Chapter 6 Driving shaft
Chapter 7 Suspension and vehicle axle
Chapter 8
Brake (ABS)
Chapter 9 Steering
Chapter 10 Car body electric appliance
Chapter 11 CD player and air-conditioning system
Chapter 12 Safety airbag
Annex:
Important components guarantee and requirement
List of non-metal material consumption
Special tools
D Important working components and tightening torque
E Electric wiring diagram
Overview of the entire car-1
Chapter 1
Overview of the entire car
Basic parameter ....................................................... 2
Engine ..................................................................... 4
Air inlet system ........................................................ 5
Exhaust air system ................................................... 5
Fuel supply system ................................................... 5
Cooling system ........................................................ 5
Clutch ..................................................................... 5
Transmission ............................................................ 6
Drive shaft ............................................................... 6
Front shaft/axle ........................................................ 6
Rear axle ................................................................. 6
Wheel tyre ............................................................... 6
Suspension .............................................................. 7
Frame ..................................................................... 7
Steering system ........................................................ 7
Brake system ........................................................... 8
Car body ................................................................. 9
Electrical system .................................................... 10
Air-conditioning system …………………..............12
Basic parameter
The basic parameters of the complete vehicle of CC6460K and CC6460KY estate car should be in accordance with the regulation
in Table 1.
Basic parameters of the complete vehicle of CC6460K and CC6460KY
Item
CC6460K
CC6460KY
Dimension parameter(no-load)(mm)
L
4620
W
1800
H
1710(car
body)/1755(with
tail fin and
luggage carrier)
1700(car body)/1765(with tail fin
and luggage carrier)
Axle tread
2700
Wheel tread: front/rear
1515/1520
Front suspension
850
Rear suspension
1070
weight parameter:
Loading weight(kg)
Complete weight(kg)
Max. total weight(kg)
5 person × 65kg/person + 150kg
1720
1830
2195
2305
No-load axial load distribution: front/rear(kg)
890/830
980/850
full-load axial load distribution: front/rear(kg)
980/1215
1070/1235
Traffic ability parameter
≤13
Min. turning diameter(m)
Min. ground clearance (mm)
≥180
≥175
Approach angle(°)
≥28(no-load)
departure angle(°)
≥27.5(no-load)
Dynamic parameter:
Min. stable speed of direct step(km/h)
≤25
30km/h~100km/h acceleration time of direct step(s)
≤32
acceleration time from 1 step starting to 100km/h(s)
≤20
Max. speed(km/h)
≥160
Max. Climbing capability(%)
≥35
Economical character:
Slipping distance in initial speed of 50km/h(m)
≥500
Traveling fuel consumption in 90km/h constant speed (L/100km)
≤10.19
Traveling fuel consumption in 120km/h constant speed (L/100km)
≤13.24
Under simulated urban and suburb comprehensive operating
condition(L/100km)
≤11.9
≤12.5
Braking characteristics:
Traveling braking distance in 50km/h braking initial speed (m)
≤19(no-load), ≤20(full-load)
Emergency braking distance in 50km/h braking initial speed(m)
≤38
Slope stop braking(%)
≥20(no-load), ≥18(full-load)
Overview of the entire car-3
Stability:
≥35
Max. side rotary stable angle in no-load and static(°)
Nan≥60 and NZ≥60
Operating stability(miniture0
Smooth characteristic:
Weighted mean square value of acceleration
σw(m/s2)
Equivalent mean value Leq(dB)
≤0.6883
Decreased comfortable limitation TCD(h)
≥1.2
≤116.5
Basic parameters of the complete vehicle of CC6460K and CC6460KY (continued)
Item
CC6460K
CC6460KY
Tightness:
Dust-proof tightness M(%)
≥95
Rain-proof tightness(miniature)
≥93
Noise:
Exterior noise of accelerating travel dB(A)
≤74
Interior noise of 50km/h constant speed travel dB(A)
≤79
Noise around ear of diver dB(A)
≤90
Emission:
Meet Europe II emission standard
CO≤2.2g/km, (HC+NOx)≤0.5 g/km
Low idle-speed emission of pollutant: (750±50)r/min
CO≤0.1%, HC≤50ppm
High idle-speed emission of pollutant: (2000±50)r/min
CO≤0.07%, HC≤50ppm
Engine
For the structure and main technical parameter of engine see Table 2.
Table 2 Structure and main technical parameter of engine
Serial No.
Item
Specification and parameter
1
model
4G64S4M
2
style
3
Fuel oil supply method
Multi-point fuel oil injection(MPI)
4
Measuring method of inlet capacity
Speed compact style
5
Combustion room style
Single-slope roof
6
Cylinder diameter × stroke(mm)
86.5×100
7
Total displacement (L)
2.351
8
Compression ratio
9.5:1
9
Max. power and corresponding speed (kW/r/min)
93/5250
10
Max. torque and corresponding speed (N·m/rpm)
190/2500
11
Min. fuel consumption (g/kW·h)
≤254
12
Idle stable speed(r/min)
750±30
13
Idle-speed control
Electronic closed loop control
14
Mean piston speed(m/s)
17.5
15
Mean effective pressure (kPa)
1036
16
Cylinder compression pressure: in 250r/min (kPa)
1320
17
Ignition sequence and control
18
Spark plug gap(mm)
19
Spark plug model
20
Manufacturer of spark plug
21
Valve clearance(mm)
4-cylinder, straight-line, water-cooling, single top
cam shaft, 4-stroke engine
1-3-4-2; without distributor block, electronic
controlled direct ignition
1.0~1.1
BKR5E-11 or K16PR-U11 or RC10YC4
BKR6E-11 or K20PR-U11 or RC8
NGK or DENSO or Xiang huo ju
0(hydraulic column )
18 °before upper stop point/ 53 °after lower stop
22
Port timing: Opened inlet/closed inlet
point
Opened outlet/closed outlet
50°before lower stop point/ 18 °after upper stop
point
23
24
Lubrication method
Combined method of pressure and splash
Pressure of engine oil of main oil channel, in idle
(≥78.5)/(245-490)
speed of 3000rpm (kPa)
25
Max. engine oil temperature(℃)
130
26
Consumption ratio of engine oil(g/kW·h)
2
Overview of the entire car-5
Table 2 Structure and main technical parameter of engine(continued)
Serial No.
27
Item
Specification and parameter
Consumption ratio of engine oil and fuel oil
≤0.8
(%)
28
Cooling method
Closed forced water cooling
29
Starting method
Electric motor
30
Net weight(kg)
167
31
Outline dimension: L×W×H (mm)
730×653×667
32
Idle-speed emission CO(%)/HC(ppm)
≤0.5/≤100
With three unique catalytic converter, air-fuel
33
Emission control degree of operating
ratio closed loop control, the equipped light
condition regulation
car meets the standard of GB 18352.2-
2001
Air inlet system
Dry-type air cleaner.
Exhaust air system
Primary muffler, with two-stage three-way catalyst device.
Fuel supply system
Adjustment of accelerator pedal
The stroke of accelerator pedal is 155mm; adjust the adjusting nut on wire bracket if it does not consist with the standard.
The fuel tank is plastic tank with capacity of 67L; the oil supply control is the mechanical pedal oil control and
internal-type electric fuel pump; the type of fuel evaporation is the activated carbon can and electric valve control.
Cooling system
Forced circulation water cooling, electric fan and aluminum tube radiator.
Clutch
The friction, disc, single-diaphragm spring clutch, hydraulic control mechanism. The external diameter of friction disc D=225mm,
internal diameter d=150mm, material is F810.
Adjustment of clutch pedal:
1. Measure the height of clutch pedal (from pedal pad surface to floor) and free stroke of clutch pedal (fork bar pin clearance).
Standard height of clutch pedal: flush with the brake pedal, free stroke of clutch pedal is 5-15mm;
2. Readjust the free stroke of pedal after adjust the height of pedal; rotate the push bar to the standard value, then fix the bolt
and nut;
3. If the free stroke of clutch pedal is not within standard value, it should rotate the adjusting bolt to standard value, then fix
the bolt and nut. Do not move the push bar to main cylinder when adjust the free stroke of pedal;
4. If the free stroke of clutch pedal and clearance between the clutch pedal and floor when the clutch is disengaged de not
consist with the standard, this may by caused by the air in hydraulic system and failure of main cylinder or clutch. It can
discharge the air of system or dissemble and inspect the main cylinder or clutch.
Transmission
For the structure and main technical parameter of transmission see Table 3.
Table 3
Serial
Item
No.
1
Structure and main technical parameter
Specification and parameter
Model
SC5M2D-C
SC5M4D-C
2
style
manual mechanical step
transmission of full synch, 5
forward steps, 1 reverse step, direct
manipulation
manual mechanical step transmission with torque
divider of full synch, 5 forward steps, 1 reverse step,
direct manipulation
3
Center
distance(mm)
72
72(transmission), 222.25 (torque divider)
196
196
4
5
Max. input torque
(N. m)
Max. input torque
(r/min)
5500
Step
I
Step
II
Step
III
Step
IV
Step
V
Step
R(Reverse)
Step
H(high)
Step
L(low)
6
Speed ratio
7
Gear pair of
speedometer
8
Total net
weight(kg)
38
68(include torque divider)
9
Outline
dimension: L×W
×H
1070mm×466mm×
399mm( not include height of
steering level)
1070mm×460mm×380mm( not include height of
steering level)
8:25
Drive shaft
The structure of rear drive shaft assembly of CC6460K wagon is the three cross-axle universal joints, two drive shafts with extens
intermediate support free-maintenance segmental structure. The front and rear drive shaft assembly of CC6460KY wagon has the
universal joints, one drive shaft with extension spline, free-maintenance integral structure respectively.
Front shaft/axle
CC6460K wagon has the two-cross arm, independent suspension, breakaway front axle.
CC6460KY wagon has the two-cross arm, independent suspension, breakaway steering drive axle , hyperbolic gear single-stage main
reducer, plain bevel gear differential mechanism, universal drive semiaxle, Birfield ball-joint, main reduction ratio i0=4.55, Max. input
torque is 900N m.
Rear axle
Non-breakaway drive axle, integral stamping-welded axle housing, hyperbolic gear single-stage main reducer, plain bevel gear differential
mechanism, semi-floating semiaxle, main reduction ratio i0=4.55, Max. input torque is 900N m.
Wheel and tyre
The type, specification and main parameter of wheel and tyre see Table 4.
Table 4 Type, specification and main parameter of wheel and tyre
Overview of the entire car-7
Suspension
The front suspension is the torsion bar spring, double-cylinder inflatable hydraulic damper, transverse stabilizer rod, double
cross-arm independent suspension. The distance between the center of front shaft of lower arm fixing nut and level ground is
295mm±1mm.
The rear suspension is the four-connecting rod, coil spring, double-cylinder inflatable hydraulic damper, transverse stabilizer
rod, no independent suspension.
Carriage
Peripheral trapezoidal structure; welded by two box section longitudinal beams and several box or tube section cross beams.
Steering system
Pinion-and-rack power steering-gear, hydraulic assists steering. Breakaway front steering trapezoidal structure. Diameter of
quadriradistus steering disc φ380mm, adjustable angle, power-absorbing steering pipe. For main technical parameters of
steering system refer to Table 5.
Table 5
Main technical parameter of steering system
Serial No.
Item
Parameter
Serial No.
1
wheel camber
0°±30′
6
2
kingpin inclination
12°30′±30′
7
3
kingpin castor
3°30′±30′
8
4
toe (mm)
0~2
9
Item
Rotary round of
steering disc n
Angle drive ratio of
steering system i0ω
Force drive ratio of
steering system i0p
Normal efficiency of
steering gear η+
Parameter
3.64
18.2
198.0
≥75%
Steering angle of
Reverse efficiency of
internal and external
32/28
10
≥60%
steering gear ηwheel (°)
1.Adjustment of .4-Wheel Alignment
Test and adjust the front wheel alignment value and adjust the toe on the 4-Wheel Alignment meter.
a. Adjustment of kingpin castor: The standard value is 3°30′±30′(adjust the difference of left and right kingpin
castor to within 30′);
b. Adjustment of toe: The toe with standard value of 0~2mm is adjusted by rotating the steering cross rod. When adjust
the toe, it should rotate the cross brace in left and right side evenly. Tighten the lock nut after adjustment, the torque is
55 - 65N·m.
c. Centering and fix of steering wheel: according to the display of the alignment gauge, turn the front wheel to right
ahead, after removing the steering wheel without changing the position of steering lever, mount the steering wheel
with center aligned, the radials of the steering wheel shall be in the bilateral symmetry position, and the symbol of
Great wall on the steering wheel shall be in the confrontation position of the driver, tighten the nut, with a tightening
torque of 25 - 35N·m.
Left wheel left steering:
32 , right wheel left steering:
28 ;
Left wheel right steering:
28 , right wheel right steering:
32 ;
b. Under the light condition of the car, the height between the center of front axis fixed bolt of the lower suspension arm to the
ground is 295 1mm, if the dimension is not within this scope, reach it through adjusting the torsion bar adjustment arm
bolt;
c. The reference dimension of the height of the car is : the left and right deviation is less than 10mm;
3. Checking the free gap of steering wheel:
Turn the orientation of the car to front, stop the engine, exert a force of about 4.9N on the steering wheel along the circumferential
direction to make the it turning to the left, there is resistance force, stop turning when the resistance force is growing; then turn
the steering wheel to the right, stop turning when the resistance force is felt to be growing; the radian value that the external edge
of steering wheel runs is the free gap of the steering wheel, its standard value shall be less than or equal to 20 , and the corner
from the central position to the left or right shall be no larger than 10.
5
Brake system
The front wheel brake is ventilation coil type, the rear wheel brake is disk and drum type. The service brake type is that the doubleloop vacuum assist hydraulic brake is applied on the front and rear disc brake. The parking brake is mechanical dragline acting on the
drum brake of the rear wheel.
The free stroke of brake pedal is 20mm 30mm, and the operating stroke of the pedal is 120mm. The operating stroke of the brake
handle is 17 (3 teeth) 30 (8 teeth).
1. The adjustment of brake pedal
Measure the operating stroke of the brake pedal, the standard value is 120mm. When the eighth is no in compliance with the
requirement, make adjustment according to the following procedures:
a. Separate the brake lamp switch wire connector, loosen the blocking nut, and turn the brake lamp switch to the position that the
stopper is not touched;
b. Unscrew the blocking nut of the operation connecting rod, use the thinnose pliers to turn the operation connecting rod, adjust
the brake pedal height to standard value, after reaching the standard value, tighten the lock nut;
c. Turn the brake lamp switch to the position that the stopper of brake pedal is just touched, continue the turning for 1/2 1 circle,
and tighten the blocking nut;
d. Connect the brake lamp switch wire connector;
e. The brake lamp should not be light when the brake pedal is in release status.
2. Standard value of brake pedal free stroke: 20-30 mm
a. Under the stopping status of the engine, step on the brake pedal for 2 3 times, clear the influence of brake assistor, then use
hand to push the brake pedal to the position that there is resistance, measure the amount of movement (free stroke). It shall
be in compliance with the regulation of standard value;
b. If the gap is less than the regulation value, check to see whether the gap between the carrier rod of brake lamp switch and the
brake pedal is in compliance with the regulation. If this gap is exceeding the regulation, it means that the gap between the drive
rod clevis pin and the brake pedal arm is exceeding the regulated value.
3. Start the engine, step down the brake pedal with a force of about 700N,ehck the main brake pump, whether there is oil
leakage on the connection positions of the brake pipeline. If there is, maintain it.
4. Operating status test of brake assistor
Conduct the operation status test of the brake assistor according to the following methods:
a. Start the engine, stop if after operating for 1 2 minutes. Step on the brake pedal for several times with normal force. Expect
that the pedal can be fully stepped down a the first stepping, the height of the brake pedal shall be raised on and on with the
stepping, thus means that the brake assistor operates normally, if the height of the pedal is not changed, it means that the brake
assistor is damaged;
b. Under the stopping status of the engine, step on the brake pedal for several times, confirms that the height of brake pedal is
elevated on and on, under the status that the brake pedal is stepped down, start the engine. At this time, the brake pedal will
move down a bit, it means that the brake assistor is working normally. If the brake pedal is moving upwards, it means that the
brake assistor is damaged;
c. Under the operation status of the engine, step down the brake pedal to stop the operation of the engine. AT this time, the there
shall be no change of the height of brake pedal within 30 seconds, it means that the brake assistor is working normally. If the
brake pedal is moving upwards, it means that the brake pedal assistor is damaged.
5. Adjustment of the parking brake system:
a.For positioning, pull the brake bar to the limit position for over 3 times, use a force of about 400N to pull the brake parking
lever, count the number of knocking teeth. The standard value of stroke of parking brake : 17 (3 teeth) 30 (8 teeth);
b.If the stroke of brake parking lever is too big and not in compliance with the requirement, adjust it with the following methods:
Loosen the brake parking lever, unscrew the adjusting nut.
Remove the adjuster hole cap from the brake assembly, use screwdriver to turn the adjustor in the arrow direction to the limit
that the brake drum cannot turn.
Rotate 5 teeth in the counter arrow direction.
Rotate the adjusting nut, adjust the brake parking lever stroke to the standard value.
c. If the stroke is less than the standard value, unscrew the adjusting nut to make it reach the standard value.
d. Check to see whether the adjusting nut and the rod are loosened, whether the adjusting nut is fixed in the fixed seat.
e. After adjustment, jack up the rear part of the car. Loosen the brake parking lever, the brake disc shall not be dragged when
checking the rear wheel.
f. The breaking in of the parking brake: use the force of about 200-250N to pull the brake parking lever,drive the car for about
400m with a speed of about 60km/h, repeat for 2-3 times, then test on the slope of 30%, the car shall be able to be parked.
Overview of the entire car-9
Car body
The structure shape and parameters of the car body is shown in table 6.
Table 6
The structure shape and parameters of the car body
Serial No.
Item
structure and parameter
1
Car body
Structure shape of
car body
Long head two boxes five doors five seats totally metal enclosed type hard top no
carrier type car body
1.1
1.2
White car body
1.3
Door assembly
1.4
Engine bonnet
Internal and external
decoration
and
auxiliary
components of car
body
Opening upwards and backwards, single arm hinge
Internal decoration
Softening design, in compliance with the man-machine engineering and comfort ability
requirement
Meter board
A, B, C pole and
inter door protection
plate
Injection molding type structure, metallic framework
2
2.1
2.2
2.3
2.4
Cab handle
2.5
Windscreen
Punching, welding, totally metal enclosed type structure
Frame type, card plate type door lock, hinge type hinges, with side protection rod, four
side doors open outwards by turns, rear door open upwards. Centralized controlled
door lock, electric drive glass frame riser
Injection molding, set with sundries box on the door protection plate
Metallic frame, PVC surface, PUR foaming layer in the middle
Panorama curved surface windscreen. Front wind window: triplex glass, with a
thickness of 4.76mm. Rear wind window: toughened glass, with electrical heating
defrosting resistance wire, with thickness of 3.5mm. Other windows: toughened
glass, with thickness of 3.5mm
2.6
Rearview mirror
External rearview mirror: electric drive, electrical heating defrosting, anti dazzle type,
the left and right side are all convex mirror, with a radius of curvature of 1400mm. The
internal rearview mirror: manual, anti dazzle type, plane endoscope.
2.7
Seat
Pilot and co pilot seat: independent seat, front and back position, the backrest angle
and seat headrest, etc. can be adjusted. Back seat: independent seat, the backrest angle
and seat headrest, etc. can be adjusted.
2.8
Safety belt
Back seat middle seat two points fixed type, three pointes fixed emergency blocking
mechanical safety belt for other seats.
2.9
Sun visor
Luxurious type, with lamp and cosmetic mirror
2.10
Skylight
Front
and
bumper
2.11
Electric drive skylight
rear
Overall design type, PP injection molding
Checking and commissioning of the auxiliary components of car body:
Stop the car stably, check the doors, engine cover, fuel filling port cover, meter and tools box cover, front and rear ash tray cover,
floor center console sundries box cover, CD disc conveyer (VCD disc conveyer), power socket cover, etc. they shall be reliable
and flexible during starting, opening and closing, without blocking and insufficient closing and abnormal sound;
Electrical system
The structure and parameter of the electrical system are shown in table 7.
Table 7
Structure And Parameter of Electrical System
No.
Item
1
Power, starting and charging system
Structure and Parameter
1.1
Lines
1.2
Accumulator
1.3
Starter
12V, 1.2kW
1.4
generator
Internally furnished with adjustor type generator. 14V, 90A
2
Singe line system, voltage DC 12V, negative earth
55D26R maintenance free type, voltage 12V, 20 hours capacity 60Ah, storage
capacity 101min, low temperature starting current 475A
Illumination and signal system
white, major high beam 60W,1 on the left and right respectively,
auxiliary high beam 55W,1 on the left and right respectively, passing
lamp 55W,1 on the left and right respectively. Head light base center
height H: 920mm±20mm
Front position lamp: white, 5W,1 on the left and right respectively.
Rear parking lights: red, 5W,1 on the left and right respectively.
Amber 。Front and rear turn light: 21W,1 on the left and right
respectively. Side turn light: 5W,1 on the left and right respectively,
Front fog light: white, 55W, 1 on the left and right respectively. Rear
fog light: red, LED,1 on the left and right respectively.
Red, 21W, 1 on the left and right respectively, high position brake light,
10W, 2 in the middle
2.1
Front illumination light
2.2
Position light
2.3
turn light
2.4
Fog light
2.5
Brake light
2.6
License light
White, 5W, 1 on the left and right respectively.
2.7
Backup light
White, 21W, 1 on the left and right respectively.
2.8
Danger warning signal light
All the turning signal lights, danger alarm switch control
2.9
Back repeating reflector
2.10
Front, middle and back ceiling light
in the room
Red, none triangle shape, forming combination light with the rear fog
light
White. Front indoor ceiling light: 10W, 2 pieces. Middle indoor ceiling
light: 10W, 1 piece. Back indoor ceiling lights: 5W, 1 piece
2.11
Cigar lighter illumination
Blue, 3W, 1 piece
2.12
Ash tray illumination
White, 3W, 1 piece
3
Meter system
3.1
Combined instrument
Car speed odometer, engine speed indicator, water temperature meter,
fuel gage
3.2
Indicator lamp
Refer to the drawing
4
Auxiliary electrical system
Front and rear rain wiper DC motor. Front rain wiper: four rods type,
electric drive three gears (high and low speed + adjustable interval),
scraper 2 pieces, 55W. Rear rain wiper: single arm type, electric drive
one gear, with 1 scraper plate, 21W
Front wind window hearing type, back wind window heating type
glass, switch control
Drive side general control, independent control oh other windows and
doors
4.1
Rain wiper system
4.2
Defogging, defrosting device
4.3
Electric drive glass frame riser
4.4
Central control lock
With remote control
4.5
Camborne power socket
12V, 2 pieces
4.6
Radio, CD and loudspeaker
Stereo radio, six discs CD, four sound channels
Overview of the entire car-11
4.7
Cigar lighter
12V, 1 piece
4.8
Horn
Treble and bass
4.9
Safety airbag
Electric main and auxiliary airbag
Checking and commissioning of the auxiliary components of car body:
1. Stop the car stably, check the doors, engine cover, fuel filling port cover, meter and tools box cover, front and rear ash
tray cover, floor center console sundries box cover, CD disc conveyer (VCD disc conveyer), power socket cover, etc. they
shall be reliable and flexible during starting, opening and closing, without blocking and insufficient closing and
abnormal sound;
2. The major lamp high beam and city beam, the alternating light, taillight, turn light, brake light, front and rear mist
light, malfunction alarm light, indoor light, instrument panel light, ignition switch light, etc. shall operate normally,
without the failure of no lighting,constant lighting and error lighting , etc;
3. Checking the performance of front head light
a. The high beam luminous intensity of each head light
20000 cd/ piece
b. Beam center left and right deviation (when the beam is irradiating on the screen of 10 m away):
Left light high beam: left 17 cm right 35 cm
Right light high beam: left 35 cm right 35 cm
Left light city beam:
left 17 cm right 35 cm
Right light city beam: left 17 cm right 35 cm
c. Beam center height (when the beam is irradiating on the screen of 10 m away):
Head light city beam 0.7 0.9 H; head light high beam 0.9 1.0 H
H means the head light center height 920
20mm.
4. The adjustment of multi functional meter:
a. Drive the car onto the trench, insert the car speed transducer, drive the car to open places, press the ADJ switch for no less than
3 seconds, the orientation indicator begins to flash. Drive the car slowly for one circle within 2 minutes, the orientation
indicator will stop flashing, it shall points to the practical normal direction.
Note: E
east, W
west, S
south, N
north.
b. The adjustment of time:
Press the “MODE” switch for over 2 seconds, the time can be adjusted, press the MODE switch to adjust the minute, then
press the MODE again to adjust the hour, adjust the time through pressing the “
”and “
” key. After the time is adjusted,
press the ”MODE” switch for over 2 seconds to quit the time adjustment mode.
c. Check to see whether the absolute altitude meter and the car speed response display are working normally.
d. Drive the car onto the trench again, pull off the car speed transducer plug.
5. The adjustment of rain wiper nozzle cleaning mixture ejection height:
a. Put the ignition switch to the ”ON” position, open the rain wiper nozzle switch, the position of front cleaning mixture nozzle
shall be evenly distributed along the middle height of the front windshield glass from left to right.
b. The position of the rear cleaning mixture nozzle is deviated to right of the center of rear windshield glass for about 20mm120mm, and the height is within the scope of 50mm at the center of the glass. If the deviation is large, the nozzle needs to be
adjusted.
Air-conditioning system
The structure and parameter of the air-conditioning system is shown in table 8.
Table 8 The structure and parameter of the air-conditioning system
Serial No.
1
2
Item
Structure and Parameter
Structure and
Front and rear heating and cooling air conditioner, vapor compression type
shape
Performance and
parameters
cooling, hot-water heating
Refrigerating capacity 3.5kW, heat exchange capacity 3.5kW, fan capacity
350m3/h
Control board button type operation, temperature auto control, air door micro
3
Operation
motor drive, the temperature in the car can be controlled automatically, the
fanning position mode, heating/cooling mode, air intern/external cycling mode
and wind speed and temperature can be selected and adjusted
4
Refrigerant
R134a
5
Compressor
SD7V16 variable capacity compressor, with a maximum capacity of 160ml
6
Condenser
Parallel stream mode structure, flat pipe thickness of 26mm
7
Evaporator
8
Drying fluid
collector
Refrigerating
9
pipe
and
warm water pipe
10
Transducer
11
pressure switch
Two boxes structure, cascading evaporator, F expansion valve, centrifugal
blower
External diameter φ60.5mm
Refrigerating pipe: complex structure of rubber refrigeration soft tube and
aluminum tube. The warm water pipe: rubber molding pipe
Outdoor temperature sensor, indoor temperature sensor, evaporator temperature
sensor
Three-state pressure switch
Chapter 2
Fuel supply system and exhaust system
Fuel supply system :
Disassembly of the fuel tank ........................................................................3
Installation and disassembly of the Fuel pump ..............................................4
Disassembly of the components of fuel supply system...................................4
Disassembly and adjustment of the accelerator pedal operating system ........5
Exhaust system :
Disassembly of the blast pipe assembly.........................................................8
Installation of the blast pipe assembly............................................................9
Fuel supply system
adjustment nut
throttle pull wire
accelerator pedal assembly
carbon tank exhaust rubber tube
snap fitting
steel strip type elastic hoop
generator oil-in rubber tube
generator of return rubber tube
soft tube fixing clipper
carbon carbon tank b type
air inlet
worm drive
tank
rubber tube type hoop
fuel filter
filter rubber tube
for gas out
vaporizer tube 2
back part of fuel tank
oil-out tube
back part of fuel tank
cleaner bracket
vaporizer soft tube 2
fuel tank vaporizer
filter rubber
rubber tube
tube for gas-in
front part of the oil-out
tube of fuel tank
vaporizer tube1
vaporizer soft
tube1
the middle connection rubber
tube of the oil return tube
oil return tube
fuel tank oil return tube
hard tube bracket
fuel tank gland
fuel pump
front taps of fuel tank
fuel tank protection plate
fuel tank lock
refill opening cushion
pressing board
refill opening cushion
seal packing
ring
fuel tank gland
fuel tank assembly
oil filing port assembly
steel strip type elastic hoop
fuel tank protection plate
N
m: specified torque
Caution: When maintaining the fuel supply system, if the oil
path needs to be removed, the pressure of the fuel system must
be released to avoid the ejection of high pressure fuel.
Disassembly of the fuel tank
1. First remove the oil-in and oil return hard tube of the
generator, the oil return hard tube of fuel tank, and the
connection rubber tube between the back parts of hard vaporizer
tube. Release the pressure of oil path system slowly, block the
joints with cotton cloth, lest there is ejection of high pressure
oil.
2. Remove the oil filling port at the back of the fuel tank and the
clip of the connection rubber tube of ventilation tube, there are
two clips altogether.
3. Remove the bolts fixing the fuel tank, there are 6 bolts
altogether;
4. Remove the oil-in and oil-out tube from the fuel tank, remove
the vaporizer tube joints and line bundle connector;
The disassembly and installation of the fuel pump
Removal of components of fuel supply system
Gasoline filter disassembly
1. Firstly, use the straight screwdriver to remove the hose clamp
and remove the connecting rubber hose on both sides of gasoline
filter;
2. Loose the bolt on the gasoline filter bracket, then
remove the gasoline filter for complete replacement.
Removal of carbon tank
The disassembly of the fuel filler pipe
Removal of fuel pipe
1. Remove the connection between the in/return fuel connector of
engine fuel track and the fuel supply pipe:
a. Remove the elastic hoop firstly;
b. Remove the package connector; press down the button of package
connector by hand, then pull it out outwardly.
c. Remove the three-line plastic clip.
2. Removal of front section of fuel hard pipe
b. Pull out the fuel pipe form the clip fixing base, then remove the
hard pipe;
c. Remove the fixing base on the longitudinal beam if necessary
rotate the fixing base for 90 degree in clockwise or anticlockwise,
the take out it.
3. Removal of rear section of fuel hard pipe
a. Remove the connecting elastic hoop of two ends of rear section
of fuel hard pipe;
b. Pull out the fuel pipe form the clip fixing base, then remove the
hard pipe ;
Removal and adjustment of throttle control system
1. Removal of accelerator pedal
Remove the two fixed bolts which fix the pedal ;
2. Removal of throttle pull-wire
a. Firstly, disconnect the connection on motor, then loose the fixed
bolt ;
b. Remove the plastic clip of throttle pull-wire on pedal, remove the
end of throttle pull-wire;
c. Use the pliers to clamp the clip on the side of engine compartment
to remove the fixing base of pull-wire on the fa ade of engine
compartment.
Exhaust system
end washer assembly
exhaust pipe outlet nut
100
wahser assembly
front section of exhaust pipe
hexagon flange nut
rear section assembly
cleaner cushion
of exhaust pipe
assembly 1
catalytic converter
63
5
fastening bolt of hoop
cleaner heat insulation cover clip
cleaner discharge pipe
three-hole rubber block
cleaner cushion assembly 2
muffler port decoration cover
hexagon flange nut
hexagon flange nut
muffler damping
ruber block assembly
9
muffler assembly
N.m
Specific torque
Used component which can not be used any more.
23
Warning : All components of the exhaust air system should be
disassembled 30 minutes after shut down to avoid the human
injury caused by hot parts.
Removal of exhaust pipe assembly
Removal of exhaust tail tube
1. Firstly, use the M15 box spanner, ratchet wrench and extension
bar to remove the connecting nut of the rear flange of muffler
assembly and rear section flange of exhaust pipe, take out
the seal bush between the flanges.
2. Remove the three-hole rubber block on the back of the rear
section of exhaust pipe.
3. Remove the three-hole rubber block on the front of the rear
section of exhaust pipe.
Caution: The bush between the rear flange of muffler and
rear section flange mainly has the function of sealing; it
may cause the great pressure and distortion after one
installation, the sealing effect is worse, and the bush cannot
be used repeatedly.
Removal of the muffler
1. If necessary, dismantle the back section of exhaust pipe
according to the method of dismantling the exhaust pipe, if
not necessary, only remove the coupling nut between the
muffler and back flange of the exhaust pipe;
2. Use the M15 sleeve, ratchet wrench or open-end (box) spanner to remove the coupling nut between the front flange of
muffler assembly and the rear flange of the cleaner; when
implementing this operation, there must be somebody to pull
the muffler to prevent it from falling only to cause damage;
brick of the muffler;
3. Use the M13 sleeve, ratchet wrench to loosen the four nuts
fixing the shock absorption rubber
4. Then the muffler assembly can be removed.
Caution: The cleaner cushion assembly 2 between the
cleaner and the front section of the exhaust pipe mainly plays
a role of sealing; there may be great pressure and distortion
after one installation and the sealing effect is worse, this
bush cannot be used repeatedly.
Removal of cleaner
1. If necessary, remove the rear section of the exhaust pipe and
the muffler according to the dismantling methods of the
exhaust pipe and muffler; if not necessary, just loosen the two
nuts fixing the shock absorption rubber brick of the muffler;
2. Remove the coupling nut between the front flange and the rear
flange of the front section of exhaust pipe;
3. If the muffler has been removed, the cleaner can be taken out
directly; if the muffler is not removed, push the cleaner
backwards tenderly, keep certain space between the cleaner
and the muffler to make the welding bolt of the cleaner to
quit;
4. At this time, the cleaner can be removed.
Caution: The cleaner cushion assembly 1 between the cleaner
and the front section of the exhaust pipe mainly plays a role of
sealing there may be great pressure and distortion after one
installation, and the sealing effect is worse, this bush cannot
be used repeatedly.
Disassembly of front section of exhaust pipe
1. Remove the cleaner according to method of removal of cleaner;
2. Use the M18 box spanner, heavy-duty extension bar, ratchet
wrench to loose and remove the nut of exhaust pipe outlet,
then takes off the front section of exhaust pipe;
Caution: The two flat flanges use the interface cushion to
ensure the sealing, which is stainless steel punching unit,
and can be used for only once.
Installation of exhaust pipe assembly
Clutch-1
Chapter 3
Clutch
Troubleshooting........................................................................2
Inspection and adjustment of clutch pedal..................................3
Bleed air of clutch.....................................................................3
Disassembly of clutch master cylinder and clutch cylinder ..........5
Cautions for installation of clutch operation device.....................5
Disassembly of clutch assembly.................................................6
Inspection of clutch component.................................................7
Installation of clutch..................................................................9
Clutch-2
Troubleshooting
failure
Shift difficulty or can not shift
cause
inspection content
Large free stroke of clutch pedal clutch Pipe
Adjust the free stroke of pedal
has air
Discharge the air in clutch system
Failure of clutch cylinder
Replace
Failure of clutch master cylinder
replace
The installation position of clutch disc is not
Inspect the clutch disc; replace
in position; large deviation; oil on the friction
Repair if necessary
lining or broken
Replace
The clutch disc is dirty or with foreign
material
Failure of clutch cover
Disengagement of transmission
Slide of clutch
The clutch guide bearing is worn.
Replace the guide bearing
insufficient free stroke of clutch pedal
Adjust the free stroke of pedal
oil on the clutch disc friction lining or broken
Inspect the clutch disc and replace it
failure of press disc
Replace the clutch cover
separation rocker arm assembly is blocked
Check the separation rocker arm assembly
oil on the clutch disc friction lining or broken
clutch clamping
stagnation/vibration
Soft of clutch pedal
Loud noise of clutch
failure of press disc clutch membrane spring
Inspect the clutch disc and replace
Replace the clutch cover
is bend
Correct the clutch membrane
loose of engine bracket
Repair if necessary
clutch pipe has air
Discharge the air in clutch
failure of clutch cylinder
replace
failure of clutch master cylinder
replace
Component in clutch housing is loose
Repair if necessary
Throw-out bearing is worn or dirty
replace
guide bearing is worn
replace
separation rocker arm assembly or pull-rod is
Repair if necessary
blocked
Clutch-3
the adjustment
point of push rod
Inspection and adjustment of clutch pedal
stroke
1. Check the correctness of pedal height and stroke of push rod
The pedal height starting from the meter:
LHD 157.5mm
The push pole travel at the top of the pedal:
RHD 151.0mm
If not correct, adjust the pedal height and push rod stroke.
the adjustment
point of pedal height
pedal height
2. Adjust the pedal height and stroke of push bar if necessary
a. Screw off the locknut, rotate the locking bolt until to the correct
height.
Screw on the locknut.
b. Screw off the locknut, rotate the push rod until the stroke of push
rod is correct.
push rod stroke
Screw on the locknut.
3. Check the correctness of free stroke of pedal
Step on the pedal lightly until fell the clutch start to generate the
front wall
resistance.
Free stroke of pedal: 5
15mm
4. Adjust the free stroke of pedal if necessary
a. Screw off the locknut, rotate the push rod until the free stroke is
correct.
b. Tighten the lock nut
c. Check the height of the pedal after adjusts the free stroke of pedal.
d. On the condition that ensure the free stroke of clutch pedal assembly:
free stroke
The height difference between the brake pedal, clutch pedal and the
front apron is 0
8mm.
Air discharge of clutch
Remarks: It should discharge the air if there is residual air in the
clutch system.
Caution: Do not leave the clutch liquid on the painted surface,
otherwise it should be washed off immediately.
Fill the brake fluid in the clutch storage tank
Check the liquid tank frequently. Filling if necessary.
Clutch-4
Cluch control mechanism
clutch master cylinder
N
m: specified torque
Clutch-5
Removal of clutch master cylinder, clutch cylinder
1. Use the No. 16 open-end wrench to remove the hose connecting
bleed bolt, use the cloth to cover the oil outlet of auxiliary pump
to avoid the splash of 0brake fluid; step on the clutch pedal for
several times to drain the clutch.
2. Remove the split pin and cylinder pin connected the master
pump connecting fork to the pedal; use the No. 13 socket spanner
to remove two nuts Q32008 which is used to install the master
pump. Check the clutch master cylinder, replace the complete
master pump if the internal of master pump has the abnormal
noise and damage of leakage etc.
Cautions for installation of clutch operation device:
1. Installation of clutch hard pipe : Check the hard pipe for
deformation, check to see whether the curling at the port of
connection pipe is complete and without damage, if there is no
problem after confirmation, it can be installed and fixed in the
front wall clip and hard-tube clip.
2. Coat each rotary parts of peal with the lithium base grease.
3. Check the surface of clutch hoes, no surface cracking, oil leakage
and dog leg is allowed, use the split washer and spring clip to fix
the clutch hose on the support frame of car body.
4. Connect the joints of the general pump oil pipe and the general
pump and sub pump according to the required tightening torque.
5. The air in the clutch oil path needs to be exhausted after filling
oil (except the vacuum filling): step on the clutch pedal after
filling the oil tank, when feeling difficult in stepping, use the
open-end wrench with specification of 11 to loosen the air bleed
plug screw to exhaust the air, then tighten the plug screw,
repeat the operation for several times. Tighten the air bleed
plug screw of the sub pump when there is no foam in the
flowing oil liquid. Supplement the oil of the oil tank to the
level between the Max and the Min.
Clutch-6
Clutch
release bearing
assembly
profile spring
separation rocker arm assembly
separation rocker arm ball support
leather cup
bolt, spring and
washer assembly
clutch cover assembly
clutch disc assembly
N
m: specified torque
Removal of clutch assembly
1.Remove the transmission
Remarks: Do not dry the transmission oil.
2.Remove the clutch cover and clutch disc
a. Make the alignment mark on the clutch cover and flywheel
b. Remove the fixed bolt gradually, until release the tension of spring
c. Remove the fixed bolt, pull out the clutch cover and clutch disc.
3. Remove the bearing and separation fork form the transmission
a. Remove the clip and pull out the bearing .
b. Remove the separation rocker arm assembly and leather cup.
4. Disassembly procedure:
a. Clutch cover assembly, clutch disc assembly
b. Profile spring, throwout bearing assembly
c. Dustproof cover, separation rocker arm assembly
d. Separation rocker arm ball support
Warning: When maintaining the clutch assembly, it is now
allowed to use the sand mill or dry brush and compressed air for
cleaning, lest there is powder (use wet cloth). The clutch disc
has the “asbestos fiber”, if there is powder scrap during
maintaining, the asbestos fiber in the powder scrap will floats in
the air, when human inhales the air containing the asbestos
fiber, it will cause great damage to human health.
Clutch-7
Checking the clutch components
1. Whether there is breakage of the clutch disc
The maximum of the rivet head: 0.3mm
If there is problem, the clutch disc needs to be replaced.
2. Check the radial run-out tolerance of the clutch disc
Use dial gauge to check the radial run-out tolerance of the clutch disc.
The maximum radial run-out tolerance: 0.8mm
If the radial run-out tolerance exceeds the maximum value, the clutch
disc needs to be replaced.
3. Measure the radial run-out tolerance of the flywheel
Use the dial gauge to measure the radial run-out tolerance of the
flywheel.
Maximum radial run-out tolerance: 0.2mm
If the radial run-out tolerance exceeds the maximum value, the flywheel
needs to be replaced.
4.Check the guide bearing
Rotate the bearing with hand along the direction of the axis.
If the bearing cannot be rotated or there is great resistance, the guide
bearing needs to be replaced.
The bearing is lubricated eternally, so there is no need for
cleaning and lubrication.
5. If necessary, replace the guide bearing.
special tools
Use the special tools to remove the guide bearing.
Clutch-8
b. Use special tools to install the guide bearing
special tools
Remarks: Install the guide bearing into the flywheel, make
sure that the bearing can rotate well.
6. Check to see whether there is wearing of the diaphragm spring
Use caliper to check the wearing depth and width of the diaphragm
spring
Limit value: maximum depth 0.6mm
Maximum width 5.0mm
7. Check the throwout bearing
Rotate the bearing with hand along the axis direction.
If the bearing can not rotate or the resistance is too large, it is necessary
to replace the throwout bearing.
Remarks: The bearing is permanent lubricated, so cleaning
and lubricating is unnecessary.
Clutch-9
Installation of clutch
1.Install the clutch disc on the flywheel
Use the special tools to install the clutch disc on the flywheel.
2.Installtion of clutch cover
a. Align the matching mark of clutch shell with that of flywheel .
matching mark
b. Tighten the bolt evenly. Exert force along the edge of the clutch
cover repeatedly until binding tightly. Tighten the bolt.
Tightening force: 19N m
Remarks: First tighten the upper most bolt of the 3 bolts
near the location pin.
3. Check the end surface runout of diaphragm spring clutch finger.
Use the special tools to check the alignment of diaphragm spring.
Maximum displacement: 0.5mm
If the displacement is greater than the specified value, use the special
tools to adjust the face runout amount of the diaphragm spring clutch
finger.
special tools
4. Coat the following components with the molybdenum disulfide
lithium base grease (NLGI NO.2) or multi-purpose grease :
contacting point of separation rocker arm assembly and bearing
bush
contacting point of separation rocker arm assembly and subcylinder
push bar
separation rocker arm assembly supporting point
gear box 1st axle spline
5. Install the leather cup, separation rocker arm assembly, clutch
cover assembly and throwout bearing in the transmission.
6. Install the transmission
Chapter 4
Specification of transmission.......................................................................2
Repair of transmission (SC5M2D C).....................................................4
Disassembly of transmission (SC5M2D C)............................................6
Disassembly of transmission housing assembly/bearing housing assembly....18
Operating instruction of transmission (SC5M4D C).............................24
Repair of transmission (SC5M4D C)...................................................25
Disassembly of rear housing assembly ......................................................28
Disassembly of transfer case assembly......................................................30
Rear output shaft assembly .......................................................................35
Specification of transmission
Structure diagram of SC5M2D-C and SC5M4D-C transmission: shown in figure
Structure diagram of SC5M2D-C transmission
Structure diagram of SC5M4D-C transmission
1.
2.
Speed ratio of transmissio
Gear
Ⅰ
Ⅱ
Ⅲ
Ⅳ
Ⅴ
R
Speed ratio
3.967
2.136
1.360
1.000
0.856
3.578
Speed ratio of transfer case SC5M4D-C
Gear synchronizer
Speed ratio
3.
H
L
1.000
1.925
Central distance of main shaft
transmission
transfer case
72 mm
222.25 mm
4. Instruction for repair specification of transmission
Inspection item
Repair specification
End clearance of gear of Axle 1 (mm)
0~0.06 Adjusted by axial retainer.
Clearance between bearing block and bearing of Axle 1 (mm)
0~0.1
End clearance of gear hub of Gear 3/ 4 synchronizer (mm)
0~0.08 Adjusted by axial retainer.
Clearance of rear end cone bearing of intermediate shaft (mm)
0~0.05 Adjusted by adjusting shim.
End clearance of gear hub of high and low gear (mm)
0~0.08 Adjusted by axial retainer.
Adjusted by adjusting shim.
SC5M4D-C
Clearance between the rear output shaft rear bearing and back
cover (mm)
0~0.1
Adjusted by adjusting shim.
SC5M4D-C
Clearance of rear input shaft bearing (mm)
SC5M4D-C
0~0.06 Adjusted by adjusting shim.
oil filling screw plug (SC
1701005)
Inspection of SC5M2D-C transmission:
1.Check the oil level of transmission:
Screw off the oil discharge plug of the transmission; discharge all lubricate oil; screw on the oil discharge plug to the specified torque; the
torque is: 30
35N m. Fill the transmission with the transmission
oil through the oil filling port, oil number is hyperbolic gear oil SAE80W/
90, which meet API GL-4, oil capacity are 2.2L. Tighten the oil-filling
plug to the specified torque of 30
oil-drain screw-plug assembly (JK72
1701071)
35N m. (for area with high or
low temperature refer to the maintenance specification)
2. Replacement of oil seal of rear hosing:
The replacement of the oil seal of rear housing is shown in figure.
Disconnect the drive shaft from the rear housing; remove the oil seal
by the flat screwdriver, then use the special tools to knock the rear
housing oil seal in the rear housing. It should pay attention to the
installation of oil seal, shown as figure. Coat the lip of oil seal with the
rear housing oil seal
specified transmission oil.
3. Removal, installation and inspection of transmission
The preoperation before removal and after installation of transmission
is: Remove and install the manipulator cover assembly, drain and fill
the transmission oil accordance with the regulation; after remove and
install the drive shaft. Separate each plug-in part from the vehicle
transmission .
4 Inspection of manipulator cover assembly
bolt A(SC-1704004)
Shown as figure, remove the adhesive on the surface before installation,
use the screwdriver( M8
1.25) to clean the adhesive in the screw
hole; coat the installed part of bolt screw with the specified screw
adhesive. Firstly, install two positioning bolts A, then install other
two bolt A and bolt C respectively. The tightening torque of all bolts is
15
bolt C(SC-1704003)
22N
m.
SC5M2D-C transmission assembly
handle of gearlever
manipulator cover assembly
pin 6 22
spring cylindrical pin elastic cylindrical
rear housing assembly
reverse lamp switch bracket
dustproof seal cover
select & shift seating
bearing housing assembly
clutch housing assembly
oil seal 39.6
52
odometer driven gear assembly
bush
location compression
cylindrical pin
cylindrical compression spring
1.0
N
5.8
m: specified torque
Used component which can not be used any more.
Pregummed component
Use the special tools
41
odometer seating lock plate
10
Disassembly of transmission (SC5M2D-C)
1.Remove the hexagon bolt M8
18 and lock plate.
Caution: The tightening torque is 14-19N m when install the
hexagon bolt;
2.Remove the odometer driven gear assembly
Use the special tools to remove the odometer driven gear assembly
3.Remove the rear housing assembly
a. Remove 6 M10
1.25
30 hexagon bolts
Caution: The tightening torque is 14-19N
M10
1.25
m when installs 6
30 hexagon bolts.
b. Use the rubber hammer to knock the rear housing and take out the
rear housing assembly.
4. Remove 2 location pins and bushes.
Manipulator cover assembly
master control lever assembly
pin 7 40
rubber cover
bulb
bush
bulb base
nut M8
stop plate of main rod
bush
bulb jacket
reverse lock assembly
N
m: specified torque
Used component which can not be used any more.
gearbox assembly (one)
rubber choke plug
bleed plug assembly
selection and shifting
shaft
bush
elastic cylindrical pin 6
22
gearbox
selection and shifting block
steel ball 7.
aluminum gasket
938
location pin
oil guiding plate
bush
6
N
m: specified torque
Used component which can not be used any more.
Pregummed component
reverse lamp switch
in 6 22
reverse gear 5
shift fork
gear 3/4 declutch
shift shaft
declutch shift shaft
pin 5
22
gear 3/4 shifting
block
gear 1/2 shifting block
odometer drive gear
declutch shift shaft for ball bearing
circlip for shaft
steel ball
first and secondea
circlip for shaft
bush
circlip for shaft
gear 5 drive gear ball bearing
lower cover plate assembly
aluminum
N
washer
m: specified torque
Used component which can not be used any more.
Pregummed component
Use the special tools
earbox assembly (three)
reverse driven gear assembly
reverse gear 5 synchronizer assembly
reverse needle bearing bushing
gear 5 driven
synchronizer gear ring
support axial lock plate
gear assembly
needle bearing
gear 5 needle
grease baffle of air duct
bearing bushing
thrust washer
needle bearing steel ball 4.762
needle bearing
reverse shaft
gear 3/4
shift fork
reverse gear
gear 1/2 shift fork
pin 6
N
22
m: specified torque
Used component which can not be used any more.
Pregummed component
Use the special tools
split pin
spacing ring
adjusting shim reverse drive gear
thrust washer
5. Remove the reverse lamp switch M12×1.25
Caution: When install the reverse lamp switch M12×1.25, the
tightening torque is 26-36 N·m
6. Remove the gearbox
a.Use the wrench to remove the 5 M8×55 bolts, 1 M8×6 bolt and 2
M8×110 bolts
Caution: When install 5 M8×55 bolts, 1 M8×6 bolt and 2 M8×110
bolts. tightening torque is
b. Remove the gearbox assembly
7. Use the circlip pliers to remove the circlip for shaft
8. Remove the odometer drive gear
9. Use the magnetic rod to take out the steel ball
10. Use the circlip pliers to remove the circlip for shaft
11. Use the circlip pliers to remove the circlip for shaft
Caution: It is necessary to circlip for shaft when install the
circlip for shaft
12. Use the drawing die to remove the axle 2 ball bearing
13. Use the circlip pliers to remove the circlip for shaft
14. Use the opener to pry out the riveted place of lock nut of
intermedi ate shaft
15.Remove the self-locking screw plug, spring, steel ball
a. Use the special tools to remove 3 locking screw plugs M10×
1.25×19
Caution: The tightening torque is 14-19N·m when install the
locking screw plug M10×1.25×19.
b. Use the magnetic rod to remove 3 springs
c. Use the magnetic rod to remove 3 steel balls
16. Remove the lower cover plate assembly
a. Use the wrench to remove the 12
bolt M8×16
Caution: When install 12 bolts M8×16, the tightening torque
is 15-20N·m
b. Remove the lower cover plate assembly
17. Remove the declutch shift shaft assembly
a. Use the punch to remove the reverse gear 5 shift fork elastic
cylindrical pin
b. Use the punch to remove the Gear 1/2 shift fork elastic cylindrical
pin
c. Use the punch to remove the Gear 3/4 shift fork cylinder pin.
d. Remove the reverse gear 5 declutch shift shaft assembly
e. Remove the gear 3/4 declutch shift shaft assembly
f. Remove the reverse gear 5 shift fork
18. Remove the lock nut of intermediate shaft
Caution: When install the lock nut of intermediate shaft , the
tightening torque is 160-190N·m
19.Remove the Gear 1/2 declutch shift shaft assembly, intermediate
shaft rear ball bearing, 5th-Gear drive gear
20. Remove the Gear 1/2 shift fork
21.Use the special tools to remove the second shaft lock nut
Caution: When install the second shaft lock nut, the tightening
torque is : 250-270N·m
22.Remove the thrust plate
23.Use the magnetic rod to remove the steel ball.
24.Remove the 5th-Gear driven gear assembly
Caution: When install the 5th-Gear driven gear assembly, it should
use the plug gage to test the 5th-Gear driven gear assembly axial
clearance, ensure the axial clearance is within 0.170-0.284mm
25.Remove the 5th-Gear driven gear needle bearing
26. Remove the synchronizer gear ring
Caution: When install the synchronizer gear, it should use the
plug gage to test the synchronizer gear ring axial clearance, ensure the axial clearance is within 1.25-1.65mm
27. Use the pliers to remove the split pin on the reverse shaft lock
nut.
28. Use the special tools to remove the reverse lock nut
Caution: when install the reverse lock nut, the tightening torque
is within 20-60N·m
29. Remove the thrust plate
30. Remove the 5th/reverse -Gear synchronizer assembly
a. Use the special tools to remove the 5th/reverse -Gear synchronizer
assembly
b. Remove the sleeve and 5th/reverse -Gear synchronizer assembly
31. Remove the reverse gear
32. Remove 2 needle bearings of reverse gear
33. Remove the reverse driven gear
34. Remove the needle bearing of reverse driven gear
35. Remove the reverse drive gear
36. Remove the intermediate shaft spacing ring
37. Remove 8 countersunk screws
Caution: when install the countersunk screw, the tightening torque
is within 15-22N·m
38. Remove the support axial lock plate
39. Remove the air duct grease baffle
Clutch housing assembly / Bearing housing assembly
throwout bearing
assembly
washer 8
¦ non-standard spring
first bearing
bush
first shaft assembly
second shaft assembly
oil seal
needle bearing
¦circles for shaft
leather cup
clutch cylinder assembly aluminum waher
¦adjusting shim
separation rocker arm ball support
separation rocker arm assembly
front space ring of intermediate shaft
Specified torque
Used component which can not be used any more.
intermediate shaft assembly
Disassembly of clutch housing assembly /bearing
housing assembly
40. Use the special tools to remove the reverse shaft
Use the magnetic rod to take out 2 interlocking pins
Remove the first bearing block assembly
a. Use the special tools to install 6 M8 bolts.
Caution: When install 6 M8 bolts, the tightening torque is 1013N·m
b. Remove the first bearing blocks assembly ; take out the adjusting
shim
Caution: It should select the adjusting shim when install the
adjusting shim
Mark
43. Remove the bearing snap ring
44 Remove the intermediate shaft assembly
45. Remove the first shaft assembly
46. Remove the needle bearing
47. Remove the 3rd/4th-Gear shift fork
Remove the second shaft assembly
a. Use the rubber hammer to knock the second shaft
b. Remove the needle bearing bushing of reverse driven gear
c. Remove the double inner-race ball bearing assembly
d. Remove the second shaft assembly
Secondary shaft assembly
¦circlips for shaft
synchronizer gear ring
needle bearing
3rd-Gear driven gear assembly
second shaft
3rd/4th-Gear synchronizer assembly
1st-Gear driven gear assembly
2nd-Gear driven gear assembly
needle bearing
sleeve
2nd-Gear synchronizer gear ring
1st-Gear synchronizer gear ring double inner-race
N m: specified torque
1st/2nd-Gear synchronizer assembly
Used component which can not be used any more.
49. Disassembly of second shaft assembly
a. Remove the second shaft rear retainer
Caution: It should select the circlip for shaft when install the
circlip for shaft.
b. Remove the 3rd/4th-Gear synchronizer assembly
c. Remove the 3rd/4th-Gear synchronizer gear ring
Caution: When install the 3rd/4th-Gear synchronizer gear ring, it
should use the plug gage to measure the end surface clearance of
gear ring to ensure it is within 1.25-1.65mm
d. Remove the 3rd-Gear driven gear assembly
Caution: When install the 3rd-Gear driven gear assembly, it should
use the plug gage to measure the 3rd-Gear driven gear assembly
axial clearance to ensure it is within 0.17-0.284mm
e. Remove the 3rd-Gear driven gear needle bearing
f. Use the special tools to press the second shaft to remove the inner
race of double inner-race ball bearing.
Remove the 1st-Gear driven gear
Caution: When install the 1st-Gear driven gear, it should use the
plug gage to measure the 1st-Gear driven gear axial clearance to
ensure it is within 0.17-0.284mm.
h. Remove the 1st-Gear driven gear needle bearing
Transmission-23
i. Remove the sleeve
j. Remove the 1st-Gear synchronizer gear ring
k. Remove the 1st/2nd-Gear synchronizer assembly
l. Remove the 2nd-Gear synchronizer gear ring , 2nd-Gear driven gear
and second shaft
Caution: When install the 2nd-Gear driven gear, it should use the
plug gage to measure the 2nd-Gear driven gear axial clearance to
ensure it is within 0.17-0.284mm
Operating instruction of transmission SC5M4D-C
hand hall of main steering column
1.The schematic diagram of transmission operating gear position
is on the handle of steering column.
During the process after vehicle is started and in traveling, it must
step the clutch pedal to bottom before the shifting. If need shift from
5th-Gear to reverse-Gear, it should move the shifting bar to the neutral
position of 3rd/4th-Gear. Shift to R-Gear after stop the vehicle stably,
otherwise, it can not shift.
hand ball of auxiliary steering column
During the traveling process. It should always pay attention to the
shifting to make the vehicle matches to the speed of engine. The
correct shifting can improve the economical efficiency and prolong
the service life of engine. Do not shift from high-Gear to low-Gear on
the condition that the pointer of tachometer may enter into red area,
otherwise, the engine will be damaged.
Warning: Do not shift to reverse-Gear when the vehicle moves
forwardly, otherwise the transmission will be damaged.
2. Operation of 4WD
The operating auxiliary steering column can be shifted to 4WD status.
For position of auxiliary steering column and corresponding operating
condition refer to table.
Auxiliary steering
column position
drive
2H
2WD
4H
High speed 4WD
N
Neutral gear
4L
Low speed 4WD
Operating condition
Use this gear position when run in the general railway and high speed highway.
Use this gear position when run in the deep snowland, sand ground or uneven road
in normal speed.
When use the gear position during using of winch, it could not drive the vehicle.
Use this gear-position when run in uneven road such as mud land or climbing or
downward (especially when need increase the power).
3. Caution for operation:
a. Do not use 4WD in good surface, otherwise the tyre and components
of drive system will be damaged easily and increase the consumption
of fuel, and cause the noise of drive system.
b. Please run in 1st-Gear under “4L” gear position when run in very
low speed in field.
Transmission-25
oil filling screw plug
oil filling screw plug
Repair of transmission SC5M4D-C
1. Inspection of oil level of transmission and transfer case:
Screw off the oil drainage screw plug of main box and transfer case;
drain all lubrication oil, tighten the oil drain plug to specified torque.
The torque is: 30 35N m. Fill the main box and transfer case with
the transmission oil through the oil filling port. The number is hyperbolic
gear oil SAE80W/90, comply with API GL-4. The oil quantities are
transmission
transfer case
oil-drain screw-plug assembly
(JK72 1701070)
main box : 2.2 L, transfer case : 2.7 L. (for high and low temperature
environment refer to maintenance specification). Tighten the oil filling
screw plug to specified torque. The torque is: 30 35N m.
rear output shaft oil seal
(SC
1802323)
2.Replacement of oil-seal of transfer case
The replacement of transfer case oil seal is shown as figure. Disconnect
the drive shaft from the transfer case, use the flat head screwer to
remove the oil seal
Caution: Do not damage the housing hole during the disassembly.
Then use the special tools to knock the transfer case oil seal into
front output shaft oil
the transfer case. It should pay attention to the installation dire
seal (SC
tion of oil seal. The oil seal is flush with the port of transfer case.
1802504)
Shown as figure. Coat the lip of oil seal with the specified general
synthetic gear oil.
3. Disassembly and check of transmission
The preoperation before the removal and after installation of
transmission is : When remove and install the manipulator cover
assembly, drain and fill with the specified transmission and transfer
case lubrication oil. When remove and install the front and rear drive
shaft, separate each plug-in part of transmission from the vehicle.
Inspection of manipulator cover assembly:
bolt
bolt
bolt
The bolt dimension is different for different installation position. Do not
confuse it during the installation. It should install the fixing bolt A firstly.
The tightening torque of bolt A and B bolt is 15
installation position of fastening blot
22N m.
Transmission SC5M4D
C assembly
manipulator cover assembly
elastic cylindrical
pin
test switch bracket
washer
reverse lamp
switch bracket select & shift seating
wire clip
cylindrical compression spring
wire clip
steel ball 6.35
cylindrical
transmission
compression spring
separated case
spring cylindrical pin
bush
stud M10
washer
location spring
cylindrical pin
cylindrical compression spring
N
m: specified torque
Used component which can not be used any more.
1.25
Transmission-27
Manipulator cover assembly
handle of transfer case
auxiliary steering
column assembly
handle of
gearlever
pin
washer
ball head base
bush
master control lever assembly
auxiliary steering
column stop plate
rubber cover
ball head base
ball head
bush
manipulator
cover assembly
rubber cover
washer
pin
reverse lock
assembly
stop plate of
ball head
main bar
ball head
nut
N
hood
m: specified torque
Used component which can not be used any more.
Rear housing assembly
26-36
30-42
24-33
mushroom lock spring
steel ball 7.938 (3)
26-36
aluminum gasket
rear housing
aluminum gasket
adjusting shim
mushroom lock spring
dustproof seal
guide bushing
24-33
oil seal
14-19
odometer driven gear
assembly
odometer seating lock plate
N
m: specified torque
Used component which can not be used any more.
Pregummed component
Use the special tools
14-19
Disassembly of rear housing assembly
1.Remove the M8
18 hexagon bolt and the lock plate
Caution: When install the M8
torque is 14-19N
18 hexagon bolt, the tightening
m
2.Remove the odometer driven gear assembly
Use the special tools to remove the odometer driven gear assembly
3.Remove the rear cover assembly
Caution: When install 6 M10 1.25 30 hexagon bolts, the tightening
torque is 14-19N
m
b.Use the plastic hammer to knock the rear cover slightly and take out
the rear cover
c.Take out the adjusting shim
Caution: It should select the adjusting shim as follows when
install it.
mark
Transmission-29
Transfer case assembly (one)
aluminum gasket 18
30-35
30-35
high speed gear chain
waved spring
aluminum
gasket 18
front output shaft assembly
26-36
rear output
shaft assembly
transfer case cover
transfer case
housing assembly
N
m: specified torque
Used component which can not be used any more.
Pregummed component
Transfer case assembly
2 n d / 4 th d r i v e
pin 5
26
2nd/4th drive
declutch shift shaft
interlocking
cylinder pin
shifting block
cylindrical compression spring
split retainer
spring base
spacing ring
2 nd/ 4 th d r i v e
shift fork
high/low gear
high/low gear shift fork assembly
declutch shift shaft
transfer case housing assembly
needle bearing
O-RING
high/low gear
duplicate gear
14-19
bush
side cover plate
15-20
N
rear intermediate shaft
thrust washer
needle bearing
spacing ring
m: specified torque
Used component which can not be used any more.
thrust washer
lock plate
Transfer case assembly (three)
circlips for hole
disk spring
duplicate ball bearing
oil seal
circlips for
back plate
auxiliary gear
spacing ring
shaft
bowel patch
rear input shaft
circlips for shaft
ball bearing
front output shaft
ball bearing
transfer case housing
dustproof seal
guide bushing
N
oil seal
m: specified torque
Used component which can not be used any more.
Disassembly of transfer case assembly
4.Remove the shouldered lock screw plug
Use the wrench to remove the shouldered lock screw plug M16
1.5
12
Caution: The tightening torque is 26-36N
shouldered lock screw plug M16
1.5
m when install the
12.
5.Remove the upper and lower drive switch M12
1.25
Caution: When install the upper and lower drive switch M12
1.
25, the tightening torque is within 26-36N m
6.Remove the 2nd/4th drive switch M14
1.25
Caution: When install the 2nd/4th drive switch M14
tightening torque is with in 26-36N m
1.25, the
Transmission-31
7.Remove the shouldered lock screw plug M14
1.5
10
Caution: When install the shouldered lock screw plug M14
1.5
10, the tightening torque is within 26-36N m
8.Remove the shouldered lock screw plug
a. Use the wrench to remove the shouldered lock screw plug M12
1.25
10
Caution: When install the shouldered lock screw plug M14
1.5
10, the tightening torque is within 26-36N m
b.Takeout mushroom lock spring
c. Use the magnetic rod to take out the steel ball.
9.Remove the transfer case cover
a. Use the wrench to remove 12 connecting bolts M10
1.25
65
between the transfer case cover and tranafer case housing.
Caution: The tightening torque is 26-36N
bolt M10 1.25 65.
m when install the
b. Remove the select & shift seating elastic cylindrical pin
c. Remove the high/low drive declutch shift shaft elastic cylindrical pin
d. Remove the 2nd/4th declutch shift shaft elastic cylindrical pin
e. Use the circlip pliers to remove the bearing snap ring
f. Use the rubber hammer to knock out the transfer case cover assembly
slightly and remove the transfer case cover assembly.
Transmission-33
10. Remove the high and low gear drive declutch shift shaft
11.Remove the second and fourth drive declutch shift shaft
12. Use the plastic hammer to knock out the rear output shaft
assembly, front output shaft assembly and chain out slightly
13. Remove the second/fourth shift block and high and low gear
shift fork
14. Remove the housing of transfer case
a. Use the wrench to remove 4 bolts M10
1.25
35 and 2 nuts
M10 1.25 connected the gearbox and tranafer case housing
Caution: The tightening torque is 30
42 N•m when install
the connecting bolt of gearbox and housing of transfer case
b. Remove the housing of transfer case
15.Remove a location pin
For the disassembly of gearbox refer to “Disassembly of gearbox in
SC5M2D
C”
Transmission-35
Rear output shaft assembly
low-speed driven gear
rear output shaft
high and low gear hub
needle bearing
sprocket needle bearing bushing
oil guide plate assembly
drive sprocket
87-120
circlips for shaft
needle bearing
high and low
gear sleeve
N
second/fourth
needle
drive geared sleeve
bearing
second/ fourth drive gear hub
Used component which can not be used any more.
spacing plate
Use the special tools
m: specified torque
ball bearing
spacer of
drive sprocket ball bearing
assembly
Disassembly of rear output shaft assembly
a. Use the special tools to remove the lock nut
Caution: The tightening torque is 87-120N m when install the lock nut.
b. Remove the ball bearing
c
Remove the oil guide plate
d
Remove the spacing ring
e. Use the magnetic rod to remove the steel ball.
f. Remove the drive sprocket and needle bearing
Caution: When install the drive sprocket, it should use the plug
gage to measure the drive sprocket axial clearance and ensure
within 0.19-0.338mm
g Remove the drive geared sleeve
h. Use the magnetic rod to remove the steel ball.
i. Dismantle the drive gear sleeve.
Transmission-37
j
Remove the gear hub
k
Remove the spacing plate
l. Use the circlip pliers to remove the circlip.
Caution: It should select the circlip for shaft according the angle
when install it.
Mark
Thickness (mm)
White
Blue
Green
m.Remove the high and low geared sleeve and gear hub
n. Remove the low-speed driven gear, needle bearing and rear output
shaft
Caution: When install the low-speed driven gear, it should use the
plug gage to measure the axial clearance of low-speed driven gear
axial clearance to ensure the axial clearance is 0.17-0.284 mm
Automatic transmission-1
Chapter 5
Automatic transmission (M88)
Instruction for automatic transmission .........................................2
Operation and display interface ..................................................5
Control system...........................................................................7
Power transmission system..........................................................22
Power transmission ...................................................................26
Diagnosis and test.......................................................................45
Adjustment................................................................................53
Disassembly /Assembly...............................................................55
Specification and special tools ...................................................90
Annex.........................................................................................92
Automatic transmission-2
Instruction for automatic transmission
1. M88 4-speed automatic transmission is equipped with the hydraulic torque converter and electric control system with locking.
When keep the stable forward status, the hydraulic torque converter can be locked automatically when the engine operates in low
speed, then reduce the unnecessary slide.
2. The main advantage of the transmission is the application of transmission control unit (TCU). The control unit is the control
system based on the microprocessor system.. TCU control the shifting sensing and realize the Gear position shifting through the
signal of opening degree of throttle position, opening frequency of throttle position, engine speed, vehicle speed, transmission oil
temperature, gear position, mode selection and forced Gear reduction application.
3. TCU drives a variable pressure regulating solenoid valve to control three regulation valves and control the feeling of shifting.
Different transmission fluid temperatures are taken as one the main parameters to control the output pressure of the solenoid
valve, so as to keep consistent feeling of shifting within the normal operation scope.
4. The planning of shifting is very flexible. According to the car model, the different shifting plan is stored in the same TCU.
Generally speaking, the “economical mode” can increase the economical efficiency of the fuel and the driving performance of the
car to the maximum limit. The “dynamic mode” can bring into full play the drive performance of the car to the maximum limit. The
“winter mode” can make the car starting from shift 2.
Figure 1.1 Electric automatic transmission control system
Figure 1.2 M88 4 speeds automatic transmission appearance figure (applied to 2 wheels driving)
Automatic transmission-3
8. Use two bolts to install the back device on the extended case of the transmission, these lengths are important. If it is too long,
it will hinder the end of the bolt and affect the threads on the case. Ensure the proper length and special torque of the bolt.
9. Pay attention that the height of the oil has been determined before delivery from the ION Company. The oil height needs not
checking or correction, except that improper oil is suspected to be used, or additional oil is needed because of leakage.
Automatic transmission-4
10. The gross weight of the transmission is 76kg; mostly weight is on the front of the transmission (side of torque converter). This
should be considered when design the handling/assembly tools.
11. The crankshaft speed/position sensor is installed on the top of transmission torque converter housing which must be installed
after the transmission is installed on the engine. The sensor will be damaged if it is installed before the installation of
transmission.
12. The transmission use the breathing tube connected to rear end of transmission. The tube must not be restricted or blocked
otherwise the air pressure in transmission will be increased. It is unallowable that the water/dirty/dust enters into the
breathing tube; otherwise the transmission will be damaged.
Removal of transmission
If the transmission needs removing for any reasons, following is the preventive measure to help the remove.
1. Must not only support the oil pan in middle of transmission for it will be deformed and leaked. The oil pan will not be deformed
when supports its external edge.
2. It must not allow the transmission to connect to the engine when the rear end is without connection, otherwise the exhaust
system of vehicle will be damaged.
3. Remove all torque converter bolts and push back the torque converter before remove the bolt connected the torque converter
housing to engine. Once all bolts connected the torque converter housing to engine are removed, use the torque converter the
push the transmission from the location pin, then ensure the torque converter is on the transmission and the transmission is
separated form location pin.
4. Install the dustproof cover on the cooler connector rapidly after open the oil cooler pipe; otherwise the oil leakage from the
torque converter will be 2L. The odometer dustproof cover can prevent the dirty from entering into the transmission and avoids
the leakage of oil form transmission.
5. The engine speed sensor is installed on the top of transmission and should be removed before the transmission is removed form
the engine, for the sensor will be damaged during the removal process of the transmission.
Operation and display interface
The four-speed automatic transmission has three types of operation display interface which are shown as follows:
Gear selection
The transmission uses the traditional gear selection shifting handle, which is shown in figure. The gear rod can be moved on the gear
slide way according to the requirement. The relationship between the related gear and its function.
Figure 2.1 Gear selection interface
mode selection
gear slide way
gear selection
indication
Automatic transmission-5
Table 2.1 Gear selection and its function
Gear selection
1st-Gear
(manual 1st-Gear )
function
The first gear is using for climbing and braking. It is a function which limits the speed of
the car. The speed limitation by engine is realized by reduce the opening degree of
throttle position.
In economic mode, it can process the 1st and 2nd shifting operation when engage the 2nd
2nd-Gear (automatic, manual
nd
2 -Gear)
–Gear. The limitation of vehicle speed by engine is realized through reducing the
opening of throttle position. in 4WD 4 high, , the transmission will maintain 2nd-Gear
position The manual mode and winter-Mode will only maintain 2nd-Gear 。
In economic mode and dynamic mode, it can process the shifting operation of 1st, 2nd
and 3rd-Gear when engage the 3rd-Gear, and can reaches the very high vehicle speed. At
3rd-Gear
(automatic, manual 3rd-Gea)
this time the locking clutch can process the locking action, refer to vehicle user manual.
The limitation of vehicle speed by engine is realized by reduce the opening of throttle
position. In 4WD 4 low, the transmission should be maintained in 3rd –Gear position.
Under manual mode, the transmission will be kept in 3rd-Gear.
It can process the 1st, 2nd, 3rd and 4th –Gear position operation and gear-shifting operation
of (1-2), (1-3), (2-3), (2-4), (3-4), (4-3), (4-2), (3-1) and (2-1). This shifting operation is
D-gear
processed by taking the vehicle speed, throttle position, throttle position switching
(drive)
frequency (or forced Gear-decreasing) as the parameter. The locking clutch can process
the locking action in 3rd –Gear, 4th-Gear according to the type of vehicle. Refer to user
manual of vehicle.
N-Gear
(neutral gear)
R-Gear
(reverse gear)
P-gear
(parking gear)
Only the rear brake belt is engaged at this time. It determines whether the function can
be realized according to the vehicle speed, engine speed and throttle position. But the
gear-position sensor allows the starting of engine. Allow the slide of N-Gear.
Set the anti-misoperation in forward function according to the vehicle speed, engine
speed and throttle position opening to realize the reverse operation. The gear-position
sensor can start the reverse lamp.
Only the rear brake belt is engaged at this time. The function can be determined
according to the vehicle speed, engine speed and throttle position. The output shaft of
transmission is locked. The gear-position sensor can start the engine.
Automatic transmission-6
Operation
instruction
automatic
automatic
automatic
Having anti-slide function
It is allowable that the D-Gear
in “W” mode is used in
snowland and M-A integration
mode.
Function
5
Brake function
Can decrease the gear-position in slope to improve the brake effect and increase the vehicle safety.
6
Speed-up function
It can select the manual shifting to increase the vehicle speed completely during the speed-up.
cautions
7
It must place the transmission in the P-Gear or N-Gear when start the engine.
8
It must place the transmission in P-Gear during the parking.
9
It must place the transmission in N-Gear when trail the car.
10
It must be powered off when remove the transmission.
11
It must be powered off when install the transmission.
The transmission processes the communication and calculation with the engine electronic control computer by the precision
central on-line computer. It not only save the fuel, but also provide the maximum mode function, including field, winter and
manual selection. It provides the two conditions, manual and electric for the fast race of racing player. It has racing capacity which
can compete the speed increasing with the manual transmission.
Selection of drive mode
The selection of drive mode includes a mode selection switch and indicator lamp. The drive mode selection switch is located
on the operating panel. It can provide the different mode selection according to the different type of car.
It has the optimal fuel economy when select the “normal” mode. At this time, the indicator lamp is not light. When select the
“dynamic” mode, the car will have the maximum dynamic performance and the “dynamic” mode indicator lamp is light. When select
the “snowland” mode, it will realize the starting of “2nd-Gear”, the “snowland” mode indicator lamp is light, meanwhile the
“dynamic” mode indicator lamp will be closed. When select the manual mode, press down the “snowland” switch firstly, the
“manual” light will be light when the gear is in 3, 2, 1. When in manual mode, 1-2, 2-3, 3-4, 3-2, 2-1, 1-3, 3-1 is shifted by driver
manually and can not be shifted automatically. It can be used in car-racing etc. for the special mode of each model of car refers to
operation manual of user.
Automatic transmission-7
Indicator lamp
Figure 2.2
control system
General
The transmission has two sets of control system, a electric control system and a hydraulic control system. The electric control
system monitors the vehicle parameter and adjusts the transmission performance; the hydraulic control system executes the
command of electric control system.
Electric control system
The electric control system consists of the sensor, TCU and 7 solenoid valves. TCU read in the data and make the output under the
control of software based on the value stored in Read Only Memory (ROM).
TCU controls the hydraulic control system and the control is realized through the valve and pump assembly. The system includes
7 solenoid valves, in which 6 valves are used to control the line pressure, operate the shift valve and hydraulic torque converter lock
clutch and switch on and off two regulating valves (Two regulating valves control the shift feel). The seventh solenoid valve is the
pressure regulating solenoid valve (VPS) which controls the shift feel with other three regulating valves. Figure 3.1 is the typical TCU
control system plan.
The figure includes all elements of electric control system involved in the section.
Solenoid valve 1
Solenoid valve 2
throttle position
open sensor
Solenoid valve 3
K line
Engine speed
vehicle speed
Solenoid valve 4
shifting
logic
Solenoid valve 5
hydraulic
Transmission
fluid temperature
mode selection
(instrument panel
/console )
Gear sensor
Forced stepdecreasing
shifting
sensing
line
pressure
control
system
Solenoid valve 6
Solenoid valve 7
pressure regulating
solenoid valve
Mode indicator lamp
Gear indicator lamp
set and other
necessary equipment
indication
Automatic transmission-8
Automatic transmission-9
Table 3.1 Feature parameter of temperature /resistance
13,638
17,287
5,177
2,278
6,616
2,723
177
75
196
85
ohm
-20
Temperature Centigrade degree
Figure 3.2 Pin number of temperature /resistance
Pin No.
Wire color
Connected solenoid valve
1
Red
solenoid valve 1
2
Blue
solenoid valve 2
3
yellow
solenoid valve 3
4
orange
solenoid valve 4
5
green
solenoid valve 5
6
violet
solenoid valve 6
7
brown
solenoid valve 7
8
green
solenoid valve 5
9
white
temperature sensor
10
white
temperature sensor
Automatic transmission-10
solenoid valve 4 (orange )
ground wire (2)
temperature sensor
ground wire
solenoid
valve (green )
solenoid valve (red )
ground wire
solenoid valve (yellow )
ground wire
solenoid valve (blue )
ground wire
solenoid valve 7 power supply connector
ground wire
olenoid valve 6 (violet )
Figure 3.3 Schematic diagram of temperature sensor position and solenoid valve wiring
2.Throttle position sensor
Figure 3.4 gear sensor
Automatic transmission-11
Diagnosis input
solenoid valve
1and 2
solenoid valve
3and 4
S1 and S2 is the normal open solenoid valve, which is used to set the gear-position with other switch
solenoid valve. It determines the static gear-position by operating the gear shift valve. Refer to Table 3.5,
S1 and S2 also send the pressure single to allow or prohibit the engagement with rear brake belt.
S3 and S4 are the normal-opened solenoid valve which is used to control the shifting quality and sequence in
combination. S3 control the open or close of the clutch. S4 is used to control the on and off of the front brake
belt regulating valve.
S5 is the variable pressure solenoid valve which can release the pressure of gear-position shifting. It provides
solenoid valve 5
the pressure signal to the clutch and brake belt regulator and controls the shifting pressure. S5 also provides
the pressure single to the torque converter clutch regulating valve.
solenoid valve 6
solenoid valve 7
S6 is the normal-opened solenoid valve, which is used to the set the H/L level of pipeline pressure. The
pipeline pressure is high when the solenoid valve is closed.
S7 is the normal-opened solenoid valve which is used to control the engagement status of torque converter
licking clutch. It makes the clutch to generate the action when the S7 is in opened status.
Table 3.4 Status and function of solenoid valve
Gear-position
1st-Gear
2nd-Gear
3rd-Gear
4th-Gear
S1
S2
On
On
Off
On
Off
Off
On
Off
One of them is in On position
R-Gear
at least.
N-Gear
Off
Off
P-Gear
Off
Off
Table 3.5 Logic status of solenoid valve in static gear-position
Automatic transmission-12
Shifting
1-2
Initial shifting status
Current variation of S5
Finished shifting status
S1 Off
950mA-650mA
S4 Off
900mA-400mA
S3 Off
S4 On
S1 Off
1-3
S2 Off
S4 Off
S3 On
S4 On
S2 Off
1-4
S3 On
850mA-750mA
S4 Off
S4 On
S2 Off
2-3
S3 On
700mA-200mA
S1 On
S3 Off
S4 Off
S4 On
3-4
S3 Off
950mA-550mA
S4 Off
S4 On
4-3
S4 On
950mA-700mA
4-2
S3 On
800mA-500mA
S1 Off
S4 Off
S1 Off
S2 On
S3 Off
4-1
3-2
S3 On
1000mA-600mA
S4 On
S2 On
S4 On
S2 On
S3 Off
S4 Off
550mA-400mA @ 20kph
800mA-600mA@60kph
S4 Off
1000mA-800mA@100kph
S1 On
3-1
S3 On
S4 On
1000mA-750mA
S2 On
S3 Off
S4 Off
S1 On
2-1
S4 On
Torque converter clutch
On
Off
S7 On
1000mA-500mA
1000mA-500mA
900mA-600mA
Table 3.6 Operation of solenoid valve during shifting period
S4 Off
S7 Off
Automatic transmission-13
Symbol of solenoid valve (On/off solenoid valve)
Figure 3.5 Normal-opened type
1.Variable pressure regulating valve regulating system
The shifting pressure of abrasion unit is controlled by the variable pressure regulating valve.
The line pressure is independent of the shifting pressure and determined by the thro
position, shifting status and engine speed.
S5 is a proportional or variable pressure regulating valve which provides the pressure signal control shifting pressure for
the clutch and brake belt regulating valve.
In automatic shifting period, it process the integral times enlarging and contracting
regulation for the clutch regulating valve, brake belt regulating valve, torque converter regulating valve and VPS.
The hydraulic pressure generated by variable pressure regulating valve is in inverse ratio with current. During the shifting, TCU
will increase or decrease the current of solenoid valve according to the program. The current is variable in the range of 200mA
to 1000mA. The increasing of the current will decrease the S5 output pressure; the decreasing of current will increase the output
pressure of S5.
Lin 500 pressure (about 440 to 560kPa) is the reference pressure of VPS, meanwhile, the VPS output pressure equals to the
pressure on line 500 always.
When the VPS is in waiting status, it means there is not the generation of shifting action. VPS current is 200mA. At this time,
it gives the maximum output pressure.
In stable status, the brake belt and clutch regulating solenoid valve is in closed status. In this condition, the pressure of line 500
is applied on the piston. For the line 500 pressure is more than S5 pressure always, so it pushed the oil in S5 to the place
between the regulating valve and piston. At this time, oil pressure applied on the friction unit equals to the product of pressure
on line 500 and magnification factor.
During the starting of shifting, the used on/off solenoid valve is in opened status which cut off the oil loop supply from line 500
to piston.
At the same time, VPS pressure is decreased to starting pressure valve, pressure set by regulating valve and pressure setting
value required by execution of VPS by pushing the piston from the valve. The shifting is finished through the on/off solenoid
valve, VPS returns to the waiting status
Pointed to each gear-position, the system can make the brake belt; clutch or both realize
the electronic control.
Mode indicator lamp: the mode indicator lamp can be used to indicate the current selected and whether the overpeed status
exists. The mode indicator lamp is located in instrument panel generally. (Refer to Part 2.3)
Automatic transmission-14
Hydraulic control system
The hydraulic control system is located in the valve, pump and main box.
The valve includes the following types:
Manual-operated valve
sequence valve
Three shift valves
electromagnetic pressure control valve
line pressure control valve
clutch connection regulating valve
brake belt connection regulating valve
solenoid valve 1 to solenoid valve 6
reverse lock valve
The pump includes the following types:
primary regulating valve (control line pressure)
torque converter clutch regulating valve
torque converter clutch control valve
solenoid valve 7
The main box includes:
BIR blow-off valve
1. Valve
Figure 3.7 shows the valve unit in the view of transmission fluid tank. Figure 3.8 illustrates the pump cover.
2. Manual-operated valve
The manual-operated valve (refer to Figure 3.9) is connected to the car gear selection mechanism. It controls the transmission
fluid flow to the forward or reverse loop. Except in manual 1st-Gear position, the function of manual-operated valve is same
in all forward gear. In manual 1st-Gear, the transmission fluid will enter into the shift valve 1 2 to make the rear brake belt
and C4 overspeed gear clutch is engaged respectively.
Automatic transmission-15
Figure 3.6
Hydraulic control circulation flow
Automatic transmission-16
Figure 3.9 manual-operated valve 3.
3
1-2 shift valve
1-2 shift valve (refer to Figure 3.10) has two position status. It must be in the position (2, 3, 4) for the convenience of raising
gear in 1st-Gear. It is using for all 1-2 and 2-1 shift.
Through the power supply of S1 and (or ) S2, the 1-2 shift valve can acquire its On/Off status.
During 1-2 shift period, drive the transmission fluid from manual-operated valve to the 2nd-Gear loop. During the shifting form
2 to 1, the brake belt is engaged and drain the oil through the 1-2 Gear shift valve.
When in 1st-gear position, the 1-2 gear shift valve operates with the 3-4gear shift valve (described as follows) combinedly to
separate the clutch C4; if in 2nd-Gear position, engage the clutch C4. When select the manual Gear-1, the clutch C4 engages with
the rear brake belt (B2).
Automatic transmission-17
9. Clutch combination regulating valve
Clutch combination regulating valve (refer to Figure 3.15) is a constant ratio regulating valve which provide the regulating pressure
of clutch C1 to control the change ratio of shifting quality clutch status. The ratio is about 2.25:1.
When the S3 is opened, the oil of 3rd-Gear is provided to the valve and adjust the pressure (CAF) to 2.25 times of S5 signal
pressure. When S3 is in closed status, the output pressure is 2.25 times of pressure of line 500.
Figure 3.10 1-2 gear shift valve
Automatic transmission-18
Figure 3.11 2-3gear shift valve
Figure 3.12 3-4gear shift valve
Figure 3.13 4-3sequence valve
Figure 3.14 Electromagnetic pressure regulating valve and line pressure impelling valve
Automatic transmission-19
10.
Figure 3.15 clutch combination regulating valve
Brake belt combination regulating valve
a
P-Gear or N-Gear, vehicle speed
3km/h
10km/h
b R-Gear , speed
c Speed of engine :
1250rpm
d Diesel vehicle , Opening degree of throttle position:
25
e Gasoline vehicle, opening degree of throttle position:
12
In this condition, the TCU control solenoid valve S1 and S2 are closed. The reverse lock valve is affected by the pressure form
S1-S2 transmission fluid; connect the line pressure to loop B2. The transmission fluid flows to servo internal and external
attachment area, the B2 is engaged.
When none of above condition is met, TCU control the solenoid valve S1 and S2 to be opened. The pressure of S1-S2 is
released and the spring control valve body is in locking status at the same. In this condition, the B2 attachment is prohibited.
The feature can realize the protection for transmission by controlling the B2 in high speed and providing the reverse-gear
locking.
If the transmission is in failure mode, then the rear brake belt will be attached in P-Gear, R-Gear and N-Gear.
Figure 3.16 brake belt combination regulating valve
Automatic transmission-20
Figure 3.17 reverse lock valve
12.
Primary regulating valve
Primary regulating valve (PRV) (refer to Figure 3.18) can regulate the line pressure of transmission (or pump output
pressure). The valve can give the high or low line pressure according to the on/off status of S6. When S6 is in on or off status,
the pressure S6 is applied on PRV, move it and has the action of spring force. Open the line pressure loop to turn on the inlet
of pump to reduce the line pressure. Generally, the line pressure is small when the throttle position is opened lightly and in
patrol status. It will cause the closing of S6 when the opening degree of throttle position is large and because the high line
pressure valve
For all shifting pressures are controlled by output of separation brake belt , clutch regulating valve and S5, so all step control
of line pressure has not affect on effect of shifting sensing.
By the oil inlet of torque converter, PRV also adjust the oil supply of hydraulic torque converter. The level effect of PRV
should ensure the priority of valve, i.e. it can keep the line pressure in low engine speed condition. When the speed of engine
is increased and the pump supplies excess oil, the PRV acts to open the torque converter oil inlet cover to increase the pressure
of torque converter. If the oil amount is beyond the requirement of transmission, PRV will act further to allow the oil return
to the suction inlet.
Figure 3.18 Primary regulating valve
13. Torque converter on/off regulating valve
The torque converter regulating valve (refer to Figure 3.19) adjusts the pressure applied on torque converter clutch oil.
According to the signal pressure form loop S5, adjust the oil flow status from line pressure loop in valve. With the change of
pressure signal of loop S5, the engagement and disengagement of torque converter clutch can be finished by electric control.
Figure 3.19 Torque converter on/off regulating valve
Automatic transmission-21
Figure 3.20 torque converter clutch control valve
Figure 3.21 C1 eccentrically arranged valve
.
Figure 3.22 BIR blow-off valve
Automatic transmission-22
Power transmission system
The power transmission system includes:
Torque converter equipped with single lock clutch.
4 multi-plate clutch assemblies
2 brake belts
2 one-way clutches
Planetary gear assembly
parking mechanism
A traditional planetary gear assembly composed by six pinions is used in four-speed transmission. It realizes the 4 Gear power
transmission through the drive gear bracket.
So, the cross arrangement is the main arranging method. In the box, there are four subassemblies, shown as follows:
Gear bank central support
C1-C2-C3-clutch C4 subassembly
Pump assembly
Valve assembly
One piece or one set of optional shim is located between the input shaft flange and center of stator support shaft axle of and used
to control the end flotation of transmission. The structure arrangement allows the inspection for the subassembly during the
product manufacturing period.
For description of power transmission system refer to table 4.1 and Figure 4.1:
When the clutch C2 is engaged and 1-2 one-way clutch is engaged, the gear is in 2nd-Gear at this time. During the 1-2 shifting
process, B1 brake belt is combined and the 1-2 one-way clutch is separated (OWC). During the 2-3 shifting period, the clutch
C1 is engaged and the B1brake belt is released. During the 3-4 shifting period, B1brake belt is engaged and 3-4 one-way clutch
is released. For reverse gear, the clutch C3 and B2brake belt is engaged.
When the gear position is in manual 1st, 2nd and 3rd gear position, the engagement of the clutch C4 can provide the brake of
engine. Additionally, in the drive scope of 2nd and 3rd Gear, the engagement of clutch C4 can eliminate the unfavorable freewheel
inertia. In the scope of manual 1st-Gear, the low speed shifting is realized by the engagement of B2brake belt.
The front and rear servo has the figure surface design which requires the accurate friction and need not the secondary regulating
valve. When use the transmission fluid with new static factor, the design of the friction unit can meet the requirement that need
low shifting energy and high static holding force. The transmission uses the non-asbestos friction material.
Name of participated unit
Gear position
Gear ratio
1st-Gear
2.393
2 -Gear
1.450
3 -Gear
1.000
4 -Gear
0.677
R-Gear
2.093
Manual 1
2.393
nd
rd
th
C3
C4
B1
B2
* For operation of specified vehicle refer to user’operation manual.
LU: hydraulic torque converter lock clutch
Table 4.1 Participated unit and gear ratio in different gear position
LU
Automatic transmission-23
Figure 4.1 Power flow chart
Torque converter
The torque converter (refer to Figure 4.2) consists of the turbine, stator, impeller and a lock throttle brake and piston assembly.
Same as that of the traditional torque converter, the impeller is connected to the end cover of the torque converter. The turbine is
connected to the input shaft through the spline. The stator is installed on the pump housing through the one-way clutch .
Figure 4.2 Section of torque converter
The buffer and piston assembly can make the torque converter is locked in proper condition. The locking action only occurs
in the condition of specified throttle position opening and vehicle speed. When the hydraulic force makes the buffer and piston
assembly is coupled on the cover of torque converter, it can acquire the locking status. In this status, it can eliminate the
unnecessary sliding. It can increase the economical efficiency of fuel oil when the locking action is generated. When in locking
status, the torque buffer spring in the buffer and piston can absorb the torque fluctuation of engine.
Clutch assembly
It has four types of clutch assembly (refer to Figure 4.3). All clutch assemblies are composed of several layers of steel plate and
friction disk.
Clutch C1 When it is engaged, the drive shaft drive the planet carrier. The condition occurs in 3rd and 4th Gear.
Clutch C2 When it is engaged, the drive shaft drive the forward central gear through the 3-4 one-way clutch. The conditio
occurs in 1st, 2nd and 3rd-Gear condition.
Clutch C3 When it is engaged, the drive shaft drive the backward central gear. The condition occurs in R-Gear position.
Clutch C4 It can provide the brake of engine during overspeed when is engaged, The condition occurs in manual 1st, 2nd and 3rd
–Gear, also in automatic 2nd and 3rd-Gear to avoid the unfavorable inertia rotation of freewheel.
Automatic transmission-24
Figure 4.3 Clutch assembly
Brake belt
The transmission has two brake belts, brake belt B1 (named as 2-4 brake belt sometimes ) and brake belt B2 (named as low-speed
– reverse gear brake belt ) refer to Figure 4.4.
The brake belt B1 is a flexible brake belt which is engaged with front servo piston. When it is in 2nd and 4th –Gear, the brake belt
B1 starts to act. When the brake belt acts, it can prevent the rotation of reverse central gear by maintaining the clutch C3 assembly
is in static. In 2nd –Gear, only the external surface of piston is used. In 4thGear, both sides are used to acquire more clamping force.
The brake belt B2 is a solid brake belt which is meshed with the rear servo piston. When the B2 acts, it prevents the rotation of
planet carrier assembly. When in manual 1st-Gear, only the external surface of piston is used. In reverse-Gear, both sides are used
to acquire more clamping force.
Front servo and brake belt
Rear servo and brake belt
Figure 4.4 brake belt
One-way clutch
The transmission has two one-way clutches, 1-2 one-way clutch and 3-4 one-way clutch (notice that the third one-way clutch is
located on torque converter, also called as retainer)
1-2 one-way clutch is located between the planet carrier assembly and central shaft. The structure makes the planet carrier only
can rotate in single direction around the central shaft. The one-way clutch is only engaged in automatic 1st-Gear.
3-4 one-way clutch is located between the clutch C4 and clutch C2.The structure makes the clutch C2 drive the front planetary
gear in 1st, 2nd and 3rd –Gear, but is disengaged in 4th-Gear and overspeed.
Planetary gear assembly
The planetary gear block used in transmission is the traditional lavena gear block consisted of6 pinions.
Parking mechanism
When select the parking-Gear, the steering column will move the parking lever backwardly to engage with the parking ratch
(refer to Figure 4.5). The ratchet is engaged with the tooth of external gear ring fear to lock the output shaft axle in the
transmission. When it is not in parking-gear, the return spring will release the parking ratchet and unlock the output shaft to
prevent the occurrence of accident parking action.
Automatic transmission-25
Figure 4.5 Parking mechanism
Automatic transmission-26
Power transmission
Introduction
It has the following power transmission pointed to different Gear-position:
power transmission
N-Gear and P-Gear
power transmission
power transmission
R-Gear
manual 1
power transmission
power transmission
power transmission
Automatic 1st-Gear
Automatic 2nd -Gear
Automatic 3rd -Gear
power transmission
power transmission
power transmission
Automatic 3rd-Gear locking
Automatic 4th -Gear (overspeed -gear)
Automatic 4th -Gear locking
For description of each kind of power transmission condition, refer to following parts.
Table 5.1 describe the on-off condition of each unit in all gear condition.
Name of participated unit
Position
C1
C2
C3
C4
B1
B2
1-2
OWC
3-4
OWC
LU
clutch
Parking and neutral position
-
-
-
-
-
X
-
-
-
X
-
-
-
-
X
-
X
Reverse
-
-
X
-
Manual 1st -Gear
-
X
-
X
-
X
-
-
-
-
X
-
-
X
-
X
X
-
-
X
-
X
X
-
X
-
-
-
X
-
X
X
-
X
-
-
-
X
X
X
X
-
-
X
-
-
-
-
X
X
-
-
X
-
-
-
X
Automatic
1 st- Gear
nd
Auto 2 -Gear and manual
2 nd -Gear
Automatic 3 rd –Gear and
manual 3 rd-Gear
Automatic 3 rd -Gear locking
and
manual
3 rd -Gear
locking
Automatic
4 th
-Gear
(overspeed -gear)
Automatic 4 th -Gear locking
In P-Gear or N-Gear, the planetary gear assembly has not the drive. The rear brake belt is used to eliminate the voice generated in
engagement with reverse gear and increase the application of 4WD. It is without the engagement of clutch and brake belt.
In parking-Gear, the locking of mechanism is realized through the engagement of brake lever installed on housing and tooth of
output shaft gear ring.
Control
In stable status, to maintain the arrangement, the status of solenoid valve and valve is shown as follows:
solenoid valve S1 and S2 is powered off.
The line (pump) pressure is applied on the primary regulating valve (PRV) and electromagnetic supply valve.
The torque converter, oil cooler and lubrication loop are filled up with the transmission fluid from the primary regulating
valve.
The line pressure 500 loop is filled up with the transmission fluid from the electromagnetic supply valve.
S5 will be filled up with the transmission fluid through the variable pressure
\regulating valve (S5) .
The line pressure is prohibited form entering into the drive loop through the manual-operated valve .
B1 loop and all clutch loop are opened to drainage port.
Automatic transmission-27
Refer to Figure 5.1and table 5.2.
Name of participated unit
Gear-position
clutch
Parking and neutral
position
Table 5.2 The participation status of each unit in parking and neutral position
Figure 5.1 parking and neutral position
Automatic transmission-28
Automatic transmission-29
In reverse-Gear position, the drive of transmission is sent to the clutch hub through the input shaft and rear clutch piston. In this
condition, the description of each function unit of transmission is shown as follows:
The clutch C3 is engaged and drive the reverse central gear to rotate in clockwise.
The engagement of B2 brake belt cause the rest of the planetary gear carrier, then make the long planetary gear rotates
around its shaft anticlockwise.
The long planetary gear drives the internal gear ring rotates anticlockwise .
Use the spline to connect the inner gear ring to the output shaft and drive the gear ring rotate anticlockwise or in reverse.
Control:
In stable status, to maintain the arrangement, the action of solenoid valve and valve is shown as follows:
A solenoid valve S1 or S2 is closed at least. (Refer to the part in section 3.3.11, related to condition when S1 and S2 is
closed.)
The line pressure reaches the internal surface and external surface of rear servo piston through the reverse lock valve
directly.
The line pressure urges the reverse-Gear loop oil pass through the manual-operated valve.
The reverse-Gear loop oil is circuited to clutch C3 through the manual-operated valve.
In the transmission whiteout HP pump shell, the reverse-Gear loop also can reaches the spring end of the primary
regulating valve to support the spring and push the line-pressure regulating valve.
The oil loop of execution line of all other clutches and brake belts is opened to leaking port.
Refer to Figure 5.2 and Table 5.3.
Table 5.3 The participating condition of each unit in reverse-Gear position
Name of participated unit
Gear-position
Reverse gear
Figure 5.2 Reverse-Gear
Automatic transmission-30
Automatic transmission-31
Power transmission
manual 1st-Gear
st
In manual 1 –Gear, the drive of transmission is send to the rear clutch cylinder through the input shaft. In this
condition, each function unit of transmission is shown as follows:
The clutch C2 is engaged through the 3-4 one-way clutch (OWC) to drive the front sun gear.
The engagement of B2 brake belt make the planetary gear carrier to stop.
The front sun gear drive the short planetary gear to rotate in anticlockwise.
The short planetary gear drive the long planetary gear to rotate in clockwise.
The long planetary gear rotate around its axial to drive the internal gear ring and output
shaft to rotate in clockwise to realize the movement in forward direction.
In overspeed, clutch C4 can provides certain brake force through 3-4 one-way clutch .
Control:
In stable status, the action of solenoid valve and valve is shown as follows:
The solenoid valve S1 and S2 is powered on.
In the action of pressure of line 500, the gear shift valve of 1-2, 2-3, 3-4 gear are kept in position of 1st-Gear.
The manual-operated valve transmission fluid (line pressure ) makes the clutch C2 to engagement.
LO-1st (line pressure) oil flows to the clutch C4 through the 1-2 Gear switching valve to engage the B2 brake belt.
Refer to Figure 5.3 and Table 5.4.
Table 5.4
The participating condition of each unit in manual 1st-Gear
Name of participated unit
X
X
Figure 5.2 Reverse-Gear
Automatic transmission-32
Automatic transmission-33
Power transmission
automatic 1st-Gear
In automatic 1st -Gear, the drive of transmission reaches the reaches the front clutch cylinder through the input shaft.
In this condition, the operating principle of each function unit of transmission is shown as follows:
The engagement of clutch C2 drives the front sun gear
The front sun gear drive the short planetary gear to rotate in anticlockwise.
The short planetary gear drives the long planetary gear to rotates in clockwise.
1-2 one-way clutch (OWC) stops the rotation of planetary gear carrier in counteracting force. At the same time, the long
planetary gear rotates around its axial to drive the ring gear and output shaft to rotate in clockwise to realize the forward
movement.
Control:
In stable status, the status of solenoid valve and valve is shown as follows:
Solenoid valve S1and S2 is powered on
In the action of line 500 pressure, the gear shift valve of 1-2, 2-3, 3-4 Gear is maintained in 1st-gear position.
The transmission drive oil (line pressure) from the manual-operated valve makes the engagement of clutch C2.
Refer to Figure 5.4and Table 5.5.
Table 5.5—participating condition of each unit in automatic 1st-Gear
Name of participation unit
Gear position
Automatic 1st-Gear
Figure 5
4 Automatic 1st –Gear
Automatic transmission-34
Automatic transmission-35
Power transmission
automatic 2nd-Gear and manual 2
In automatic 1st and manual 2nd-Gear, the drive of transmission reaches the front clutch cylinder through the input shaft. In this
condition, the operating principle of each functional unit of transmission is shown as follows:
The engagement of clutch C2 drives the forward central gear.
The forward central gear drives the short planetary gear to rotate in anticlockwise.
The short planetary gear drives the long planetary gear to rotate clockwise.
The engagement of brake belt B1 makes the stop of reverse central gear to make the long planetary gear rotates around the
reverse central gear, then make the internal gear and output shaft rotates in clockwise to make the vehicle moves forwardly.
The clutch C4 is engaged through the 3-4 one-way clutch (OWC) and provides the brake force of engine during overspeed.
Control:
In stable status, the status action of solenoid valve and valve is shown as follows:
The solenoid valve S1 is powered off ; The solenoid valve S2 is powered on.
The drive oil (line pressure) from the manual-operated valve makes the engagement of clutch C2.
When the solenoid valve S1 is powered off, the S1 oil pressure form line pressure 500 pushes the 3-4 Gear shifting valve
moves to left. At the same time, the S1 oil flows into the 1-2 Gear shifting valve to push the 1-2 Gear shifting valve to the
2nd –Gear.
The line pressure oil from the 1-2 Gear shifting valve flows into the brake belt combination regulating valve, and 2-3 Gar
shifting valve.
The brake belt engagement regulator valve provides the 2nd-Gear oil (controlled by product of line pressure and valve rate)
to brake belt feed loop (BAF).
The brake belt engagement feed loop directly provides the oil to:
External engagement part of front servo piston.
1-2 Gear shifting valve can provide a oil drainage port when the transmission is shifted to 1st-Gear.
Use the 3-4 Gear shifting valve when the transmission is in 4th-Gear position.
The drive force (line pressure) is sent to the clutch C4 through the 3-4 Gear shifting valve to realize the engagement of
clutch C4.
Refer to Figure 5.5 and table 5.6
Table 5.6
The participating condition of each unit in automatic 2nd-Gear and manual 2nd-Gear
Name of participation unit
Automatic 2nd-Gear and manual
2nd-Gear
Figure 5.5 Automatic 2nd-Gear
manual 2nd-Gear
Automatic transmission-36
Automatic transmission-37
power transmission
Automatic 3rd-Gear and manual 3rd-Gear
In automatic and manual 3rd-Gear, the drive of transmission reaches the front cylinder through the input shaft. In this condition,
the operating principle of the transmission is shown as follows:
The engagement of clutch C2 drives the front sun gear
The engagement of clutch C1 drives the planetary gear carrier
The forward central gear and planetary gear carrier rotate in the same speed clockwise. So, there is not relative motion
between the forward central gear and planetary gear.
The gear ring and output shaft rotate in the speed of output shaft, and makes the moves forwardly.
The engagement of clutch C4 is through the 3-4 one-way clutch (OWC) and make the engine to provide the brake force
in overspeed.
Control:
In stable status, the status of solenoid valve and valve is shown as follows:
The solenoid valve S1 is powered off; Solenoid valve S2 is powered off
When the solenoid valve S1 and S2 is powered off, 2-3 and 3-4 shift valve are kept in 3rd-Gear position through the line
pressure 500.
1-2 Gear shifting valve is kept in 3rd-Gear position by the oil pressure of S1 and S2.
The (line pressure)oil form the 1-2 Gear shifting valve flows into the brake belt combination regulating valve directly and
flows into the 2-3 Gear shifting valve.
The brake belt combination regulating valve provides the 2nd-Gear oil (controlled by the product of line pressure and valve)
to the brake belt feed loop(BAF).
The brake belt feed loop directly provides the oil to:
External combination part of front servo
When the transmission is shifted to 1st-Gear, the 1-2 Gear shifting valve provides the oil drainage port.
When the transmission is in 4th –Gear position, it will use the 3-4 Gear shifting valve.
The 2nd-Gear oil of 2-3 Gear shifting valve flows into the 3rd-gear loop directly .
The 3rd-Gear oil from the 2-3 Gear shifting valve flows into the clutch combination regulating valve and sequence valve of
4-3 Gear directly.
The clutch combination regulating valve provides the oil of clutch attachment feed loop (controlled by the product of line
pressure of 500 and valve ratio) (CAF).
CAF directly provides the oil to :
clutch C1
Sequence valve of 4-3 Gear
In 4-3 Gear shifting valve, the CAF oil is changed to the release fluid of B1 (B1R-F), it cause the closing of brake belt 1
through the 3-4 Gear shifting valve to spring bottom of 4-3 gear sequence valve and release side of front servo.
The drive force (line pressure ) is sent to the clutch C4 through the 3-4 Gear shifting valve to engage the clutch C4 .
Refer to Figure 5.6 and Table 5.7.
Name of participation unit
Clutch
Automatic and manual
3rd –Gear
Table 5.7
Table of participating condition of each unit in automatic and manual 3rd –Gear
Figure 5.6 Automatic 3rd –Gear-manual 3rd-gear
Automatic transmission-38
Automatic transmission-39
Power transmission
locking of automatic and manual 3rd-Gear
When the automatic 3rd-Gear and manual 3rd-Gear is locked, the drive of transmission is basically same as that in automatic 3rdGear. But it provide the variable torque drive without slide for the application of torque converter locking clutch.
Control:
The control for the automatic 3rd-Gear locking and manual 3rd-Gear locking is basically same as that for automatic 3rd –Gear. But
it should be described additionally that the automatic 3rd-Gear and manual 3rd-gear locking needs the action for variable torque
clutch loop by solenoid valve S7.
When the solenoid valve S7 is opened, the variable torque clutch control valve is closed and allow the oil feed of S7 loop pass
through the solenoid valve S7 to drainage port. It makes the control valve moves to the clutch combination position.
The loop oil from the line 500 flows into the combination part of variable torque clutch through the converter clutch control
valve through the action of variable torque clutch control valve.
The variable torque clutch release oil is drained from the variable torque clutch control valve.
The torque converter loop oil flows into the oil cooler and lubrication loop through the variable clutch control valve.
Refer to Figure 5.7 and table 5.8.
Name of participation unit
Automatic 3rd-Gear locking and
manual 3rd-gear locking
Table 5.8
Participating condition of each unit in automatic and manual 3rd-Gear locking
Figure 5.7 Automatic 3rd –Gear locking and manual 3rd-Gear locking
Automatic transmission-40
Automatic transmission-41
In automatic 4th-Gear (overspeed gear), the drive of transmission is sent to the front clutch cylinder through the input shaft. The
operation principle of each function assembly of transmission is shown as follows:
The engagement of clutch C1 drives the planetary gear carrier rotates in clockwise rotation.
The engagement of B1 brake belt makes the reverse sun gear to stop.
When the planetary gear carrier rotates, the long planetary gear rotates around the static reverse sun gear, at the same time, it
rotates around its axial line to drive the gear ring and output shaft to generate the forward movement in the speed higher than
that of input shaft (i.e. overspeed) clockwise.
The forward central gear rotates in the speed higher than input shaft and is more than the speed when 3-4 one-way clutch
(OWC) is engaged.
The engagement of clutch C2 is used to reduce the speed difference generated by 3-4 one-way clutch (OWC).
Control:
In the stable status, the status of solenoid valve and valve is shown as follows:
The solenoid valve S1 is powered on ; S2 is powered off.
When the solenoid valve S1 is powered on, the small end of 3-4 shift valve is in 4th-Gear position for the pressure of line 500.
When the solenoid valve S2 is powered off, the large opening of 2-3 shifting valve is in 4th- Gear position for the pressure of
line 500.
The 1-2 Gear shifting valve is kept in 4th-Gear position for the pressure of S2 oil loop.
The 2nd-Gear loop oil (line pressure) from the 1-2 shift valve flows into the brake belt combination regulating valve and 2-3
shift valve directly.
The brake belt combination regulating valve provides the 2nd-Gear loop oil for the brake belt attachment loop (BAF) (adjusted
by product of line pressure and valve ratio)
The brake belt combination lip oil is directly supplied to:
External combination part of front servo
Enter into the internal combination part of front servo piston through 3-4 shift valve
The 1st-Gear-2 switch valve provides a oil-drain port when the transmission is switched to 1st-Gear.
The 2nd-Gear loop oil in 2-3shift valve flows into the 3rd-Gear loop directly.
The 3rd-Gear loop oil from the 2-3 shift valve flows into the clutch combination regulating valve and 4th-Gear-3 sequence
valve directly
The clutch combination regulator valve supplies the oil for the clutch combination loop (CAF) (Regulated by the product of
line pressure and valve rate)
CAF oil is directly supplied to:
clutch C1
4th-Gear-3 sequence valve
The drive oil(line pressure) form the manual-operated valve forces the engagement of clutch C2
Refer to Figure 5.8 and Table 5.9.
Table 5.9
Participating condition of each unit in automatic 4th –Gear (overspeed Gear)
Name of participation unit
clutch
Automatic 4th-Gear
(overspeed Gear)
Figure 5.8 Automatic 4th-Gear (overspeed Gear)
Automatic transmission-42
Automatic transmission-43
Power transmission Automatic 4th-Gear locking
In automatic 4th –gear locking, the drive of transmission is same as that in automatic 4th –gear basically. But for the application of
variable torque locking clutch, it provides the variable torque drive without slide.
Control:
The automatic 4th –Gear locking is same as that in automatic 4th-Gear basically. But it should be described that when the automatic
4th-Gear is locked, it has the action for variable torque loop by solenoid valve S7.
When the solenoid valve S7 is opened, the variable torque clutch control valve is closed and allow the S7 loop oil flows to the
drainage port through the solenoid valve S7, then control the valve to move to the clutch engagement position.
The line pressure loop regulating oil from the torque converter clutch regulating valve flows into the combination side of torque
converter clutch directly.
The release oil of torque converter clutch is drained from the control valve of torque converter clutch..
The torque converter loop oil flows into the oil cooler and lubrication loop directly through the control valve of torque
converter clutch..
Refer to Figure 5.9 and Table 5.10.
Name of participation unit
Clutch
Table 5.10
The participating condition of each unit in automatic 4th-gear locking
Figure 5.9 Automatic 4th –Gear locking
Automatic transmission-44
Automatic transmission-45
Diagnosis and test
Test system
1. Recommended test equipment and program
The test equipment and control unit for design will be used for the test of all vehicles. The parts for transmission test includes:
Tester for service after sales
Special vehicle for test
2. Tester for service after sales
After the special programming, the tester equipped with special car test software can be used to test the specified system and unit.
The program allows the normal communication between the transmission control units (TCUs) .
The computer needs the required information from the customer and select the necessary data through the manual. For example:
view the code, clear the error code and make the real-time operation. For detailed operating instruction refer to user’s manual.
The equipment can be used by the trained specialized persons, such as technician, machinist to test the electronic and loop
problem related to transmission. The testable information includes: the engine speed, rode (shaft speed), transmission fluid
temperature, position of throttle position, status of solenoid valve and gear and position of operating lever. Additionally, it can be
used to detect the current and stored problem.
3. Description of TCU pin
The description of TCU pin code had been listed in Table 6.1.1
For description of wire bunch refer to Figure 6.1.1
Pin No.
A14
A13
A12
Function
Type
Public grounding
GND
Nonuse
--
Mode indicator lamp
OP
Snowland mode
2WD
●
○
●
Parking-Gear indicator lamp
OP
Reverse-Gear indicator lamp
OP
N-Gear indicator lamp
OP
A8
Nonuse
--
○
A7
Nonuse
--
○
Mode indicator lamp
OP
A11
A10
A9
A6
dynamic mode
●
●
●
●
description
Negative pole of TCU supply, connected to negative pole of
battery.
-----
Indicate that select the “Snowland Mode” operating method.
The drive instrument panel indicator lamp indicates that is in
the “Parking Gear”
The drive instrument panel indicator lamp indicates that is in
“Reverse Gear”
The drive instrument panel indicator lamp indicates that is in
“Idle N Gear”
-----
-----
Indicate that select the “dynamic mode” operating method.
A5
Nonuse
――
○
---――
A4
Nonuse
――
○
-----
A3
Nonuse
――
○
Mode switch
IP
A2
-----
The switch is used to select the “economic mode”, “dynamic
●
mode” and “snowland mode”. The voltage is variable in
range of 0 V-2V .
A1
A30
A29
A28
A27
Nonuse
――
Power supply
PWR
Nonuse
――
1 st-Gear
2nd-Gear
A25
lamp
OP
indicator
lamp
OP
/2nd-Gear position
rd
A26
indicator
/1 st-Gear position﹡
3 -Gear
indicator
lamp
OP
/3 rd -Gear position﹡
Automatic
gear
indicator
lamp /4 th –Gear position
OP
○
●
○
●
●
●
●
-----
Power supply for TCU; is the main power source of drive
unit and solenoid valve.
-----
Drive the instrument panel indicator lamp indication, indicate
that the gear-position is in “1 st-Gear”
Drive the instrument panel indicator lamp indication, indicate
that the gear-position is in “2 nd -Gear”
Drive the instrument panel indicator lamp indication, indicate
that the gear-position is in “3 rd-Gear”
Drive the instrument panel indicator lamp indication, indicate
that the gear-position is in “automatic-Gear”
Automatic transmission-46
P in
N o.
A24
A23
A22
A21
A20
A19
A18
A17
A16
A15
CA N (-ve)
CA N (+ ve)
K line com m un ication
connection
N onuse
N onuse
Shaft speed sensor
signal
N onuse
N onuse
N onuse
N onuse
T ype
2W D
I/O
I/O
○
○
I/O
●
――
――
○
○
IP
○
――
――
――
――
○
○
○
○
IP
●
IP
●
B6
G ear-position
B5
transm ission
tem perature
B4
solenoid valve 4
OP
●
B3
solenoid valve 1
OP
●
B2
N onuse
Return solenoid valve
5
G ear-position
-
grounding
transm ission
fluid
tem perature
-
grounding
――
○
IP
●
GND
●
GND
●
B1
B 14
B 13
fluid
CAN h idden com m unication end
CAN exposed co m m unication end
D iagnosis inform ation and car code
-----
-----
The sensor sends the shaft speed signal to T CU
-----
-----
-----
-----
The switch has the variable-voltage; indicate the
gear-position steering colum n selected (PR ND 321). T he
voltage is variable in the range of 0V --5 V.
The sensor indicates the transm ission fluid tem perature.
H igh R= Low tem perature
Low R = High temperature
The voltage is variable in the range of 0V to 5V
N /O FF norm al-opened solenoid valve, co m bined w ith the
O N /O FF w itch of solenoid valve 3; ensure the shifting
quality and sequence
O N /O FF norm al-opened solenoid valve; com bined w ith
other solenoid valve; used to determ ine the selected
gear-position.
-----
U sing for grounding of VP S and current of circuit can be
detected, then process the feedback control for the V PS.
P RN D 321 Gear-position sw itch groun ding
Co nnected to groundin g pin of tem perature sensor.
B 12
solenoid valve 6
OP
●
B 11
solenoid valve 2
OP
●
B 10
solenoid valve 3
OP
●
B9
solenoid valve 7
OP
●
B8
N onuse
――
○
B7
solenoid valve 5(+ve)
OP
●
● = connected line
O P= output
G N D = groundin g
D escription
O N /O FF norm al-opened solenoid valve, determ ine the
high or low of line pressure
O N /O FF norm al-opened solenoid valve, com bined w ith
other solenoid valves; used to determ ine the selected
gear-position.
O N /O FF norm al-opened solenoid valve, com bined w ith
the O N /O FF sw itch of solenoid valve 4; ensure the
shifting quality and sequence
O N /O FF norm al-opened solenoid valve, hydraulic torque
converter locking; increase the efficiency of m edium
speed run.
-----
It is the solenoid valve w hich can change the pressure
during the shifting and on/off o f solenoid valve.
○ = unconnected line
* = only
IP =input
I/O = input/output
R E F= reference
P W R=pow er
Table 6.1.1 Description of TCU pin
Automatic transmission-47
reverse pin
Gear sensor(black)
gear indication pin
Figure 6.1.1 Description for wire bundle pin
4. Operating mode of transmission
TCU realizes the effective control for the transmission according to the accurate information acquired form the input data and
complete control for the output data. To ensure the input and output of TCU is actual and effective, TCU executes the data sense
command for hardware and software. For the failure information found in the following operating mode described in detail, TCU
will give the corresponding response.
Similarly, it exists the possibility that could not find out the failure cause. If encounter the condition, the operation for transmis
sion is determined difficultly.
Following condition will effect the operation of transmission, but will not appear the detection failure information.
a. Power supply failure
The transmission adopts the 3-Gear lame Home Mode (LHM) irrelevant to car speed.
If occur the intermittent power supply, then TCU will start form 4-Gear and is switched to the proper gear to meet the
requirement of current work. At this time, it will not monitor the power supply status.
b. The transmission fluid temperature is higher than 135
If found the transmission temperature is high:
The torque converter lock clutch will start in low speed and the car will have the vibration.
Some cars will have the condition that the mode indicator lamp is flash.
The reason for the condition may be the transmission fluid temperature is high or acquire the inaccurate single form the
temperature sensor. If occurs the temperature failure, it may find the high temperature operating condition.
c. Failure of ON/OFF solenoid valve
If one of the solenoid valves has the mechanical failure, TCU will not find the failure. At this time, the failure operation of
transmission will be determined according to the solenoid valve with failure. The characteristic of different solenoid valve failure
is listed in Table 6.1.2.
Automatic transmission-48
solenoid
valve
Condition
Transmission operation
1
Opened
always
1st-Gear replaces 2nd-Gear; 4th-Gear replaces 3rd-Gear. It causes the car form the Gear shift of 1
→1→4→4 when accelerate form static. The transmission stay longer time in Gear; worse 1→4
shift feeling.
Closed always
2nd-Gear replaces 1st-Gear; 3rd-Gear replaces 4th-Gear. It causes the car form the Gear shift of 2
→2→3→3 when accelerate form static. It is said that starts form 2nd-Gear.
Closed always
4th-Gear replaces 1st-Gear; 3rd-Gear replaces 2nd-Gear. It causes the car form the Gear shift of 2
→2→3→3 when accelerate form static. That is saying that start form 4th-Gear.
Opened
always
2nd-Gear replaces 3rd-Gear; 1st-Gear replace 4th-Gear.
It cause the car is shifted form 1st-Gear to 2nd-Gear, then from 2nd-Gear to Gear when accelerate
form static. It will feel the transmission is in free gear position after 2→1 Gear shift.
1&2
Opened
always
Can not realize the reverse gear; only has 1st-Gear operation.
3
Closed always
2
Opened
always
4
Closed always
Opened
always
6
Closed always
Opened
always
7
Closed always
Opened
always
Following shifts are bad. (2→3 is worst ):1→3, 1→4, 2→3, 2→4, 4→2, 4→1
Following gear shifts are worse:
3→4, 4→3, 3→2。
It may cause the gear slide when the hydraulic torque converter is locked.
Following gear shifts are worse:
1→2, 1→3, 1→4, 2→3, 2→4, 3→1, 3→2, (including manual) 3→4, 4→1, 4→3
Following gear shifts are worse:
(1→2 is worst) 2→4, 3→2 It may cause the gear slide when
the hydraulic torque converter is locked.
The line pressure is high always.
The line pressure is low always. So it cause the slide between gears. The clutch C1 and brake belt
B1 will be burned.
The hydraulic torque converter is without lock.
The hydraulic torque converter is locked in 3rd-Gear and 4th-Gear. It cause the car generates the
vibration in low-speed status.
Table 6.1.2 Operation of transmission when ON/OFF solenoid valve is faulty
Mechanical detection
1.Inspection of transmission on car
It should process the following detections before disassemble the transmission:
process the on-road drive test to determine the failure cause .(according to requirement)
Detect the standard of transmission fluid. (refer to 7.2.1)
Ensure the transmission fluid in not overheated. (Normal color and smell)
Detect the failure information.
Check the battery terminal and grounding for corrosion or loose.
The engine speed is within the specified value in manual.
Check the cooling system for normal operation.
All power supply and plug wires is tight and not loose.
Check the transmission fluid, ensure the oil pan is without other martial material or pollutant.
2. Oil leakage detection
It should wash the polluted part of the transmission before select the oil leakage part, then drive the car.
When detect the leakage part of the rear servo system, it should lift the car by lifter firstly, then switch the gear to reverse
gear within 10s.
When detect the leakage part of front servo system, it should lift the car by lifter firstly, then switch the gear to gear-2
(winter mode).
The time switched to 2nd-Gear should be no more than 10s to avoid the oil in the torque converter is overheated.
3. FAQ table
Automatic transmission-49
The distribution of FAQ table is shown as follows:
Table 6.2.1 Drive failure
Table 6.2.3 Shift quality failure
Table 6.2.2 Shift mode failure
Table 6.2.4 Disassembly failure
failure
Possible reason
Corresponding measure
“D”-Gear operation
has not drive
The automatic transmission fluid is insufficient.
The oil-entering of C1/C2 piston is blocked.
The “Z” is assembled incorrectly.
The primary regulating valve plug is opened.
The overspeed shaft or input shaft sealing ring is
failure.
3→4, 1→2 single-way clutch is installed in reverse or
failure.
Check the liquid level. Fill it up if necessary.
Check and wash the C1/C2 oil inlet device.
Reinstall the “Z” connection.
Remove, wash and reinstall the primary
regulating valve.
Check and replace it if necessary.
Check and replace it if necessary.
The reverse shifting
operation is without
drive.
The manual 1st-Gear
has not engine
brake.
The engine brake is
normal in manual
1st-Gear.
“D” –Gear and reverse
–Gear operation is
without drive.
Only can 2→3 shifting
(can not realize the
4th-Gear and 1st-Gear)
Only can 1→4 shifting
1→3→4 shifting (1
→2 shifting delay).
Only can 4→3 shifting
The input shaft oil seal ring is damaged.
The rear brake belt or servo system is faulty.
C3, C3 wheel shaft or C1/C2 cylinder are out of work.
The primary regulating valve is blocked.
The pump gear is damaged.
Take out the output shaft clasp.
S1 is closed always.
S1 is opened always
S2 is closed always.
1→2→neutral position
shifting (1st-Gear
transition)
S2 is opened always
Only can 1→3 shifting
B1 is out of work
The brake belt is loose.
The front servo piston or oil seal is out of work.
S1/S2 ball spool is reinstalled in wrong place.
Check and replace it if necessary.
Test the servo system or replace the rear brake
belt according to the requirement.
Test the failure C3, C3 wheel axle or C1/C2
cylinder.
Repair it in time if necessary.
Detect and clean the primary regulating valve.
Check and replace the pump gear if necessary.
Check and repair it if necessary.
Test the S1. Repair or replace it if necessary.
Test the failure of S1 12V power supply
voltage or wire bundle.
Test the S1. Repair or replace it if necessary.
Test the failure of S1 12V power supply
voltage or wire bundle.
Test the S2. Repair or replace it if necessary.
Test the failure of circuit break or wire bundle.
Test the S2. Repair or replace it if necessary.
Test the failure of circuit break or wire bundle.
Test and adjust it according to the requirement.
Test and maintain it according to the
requirement.
Test and replace or reinstall it according
to the requirement.
Only can 1→3→4
shifting
The small O-ring of front servo piston is invalid or
lost.
2→3 Gear position shifting valve is blocked.
Detect the O-ring. Process the replacement or
reinstallation if necessary. Detect the 2→3
Gear shifting valve; Process the maintenance
or replacement according to the requirement.
Only can 1→2→1
shifting
C1 is invalid or 3rd-Gear and 4th-Gear is loose. (give
to 1st-Gear in 3rd-gear; give to 2nd-Gear in 4th-Gear)
Detect the clutch C1. Repair or replace it if
necessary.
Overspeed clutch /ball spool has displacement.
C4 is invalid.
Detect the ball spool. Process the replacement
or reinstallation according to the requirement.
Detect the C4. Repair C4 or replace the C4
wave pan according to the necessary.
Can not realize the
manual 4→3, 3→2, 2
→1
Automatic transmission-50
T h e s m a ll O -rin g o f fro n t ser v o p is to n is in v a lid o r lo s t.
2 → 3 G ea r p s itio n s h iftin g v a lv e is b lo ck ed .
D et e ct th e O -rin g . P r o c es s th e rep la c e m e n t o r
rein s ta lla tio n if n e c es s a ry . D ete ct th e 2 → 3
G ea r s h iftin g v a lv e; P ro c es s th e m a in ten a n c e
o r r ep la c e m en t a c co r d in g to th e r eq u ir e m e n t.
C 1 is in v a lid o r 3 rd -G ea r a n d 4 th -G ea r is lo o s e . (g iv e to
1 st -G ear in 3 rd -g ea r; g iv e to 2 n d -G ea r in 4 th -G ea r)
D et e ct th e clu tc h C 1 . R ep a ir o r r ep la c e it if
n e c es s a ry.
O v ersp e ed clu tc h /b a ll s p o o l h a s d isp la c e m en t.
C 4 is in v a lid .
D et e ct th e b a ll s p o o l. P r o c es s th e rep la c e m en t
o r r ein s ta lla tio n a c co rd in g to th e r eq u ire m e n t.
D et e ct th e C 4 . R ep a ir C 4 o r rep la c e th e C 4
w a v e p a n a c c o rd in g to th e n e c es sa ry .
W ith o u t m a n u a l
1 st-G ea r
T h e rea r b ra k e b e lt is lo o s e w h en th e t e m p era tu r e is
h ig h .
T h e R -G ea r/L o w s p e e d 1 st-G ea r b a ll s p o o l h a s
d is p la c e m e n t.
T h e in tern a l “ O ” – rin g o f rea r s er v o is lo s t.
C 4 is in v a lid .
D et e ct th e r ea r b ra k e b elt, a d ju s t id n e c es s a ry.
D et e ct th e b a ll sp o o l, R ein s ta ll o r r ep la c e it if
n e c es s a ry.
D et e ct th e O -rin g , R e in s ta ll o r r ep la c e it if
n e c es s a ry.
D et e ct th e C 4 . R ep a ir o r r ep la c e it if n e c ess a r y.
O n ly ca n 1 → 2 → 2 → 4
g ea r .
T h e d im en s io n o f so ck et o f fro n t s er v o is la rg e . H a s th e
p o s s ib ilit y o f lo o s e o f p lu g .
It h a s th e tre n d th a t ca n n o t rea liz e th e re v ers e-G ear if
d riv e th e v e h ic le in th is co n d itio n co n tin u o u sly .
R ep a ir o r r ep la c e it if n eces s a r y.
D et e ct th e C 3 p is to n O -rin g , rep la c e it if
n e c es s a ry.
O n ly a n 1 st- g ea r,
2 n d -G ea r, 4 th -G ea r o r
1 st -G ea r, 2 n d -G ea r a n d
3 rd -G ea r.(3 rd -G ear is
tig h te n ed )
T h e g ea r s e n s o r h a s fa ilu r e, o n ly ca n 1 → 2 → 3 s h iftin g .
3 → 4 G ea r s h iftin g v a lv e is b lo c k ed .
D et e ct th e g ea r-p o s itio n s e n s o r. R ep a ir o r
rep la ce it if n e c es s a ry . D ete ct th e 3 → 4 g ea r
s h iftin g v a lv e. R ep a ir o r r ep la c e it if
n e c ess a r y.
O n ly ca n 1 → 3 → 4
s h iftin g
O n ly ca n 1 → 2 → 1
s h iftin g
C a n n o t rea liz e th e
m an ual 4 → 3, 3 → 2, 2
→1
Automatic transmission-51
Bad 1→2 Gear
shifting quality
The throttle position sensor has failure.
The brake belt is adjusted incorrectly.
The front servo piston O-ring is damaged.
The variable pressure solenoid valve (S5) is damaged or
has failure.
S1, S4 has the failure.
The brake belt combination regulating valve (BAR) has
the failure.
The front servo release spring is installed incorrectly.
Bad 2→3 Gear
shifting quality
B1brake belt release valve is blocked.
S3, S2 has the failure.
The clutch combination regulating valve has failure.
The clutch combination oil feed ball spool is lost or
damaged.
The input shaft oil seal is damaged.
C1 piston O-ring is damaged.
C1 piston oil feed ball spool is damaged.
Bad 3→4 Gear
shifting quality
S1, S4 has failure.
B1brake belt release valve is blocked.
The brake belt is adjusted incorrectly.
The front servo piston O-ring is damaged.
The variable pressure solenoid valve (S5) is damaged or
has failure.
The brake belt combination regulating valve has failure.
The engine has
the
extinguishing
condition
when select
the automatic
gear or R-gear.
Has unstable
vibration
condition.
Detect the resistance, replace the sensor if
necessary.
Detect and replace the rake belt if necessary.
Detect and replace the O-ring if necessary.
Detect, repair or replace the S5 if necessary.
Detect, repair or replace the S1, S4 if
necessary.
Detect, repair or replace the BAR if
necessary.
Detect and repair it if necessary.
Detect the blow-off valve. Replace or
maintain it if necessary.
Detect the S3, S2.Replace or maintain it if
necessary.
Detect the regulating valve. Replace or
maintain it if necessary.
Detect the ball spool .Reinstall or replace it if
necessary.
Detect the sealing ring. Reinstall or replace it
if necessary.
Detect the O-ring .Reinstall or replace it if
necessary.
Detect the ball spool .Reinstall or replace it if
necessary.
Detect the S1, S4.Reinstall or replace it if
necessary.
Detect the blow-off valve. Replace or repair
it if necessary.
Detect the brake belt. Adjust it if necessary.
Detect the O-ring .Replace or maintain it if
necessary.
Detect the S5.Replace or maintain it if
necessary.
Detect the regulating valve. Replace or
maintain it if necessary.
The torque converter clutch control valve is blocked or
solenoid valve 7 has failure.
Detect and clean the torque converter clutch
valve (CCCV)
S7 has the failure.
Process the necessary detection, maintenance
and
replacement
according
to
the
requirement.
Table 6.2.3 Shifting quality failure
Automatic transmission-52
Failure
C2 is burnt.
Reason
Corresponding measures
T operation lever linkage is beyond the
Monitor and repair the C2 if necessary and
normal adjusting scope.
adjust the linkage device.
Repair the C2; detect, repair or replace the
S6 is invalid.-Operating lever is hard.
S6 if necessary.
Repair the C2; detect and replace the
The over speed Gear/output shaft sealing
sealing ring or shaft if necessary.
ring is damaged.
The clutch C4 assembly clearance is
incorrect.
Detect the C4. Detect and adjust the clutch
C4 assembly clearance if necessary.
Repair the C4; detect and replace the oil
C4 is burnt.
The over speed Gear/output shaft sealing
seal or shaft.
ring is damaged.
Repair the C4, detect or modify the OWC
3→4 one-way clutch is in rear position.
if necessary.
Repair the C4, detect or modify the ball
st
The over speed clutch (OC) /1 -Gear low
spool if necessary.
speed ball spool has displacement.
B1R spring is damaged.
Detect and repair the or replace the spring
if necessary.
B1 is burnt.
The dimension of oil inlet hole of front
Replace the socket if necessary and detect
servo is large and has the possibility of
the C3 piston O-ring.
loose.
Replace the sealing ring.
The input shaft sealing ring is damaged.
Repair the B1; modify the ball spool if
C1/B1R ball spool has displacement.
necessary.
B1Rspring / plug is lost.
Detect and repair C1 or replace the spring
if necessary.
The over speed Gear/input shaft sealing
Repair the C1; detect and replace the
ring is damaged
sealing ring or shaft if necessary.
C1 is burnt.
Repair the C1; detect and modify the valve
4→3 sequence valve is in rear position.
if necessary.
Repair the C1; detect and replace the ball
Clutch attachment oil feed inlet (CAF).
spool if necessary.
B1Rball spool is lost.
B2 brake belt is burnt. In
R-Gear- without manual
1st-Gear.
The torque converter is
locked hardly or is not
locked.
The rear brake belt is adjusted incorrectly or
Detect and adjust the brake belt if
damaged.
necessary.
st
The low speed R-Gear /1 -Gear ball spool
Detect and reinstall the ball spool if
has displacement.
necessary.
The torque converter combination regulator
is in rear position.
Detect and modify the valve if
necessary.
Adjustment
Hydraulic system
Following parts is the detailed description for self-detection procedure pointed to the condition occurred in chapter
6. including the condition indicated the failure, to point the problem existed in the hydraulic system.
It should select the proper procedure from the following primary detection when adjust the transmission.
Detection process of transmission fluid
Detect the manual linkage adjusting system(refer to factory manual of car)
Detect the engine idle speed
Anchoring test (beyond the scope of the maintenance manual)
On-road test (beyond the scope of the maintenance manual)
Detection procedure of transmission fluid level
1. General
The process is used to detect the level of vehicle transmission fluid. It will cause the failure or delay of transmission shifting if
the level is low than required value and the vehicle does not reach the drive temperature.
Firstly, process the transmission diagnosis information detection for vehicle (refer to chapter 6). If found the failure of sensor,
then it maybe caused by transmission fluid level is less than specified value.
It should detect whether has the abnormal delay and Gear-position condition when select the forward or reverse-gear by driving
the vehicle. One feature of oil level less than normal value is that the vehicle has the gear-position delay and lack condition when
the vehicle is in steering. The previous problem will occur when the transmission fluid temperature is low.
When the oil temperature is medium and vehicle speed failure is recorded, the gear-position lose condition
will not occurs any longer, it means that needs to fill the transmission with the transmission fluid.
2. Detection of transmission fluid level
When fill up or replace the transmission fluid, it must use the Castrol TQ95 automatic transmission fluid (ATF) or other
permissive oil. It will damage the performance and service life of transmission if use the unpermissive transmission fluid.
Please ensure the transmission fluid level is correct. The transmission also can be damaged if the transmission fluid level is
incorrect.
The setting procedure of transmission fluid level is shown as follows:
Caution:
When the transmission is in operating temperature, the hot transmission fluid may flow out form the
housing if remove the filling plug.
a. If the vehicle is in operating temperature, allow two hours time for cooling before add the transmission fluid, but
it must not more than 4 hours (this will make the transmission locate in the correct temperature range). When the
temperature is overheating, the transmission fluid level will higher than the plug port. Removal of plug will cause
the transmission fluid flows out from the oil filling port, then cause the low level of transmission fluid.
b. The gear-position of transmission is in parking-Gear (P-Gear), shut off the engine.
c. Lifting the vehicle (or parking above the trench).
d. Clean the around of plug when remove it. Then remove and clean the plug and check the O-ring for damage. Install
the oil filling pump in the oil filling hole.
e. Lower the vehicle; the oil filling pump will be connected to the vehicle at this time. Fill the transmission with the
oil partially. Then start the vehicle in P-Gear to rotate the engine in idle speed. Step down the foot brake, pull the
shifting lever in each gear-position in circulation and add the transmission fluid until the action of each gearposition can be sensed.
f. Shut down the engine; lift the vehicle; ensure the vehicle is always in horizontal.
g. Remove the filling plug 3 minutes after the engine is shut off, but must not be no more than1 hour. At this time, the
correct level position should be in the bottom of oil filling hole. If does not reach the liquid level position, then fill
with few transmission fluid to make it reach the correct level.
h. Replace the transmission; clean the residual transmission fluid on the transmission and
vehicle.
i. Tighten the transmission plug to the specified torque of 30
35N m.
3. Oil filling of service after sales
Set the liquid level position correctly; the procedure is shown as follows:
a. Shut down the engine; place the gear-position in the P-Gear.
b . Lift the vehicle (or place it above the trench).
c. Clean the around of plug before remove it. Remove the oil plug and check the O-ring for damage, finally connect the oil filling
pump to the oil filling hole.
d. Lower the vehicle and oil filling pump to the ground; fill with the transmission fluid partially. The general oil filling amount
is shown as follows:
If in the status of transmission hydraulic torque converter is empty: 8.0 L
If in the status of transmission hydraulic torque converter is full: 3.8 L
e. When start the vehicle in P-Gear, rotate the engine in idle speed. Step down the foot brake, pull the shifting lever in each gearposition in circulation and add the transmission fluid until the action of each gear-position can be sensed.
f. Then fill with 0.5L transmission fluid (ATF) additionally.
g. Shut off the engine, lift the vehicle; take off the pump and replace the plug. Ensure the plug is tightened according to the
specification.
h. Then pull the vehicle throttle position for slight opening to make the vehicle runs for 3.5 4.5km; the rotary speed of engine
is no more than 2500r/min; then the transmission fluid temperature will in the scope of 50
60 .
i. The engine is in idle-speed; pull the hand brake to make the shifting lever circuits in each gear-position horizontal status.
k. Remove the filling plug 3 minutes after the engine is shut off, but must be no more than1 hour. At this time, the correct
level position should be in the bottom of oil filling hole. If does not reach the liquid level position, then fill with few
transmission fluid (ATF) to meet the requirement.
l. Reinsert the transmission fluid plug, remove the residual transmission fluid around the vehicle and transmission; tighten the
plug to the specified torque.
4. Replace the ATF
Please notice that the color of TQ95 automatic transmission oil will be faded in the normal operation of transmission; it will be
turn into the deep brown or even in black. It will not affect the performance of ATF. It means that the fading of transmission
fluid not always means to replace the transmission fluid.
If the transmission temperature is raised, the ATF will be burnt. In this condition, ATF will change into black and with special
sulfur smell. The smell of the ATF means the oil is burnt.
If the ATF is burnt, it will cause the damage of transmission (the clutch assembly is damaged at least).At this time, it should
disassembly the transmission and process the necessary detection.
Electronic calibration
1. Idle-speed calibration
The idle-speed calibration is introduced in detail in the vehicle factory manual.
2 Calibration of position of throttle position
If the throttle position information stored in TCU is lost or not in application scope. It can be reestablished according to the
following program as the diagnosis error information.
a. Check whether the engine idle speed is in required range.
b. In the status of shutting off of air-condition, make the engine is in “D” –Gear for 60s,then the reference point with opening
degree of 0 of throttle position is reset in TCU.
Shut off the engine; switch on the ignition device, step the accelerator pedal to bottom for 60s, then the reference point with opening
degree of 100
of throttle position is reset in TCU.
3. Clear of throttle position
The clear process set by learning throttle position is necessary for M88 transmission TCU.
4. Car code
For M88 transmission, the car code is unnecessary.
Disassembly /assembly
Cautions for assembly
It should notice the following items before reassemble the transmission system:
1. Ensure the cooler pipeline is washed and all chip is removed when replace the transmission. It can
be realized by using the compressed air to enter into the rear cooler pipeline to remove the oil and
all foreign material in the front cooler.
2. It should check the cooler after the transmission is installed. Ensure the front and rear cooler
pipeline is connected to the proper container. Rotate the vehicle in P-Gear in idle-speed, measure
the flow rate within 15s.
3. The flow within 15s should be more than 1L.
4. It should avoid any water entering into the transmission. This will cause the transmission fluid to
generate the foam or make the transmission fluid flows out form the respirator.
5. Ensure that two grounding wires in vehicle (one end to battery, one end to vehicle) are connected
before the installation of the anode of battery.
6. If the power control module and transmission control unit is exchanged, then calibrate the program refer to related throttle position in Part
Removal
1. Transmission
Caution:
It should remove the gear-position sensor before wash the transmission in solvent or hot abluent.
When need to remove the transmission from the vehicle, it should drainage the transmission fluid,
and use the special removal tools.
The removal of the transmission should be processed in module method, the details of removal of each module is described
in following section in detail. Refer to details of special tools listed in table 9.10 and 9.6 when remove it.
The technician needs a set of quality tools when inspect the transmission, especially for dual hexagon spanner of model
30, 40, 50 and 8mm, 10mm, 12mm.
It should abide by the following procedure when disassemble the transmission:
a. Remove the shell of torque converter and torque converter.
b. Place the transmission on the saddle platform.
c. Remove the oil pan and oil pan sealing.
d. Remove the filter retainer of each valve and remove the filter.
e. Remove the wire on solenoid valve, place it in side.
f. Remove the protection screw in the valve and remove the valve from the main housing (remove the model Z connecting bar).
g. Remove the front servo circlip, cover and piston.
Caution:
The plastic servo block on used for piston return spring.
h. Remove the flange shaft fork, then remove the transmission housing (2WD and Chairman).
Use the 8mm hexagon wrench to move the pump to the housing bolt.
Figure 8.1 Removal of typical pump
i. Use the pump remover to remove the pump, refer to Figure 8.1.
g. Remove the input shaft , front clutch cylinder and overspeed –Gear shaft as an integral. Take it out from the front of housing.
k. Remove the clutch C3 cylinder and central gear .
l. Remove the brake belt support and brake belt.
m. Use the 50 special tools to remove two central support connecting bolts.
n. Remove the central support retainer, refer to Figure 8.2.
Figure 8.2 central support retainer
Caution:
Do not take out the central support by knocking the output shaft , otherwise, it will damage the surface of thrust bearing
permanently
o. Remove the central support, 1-2 one-way clutch and planetary gear block.
p. Use the T40 special tools to remove the parking lever cum disc.
q. Remove the rear brake belt support and rear brake belt.
r. Remove the output shaft assembly.
2. Transmission case
It should follow the following procedure when remove the transmission:
a. Use the tools to take out the fixed pin from one side of cross shaft gear sensor (2WD and 4WD mode).
b. Remove the gear sensor from the case. Use the special tools to take out the cross shaft seal.
c. Take out the circlip from the cross shaft. Pull up the cross shaft and take out the drive pin from the sector gear-position
selection plate.
d. Use the tools, press down the cross-shaft pin and take out the shaft , reset spring and bolt from the housing. Refer to Figure
8.3.
Figure 8.3 Installation and disassembly of cross-axle pin
e. Take out the manual-operated valve operating lever and parking operating lever.
f. Take out the 10 pin socket connector form the wire bunch bracket adjacent gear sensor.
g. Press down the raised part of 10-pin plug and take out the 10-pin connecting plug from the box.
h. Separate the NO.7 solenoid valve wire bunch form the front end of housing.
i. Remove the brake bar pivot, brake shaft and spring.
j. Remove the shaft and rear servo operating lever.
k. Remove the rear servo cover and piston assembly.
l. Remove the BIR circlip, valve and spring.
m. Remove two brake belt adjusting shims.
n. Check the output shaft bush in box, replace it if necessary.
o. Check the cooler pipeline, replace it if necessary.
p. Check the box for damage.
Caution:
It must not remove the operating lever of parking gear in normal condition.
q. It needs to remove the P-Gear operating lever: take out the circlip from the pivot, knock the external of shaft until it can move
freely in box. Then use a width and thin object to table out the bolt form the box, operating lever and spring.
3. Front clutch cylinder
When take out the front clutch cylinder, please refer to Figure 8.4. The procedure is shown as follows:
Figure 8.4 Assembly of front clutch cylinder
a. Place the assembly on a level surface.
b. Remove the thrust bearing and adjusting shim from the input shaft .
c. Remove the retainer and input shaft form the front end of clutch .
d. Remove the overspeed gear shaft and clutch C1 hub assembly from the clutch cylinder.
e. Take out the clutch disk C1 form the cylinder.
f. Take out the retainer which fix the clutch C3 hub on the rear end of clutch cylinder, then take out the hub.
g. Take out the C2\clutch C4 hub assembly and remove the thrust bearing form the C4 hub.
h. Take out the clutch C2 disc.
i. Reverse the clutch cylinder and take out the clutch C4 sleeve, clutch disk and two wave washers. The 3-4 one-way clutches is
located between the C2 and clutch C4 hub. The other wheel axle can be taken out by rotating a wheel axle in clockwise.
j. Remove the thrust block form the clutch C4 cylinder hub.
Caution
Ensure the spring keeping device does not be clamped in the spring groove and all spring pressure is released.
k. Put end surface of C2\clutch C4 upwardly, connect the clutch cylinder with the tools. Pressed down the piston reset spring,
take out the spring fixing retainer (Refer to Figure 8.5). Remove the tools and take out the ring spring, fixing part and spring.
Figure 8.5 Impressed clutch reset spring
Figure 8.6 Removal of C1, C2 and clutch C4 piston
l. Reverse the clutch cylinder on the pressure machine; and remove the clutch C1 reset spring with same method.
m. Send the compressed air into the cylinder through the cylinder hole, remove the clutch piston from the clutch cylinder. Refer
to Figure 8.6.
4.clutch C3 cylinder
The procedure of removal of clutch C3 cylinder is shown as follows:
a. Remove the front sun gear assembly, thrust bearing and thrust washer from the clutch C3 cylinder asse bly , shown as Figure
8.7.
b. Remove the nylon thrust bearing, bearing block, needle thrust bearing and thrust bearing . From the clutch cylinder hub.
Figure 8.7 Clutch C3 and central gear assembly
Figure 8.8 Removal of clutch C3 piston
c. Install the clutch assembly on the special tools, press down the piston out-back spring; take out the retainer and release spring.
Caution:
Ensure the spring keeping device does not be clamped in the spring groove and all spring pressure is released.
d. Take out the tools, retainer, retainer and spring.
e. Take out the gasket from the clutch C3 cylinder.
f. Take out the clutch disk fixed spring ring and take out the clutch disk.
g. Send the compressed air into the hole between the iron sealing ring and support shaft neck of cylinder; remove the clutch piston
from the clutch cylinder. Refer to Figure 8.8.
h. Take out the cylinder forms the reverse sun gear and C3 washer.
5. Planet carrier and central support
The disassembly procedure of planet carrier and central support, the procedure is shown as follows:
a. Separate the planet carrier and central support from the output shaft; remove the thrust bearing and planet carrier form the
output shaft.
b. Rotate the planet carrier in anticlockwise and separate the central bracket.
c. Raise the one-way clutch form the planet carrier
d. Remove the spring ring on the planet carrier; maintain the periphery of one-way clutch on the planet carrier and take it out.
Refer to Figure 8.9.
e. Remove the one-way clutch fixed mount form the planet carrier.
Figure 8.9 Planet carrier and external race way
6. Pump
Cautions: the following valves are installed in the pump cover:
solenoid valve 7
C1 eccentric valve ( only for early stage mode, no valve in M88)
torque converter control valve
torque converter regulating valve
primary regulating valve
The disassembly procedure of pump is shown as follows:
a. Remove the wire bunch fixing disc and use the special tools T30 to remove the solenoid valve 7.
b. Use the 8mm sleeve to remove 5 bolts and washers.
c. Use the tool NO.30 to remove 5 screws form the cover plate. It should notice that the odd number screw has the function of
connecting the pump body to the pump cover plate.
Caution:
Do not release the pump by the method of knocking the torque converter support.
d. Separate the pump body from the pump cover.
e. Lift the pump cover disc form the pump cover.
f. Remove two ball spool detection valves and a spring from the pump cover.
Caution:
Some valves and plugs are connected by the spring and may fall down form the housing when remove the pin.
g. Press down the socket inwardly to remove the fixed pin of 4 valves.
h. Take out 4 valves, plugs and springs.
i. Take out the pump gear form the gear.
j. Remove the edge sealing from front of pump when replace it.
7. Valve
The removal procedure of valve is shown as follows:
a. Use the special tools T40 T orxbit to remove the ratchet spring and retainer plate.
Caution:
The manual-operated valve may fall down form the valve.
b. Slide the manual-operated valve to out of lower valve.
c. Pay attention to the angle relationship between the electromagnetic end and valve, remove the solenoid valve and valve
assembly according to the following procedure :
Solenoid valve 1
Solenoid valve 2
Solenoid valve 3
Solenoid valve 4
Solenoid valve 5
Solenoid valve 6
d. Place the valve on the platform with the top upwardly.
e.
Use the model NO.30 Special tools to remove the 24 fixing screw. Lift the upper valve and separating disk to separate the
upper valve form the lower valve
f. Reverse the upper part, place the separating disk on the platform upwardly.
g. Lift the separating disk and washer from the upper valve.
h. Remove 5 exposed nylon detection ball spools of valve.
i. Remove the locking nut disc, spring and reverse lock valve.
j. Remove two cleaners (and large nylon detection ball spool ) from the lower valve.
Caution:
Once the pin is removed, the disc in the valve may be loose and slid form the valve when reverse the valve.
k. Remove the locking nut disc and bolt form 1-2, 2-3, 3-4, BAR,CAR valve; the bolt can be removed by the bolt.
l. Remove the 1-2, 2-3 and 3-4 shift valve.
Caution:
Some valves are pulled by the spring and may fall down form the valve.
m. Press down the plug of 4-3 sequence valve and take out the locking nut disc.
n. Take out the plug, valve and spring.
o. Press down the solenoid valve 5 gate. Remove the fixed pin, valve and spring.
Caution:
The valve is pulled by the spring and may fall down form the valve.
p. Press down the line pressure blow-off valve , then remove the fixed pin, disc (if proper) spring and valve.
q. Take out the roller pin and remove the spring and ball spool detection valve adjacent BAR.
Assembly
The transmission is assembled in the method of module. The detailed assembly process of each module is described in the
following chapter in detail.
Refer to Table 8.1 (end of section 8.3) for the description of used torque specification. The Table 9.10 in section 9.6 describes
the necessary special tools for assembly.
The technician also needs to select the quality Torx tools, especially for the two-screw socket wrench with code of 40, 50,
8mm,10mm and 12mm to detect the transmission completely.
1.Transmission
Caution:
Ensure the BIR retainer is proper for the case (otherwise, the valve will damage the separation disk).
Ensure the E clip is installed on the cross shaft.
Ensure all parts of parking machine can operate normally.
The assembly procedure of transmission is shown as follows:
a.
Place the upper transmission on the platform upwardly and place it on the transmission bracket.
b.
Install all accessories, bolts and bleed devices. Paint the sealant on the sealing place. Tighten all components according
to the specification. Ensure the cleanness of all bleed devices. Ensure the rear oil filling nozzle of housing is correct and
without blocking material. Refer to Figure 8.19.
c.
Assemble the BIR valve and spring; ensure the retainer is installed correctly, refer to Figure 8.10. Ensure the
retainer is fixed in the groove completely.
d. Install the rear servo bar and pin shaft. Refer to Figure 8.11.
Caution: Ensure the crown bar can rotates freely.
Caution:
Figure 8.11 Rear servo bar
Figure 8.12 Parking operating lever
Pay attention to do not coat the sealant between the bolt and crown bar.
e. Install the parking operating lever (as Figure 8.12), including the return spring and shaft pin. Coat the external end of shaft pin
with small sealant.
f. Use the circlip to protect the shaft pin. Pay attention to ensure the operating lever can rotate around the shaft pin freely and
the spring can make the parking operating lever returns to the correct position.
Figure 8.13 Typical parking brake shaft pin and spring
g. Install the parking brake lever pin and spring. Refer to Figure 8.13.Caution: ensure the rake lever can rotate freely.
h. Connect the parking brake lever to the manual-operated valve connecting rod. Shown as Figure 8.14. Ensure the spring and cam
axle ring are installed on the connecting rod fixedly.
i. Check the cam axle ring for smooth sliding on rod.
j. Install the cross shaft in the box in reverse direction of Gear-position sensor, then install the concussion spring on the shaft.
Figure 8.14 Parking lever and manual shaft
Figure 8.15 manual-operated valve brake lever
k. Install the manual-operated valve detent connecting rod (shown as Figure 8.15), align it with the cross shaft hole.
l. Push the shaft by the positioning operating lever, until start from one side of box operating lever.
m. Use the special tools to install the operating lever drive bolt on the shaft, and ensure the adaptor covers the bolt.
n. Press the bolt into the shaft until the tools reaches the bottom.
o. Take out the tools and install the spring fixing ring spring on the shaft
p. Use the tools to install the new cross shaft seal.
q. Install the Gear-position sensor on the box; install the screw according to the specified torque. Use the tools to press the bolt
on the shaft.
r. Check the connection of wire bunch port completely to ensure the normal operation.
s. Install the wire bunch and install the connecting point of solenoid valve 7 and ring flange matched to the pump. Refer to Figure
8.16. The connecting wire of solenoid valve 7 is organized under the parking lever and in box cross shaft.
t. Install the 10-pin connecting socket in the box, ensure the flange of connecting socket matches to the notch on box.
u. Pull out the wire bunch part form the box and prohibition switches; install the 10-pin connecting socket on the wire bunch
bracket (only for rear-wheel drive mode).
Figure 8.17 Installation of 10-pin
connecting plug
Figure 8.16 Connecting position of coil 7
2.output shaft and gear assembly
The assembly procedure of output shaft and gear assembly (Refer to Figure 8.19),is shown as follows:
a. Check the output shaft bush for damage, replace it if necessary.
b. Check the parking detent on the ring gear for damage ; replace it if necessary.
c. Check the sealing ring groove for damage.
d. Use the automatic transmission liquid to lubricate the gasket.
e.
Place the scarfing notch upwardly and install the sealing ring on the output shaft.
f. If has been removed., it should use the ring spring for reinforcement when install the ring gear on the output shaft. Ensure the
ring spring is fixed in the groove.
g. Use the Vaseline oil for lubrication; install the thrust bearing assembly NO.10 on the output shaft.
h. It should be carefully when install the output shaft on the box to avoid the damage of sealing ring.
3. Rear brake belt assembly
The assembly procedure of rear brake belt assembly (Refer to Figure 8.18) is shown as follows:
a. Check the rear brake belt for leakage or damage; check its corresponding bush and metal back .
Figure 8.18 Rear servo and brake belt
b. Install the reaction reinforcement bar on the main box, need not shim.
Caution:
Place the new brake belt in the automatic transmission liquid for about 5 minutes before install it.
c. It should be careful when install the rear brake belt on the transmission. Ensure the brake belt is installed on the correct
position.
d.
Install the application support bar on the rear brake belt, then connect it to the servo motor
bar.
e. Install the cam disc and tighten the screw according to the instruction.
Figure 8.19 Position of thrust bearing and sealing pad
4. Rear servo assembly
Install the rear servo assembly (Refer to Figure 8.18), the procedure is shown as follows:
a. Check the servo piston O-ring and washer for damage.
b. Use the transmission fluid to lubricate the servo piston O-ring and install the O-ring on the piston groove.
c. Install the piston on the housing; ensure the O-ring is compressed to position, but do not excess.
d. Adjust the spring and piston sleeve; then install the rear servo brake bar on the sleeve.
Caution:
Do not coat the washer with the Vaseline.
e. Install the housing installed with washer on the case.
f. Provide the bolt with the Loctite567 sealant and install it; ensure the bolt is tightened according to the specification.
5. Planet carrier assembly and central support
The installation process of planet carrier assembly and central support is shown as follows:
a. Check the bracket and planet assembly for damage or abnormal and ensure all pinion rotates freely and the pinion axle end
floats in the allowable range; described as 9.2.
b. Install the one-way clutch fixing plate on the planet carrier and ensure the internal edge points to the downwardly. Check the
one-way clutch and brake accessory for damage; replace it according to the requirement.
c. Install the external race on the drum. Press sown the ring race to bottom of drum and install the fixing ring spring. Ensure the
ring spring is installed in the groove stably. Refer to Figure 8.20.
d. Install the one-way brake on the external race with the lip upwardly. Use the automatic transmission liquid to lubricate the
brake accessories. Refer to Figure 8.20.
Figure 8.20 planet carrier assembly and central support
e
Check whether the socket has the proper central support, then install the central support on the one-way clutch, ensure the
support can rotate in anticlockwise. Refer to Figure 8.20
f. Use the Vaseline to lubricate the NO.9 needle thrust bearing and thrust washer, and install it on the rear of planet carrier. Refer
to Figure 8.19
g. Install the planet assembly and central support on the box and align the central support installation bolt hole.
h. Install and tighten the central support bolt.
i. Install the ring spring fixing plate; ensure the ring spring is installed in the box correctly.
j. Remove the central support bolt and provide the Loctite243 or similar material for screw; install and tighten the bolt to
specified standard.
6.Ttransmission rear housing assembly
The installation procedure of transmission rear housing assembly is shown as follows:
a. Check the condition of transmission rear housing roller bearing (2WD and Chairman mode), replace it if necessary (rear drive
mode). Install the new bearing form the end of transmission rear housing; only can press the bearing side with mark.
b. Install the new sealing material on the transmission rear housing or adaptor rear housing. Refer to Figure 8.21.
output shaft
o-ring
oil seal
locking nut
oil seal
gasket
needle bearing
connecting housing (4WD)
connecting housing
Figure 8.21 Connecting and extension housing
Caution:
Do not use the Vaseline to fix the washer.
c. Install the transmission rear housing or adaptor rear housing with the new washer.
Caution:
Refer to the description in section 8.3.17 related installation of output flange assembly (rear wheel drive).
d. Install the transmission rear housing (rear wheel drive) or adaptor rear housing (4WD ) and tighten the bolt.
e. Provide the Loctite202 or equivalent sealant to the rear housing or connector and process the installation. Ensure the bolt is
tightened according to the specification. (Refer to Figure 8.1)
7. Front servo assembly
Caution:
Ensure the front servo clamp ring is installed correctly; ensure the ring spring and spark gap points to the bottom. Refer
to Figure 8.22.
The assembly procedure of front servo assembly (Refer to Figure 8.22) is shown as follows:
a. Use the automatic transmission liquid to lubricate the housing O-ring and install it on the housing.
b. Use the automatic transmission liquid to lubricate the housing O-ring and install it on the piston.
c. Install the piston, brake lever, spring, washer, base and fixing ring.
d. Install the piston brake lever assembly on the front servo housing.
e. Install the front servo plug and spring in the box.
f. Install the front servo assembly in the box.
g. Press down the servo housing and install the fixing ring spring of servo housing. Align the spark gap and coil track and ensure
it is installed in the groove properly. Figure 8.22 front servo and brake belt
8. Brake belt assembly
The assembly process of brake belt assembly is shown as follows:
a. Install the reaction reinforcement lever on the housing.
b. Check the brake belt for crack or damage; check the bush and metal back.
c. Install the support retainer on the brake belt (Refer to Figure 8.23).Note that the later transmission modes will not adopt the
support retainer.
Caution:
Place the new brake belt in the automatic transmission liquid for about 5 minutes before install it.
Figure 8.23 Installation of brake belt press lever
d. Install the brake belt on the transmission, ensure it is installed on the correct position.
e. Install the reaction support on the fixing plate and connect it to the brake belt and reinforcement lever. Install the application
support on thea fixing plate and connect it to the brake belt and servo piston bar.
9.C2/clutch C4 assembly
Caution:
Check the piston for crack, especially for piston C2.
Must not mix the clutch piston out and back spring.
Ensure the correct installation of clip ring
The assembly procedure of C2/clutch C4 assembly (refer to 8.24) is shown as follows:
a. Ensure the cleanness of internal oil inlet of cylinder; check the discharge outlet of piston C2 for cleanness; use the transmission
liquid to lubricate the O-ring.
Caution:
The O-ring must not be winded in groove.
Figure 8.24 Typical C2/C4clutch assembly
b. Install the small O-ring in the inner groove; install the large O-ring in the external groove of piston; check the discharge outlet
of C4 piston for cleanness.
c. Use the transmission liquid to lubricate the O-ring; install the small O-ring in the inner groove; install the large O-ring in the
external groove of piston.
d. Make the C2/clutch C4 hole face upwardly; install the clutch cylinder; place the C4 piston in the original position proper for
C2 piston during the calibration..
e. Install the C2/C4 piston assembly on the cylinder; ensure the external hole of cylinder align with the discharge outlet of piston,
until the external diameter of C2 piston enters into the internal diameter of cylinder.
Caution:
The diameter of spring wire bunch is 4.3mm.
f. Install the piston out and back spring on the piston and install the spring fixing plate on the spring.
g. Use the special tools and press down the spring to ensure the installation for fixing ring spring. And ensure the spring is fixed
in the groove tightly, then remove the tools.
h. Check the C1 piston detection valve for damage and free movement. Ensure the cleanness of cylinder oil inlet.
Caution:
Ensure the O-ring is not bent in the groove.
i. Use the automatic transmission liquid to lubricate the O-ring and install it in the respective groove.
j. with the clutch C1 hole upwardly, installs the cylinder. Install the piston into the cylinder until the external diameter of piston
enters into the inner diameter of cylinder.
Caution:
The diameter of wire bunch of spring is 5.26mm.
k. Install the spring and spring fixing plate on the piston. Use the special tools and press down the spring to ensure the
installation of fixing ring spring, then remove the tools.
l. Install the C2 wave washer on the cylinder; ensure one of wave washers cab cover the C2 piston drainage outlet.
m. Measure and record the thickness of C2 sleeve ring flange. Refer to Figure 8.25.
n. Install the clutch C4 disc and wave washer on the clutch C2 sleeve. Ensure the round edge steel disc is disassembled according
to the following sequence:
friction disk
steel disc
friction disk
steel disc
friction disk
Wave washer
C2 pressure disc
clutch C4 load
pressure disc housing load is 3500N
Figure 8.25 C4 clutch assembly
o. Maintain the horizontal position of cylinder , install the sleeve and clutch disk assembly on the cylinder; ensure the top of
washer and external hole of cylinder are in order until the sleeve can contact the C2 wave plate.
Caution:
For the C2 wave spring is compressed and the clutch disk can endure the weight of 19.6N. The dimension form the lower
side of C2 pressure disc to the gear selection steel plate is 1.4 1.8mm. if the clutch need to start the accuracy from the
top of pressure plate, then the accurate value should be the actual size of pressure plate plus 1.4 1.8mm.
p. Use the special tools to check the C4 clutch assembly. Refer to Figure 8.25.
Caution:
It should take out the clutch clearance assembly before immerse the assembly into the automatic transmission fluid
(ATF).
q. Use the gear selection plate to reach the correct specification. If need to install the new friction disk, it should remove the
clutch assembly and immerse the friction disk in the automatic transmission fluid for 5 minutes at least before the installation.
Reinstall the sleeve and clutch assembly and place it in the cylinder. Ensure the wave washer is arranged consisting with the
cylinder hole.
Install the clutch C2 disk in the cylinder according to the following procedure:
friction disk
steel disc
friction disk
steel disc
The steel disc transmission use the G32 model engine; the 5th friction disk should replace the steel disc (reference table 9.3).
steel disc (optional)
friction disk
steel disc (optional)
friction disk
Caution:
For the clutch assembly can endure the weight of 19.6N, the dimension from the clutch C3 wheel axle to the friction disk
should be within 0.80-1.05mm.
r. Use the tool to test the clutch assembly; ensure the weight is in the acceptable range. Refer to Figure 8.26.
C3 hub positioning
clutch C2 loading
Figure 8.26 C2clutch assembly
Caution:
It should take out the clutch clearance assembly before immerse the assembly into the automatic transmission fluid
(ATF).
s.
Use the gear selection plate to reach the correct specification. It should remove the clutch assembly and immerse the friction
disk in the automatic transmission fluid for 5 minutes at least before the installation if install the new friction disks. Lubricate
and install the 3-4 one-way clutch and install the sleeve on the C2 wheel axle. Adjust the handle rear and install the nylon thrust
washer on the C4 wheel axle. Refer to Figure 8.27.
t. Adjust and install the clutch C4 wheel axle on the clutch C2 and one-way clutch assembly. Check the rotary direction of clutch
C2 wheel axle, when keep the C4 wheel axle in static, C2 wheel axle should rotate in clockwise and is locked in anticlockwise.
Refer to Figure 8.27.
u. Use the Vaseline to lubricate the N0.5 thrust bearing and install it on the C4 gear wheel axle ,separate the clutch C2 disc form
the clutch cylinder.
Figure 8.27 C2 hub rotation
v. Install the thrust disc on the cylinder internal wheel axle. Refer to Figure 8.24and 8.19.
w. Connect the C2 /clutch C4 wheel axle assembly in clutch C4 disc, install the clutch C2 disc. Install the C3 wheel axle and
reinforce it by ring spring; ensure the ring spring is installed in the groove fixedly. Please refer to Figure 8.24.
10. Clutch C3 and reverse central gear system
The assembly procedure of clutch C3 and reverse central gear assembly (refer to Figure 8.28) is shown as follows:
Check the cleanness of hole on cylinder.
Figure 8.28 clutch C3 and reverse central gear
b. Check the damage of external diameter and central support diameter of C3 cylinder sleeve. Coat the sealing ring with the
automatic transmission fluid and install it on the C3 cylinder groove.
c. Check the condition of reverse central gear spline, notch and thrust surface; coat the O-ring with transmission liquid and install
it in the reverse sun gear groove. Use the Vaseline to lubricate the C3 washer and install it in the reverse sun gear.
d. Install the reverse central gear in the C3 cylinder; ensure the O-ring is compressed properly but not excess.
Caution:
The O-ring notch can not be bent.
e. Coat the C3 piston O-ring with the transmission liquid and install the small O-ring on the C3 piston inner ring; install the large
O-ring on the C3 piston external ring.
f. Check the piston drainage hole for cleanness and block material.
Caution:
Must not remove the O-ring without permission.
g. Install the C3 piston on the cylinder until the external diameter of piston enters into the inner diameter of cylinder.
h. Install the spring and spring retainer on the piston. Use the tools to press down the spring to install the ring spring better.
Ensure the ring spring is installed in the groove fixedly, then remove the tools.
i. Install the C3 wave plate on the C3 piston surface; ensure the a hole on wave disc of C3 piston surface is not in line with the
piston hole.
j. Install the clutch disk and other disc in the following sequence:
steel disc
friction disk
steel disc (optional)
friction disk
steel disc (optional)
friction disk
k. Adjust and install the pressure disc; make its counterbore is opposite with the clutch disk.
l. Install the ring spring.
Caution:
For the clutch assembly can endure the weight of 19.6N. so the clearance between the screw and top of preset disc should
be 1.20-1.45mm.
m. Use the tools to check the clearance of clutch C3, refer to Figure 8.29. The method is as follows (only use the weights):
Place the weights on the pressure disc and measure the distance between the bottom of cylinder and top of pressure disc.
Record the data.
Remove the weights.
Lift the weights plate and press down the ring spring; measure the distance between the bottom of cylinder and top of
pressure disc
Record the data.
The clutch assembly clearance can be acquired by 1st record minus 2nd record.
Caution:
It should take out the clutch assembly clearance before immerse the assembly into the transmission liquid.
n. It should remove the clutch and immerse the assembly into the transmission liquid for 5 miniatures at least before the
reassembly.
11. front sun gear and clutch C3 assembly
The installation procedure of front sun gear and clutch C3 assembly (Refer to Figure 8.30) is shown as follows:
a. Install the N0.7 needle thrust bearing on the front sun gear ensure the thrust washer is between the bearing and central gear.
b. Use the Vaseline to lubricate the thrust plate and install it on the reverse sun gear. Refer to Figure 8.32.
c. Adjust and install the clutch C3 assembly on the front sun gear.
d. Use the Vaseline to lubricate the NO.6 needle thrust bearing and install it on the thrust disc. Ensure the wire connecting
plate on the bearing external diameter is proper for the hole on the thrust bearing. Refer to Figure 8.33.
e. Adjust and use the Vaseline to install the plastic thrust washer on the thrust disc.
f. Install the assembly on the reverse sun gear in the position opposite to the NO.6 thrust bearing.
g. Install the assembly on the other side.
Figure 8.30 Forward-Gear central gear and C3clutch assembly
12. Clutch C1 overspeed shaft and input shaft assembly
Caution:
a. Ensure the correct installation of snap ring.
b. Check the piston for crack.
c. Must not mix the clutch piston out and back spring.
d. If the connector of clutch C1/ C2 is disconnected form the clutch C3, ensure the NO.6 bearing can not slide down
from the bearing retainer.
The installation procedure of clutch C1 overspeed shaft and input shaft assembly is as follows:
a. Check the overspeed shaft groove for damage.
b. Coat the big and small sealing ring with the Vaseline and install it on the overspeed shaft. It can use few Vaseline to fix the
sealing ring on its correct position.
c. Install the clutch disk and other disc on the cylinder according to the following sequence:
steel plate
abrasion plate
steel plate
abrasion plate
steel plate
steel plate
steel plate (optional)
friction disk
steel plate (optional)
friction disk
Caution:
The clutch assembly can support the weight of 19.6N; the distance form the fixing point of input shaft to the friction disk
is 0.70 0.90mm.
Caution:
It should take out the clutch assembly before immerse the assembly in the transmission fluid.
d. Use the tools to check the clutch assembly clearance. Refer to Figure 8.31. Use the proper selected disc plate to acquire the
correct required clearance.
clutch C1
Figure 8.31 clutch C1 assembly clearance
19.6N load
clutch clearance0.7-0.9mm0.7-0.9mm
input shaft position
e. If need to install the new friction disk, please remove the clutch assembly and immerse the friction assembly into the
transmission fluid for 5 minutes at least before the installation.
f. Check whether the clutch C1 wheel axle is matched with the overspeed shaft. It should replace the wheel axle and wheel axle
assembly if loose.
g. Coat the small nylon thrust insulation plate with the Vaseline and installs it on the overspeed shaft. Refer to Figure 8.19.
h. It should be carefully when install the overspeed shaft on the C1 cylinder to avoid the damage of sealing ring.
i. Use the Vaseline to install the small copper C1 wheel axle thrust washer, shown as Figure 8.19.
j. Check the input shaft for problem. Install the input shaft on the cylinder and use the ring spring to install the wire safety of
input shaft and cylinder. Ensure the coil is in groove completely.
k. Use the petroleum jelly to install the gasket and place it on the input shaft.
l. Assemble the C1/C2/C4 clutch, clutch C3 and sun gear, shown as figure 8.24, 8.32
m. Install the assembly in the transmission case.
Figure 8.32 and 8.33 assembly number: 6 bearing and pressure disc to clutch C3 assembly
13. Pump housing and torque support
Caution:
a. Do not clean the solenoid valve by solvent.
b. Ensure the O-ring is installed in the correct position.
c. Do not blow off the first drop and mix it with the ball spring blowed off by the torque converter. ( only for the condition of
installing the transmission to STD pump housing)
d. Do not damage the line bearing on the assembly; avoid any impact for bearing during the loading.
e. Check the end floating of transmission; it is help for the lose and incorrect assembly of any assembly.
Caution: Figure 8.35 The orientation of crossing part is shown in Figure 8.36 to 8.42.
The assembly procedure of pump housing and torque converter is as follows:
a. Check the pump for damage, chip and abnormity; check whether the sleeve of drive gear is fixed.
b. Wash the pump and pump gear carefully; remove all redundant oil and dirt.
c. Install the pump gear and pump. Use the micrometer to measure the depth from the surface of pump to gear surface. The
measured value is the side clearance of pump. The side clearance should be in the range of 0.020-0.040mm.
d. Remove the pump gear from the pump.
e. If had been removed, please replace the pump sealing. Ensure the cleanness of pump sealing.
f. Use the transmission liquid to lubricate the pump gear, pump, washer and sealing and install the pump gear on the pump.
pump cover assembly
pump housing cover
oil seal
pump assembly
o-ring (pump )
Figure 8.34 pump, cover and torque converter support
g. Use the automatic transmission liquid to lubricate the pump O-ring and
install it on the pump. Place the pump on the other side.
h. Ensure the pump housing cavity and hole are not blocked.
i. Use the automatic transmission liquid to lubricate all loose part before
the installation.
g. Install the primary regulating valve on the pump housing, ensure the
valve slide freely; then install the plug of regulating valve and O-ring.
Refer to Figure 8.36.
k. Install the fixed bolt, install the torque conversion clutch regulating valve,
plug and O-ring. Refer to Figure 8.37
l. Install the fixed bolt. Refer to Figure 8.39
m. Install the torque conversion clutch control valve, spring and O-ring.
Refer to Figure 8.38
Figure 8.35 Assembly of pump cover
n. Install the fixed bolt, shown as Figure 8.39
o. Install the torque converter detection ball spool and spring, shown as Figure 8.41
p. Install the washer on the pump body. Install the housing disc and solenoid wire maintaining cover on the pump housing; ensure
the edge of disc close to the pump housing.
Shown as Figure 8.34, Tighten the bolt according to the sequence of (1-5), shown as Figure 8.42.
Caution:
Check the smooth of wire and connector. To ensure whether the wire and connector have connection and abrasion on the
input shaft or clutch C1/ C2 cylinder; check the wire and connector for over extension.
q. Tighten the screw of solenoid valve 7.Refer to Figure 8.39
r. Install the pump on the pump housing, tighten all bolts; ensure the pump can be washed without pump housing. Tighten
the bolt in certain sequence; shown as figure 8.42.
s. Install the pump on the washer of transfer case of housing.
t. Make the O-ring is proper for the external diameter of pump.
u. Ensure the pump housing hole in main housing is clean and without dirt.
v. Ensure the plastic connector of solenoid valve 7 is installed on the correct position of main housing.
w. Install the pump and pump housing on the input shaft carefully and avoid the damage of gasket spring. Tighten the pump
housing spring. Refer to Figure 8.43 Figure 8.44.
x. Check whether the transmission end float is fixed in the clearance of part 9.2. Refer to It the end float without filling metal plate
is more than that in instruction, then the metal plate should be placed in surface of NO.4 bolt and input shaft bolt. Refer to
Figure 8.19. if the end float is less than 0.5mm or more than 0.8mm; then the transmission can not be installed correctly and
is beyond the specification partly.
Check the end floating by executing the following procedure:
Connect the disc indicator to the front end of the transmission; place the pointer on the end of input shaft.
Apply about 250N or 25kg force on the input shaft.
Zero the indicating pointer.
Install a small lever on rear of the front clutch cylinder.
The recorded measuring value is the end floating value or called as the clearance of No.4 bearing on torque converter
tube support.
After the completion of the process, adjust the front and rear brake belt according to the specification of details in part 8.4.
Figure 8.36 Primary regulating valve
Figure 8.37 Torque converter clutch regulating valve
Figure 8.39 Valve fixing plug and pin
Figure 8.40 Torque converter release ball and spring
Figure 8.41 Position of test ball
Figure 8.42 Tighten the pump bolt in the sequence shown in figure
Figure 8.43 Connect the pump to the housing in the sequence shown in figure
14. Valve
Caution:
a. Must not clean the solenoid valve pipe port by solvent.
b. Pay attention to the position of ball on upper of valve.
c. Pay attention to the position of 1-2 Gear and 3-4 Gear gear shift valve which may be exchanged.
d. Check the 4-3 Gear sequence valve and spring for position.
e. Check the 12mm ball on the lower of valve.
f. It should ensure install the correct pump housing (HPPC). Please must not mix the 1st-Gearlow position ball spool
with the torque converter ball spool .
g. Check the rag of line pressure relief valve and pay attention to replace the iron shim.
h. The hole on the valve is used for fixation and safety and could not be extended.
i. When repair the transmission, it should ensure the solenoid 5 damp coil spring is not broken.
The installation procedure of valve is shown as follows:
a. Use the cleaning solvent (refer to 8.45, 8.46) to wash the upper and lower valve completely and dry it by air; check the valve
cavity, port and hole for damage or block.
b. Install the cushioning baffle positioning bolt and clean all loose parts completely.
c. Check all valves for smooth sliding on its position.
d. Install the proper pump housing, spring and ball. Check the valve and rolling bolt.
e. Install the 1-2 Gear gear shift valve, plug and fixed bolt. Refer to Figure 8.48. Install the 3-4 Gear gear shift valve and fixed bolt.
Refer to Figure 8.49.
Install the 2-3 Gear gear shift valve and fixed bolt. Refer to Figure 8.50. Install the 4-3 sequence valve, spring, plug and fixed
disc.
Refer to Figure 8.51.
f. Install the brake belt action regulating valve (BAR) spring, piston and fixed bolt. Refer to Figure 8-52
g. Install the force and action regulation valve (CAR)spring, piston and fixed bolt. Refer to Figure 8-53
Caution: The aluminum valve is damaged easily.
h. Install the solenoid pressure-supply valve, spring and fixed disc. Refer to Figure 8.54.
i. Install the solenoid valve 6 bolt , spring and fixed bolt.
Figure 8.45 Lower valve
Figure 8.46 Position of upper valve and detection ball
Figure 8.47 solenoid valve 5 and damper
Figure 8.48 1
Figure 8.49 3
2gear shift valve
4 gear shift valve
Figure 8.50 solenoid 2 and 2
Figure 8.51 4
3gear shift valve
3sequence valve
Figure 8.52 brake belt combination regulating valve and solenoid 4
Figure 8.53 clutch combination regulating valve and solenoid 3
Figure 8.54 solenoid combination valve and solenoid 6
Figure 8.55 reverse lock valve
j. Position the 3rd feed ball (large nylon ) on the valve and solenoid supply valve filter, shown as Figure 8.54.
k. Check the separating disk for abrasion, repair or replace if necessary.
l. Check the washer of upper and lower valve for damage, replace it if necessary
m. Install the upper shim of lower position valve.
n. Install the reverse lock valve, spring and fixed disc; ensure the correct installation of valve; shown as Figure 8.55.
o. Install 5 nylon balls on the upper valve, shown as Figure 8.46. Install the upper valve shim; install the separating disk on the
upper valve.
p. Lift the separating disk to the upper valve; prevent the detection ball from falling ; install the upper valve on the low pressure
valve. Tighten all screws. Refer to Figure 8.56.
Figure 8.56 The tighten sequence of valve bolt from upper to lower
q. Install the solenoid valve 1, 2, 3, 4 and 6. Ensure the solenoid valve is clamped by the clip tightly and the bolt is tightened to
the specified torque.
Caution:
The wire harness ground wire port is protected by the solenoid valve fixing plate
r. Install the solenoid valve 5. Ensure the solenoid valve close to valve through the clip.
s. When install the valve with line pressure relief valve, it should install the tapering port of line pressure relief valve, then install
and fix the spring and disc.
t. Install the pin spring; ensure the screw is tightened to the specified torque. Check the damaged spring.
u. Install the manual gear shift valve .Refer to Figure 8.57.
Figure 8.57 Manual gear shift valve
v. It should ensure the position lever is in the position of manual 1st-Gear before install the valve on the transmission.
w. Adjust the valve on the transfer case and install the connection of manual-operated valve steering column and manual-operated
valve. Make the long end of connecting object is proper for the 1st manual-operated valve. Install the protecting spring and
tighten it according to the specification. Refer to Figure 8.58.
x. Check the positioning drum and manual-operated valve .
Caution:
All hardware must be installed and meet the specification.
y. Connect the wire of connecting solenoid according to the following details:
Solenoid valve 1
Solenoid valve 2
red
blue
Solenoid valve 3
Solenoid valve 4
yellow
orange
Solenoid valve 5
Solenoid valve 6
green
purple
Refer to Figure 8.58.
Figure 8.58 Tighten sequence of bolt form valve to box
15. Installation of oil filter and oil bottom shell
Caution:
a.
It should replace the filter when a important mechanical component is damaged and assemble a transmission.
b.
To assist the assembly of sealing gasket groove, please coat the surface of oil pan and washer with thin Vaseline to
ensure the sealing gasket is in the groove. Do not rotate the washer, otherwise it will cause the distort or incline of
groove.
Figure 8.59 Bushing of engine oil filter
Figure 8.60 Installation of engine oil filter
Figure 8.61 Tightening sequence of oil pan bolt
It should abide by follows when assemble the oil filter and oil sump tank (Refer to Figure 8.59and Figure 8.60):
a. Use the automatic transmission liquid to lubricate the spring ring of gasket of lubrication oil.
b. Install the oil filter on the valve carefully. During the installation, the socket must be inclined. Refer to Figure 8.59.
c. Fix the oil cleaner assembly.
d. Check whether the magnet is installed in the recess on the corner of oil bottom shell.
e. Assemble the groove on the oil bottom shell. The groove must be bent during the installation.
f. Make the installation of oil bottom shell is proper for transfer case and the tighten the safety valve according to the
specification and sequence (Refer to Figure 8.61). do not distort it.
16.Torque converter and support sleeve assembly
Install the hydraulic torque converter and housing assembly, the procedure is shown as follows:
a. Install the hydraulic torque converter housing on the main case.
Caution:
All hardware should be installed correctly and comply with the specification.
b. Use the Loctite243 or equivalent to fix the torque converter housing; install and tighten it to standard specification.
c. Install the torque converter; ensure the pump gear sealing is installed correctly.
17. Rear wheel drive mode of output ring flange assembly
Assemble the output shaft assembly, the procedure is shown as follows:
a.
Place the paw of transmission operating rod on the parking position and lock the output shaft.
b. Wash the output shaft upper line; use the loctite243 or equivalent.
c. Install and tighten the ring flange, O-ring and nut.
Caution: In the heavy steel slide plate, place the ring flange on the upper nut; avoid the damage of bearing.
d. Tighten the nut on the output shaft
T o r q u e ty p e
s p e c ific a tio n
N .m
F t/lb
tra n s m is s io n a s s e m b ly
to r q u e c o n v e r te r h o u s in g to
h o u s in g
M 12× 32
4, 8or 9
5 4 -6 8
4 0 -5 0
r e a r e n d h o u s in g to h o u s in g
-C h a ir m a n
M 12× 32
4
5 4 -6 8
4 0 -5 0
C o n n e c to r h o u s in g to h o u s in g
-4 W D
M 8× 25
10
3 5 -4 0
2 6 -3 0
r e a r e n d h o u s in g to h o u s in g
-2 W D
M 8× 25
10
3 5 -4 0
2 6 -3 0
r e a r s e r v o c o v e r to h o u s in g
M 8× 25
6
3 0 -3 5
2 2 -2 6
O il p a n to h o u s in g
M 6× 16
9
4 -6
3 -4 .5
2
4 0 -4 5
2 9 .5 -3 3
O il c o o le r p ip e c o n n e c tio n
V a lv e t o h o u s in g
M 6× 26
7
8 -1 3
6 -9 .5
V a lv e t o h o u s in g
M 6× 45
5
8 -1 3
6 -9 .5
B r a k e b a r s p rin g
M 8× 16
1
2 0 -2 2
1 5 -1 6
c e n tra l s u p p o rt to h o u s in g
M 10× 34
2
2 0 -2 7
1 5 -2 0
C a m d is c to h o u s in g
M 8× 16
2
1 6 -2 2
1 2 -1 6
G e a r -p o s itio n s e n s o r to
h o u s in g
1 0 -2 4 × 1 3
2
4 -6
3 -4 .5
O u tp u t s h a f t lo c k n u t
M 2 4 × 1 .5
1
1 0 0 -1 1 0
7 4 -8 1 .5
o il fillin g p lu g
M 20
1
3 0 -3 5
2 2 -2 6
P u m p h o u s in g a s s e m b ly
P u m p to p u m p c o v e r
M 8× 55
5
2 4 -2 7
1 8 -2 0
P u m p c o v e r to h o u s in g
M 8× 40
6
2 4 -3 4
1 8 -2 5
P u m p c o v e r to h o u s in g
M 8× 58
2
2 4 -3 4
1 8 -2 5
P u m p c o v e r d is c to p u m p
cover
M 6× 16
5
1 3 -1 6
9 .5 -1 2
P u m p c o v e r d is c to c re s c e n t
M 6× 54
1
1 3 -1 6
9 .5 -1 2
U p p e r v a lv e to lo w e r v a lv e
M 6× 30
24or 25
1 1 -1 6
8 -1 2
L in e s o c k e t
M6
1
4 -7
3 -5
s o le n o id v a lv e ( o n /o f f ty p e
a n d V P S , in c lu d in g S 7 )
M 6× 16
7
8 -1 2
6 -9
V a lv e a s s e m b ly
Table 8.1 Torque specification
Adjustment of front and rear brake belt
1. Setting procedure of brake belt
The setting procedure of brake belt is shown as follows:
a. For the calculating method of front servo mechanism thrust lever refer to Figure 8.62, dimension; standard A.
.Allow the air pressure is in 650/700kPa in the operating area of front servo mechanism (external of B1), (refer to
Figure 8.63).
. The forward dimension of thrust lever minus 3mm.
Dimension requirement for selection of shim:
Caution:
The small shim requires that the shim size is 1mm always; the available thickness is listed in Table 8.2.
. Release air.
b. Proper shim to end of thrust lever pole.
Check the shim for damage, worn or corrosion; replace it if necessary.
The shim is installed on the support surface between the transmission and pole flange, refer to Figure 8.62.
Install the shim by hand, and not the hammer or pressure.
Press the shim by hand until has the click the noise. The noise means the shim is clamped by the housing correctly.
c. Recheck the stroke of thrust lever 3mm
0.25mm.
2. Setting procedure of rear brake belt
The setting procedure of rear brake belt is shown as follows:
a. The setting of distance A is form the back surface of servo piston to inner surface of transmission, use the vernier caliper. Refer
to Figure 8.64.
A allows the air pressure of 650/700kPa is in the front servo mechanism operating area (external of B2), (refer to Figure
8.63).
Deduct 3.75mm from the movement of piston and use the 2.5 mm shim to divide the rest distance.
Caution:
The small shim requires that the shim size is 1mm always; the available thickness is listed in Table 8.2.
. Release air.
b. Select the proper shim for end of thrust lever pole.
Check the shim for damage, worn or corrosion; replace it if necessary.
The shim is installed on the support surface between the transmission and pole flange, refer to Figure 8.64.
Install the shim by hand, and not the hammer or pressure.
Press the shim by hand until has the click the noise. The noise means the shim is clamped by the housing correctly.
c.
Recheck the stroke of piston for 3.75mm
thickness
0.625mm.
Component No.
thickness
Component No.
Table 8.2 Effective thickness of shim
Figure 8.62 Setting of brake belt
Figure 8.63 External port position of B1 and B2
Figure 8.64 Setting of rear brake belt
Oil filling procedure
According to the procedure described in 7.2.
Specification and special tools
Type and specification
hydraulic torque converter
maximum torque multiplier factor
179K
stalled speed (80 to 100 ℃ rpm)
(179K torque converter )
Gear ratio
First gear
Second gear
Third gear
Fourth gear
Reverse gear
Specification
2.00:
1
2090
2.393:1
1.450:1
1.000:1
0.677:1
2.093:1
Lubricant
type
dry system
alternative of maintenance
Castrol TQ95
9.0 L (approximation)
4.5L (approximation)
Axial movement of gear assembly
0.50-0.65 mm
Fixed pinion axle movement
0.10-0.50 mm
Table 9.1- Type specification
Pressing factor of clutch
0588-000001
C1
structure (friction disk )
steel
5
5 (2)
C2
structure (friction disk )
steel
5
4 (2)
C3
structure (friction disk )
steel
C4
structure (friction disk )
steel
4
4 (2)
3
4 (1)
Table 9.2 Shifting point of clutch assembly details
Shifting point
Opening
degree
throttle
position
Shifting
1/2
2/3
of
3/4
4L
Opening
shifting
degree of 1/2
2/3
throttle
position
3/4
4L
0%
10
20
34
63
0%
14
26
41
87
40%
26
47
82
95
40%
30
56
76
113
100% (WOT)
53
93
126
150
100%
(WOT)
53
94
127
152
decreasing
55
89
137
152
decreasing 55
96
137
152
Table 9.3- Shifting point-km/h
Maximum speed of typical Gear-decreasing of vehicle
The Gear-decreasing will be disabled when beyond the following speed.
Gear-decreasing type
Speed point for disable of Gear-decreasing
Manual 2-1
In 59 km/h
Manual 3-2
89 km/h
Manual 4-3
119 km/h
Manual 4-2 (4-2 direct)
68 km/h
Manual 4-2 (sequence of 4-3-2)
89 km/h
Figure 9.4 - Special tools for maximum disable speed of manual Gear-decreasing
Special tools
tools
Part No.
Platform bracket of transmission
oil pump remover
Cross shaft disassembly /installation
(brake lever)
clutch spring compressing tools
clutch assembly clearance positioning tools
Shaft end floating connector
Shaft end floating measuring tools
cross shaft seal disassembly tools
cross shaft seal installation tools
Pump sealing installation tools
Sealing ring expander extender /compressor
Cross shaft lever disassembly /installation
(disable switch)
solenoid valve /electric heating regulator,
electric meter
solenoid valve, platform meter
Assembly ball spool
Sealing gasket disc
Figure 9.5 Special tools
Annex
Description for oil inlet hole of main housing
Chapter 6
Drive shaft
Cautions
Do not clamp the drive shaft bushing too tightened by the bench
vice to avoid the deformation.
failure
Noise
vibration
Possible causes
Method
The spline of universal-joint fork is worn
The intermediate bearing is worn
The cross-axle bearing is worn or jammed
Replace the universal-joint
fork
Replace
the
intermediate
bearing
Replace the cross-axle bearing
Runout of drive shaft
Unbalance of drive shaft
The rear bearing bushing of transmission
extended housing is worn
The spline of universal-joint fork is jammed
Replace the drive shaft
Replace the drive shaft
Replace the bushing
Replace the universal-joint
fork
universal-joint fork
front section of
rear axle propeller
shaft
universaljoint fork
circlip
rear section assembly of
rear axle propeller shaft
intermediate support assembly
N
m:
shim
Specified torque
nut
cross-axle assembly
Front axle propeller shaft (4WD) assembly
flange fork
circlip
cross-axle assembly
front axle drive shaft assembly
N
m:
Specified torque
axle tube assembly
Rear axle propeller shaft (4WD) assembly
cross-axle
assembly
universal-joint fork
drive shaft axle
pipe assembly
N
m:
Specified torque
circlip
flange fork
Disassembly of drive shaft:
Remove the intermediate support bolt of drive shaft firstly (CC6460KY
is without intermediate support connecting bolt ), then remove the
connecting bolt between the drive shaft and rear axle , lastly, pull out
the drive shaft assembly from the transmission output spline shaft and
remove it in integral.
transmission
drive shaft assembly
rear axle assembly
front axle drive shaft assembly
rear axle assembly
transmission
transfer case
rear axle drive
shaft assembly
Installation of drive shaft:
1. Firstly, check the drive shaft for damage, spline for corrosion
and connecting surface for deficiency of damage or sand hole by
itself.
2 Install the connecting spline bushing of drive shaft on the
transmission output spline shaft carefully; then install the drive
shaft intermediate support on the intermediate support bracket
ofcarriage.
3. Use the special drive shaft bolt, nut and spring shim to connect
the drive shaft to the vehicle axle ring flange and tighten it. The
tightening torque is 78 5N m
4. Tighten the drive shaft intermediate support nut, the tightening
torque is 63 5N m (the front and rear drive shaft in
CC6460KY model are the integral and has the installation
content)
Chapter 7
Suspension and vehicle axle
Rear suspension …………………………………112
Troubleshooting
Failure
Cause
The tyre is worn or charged improperly.
Repair content
Charge the tyre to the proper pressure or
replace the tyre.
The front wheel alignment is incorrect.
Check the condition of front wheel
alignment.
Floating/pulling
Subsidence of vehicle body
Left-right swing/up-down
bounce
The wheel bearing is adjusted too tightened.
Adjust the wheel bearing
The front /rear suspension components is loose or
Tighten
damaged
partTighten
The steering linkage is loose or worn
linkage
The steering device is connected unsound or worn.
Adjust or replace the steering device
Overload of vehicle
Check the load weight
vibration damper is worn
Replace the vibration damper
spring is weak
Replace the spring
The tyre is charged improperly
Charge the tyre to the proper pressure
The stabilizer bar is bend or damaged
Replace the stabilizer bar
The vibration damper is worn
Replace the vibration damper
The tyre is worn or is charged improperly
Replace the tyre or charge it to the proper
or
replace
or
the
replace
suspension
the
steering
pressure.
Front wheel vibration
Abnormal abrasion of tyre
Unbalance of each wheel
Balance all wheels
The vibration damper is worn
Replace the vibration damper
The front wheel alignment is incorrect
Check the condition of front wheel
alignment
The wheel bearing is worn or adjusted badly
Replace or adjust the wheel bearing
The ball joint or bushing is worn
Check the ball joint or bushing
The steering system is loose or worn
Tighten or replace the steering linkage
The steering mechanism is adjusted badly or damaged
Adjust or repair the steering device
The tyre is charged improperly
Charge the tyre to the proper pressure
The vibration damper is worn
Replace the vibration damper
The front wheel alignment is badly
Check the condition of front wheel
alignment
Oil leakage of differential
The suspension part is worn
Replace the suspension part
High oil level or incorrect oil grade
Drain the oil to the specified level or
replace the oil
The oil seal is worn or damaged
Replace the oil seal
The matching flange is loose or damaged
Tighten or replace the flange
The oil grade is low or incorrect
Fill with the lubrication oil or replace the
oil according to the specification
The clearance of the pinion, ring gear or side gear is
Check the clearance
large.
The axle has the noise
The ring, pinion gear or side gear is worn or broken
Check each gear
The pinion gear bearing is worn
Replace the bearing
The bearing of rear axle half shaft is worn.
Replace the bearing
The differential bearing is loose or worn
Tighten or replace the bearing
Front wheel alignment
1. Process the following inspection and eliminate
all problems
a. Check the wear condition of tyre and proper inflation.
Tyre inflation pressure: 230kPa
b. Check the wheel bearing of front wheel for loose.
c. Check the front suspension for loose.
d. Check the steering drive device for loose.
e. Process the standard elastic test; check thefrontvibration damper
for normal operation.
2. Adjust the height of car
A:Adjust the height of car to the standard value for theconvenience of
processing the front wheel alignmentinspection.
B: Front fixed bolt of lower suspension arm
The standard no-load height is: the center of front fixed boltof lower
suspension arm is 295
1mm away form theground.
3. Install the 4-Wheel alignment instrument
Processed according to the detailed description of equipment
manufacturer.
4. Adjust the wheel angle
Remove the cover of spacing bolt of steering knuckle; check the internal
wheel’s steering angle A.
Internal wheel’s steering angle:
32
Caution: The wheel should not touch the brake hose of car body
when the steering wheel is rotated to limit.
6. Adjust the wheel toe
Adjust the wheel toe according to the following method
a. Shake the car upwardly and downwardly to make the suspension
reach the stable status.
b. Push the car forwardly for 5m in flat ground when the front
wheel is in the straight forward position.
c. Mark the center of each rear wheel; measure the distance “B”
between the marks of left and right tyre.
d. Push the car forwardly to move the mark on the back of tyre to
the position of front instrument.
Remarks: if the tyre moves too far, repeat the procedure (b).
e. Measure the distance “A” ‘between the marks on front of tyre.
f. Measure the toe of wheel.
toe =B-A
Inspection standard: 0-2mm
If the toe does not consist with the specified value, it can be
adjusted by the left and right draw-bar.
Move the vehicle forwardly
g. Adjustment of toe: the standard value is 0 2mm. The toe is
adjusted by rotating the cross draw-bar. When adjust the toe, it
should rotate the cross draw-bar on left and right side uniformly.
After the adjustment, tighten the lock nut, the tightening torque
is 55
65N
m.
h. Check the sideslip
Sideslip: Within
5m/km
Front hub and steering knuckle (2WD)
stabilizer bar
spring shim
brake caliper assembly
upper suspension arm
flat shim
split pin
connecting rod
of stabilizer bar
steering knuckle
tight nut
lock washer
flat shim
lower suspension arm
disk shim
fill block
shim
fill block
disk shim
screw
split pin
absorber
spring shim
brake cover
oil seal
bearing
hub and brake disc
N
m: specified torque
Used component which can not be used any more
precoated component
bearing
hub cap
Front hub
Disassembly of front hub
1. Remove the disc brake
Remove the brake caliper and hang it by steel cable.
Remarks: Do not remove the brake pipe and brake hose.
2. Remove the hub cap
Use the inner hexagon spanner to screw off the fastening blot and
remove the hub cap.
3. Remove the hub and brake disc
a. Use the Philips screwdriver to screw off the lock screw and
remove the lock washer.
b. Use the special tools to remove the lock nut.
special tools
c. Remove the hub and brake disc with the external bearing.
4. Remove the oil seal and inner bearing
a. Use the screwdriver to pry out the oil seal.
b .Remove the inner race of inner bearing from the hub.
Check and repair of front hub
1. Check each bearing
Wash the inner and outer race of each bearing and check them for
damage or wear.
2. Replace the bearing outer race
a. Use the brass bar and hand hammer to knock out the bearing outer
race.
b. Use the special tools to knock in the new bearing outer race.
special tools
diagram of special tools
Assembly of front hub
1. Coat the inner surface of hub and bearing outer race
with the grease.
grease
The grease is the Jin HP-R grease or the grease met the requirement in
following table.
Item
Typical data
Dropping point, C
289
Leakage amount (104 C, 6h), g
0.48
EP performance OK value , N
178
grease
2. Place in the bearing inner race; use the fill the gap
between the inner and outer race of the bearing up
with the HP-R grease.
grease
3. Install the inner bearing and oil seal
a. Place the inner bearing in the hub.
diagram of special tools
b. Use the special tools to knock the new oil seal into the hub.
c. Coat the oil seal lip with HP-R grease.
special tools
4. Install the hub on the steering knuckle
a. Install the hub on the steering knuckle.
b. Install the external bearing.
5. Adjust the pre-applied load
diagram of special tools
a. Use the special tools to screw on the locknut to specified torque.
Tightening force: 80-100N m
b. Rotate the hub to right and left 1/3 1/4 round respectively.
c. Screw off the nut until the nut can be loosed by hand.
d. Use the special tools to retighten the lock nut.
special tools
Tightening force: 28N
m
e. Use the spring tension meter to check the pre-applied load.
Pre-applied load (for starting): 28-56N
Remarks: If the screw installation hole on the lock washer can not
align with the screw hole on the lock nut, then it can remove the lock
washer and adjust he lock nut slightly (rotate in the direction of
Min. adjusting range ); then install the lock washer.
7. Recheck the pre-applied load
Use the spring tension meter to recheck the pre-applied load.
Pre-applied load (for starting): 28-56N
If the pre-applied load does not meet the specified value, it must remove
the lock washer and adjust it by the adjusting nut.
8. Install the hub cap
a. Coat the silicon rubber surface sealant on the matching surface of
hub and hub cap.
b. Coat the screw of the inner hexagon bolt with the screw lock sealant.
c. Use the inner hexagon bolt to fix the hub cap and ring flange on the
hub; tighten the bolt to the specified torque.
Tightening force: 45
5N
m
9. Install the disc brake
Install the disc brake on the steering knuckle and tighten the bolt to the
specified torque.
Tightening force: 140
10N m
Steering knuckle
Disassembly of steering knuckle
1. Remove the disc brake and front hub
(Refer to section “Front Hub”)
2. Remove the brake cover
3. Disconnect the steering cross rod from the steering
knuckle arm
a. Remove the split pin and nut on the ball pin.
special tools
4. Disconnect the connecting rod of stabilizer bar from
lower arm
Use the inner hexagon spanner to fix the ball pin; remove the selflocking nut.
5. Remove the steering knuckle
a. Remove the split pin and nut on the upper ball pin
special tools
b. Use the special tools to disconnect the steering knuckle from the
upper ball pin.
c. Remove the split pin and nut on the lower ball pin.
d. Use the special tools to disconnect the steering knuckle from
the upper ball pin.
e. Remove the steering knuckle.
special tools
Check and replacement of steering knuckle
Use the dye penetrant to check the steering knuckle for
crack.It should replace the steering knuckle if has crack.
Installation of steering knuckle
1. Install the steering knuckle
a. Install the lower ball pin on the steering knuckle and install the
slotted nut temporarily.
b. Press down the upper arm and connect the upper ball pin to the
steering knuckle. Install and tighten the nut to the specified torque.
Tightening force: 145
15N
m
c. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole
when install the split pin; the nut can be tightened but not
loosed during the alignment.
Tightening force: 230
20N
m
e. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole
when install the split pin; the nut can be tightened but not
loosed during the alignment.
Tightening force: 63
5N
m
3. Connect the steering cross rod to the steering
knuckle arm.
a. Tighten the slotted nut according to the specified torque.
Tightening force: 170 15N m
b. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole
when install the split pin; the nut can be tightened but not
loosed during the alignment.
Tightening force: 23
3N m
5. Install the front hub and disc brake
(see section of front hub)
Front suspension (2WD)
shim
upper arm shaft
upper arm bush
front stabilizer bar
upper arm bush
shim
upper arm shaft
rubber cover
clip
upper ball pin
flat shim
split pin
lower arm long bush
connecting rod of
stabilizer bar
rear shaft of lower arm
torsion bar
flat shim
torsion bar base
upper adjusting block
front shaft of
lower arm
lower arm
short bush
fixed arm
eccentric shim
lower arm
lower adjusting block
disk shim
fill block
fill block
shim
disk shim
lower ball arm
split pin
shock absorber
front wheel hub
and steering
knuckle assy
N
m: specified torque
Used component which can not be used any more.
Pregummed component N m: specified torque
adjusting bolt
Ball pin
Inspection of ball pin
1. Check the lower ball pin for loose
a. Raise the front of the car by jack and support it by the frame.
b. Ensure the front wheel is in straight advancing position and
step down the brake pedal.
c. Move the arm upwardly and downwardly; check the
clearance of lower ball pin.
Max. vertical clearance: 0mm
2. Check the upper ball pin for loose;
move the wheel upwardly and downwardly and check the gap of
upper ball pin.
Max. vertical clearance: 0mm
3. Check the rotation of ball pin
a. Remove the ball pin.
b. Shown as figure, shake the ball pin stud forwardly and
backwardly for several times before install the nut.
c. Rotate the nut continuously by torsion meter and 2-4s for a
cycle; record the readout of torsion meter in the fifth cycle.
tightening torque (for rotary):
lower ball pin 0.1
4N m
upper ball pin 0.1
4N m
Disassembly of ball pin
1.Take down the steering knuckle and front wheel hub assy.
Disassembly of ball pin
(Refer to section “Front Hub and Steering Knuckle”)
2. Remove the lower ball pin form the lower arm
3. Remove the upper ball pin from the upper arm.
Installation of ball pin
1. Install the upper ball pin on the upper arm
Tightening force: 78
5N
m
2. Install the lower ball pin on the lower arm
Tightening force: 140
10N m
3. Install the steering knuckle and front hub assembly
(Refer to section Front Hub and Steering Knuckle)
Torsion bar spring
Disassembly of torsion bar spring
Installation of torsion bar spring
Caution: There are the L and R indication marks, which must
not be exchanged on the read end of the torsion bar spring.
Mark L means the left andRforright.
1. For reused torsion bar spring
a. Coat thin grease on the spline of torsion bar spring.
b. Align the assembly mark, install the torsion bar spring on the
torsion bar.
c. Align the assembly mark; install the adjusting arm onthtorsion
bar spring.
d. Tighten the adjusting bolt to make the extension length of the bolt
equal to the length before remove.
2. For new torsion bar spring
a. Remove the wheel.
b. Coat thin grease on the spline of the torsion bar spring.
c. Install the torsion bar spring on the torsion bar base.
d. Lower the lower arm to the lower limitation position; install the
adjusting arm in the torsion bar spring with the angle that the
adjusting bolt just can be screwed on the upper adjusting block.
e. Tighten the adjusting bolt to the specified torque.
Nut tightening limitation: A is about 30-35mm; if A>
35mm, then it is adjusted through height of adjusting arm.
f. Install the wheel; remove the bracket; bounce the vehicle for
several times to make the suspension enters into the stable
status.
g. Rotate the adjusting bolt and adjust the ground clearance of
chassis (Refer to 4-Wheel Alignment).
Lower suspension arm
Removal of lower suspension arm
1. Disconnect the connecting rod of stabilizer bar
from the lower arm
a. Use the jack to support the lower arm.
b. Remove the connecting nut; disconnect the connecting rod of
sta bilizer bar form the lower arm.
2. Disconnect the vibration damper from the lower
arm.
3. Disassembly of torsion bar spring
(Refer to Section “Torsion Bar Spring”)
special tools
5. Remove the front shaft of lower arm
a. Make the mark on the adjusting cam.
b.Remove the nut and front shaft of lower arm.
6. Remove the rear shaft of lower arm
Screw off the nut; remove the rear shaft of lower arm shaft; remove the
lower suspension arm.
Replacement of lower suspension arm bush
1. Removal of short bush of lower suspension arm
Use the special tools to press the short bush from the lower arm.
special tools
2. Installation of short bush of lower suspension arm
Use the special tools to press the new short bush in the lower arm.
Remarks: Do not coat the bush with the grease.
special tools
3. Removal of long bush of lower suspension arm
Use the special tools to remove the long bush.
special tools
4. Installation of longbushoflowersuspensionarmUse
the special tools to install the new bush.
Remarks: Do not coat the bush with the grease.
special tools
Installation of lower suspension arm
1. Installation of lower suspension arm
a. Install the rear shaft of lower arm and tighten the nut to the
specified torque.
Tightening force: 290 25N m
b. Install the front shaft of lower arm and screw on the nut
temporarily.
2. Installation of front hub and steering knuckle
assem bly
(Refer to section “Front Hub and Steering Knuckle”)
3. Install the vibration damper on the lower suspension
arm.
Install the vibration damper on the lowersuspensionarmbracket.
Tightening force: 90
10N m
4. Connect the stabi lizerbar to the lower suspension
arm
Tightening force: 63
5N
m
5. Install the torsion bar spring
(Refer to “Torsion Bar Spring”)
6. Tighten the nut of front shaft of lower arm to
specified torque
a. Install the wheel, remove the bracket and bounce the vehicle for
several times to make the vibration damper enters into the
stable status.
b. Align the assembly mark and tighten the nut to specified torque.
Tightening force: 240
20N m
7. Check the wheel alignment parameter
(Refer to 4-Wheel Alignment)
special tools
Upper suspension arm
Disassembly of upper suspension arm
1. Disconnect the upper ball pin from the steering
knuckle
Remove the split pin and nut; use the special tools to disconnect
the upper ball pin from the steering knuckle.
2. Remove the brake oil pipe on the upper arm shaft
a. Use the open-end wrench to screw off the oil pipe tight nut.
b. Pull out the brake oil pipe and plug it by the rubber plug.
Remarks: There are two two-way valves for rear brake oil pipe
beside the right upper arm shaft ; when remove the right
upper suspension arm, it must remove four oil pipe tight nuts
in the place and plug it by the rubber plug to prevent the brake
fluid from overflowing.
3. Disconnect the brake hose form the brake caliper
Remove the hollow bolt and disconnect the brake hose form the
brake caliper
Remarks: Must not lose the copper gasket seal.
4. Disconnect the brake hose from the upper arm oil
pipe bracket.
Use the pliers to pull out the sheet steel spring clip and disconnect the brake hose from the upper arm oil pipe bracket.
5. Remove the upper suspension arm
Remove two bolts and remove the upper suspension from the
arm carriage.
Remarks: Keep the adjusting shim and don’t lose it. Record
the thickness of front and rear adjusting shim for convenience
of reinstalling them in the original position.
Replacement of upper arm bush
1. Remove the bush
a. Remove the bolt and washer.
b. Use the special tools to push out the bush.
c. Remove the upper arm shaft; remove another bush in same procedure
special tools
2. Install the bush
a. Use the special tools to press in the bush.
special tools
b. Install the upper arm shaft; use the special tools to press inanother
bush.
special tools
3. Tighten the upper arm shaft to specified torque.
a. Coat the screw of both ends of upper arm shaft with the screw
lock sealant; install the washer and nut.
Remarks: Adjust the position of upper lower; make the installation plane of ball pin is vertical to the installation plane of upper
arm shaft.
b. Tighten the upper arm shaft nut to specified torque.
Tightening force: 210
10N m
Installation of upper suspension arm
1. Install the upper suspension arm on the carriage
a. Install the upper suspension arm and camber adjusting shim.
b. Tighten all bolts to the specified torque.
Tightening force: 200 10N m
Remarks: Install the shim with same quantity and thickness to
the original position.
2. Connect the brake oil pipe of upper arm shaft
Tighten the oil pipe compression nut to specified torque.
Tightening force: 15-17N m
Remarks: It should tighten four connector of two two-way
valves to the specified torque if disassemble the right upper
arm.
3. Connect thebrakehosetotheupperarmoilpipebracket
a. Thread the brake hose from the hole on upper arm oil pipe
bracket.
b. Use the hand hammer to knock in the sheet steel spring clip to
fix the brake hose.
4. Connect the upper ball pin to the steering knuckle
a. Tighten the slotted nut according to the specified torque.
Tightening force: 145 15N m
b. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole
when install the split pin; the nut can be tightened but not
loosed during the alignment.
Connect the copper gasket seal and tighten the hollowbolttospecified
torque.
Tightening force: 50
5N
m
6. Discharge the air in front brake system
(refer to relevant chapter)
Remarks: It must discharge the air in the rear brake system if
disassemble the right upper arm.
7. Check the brake fluid for leakage
8. Tighten the upper arm front shaft nut to the specified
torque
Install the wheel, remove the bracket and bounce the vehicle for
several times to make the vibration damper enters into the stable
status.
9. Check the wheel alignment parameter
(Refer to 4-Wheel Alignment)
Stabilizer bar
Disassembly of stabilizer bar
1. Disconnect the connecting bar which supports both
ends of the stabilizer bar form the stabilizer bar.
Use the inner hexagon spanner to fix the ball pin; remove the selflocking nut.
2. Remove the bush and clip of stabilizer bar; remove
the stabilizer bar
Installation of stabilizer bar
1. Install the stabilizer bar on the carriage
Place the stabilizer bar in position; install the stabilizer bar bush
and clip on the carriage. Screw on and pretighten the bolt.
2. Connect the stabilizer bar to the connecting bar
Installand tighten the new nut to the specified torque
Tightening force: 63
5N
m
3. Tighten the clip position bolt to specified torque.
Tightening force: 23
3N
m
Front hub and steering knuckle (4WD)
stabilizer bar
spring shim disc brake
upper suspension arm
flat shim
drive shaft
split pin
connecting rod
of stabilizer bar
oil seal
steering knuckle
lock nut
flat shim
screw
lower suspen-
needle
sion arm
bearing
lock washer
split pin
disk shim
fill block
Shim
fill block
lock washer
disk shim
shock absorber
spring shim
brake cover
oil seal
bearing
flange
bearing
circlip
hub and brake disc
adjusting washer
hub cap
N
m:
specified torque
Used component which can not be used any more.
precoated component
Front hub
Disassembly of front hub
1. Remove the disc brake
Remove the brake caliper and hang it by steel cable.
Remarks: Do not remove the brake pipe and brake hose.
2. Remove the hub cap and flange
a. Use the inner hexagon spanner to screw off the fastening blot
and remove the hub cap.
b. Use the pliers to remove the circlip and remove the adjusting
washer.
c. Remove the flange.
3. Remove the hub and brake disc
a. Use the Philips screwdriver to screw off the tight screw;
remove the lock washer.
special tools
b. Use the special tools to remove the lock nut.
diagram of
special tools
c. Remove the hub and brake disc with the outer bearing.
4. Remove the oil seal and inner bearing
a. Use the screwdriver to pry out the oil seal
b. Remove the inner race of inner bearing form the hub.
Check and repair of front hub
1. Check all bearings
Wash the inner race and outer race of each bearing and check them for
wear and damage.
2. Replace the bearing outer race
a. Use the brass bar and hand hammer to knock out the bearing outer
special
tools
race.
diagram of
special tools
Use the special tools to knock in the new bearing outer race.
Assembly of front hub
1. Coat the inner surface of hub and bearing outer race
with the grease.
grease
The grease is the Jin HP-R grease or the grease met the requirement
in following table.
Item
Dropping point, C
Leakage amount (104 C, 6h), g
EP performance OK value , N
Typical data
2. Place in the bearing inner race; use the fill the gap
between the inner and outer race of the bearing up
with the HP-R grease.
grease
grease
3. Install the inner bearing and oil seal
diagram of
special tools
a. Place the inner bearing in the hub
b. Use the special tools to knock the new oil seal into the hub.
special tools
c. Coat the oil seal lip with HP-R grease.
4. Install the hub on the steering knuckle
a. Install the hub on the steering knuckle
b. Install the outer bearing.
5. Adjust the pre-applied load
diagram of
special tools
a. Use the special tools to screw on the locknut to specified
torque.
Tightening force: 80-100N m
b. Rotate the hub to right and left 1/3 1/4 round respectively.
special
tools
c. Screw off the nut until the nut can be loosed by hand.
d. Use the special tools to retighten the lock nut.
Tightening force: 28N
m
e. Use the spring tension meter to check the pre-applied load.
Pre-applied load (for starting): 28-56N
6. Install the lock washer
Install the lock washer with the surface with counterbore outwardly
and fix it on the lock nut by screw.
Remarks: If the screw installation hole on the lock washer can not
align with the screw hole on the lock nut, then it can remove the
lock washer and adjust he lock nut slightly (rotate in the direction
of Min. adjusting range ); then install the lock washer.
7. Recheck the pre-applied load
Use the spring tension meter to recheck the pre-applied load
Pre-applied load (for starting): 28-56N
If the pre-applied load does not meet the specified value, it must
remove the lock washer and adjust it by the adjusting nut.
8. Install the ring flange
a. Install the ring flange on the hub.
b. Install the adjusting washer.
c. Install the circlip.
9. Install the hub cap
a. Coat the screw of the inner hexagon bolt with the screw lock
sealant.
b. Use the inner hexagon bolt to fix the hub cap and ring flange on
the hub; tighten the bolt to the specified torque.
Tightening force: 78
5N
m
10. Install the disc brake
Install the disc brake on the steering knuckle; tighten the bolt to the
specified torque.
Tightening force: 140
10N
m
Steering knuckle
Disassembly of steering knuckle
1. Remove the disc brake and front hub
(Refer to section “Front Hub”)
2. Remove the brake cover
3. Disconnect the steering cross rod from the steering knuckle arm
a. Remove the split pin and nut on the ball pin.
b. Use the special tools to disconnect the steering cross rod
from the steering knuckle arm.
special
tools
4. Disconnect the connecting rod of stabilizer bar
from lower arm
Use the inner hexagon spanner to fix the ball pin; remove the
self-locking nut.
5. Remove the steering knuckle
special
a. Remove the split pin and nut on the upper ball pin
tools
b. Use the special tools to disconnect the upper ball pin from
the steering knuckle.
c. Remove the split pin and nut on the lower ball pin.
d. Use the special tools to disconnect the upper ball pin from
the steering knuckle.
special
tools
e. Use the jack to raise the lower arm; remove the steering knuckle.
Check and replacement of steering knuckle
1. Check of steering knuckle
Use the dye penetrant to check the steering knuckle for crack.
It should replace the steering knuckle if has crack.
2. Remove the steering knuckle oil seal
Use the screwdriver to pry out the oil seal from the steering knuckle.
3. Take out the thrust plate
4. Remove the needle bearing
Use the copper bar and hand hammer to knock out the needle
bearing.
5. Installation of needle bearing
special
tools
Use the special tools and hand hammer to knock in the new
needle bearing slightly.
Remarks: The thicker end of needle bearing should be
upwardly when knock in. with thicker end.
6. Installation of thrust plate
chamfer
Coat the installation position of thrust plate of steering knuckle
with the HP-R grease; place the thrust plate with the surface
with chamfer facing the steering knuckle.
Remarks: It must measure the thickness of the thrust plate
steering
knuckle
before the installation; it should install the new thrust plate if
the thickness is less than 1.5mm. The nominal thickness of
the new thrust plate is 2mm.
7. Installation of steering knuckle oil seal
Use the special tools and hand hammer to knock in the new
special
tools
steering knuckle oil seal slightly.
Installation of steering knuckle
1. Install the steering knuckle
a. Coat the drive shaft and inner of drive shaft dustproof cove
with the lithium base grease.
b. Insert the drive shaft into the steering knuckle, meanwhile
connect the lower ball pin to the steering knuckle and install the
slotted nut temporarily.
c. Press down the upper arm and connect the upper ball pin to the
steering knuckle. Install and tighten the nut to the specified
torque.
Tightening force: 145
15N
m
d. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole when
install the split pin; the nut can be tightened but not
loosedduringthealignment.
e. Install and tighten the lower ball pin nut to specified torque.
Tightening force: 230
20N
m
f. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole when
install the split pin; the nut can be tightened but not
loosedduringthealignment.
2. Connect the stabilizer bar to the lower arm
Support the lower arm by jack; use the inner hexagon spanner to fix
the ball pin and tighten the self-locking nut to specified torque.
Tightening force: 63 5N m
3. Connect the steering cross rod to the steering
knuckle arm
a. Tighten the slotted nut according to the specified torque.
Tightening force: 170
15N
m
b. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole when
install the split pin; the nut can be tightened but not
loosedduringthealignment.
4. Install the brake cover
Tightening force: 23
3N
m
5. Install the front hub and disc brake
(Refer to section “Front Hub”)
Front suspension (4WD)
shim
upper arm shaft
upper arm bush
front stabilizer bar
upper arm bush
shim
upper arm
rubber sleeve
clip
upper ball pin
flat shim
lower arm long bush
split pin
connecting rod of stabilizer bar
rear shaft of lower arm
torsion
bar
flat shim
Torsion base
front shaft of
lower arm
lower arm short bush
upper
adjusting
block
fixed arm
eccentric shim
l ower arm
lower adjusting block
disk shim
fill block
fill block
shim
disk shim
lower ball pin
split pin
shock Absorber
front hub and steering
knuckle assembly
N
m: specified torque
Used component which can not be used any more.
Pregummed component
adjusting bolt
Ball pin
Check of ball pin
1. Check the lower ball pin for loose
a. Raise the front of the car by jack and support it by the frame.
b. Ensure the front wheel is in straight advancing position and step
down the brake pedal.
c. Move the arm upwardly and downwardly; check
the clearance of lower ball pin.
Max. vertical clearance: 0mm
2. Check the upper ball pin for loose move the wheel
upwardly and downwardly and check the gap of
upper ball pin.
Max. vertical clearance: 0mm
3. Check the rotation of ball pin
a. Remove the ball pin.
b. Shown as figure, shake the ball pin stud forwardly and backwardly
for several times before install the nut
c. Rotate the nut continuously by torsion meter and 2-4s for a
cycle; record the readout of torsion meter in the fifth cycle.
Tightening torque (for rotary):
Lower ball pin 0.1
4N m
Upper ball pin 0.1
4N m
Disassembly of ball pin
1. Remove the steering knuckle and front hub assembly
(Refer to section “Front Hub and Steering Knuckle”)
2. Remove the lower ball pin form the lower arm
3. Remove the upper ball pin from the upper arm
Installation of ball pin
1. Install the upper ball pin on the upper arm
Tightening force: 78
5N
m
2. Install the lower ball pin on the lower arm
Tightening force: 140
10N m
3. Install the steering knuckle and front hub assembly
(Refer to section “Front Hub and Steering Knuckle”)
Torsion bar spring
Disassembly of torsion bar spring
1. Make the assembly mark on the torsion bar spring,
torsion base and adjusting arm
2. Measure the length A of extension section of bolt
according to the length shown in figure.
Remarks: The measuring value is for reference when adjust the
ground clearance of chassis.
3. Loose the adjusting bolt until the torsion bar spring
has not the tension.
4. Remove the fixed arm and torsion bar spring
Installation of torsion bar spring
Remarks: There are the L and R indication marks, which must not
be exchanged on the rear end of the torsion bar spring. Mark L
means the left while R for right
1. For reused torsion bar spring
a. Cost the spline of torsion bar spring with grease thin.
b. Align the assembly mark and install the torsion bar spring on the
torsion bar.
c. Align the assembly mark and install the adjusting arm on the
torsion bar spring.
d. Tighten the adjusting bolt and make the extension length of the
bolt equal to the value before disassembly.
2. For new torsion bar spring
a. Remove the wheel.
b. Coat the spline of torsion bar spring with thin grease.
c. Install the torsion bar spring on the torsion bar base.
d. Lower the lower arm to the lower limitation position; install
the adjusting arm in the torsion bar spring with the angle that
the adjusting bolt just can be screwed on the upper adjusting
block.
Remarks: It can repeat for several times until proper when
adjust the angle.
e. Tighten the adjusting bolt to the specified torque.
Nut tightening limitation: A is about 20-35mm; if A>35mm,
then it is adjusted through height of adjusting arm.
f. Install the wheel; remove the bracket; bounce the vehicle for
several times to make the suspension enters into the stable
status.
g. Rotate the adjusting bolt and adjust the ground clearance of
chassis (Refer to 4-Wheel Alignment).
Lower suspension arm
Disassembly of lower suspension arm
1.The disassembly of the front hub and steering knuckle
assembly includes the removal of vibration damper,
stabilizer bar and steering cross rod.
(Refer to the section “Front Hub and SteeringKnuckle”)
2. Disassembly of torsion bar spring
(Refer to section “Torsion Bar Spring”)
3. Remove the front shaft of lower arm
a. Make the assembly mark on the adjusting cam
b. Remove the nut and front shaft of lower arm.
4. Screw off the rear shaft of lower arm
Screw off the nut; remove the rear shaft of lower arm shaft and
remove the lower suspension arm.
Replacement of bush of lower suspension arm
1. Remove the short bush of lower suspension arm
Use the special tools to press out the short bush form
the lower arm.
special tools
2. Installation of short bush of lower suspension arm
Use the special tools to press the new short bush into
the lower arm
Remarks: Do not coat the bush with the grease.
special tools
3. Removal of long bush of lower suspension arm Use
the special tools to remove the long bush.
special tools
4. Install of long bush of lower suspension arm Use
the special tools to install the new bush.
Remarks: Do not coat the bush with the grease.
special tools
Installation of lower suspension arm
1. Installation of lower suspension arm
a. Install the rear shaft of lower arm and tighten the screw to
the specified torque.
Tightening force: 290
25N m
b. Install the front shaft of lower arm and pretighten the nut.
2. Installation of front hub and steering knuckle
assembly
(Refer to section “Front Hub andSteeringKnuckle”)
3. Install the vibration damper on the lower suspen
sion arm Install the vibration damper on the
lower suspension arm bracket.
Tightening force: 90
10N
m
4. Connect the stabi lizer barto the lower susp
ension arm.
Tightening force: 63
5N
m
5. Connect the steering cross rod to the steering
knuckle arm
a. Connect the steering cross rod to the steering knuckle arm.
Tightening force: 120
b. Install the new split pin.
10N m
Remarks: It should align the notch of nut with the pinhole
when install the split pin; the nut can be tightened but not
loosed during the alignment.
6. Install the torsion bar spring
(Refer to the section “Torsion Bar Spring”)
7. Tighten the nut of front shaft of lower arm to the
specified torque
a. Install the wheel, remove the bracket and bounce the vehicle
for several times to make the vibration damper enters into the
stable status.
b. Align the assembly mark and tighten the nut to the specified
torque.
Tightening force: 240
20N m
8. Check the wheel alignment parameter
(Refer to 4-Wheel Alignment)
special tools
Upper suspension arm
Disassembly of upper suspension arm
1. Disconnect the upper ball pin form the steering
knuckleRemove the split pin and nut; use the special
tools to disconnect the upper ball pin from the steering
knuckle.
2. Remove the brake oil pipe on the upper arm shaft
a. Use the open-end wrench to screw off the oil pipe tight nut.
b. Pull out the brake oil pipe and plug it by the rubber plug.
Remarks: There are two two-way valves for rear brake oil pipe
beside the right upper arm shaft ; when remove the right upper
suspension arm, it must remove four oil pipe tight nuts in the
place and plug it by the rubber plug to prevent the brake fluid
from overflowing.
3. Disconnect the brake hose form the brake caliper
Remove the hollow bolt and disconnect the brake hose
form the brake caliper
Remarks: Must not lose the copper gasket seal.
4. Disconnect the brake hose from the upper arm oil
pipe bracket.
Use the pliers to pull out the sheet steel spring clip and
disconnect the brake hose from the upper arm oil pipe
bracket.
5. Remove the upper suspension armRemove two bolts
and remove the upper suspension from the armcarriage.
Remarks: Keep the adjusting shim and don’t lose it. Record the
thickness of front and rear adjusting shim for convenience of
reinstalling them in the original position.
Replacement of upper arm bush
1. Remove the bush
a. Remove the bolt and washer.
b. Use the special tools to push out the bush.
c. Remove the upper arm shaft; remove another bush in same
procedure.
special
2. Install the bush
a. Use the special tools to press in the bush.
special
b. Install the upper arm shaft; use the special tools to press in
another bush.
special
3. Tighten the upper arm shaft to specified torque.
a. Coat the screw of both ends of upper arm shaft with the
screw lock sealant; install the washer and nut.
Remarks: Adjust the position of upper lower; make the
installation plane of ball pin is vertical to the installation
plane of upper arm shaft.
b. Tighten the upper arm shaft nut to specified torque.
Tightening force: 210
10N m
Installation of upper suspension arm
1. Install the upper suspension arm on the carriage
a. Install the upper suspension arm and camber adjusting shim.
b. Tighten all bolts to the specified torque.
Tightening force: 200 10N m
Remarks: Install the shim with same quantity and thickness to the
original position.
2. Connect the brake oil pipe of upper arm shaft Tighten
the oil pipe compression nut to specified torque.
Tightening force: 15-17N m
Remarks: It should tighten four connectors of two two-way valves
to the specified torque if disassemble the right upper arm.
3. Connect the brake hose to the upper arm oil pipe
bracket
a. Thread the brake hose through the hole on upper arm oil pipe
bracket.
b. Insert the sheet steel spring clip by the hammer to fix the brake
hose.
4. Connect the upper ball pin to the steering knuckle.
a. Tighten the slotted nut according to the specified torque.
Tightening force: 145 15N m
b. Install the new split pin.
Remarks: It should align the notch of nut with the pinhole when
install the split pin; the nut can be tightened but not loosed during
the alignment.
5. Connect the brake hose to the brake caliper.
Install the copper gasket seal and tighten the hollow bolt to the
specified torque.
Tightening force: 50±5N·m
6. Discharge the air in front brake system
(Refer to relevant chapter)
Remarks: It must discharge the air in the rear brake system
if disassembly the right upper arm.
7. Check the brake fluid for leakage
8. Tighten the upper arm front shaft nut to the
specified torque
a. Install the wheel, remove the bracket and bounce the vehicle for
several times to make the vibration damper enters into the stable
status.
b.Align the assembly mark and tighten the nut to the specified
torque.
Tightening force: 240±20N·m
9. Check the wheel alignment parameter
(Refer to 4-Wheel Alignment)
Stabilizer bar
Disassembly of stabilizer bar
1. Disconnect the connecting bar which supports both
ends of the stabilizer bar form the stabilizer bar.
Use the inner hexagon spanner to fix the ball pin; remove the selflocking nut.
2. Remove the bush and clip of stabilizer bar; remove
the stabilizer bar
Installation of stabilizer bar
1. Install the stabilizer bar on the carriage
Place the stabilizer bar in position; install the stabilizer bar bush and
clip on the carriage. Align the mark on the stabilizer bar to keep the
left and right gap of stabilizer bar are same. Then install the bolt
temporarily and pretighten it.
2. Connect the stabilizer bar to the connecting rod.
Install and tighten the new nut to the specified torque.
Tightening force: 63
5N
m
3. Tighten the clip position bolt to specified torque.
Tightening force: 23
2N
m
Constant-speed drive shaft assembly
Installation and disassembly drawing of front drive shaft assembly on front drive axle
constant-speed drive shaft assembly
hanger plank
R
universal-joint bearing
circlip
front reducer and electric clutch assembly
circlip
Power plug of electric clutch
circlip
universal-joint bearing
universal-joint oil seal
hanger plank
L
lower segment of vent tube of front drive axle
circlip
constant-speed drive shaft
N
m:
specified torque
Pregummed component
N
m: specified torque
1. Place the car in the middle of repair platform or
trench, support the front of the car steadily(support
on the carriage) then remove the left and right
front wheel. (make the car in 2WD status before
the disassembly)
2. Remove the beam on the lower of front drive axle
assembly.
3. Disconnect the connection of front drive axle
flange and drive shaft and make the assembly
mark
4. Drain the lubrication oil in reducer.
adjusting washer set
circlip
bolt
flange
front hub cover
disconnect three ports in this position
9. Use the wrench to screw off the bolt which fixes
the lower segment assembly of front drive axle
vent tube on the vent tube bracket.
wrench
10. Support the front drive axle by the jack; screw
off the lifting bolt of hanger plank and carriage.
supporting position
11. Remove the complete drive axle.
12. Screw off the connecting bolt of hanger plank and
front drive axle assembly.
13. Pull out the left and right front drive shaft
assembly with the oil seal, hanger plank and
bearing.
circlip pliers
se the circlip pliers to remove the outside circlip
of bearing.
15. Use the special tools pull out the bearing.
support the lower end
16. Use the circlip pliers to remove the circlip on
another side of bearing.
Caution: During the disassembly, support the lower end of
hold
drive shaft and prevent the drive shaft from sliding out from
special tools
the inner jacket, meanwhile, it could not damage the inner
and outer jacket.
shim
support the lower end
Constant-speed drive shaft assembly
inner trumpet connector
circlip
inner jacket
three-pin section assembly
large clip of inner jacket
small clip of outer jacket
small clip of inner jacket
outer jacket
large clip of outer jacket
outer trumpet connector
dustproof cover
Disassembly of constant-speed drive shaft
assembly
1. Check the front drive shaft assembly
a. Check the inner trumpet connector; it could slide in axial
direction smoothly.
b. Check the universal-joint position; it should be without the
clear clearance in radius direction.
c. Check the inner and outer jacket for damage.
Caution: It should use the pad when clamp the front drive
shaft to avoid the damage of it.
2. Remove the large clip of inner jacket
Caution: Do not damage the inner and outer jacket
pliers
a. Make the assembly mark on the inner trumpet connector and
assembly mark
three-pin section assembly.
Caution: remove the grease in the connector before make the
mark and don’t make the mark by the hard object such as
punch.
b. Remove the inner trumpet connector.
4. Disassembly of three-pin section assembly
a. Use the circlip pliers to remove the circlip.
b. Use the adz and hand hammer to make the assembly mark on
the shaft and three-pin section assembly.
assembly mark
c. Use the cooper bar and hand hammer to remove the three-pin
section.
Caution: Remove the cooper chip on the shaft or three-pin
section assembly if has.
5. Remove the inner jacket
a. Use the pliers to disassemble the small clip of inner jacket.
b. Pull out the inner jacket.
Caution: Remove the grease in the jacket and maintain the
clean field.
6. Use the straight screwdriver to disassemble the
large and small clip of outer jacket.
7. Remove the outer jacket
Caution: Clean the protective jacket and remove the grease on
the outer trumpet connector. Do not disassemble the outer
trumpet connector.
8. Use the screwdriver and hand hammer to remove
the dustproof cover.
Assembly of constant-speed drive shaft assembly
1. Use the hand hammer and screwdriver to install
the dustproof cover
Caution: The dustproof cover should be replaces when
itisdeformed heavily.
2. Install the large clip of outer jacket, outer jacket
and small clip of outer jacket.
Caution: The outer jacket should be replaced when it is
damaged or aged heavily and warp the end of the shaft with the
plastic band and coat with small grease before insert it.
3. Insert the small clip of inner jacket, inner jacket
and large clip of inner jacket.
Caution: The inner jacket should be replaced when it is
damaged or aged heavily.
4. Install the three-pin section assembly on the front
with chamfer
drive shaft.
a.Let the end of three-pin section assembly with chamfer faces the
shaft inner direction.
Caution: The three-pin section assembly should be replaced if
its needle bearing position is damaged.
b.Align the assembly mark made before disassembly.
c. Use the hand hammer and copper bar to install the three-pin sec
tion assembly to the front drive shaft.
d.Use the circlip pliers to install the new circlip.
5 Install the outer jacket on the outertrump etconn
ector.
Fill the jacket with the grease supplied with the jacket before
install the jacket.
(Recommend used grease is CAPLEX or KY1)
Grease using amount: About 110g
6
Install the inner trumpet connector on the front
drive shaft
a. Fill the inner trumpet connector and inner jacket with the
grease supplied with the jacket
(Recommend used grease is CAPLEX or KY1). Amount About140g
b. Align the assembly mark made during disassembly; covered
with inner trumpet connector.
assembly mark
c. Cover the inner jacket on the inner trumpet connector.
7
outer jacket clip
Use the inner and outer jacket clip pliers to
clamp the inner and outer jacket.
inner jacket clip
non-ear clip pliers
a. Use the special non-ear clip pliers to lock the large clip of
inner jacket.
b. Use the nutcracker to lock the small clip of inner jacket.
Caution: Ensure the large and small connecting place of jacket
is in the corresponding groove of trumpet connector and shaft.
nutcracker
c.Use the special pneumatic pliers to lock the large and small clip of
special tools
outer jacket.
d.Ensure the jacket of both sides does not be prolonged or shortened
when the front drive shaft has the standard length.
Standard length: 400.5mm
If only need to replace the outer components of front drive
shaft assembly on car, it can remove the left and right steering knuckle of car, then disconnect the inner trumpet connector of front drive shaft assembly, then take out the threepin section assembly and shaft from the inner trumpet connector for replacement.
Installation of constant-speed drive shaft assembly on front drive axle
circlip pliers
1. Insert the hanger plank into the drive shaft, inserted
with oil seal; use the circlip pliers to install the inner
circlip.
Caution: It should replace the oil seal if damaged.
support the lower end
Use the special tools to knock bearing in slightly.
Caution: Support the lower end of the drive shaft assembly
special tools
when knock the bearing in. The lower end must not slide out.
3. Use the circlip pliers to install the outer circlip on
the front drive shaft assembly.
4. Repeat the previous method to install the hanger
plank, oil seal, circlip, bearing and circlip on another
support the lower end
end.
5. Insert the spline of connecting end of drive shaft
and reducer into the differential halfaxle gear spline
hole of electric clutch and reducer slowly.
6. Drip 1-2 drop of screw lock agent on the middle of
screw of connecting bolt of hanger plank andreducer.
7. Use the wrench to tighten the connecting bolt of
hanger plank and drive axle to specified torque.
specified torque : 90-110N m
Caution: It should screw on all bolts before tighten
them, then tighten them in diagonal direction.
Check the hanger plank for levelness after tightened
the bolt to the specified torque. Remove the hanger
plank and reinstall it if is not planished.
8. Install the vent tube connector assembly; connect
all ports to front drive axle.
(Refer to “Assembly of Front Reducer Assembly”)
Specified torque : 200-220N m
Caution: Drip 1-2 drop of screw lock agent on the middle front
part of the lifting bolt
10 Use the bolt to connect the front drive axle flange
and drive shaft according to the mark mage before
disassembly and tighten it to the specified torque.
specified torque: 73-83N.m
11. Install the beam under the front drive axle.
Tighten the beam connecting bolt to the specified
torque.
specified torque: 73-83N.m
Replacement of drive gear oil seal of front reducer assembly
front reducer
assembly
washer
bearing
spacer
drive
oil seal
bevel gear
front reducer drive gear flange,
N
m: specified torque
Used component which can not be used
any more.
main gear flange and dustproof
cover assembly
1. Support the front of car; remove the left and right
assembly mark
front wheel and the beam under the reducer.
2. Drain the lubricant oil in the front reducer; remove
the left and right steering knuckle
3. Disconnect the front reducer assembly flange from
the drive shaft and use the jack to remove the front
drive axle
Caution: Make the assembly mark on the reducer and
drive shaft before separate them.
4. Remove the front differential assembly
(Caution: Drain the oil in front differential before the
disassembly)
5. Remove the drive gear flange and dustproof cover
assembly
a. Use the hand hammer and chisel to loose the riveted part on
nut.
special
b. Use the special tools to clamp the drive gear flangeandremove
the drive gear nut.
c. Use the cooper bar to knock down the drive gear flange and
dustproof cover assembly.
6. Remove the drive gear oil seal
Use the special tools to remove the oil seal; do not
damage the inner wall of reducer housing.
special
rotate the wrench in clockwise.
7. Install the new drive gear oil seal
special
a. Use the special tools to knock into the new oil seal.
b. The top of the oil seal is level to the top of reducer housing.
Caution: Coat the oil seal lip with the lithium base grease and
the oil seal should be in correct position.
8
Install the drive gear flange and dustproof cover
assembly
a. Match the drive gear flange and dustproof cover assembly on
the front drive gear.
b. Coat the new nut with the lithium base grease.
c. Use the special tools to clamp the flange and tighten the nut
to the specified torque.
Tighten torque:140-160N.m
9
Adjust the pre-applied load of the drive
bevelgear bearing
a. Use the torque meter to measure the pre-applied load of the
gap between the drive bevel gear and driven bevel gear.
pre-applied load: 1.2-1.7N.m
b. Is should be replaced by the thicker washer if the pre-ap
plied load is more than specified value
(The step of thickness of washer is 0.03mm)
c. Is should be replaced by the thinner washer if the pre-applied
load is less than specified value. Repeat the previous
operation until meet the requirement.
Caution: Do not reduce the load by loosing the nut.
10. Check the axial and radial run-out tolerance
offlange.
a. Use the dial indicator to measure the axial runout of flange.
Max. axial runout: 0.1mm
b. The max. radial run-out tolerance is 0.1mm
It should check the bearing if the radial run-out tolerance is large.
11
Rivet the drive gear nut after meet the previ-
ous requirements.
12
Install the reducer assembly on the front drive
axle assembly and assemble the front drive shaft
assembly (refer to Assembly of Front Reducer Assembly
and Assembly of Front Drive Shaft Assembly)
13
Install the oil drain plug; screw off the oil
filling plug and filled with the hypoid gear oil.
Tightening force of oil drain plug: 30-35N m
Model of lubrication oil: GL-5
Filling amount: Flush to the lower edge of oil filling open
14
Insert the oil filling plug washer and tighten
the oil filling plug to the specified torque.
Specified torque : 140-150N m
15
Install the front drive axle assembly on the
carriage.
16
Connect the drive shaft to the flange
a. Align the assembly mark; use four bolts and nuts to connect
the flange of drive shaft and front drive axle.
b.Tighten the nut to the specified torque.
specified torque:
Remarks: Keep the clean of the field during the maintenance.
Front reducer assembly
front drive shaft assembly
hanger plank
oil seal
bearing
R
front vibration damper
front vibration damper
circlip
front reducer
electric clutch assembly
circlip
Power plug of electric clutch
circlip
bearing
oil seal
front vibration damper
front vibration damper
front drive axle vent tube connector assembly
hanger plank
L
circlip
front drive shaft assembly
N
m: specified trque
Pregummed component
1. Support the front of the car; remove two front
assembly mark
wheels and the beam under the front reducer
assembly.
2. Drain the lubrication oil in the front reducer
assembly.
3. Remove the flange of front reducer assembly from
the drive shaft
Caution: Make the assembly mark on the flange of
front reducer assembly and drive shaft before disconnect them.
4. Disconnect the connector of power wire of electric
clutch
disconnect three connectors in this place
5. Disconnect three rubber connectors on the front
drive axle vent tube connector assembly.
6. Use the wrench to screw off the bolt on the vent tube
bracket, which is used to fix the vent tube connector.
7. Disconnect the connection between the front drive
shaft assembly and steering knuckle front hub
assembly.
a.
Screw off the connecting bolt which is used to fix the front
hub cover; remove the front hub cover.
b.
Use the circlip pliers to remove the circlip from the front drive
shaft and remove the adjusting washer.
c.
Remove the steering knuckle of both sides and separate it
form the front drive shaft assembly.
electric clutch connector
N
m: specified torque
8. Use the jack to support the front reducer assembly
9. Remove the lifting bolt of front drive axle hanger
plank and carriage.
10. Remove the front drive axle assembly
Caution: Do not damage the drive shaft and front drive
shaft jacket
11. Remove the front drive shaft assembly of both sides
from the front drive axle assembly.
12. Use the wrench to remove the bolt and nut which is
used to fix the front reducer housing.
13. Remove the clump weight assembly and clump
weight bracket welded assembly
(Refer to “Disassembly of Front Reducer Assembly”)
Replacement of oil seal and major semiaxle oil seal of front reducer assembly
Replacement of front reducer assembly oil seal
1. Remove the front drive axle assembly
(Refer to “Removal of Front Reducer Assembly”)
2. Remove the left and right front drive shaft assembly from the front drive axle assembly.
3. Remove and replace the lower oil seal according to
the removal and installation procedure of front drive
shaft assembly and install the new side oil seal on
the front drive shaft, then install them in the front
reducer assembly.
(Refer to “Removal and Installation of Front Drive Shaft
Assembly”)
major semiaxle oil seal
circlip
major semiaxle pressing assembly
mechanical wheel of separator
N
m: Specified torque
Pregummed component
Replacement of major semiaxle oil seal
1. Make the electric clutch is in the 4WD status,
them stop the engine and remove the front drive
axle assembly (see the disassembly of front reducer
assembly)
2. Use the wrench to screw off the bolt which fix the
front axle vent tube connectorassemblyonventtubeb
racket bolt
disconnect the place
3. Disconnect the connector between vent tube of
electric clutch housing and front drive axle vent tube
connector assembly
4. Disconnect the connector between the vent tubes
on the electric clutch and vent tube connector
assembly.
5. Remove the bolt which is used to fix the electric
clutch housing and front axle tube flange; use the
brass bar to open the electric clutch housing and take
disconnect the place
out the mechanical wheel of separator.
Caution: The lubrication oil will flow out when separate the electric clutch housing from the front axle
flange. It should use the container to hold it.
mechanical wheel of separator
6
circlip
Use the circlip pliers to remove the circlip
which clamp the major semiaxle bearing outer race.
circlip pliers
liftout bolt
Pad
bolt pin
special tools
7 Use the special tools to remove the major
semiaxle and bearing, circlip assembly.
8. Use the special tools to remove the major semiaxle
oil seal.
Caution: Do not scratch the inner surface of flange.
special tools
9. Remove the sealant on the matching surface
between the flange and electric clutch housing by
knife.
Caution: Do not scratch the matching surface.
10. Use the special tools to knock the new seal in the
oil seal position in flange.
Caution: Before install the new oil seal, it should
coat the lip with thin lithium base grease, and the oil
seal should be in alignment position.
11. Insert the spline of small end of major semiaxle
in the spline of front reducer half axle gear slightly,
then use the brass bar and hand hammer to knock it
in.
Caution: When knock in the major semiaxle, must
not damage the inside needle bearing of large end
spline of major semiaxle.
12. Use the circlip pliers to install the circlip in the
flange and clamp the bearing outer race.
Caution: The circlip should be replaced if it has
serious deformation.
13. Use the clean cloth to wipe the matching surface
of flange and electric clutch housing respectively.
14. Align the spline of mechanical wheel of separator
with the spline in front drive shaft and separator
shift fork sleeve, and install it in the front drive
shaft and separator shift fork sleeve.
15. Coat the flange matching surface with the 1596
silicon rubber plane sealant uniformly and level it by
plate.
Caution: Ensure the continuity of sealant and avoid
the sealant enter into the screw hole.
16. Align the shift fork bush with the spline on the
major semiaxle to make the mechanical wheel of
separator enters into the major semiaxle, then use
the bolt to connect the electric clutch housing and
front axle pipe flange and tighten it to the specified
torque. In which the bolt should be precoated with
the screw locking agent (drip one or two drops on the
middle of screw).
specified torque : 90-110N m
Caution: Prevent the foreign material from entering into the
front drive axle during assembly.
17. Use the wrench to tighten the bolt of vent tube
bracket to tightening torque.
Tightening force: 23-26N m
18. Screw off the oil filling plug on the electric clutch
housing, remove the washer and fill it with the gear
lubrication oil until flush with the bottom of oil
filling port.
Number of lubrication oil: GL-5
19. Place the washer of oil filling plug, tighten the oil
filling plug to specified torque.
Specified torque: 140-150N.m
20. Connect the vent tube on the electric clutch
connect the place
housing to the front axle vent tube connector
assembly.
21. Connect the electric clutch vent tube to the
front axle vent tube connector assembly.
connect the place
Disassembly and assembly of front reducer assembly and electric clutch
adjusting shim
bearing
bearing gland
differential housing
half axle gear thrust plate
half axle gear
planetary gear shaft
driven bevel gear
planetary gear
clump weight and bush
assembly
bolt
clump
weight bracket
front drive axle housing
washer
clump weight bracket
welded assembly
oil filling plug
vent tube
needle bearing
location pin
front drive gear flange and
dustproof cover assembly
electric clutch
circlip
oil seal
major semiaxle
small bearing
major semiaxle oil seal
drive bevel gear
front axle vents tube
connector assembly
adjusting washer
front reducer
housing
spacer
clip
circlip
mechanical wheel of separator
big bearing
declutch shift sleeve
adjusting washer
electric clutch housing
drive bevel gear
oil filling plug
vent tube
N
m: Specified torque
Pregummed component
Used component which
can not be used any more.
disconnected in
disconnected in this place
this place
Disassembly of front reducer assembly
1. Remove the front drive axle and left and right
front drive shaft assembly.
(Refer to “Removal of Front Reducer Assembly”
and “Removal of Front Drive Shaft Assembly”)
2. Disconnect three interface positions of front drive
axle vent tube connector assembly.
disconnected in this place
3. Use the flat screwdriver to pry off the clip fixed
the vent tube connector assembly and take out
the vent tube connector assembly.
4. Screw off the bolt fixed the electric clutch and use
the brass bar to knock down the electric clutch.
5. Use the wrench to remove the oil filling plug;
remove the washer and pull out the vent tube.
6. Use the wrench to remove the bolt connected to
the electric clutch housing and front axle tubeflange;
take out the shift fork sleeve and mechanical wheel
of separator.
Caution: The leaked gear oil during disassembly
should be stored in the container to avoid the
pollution for environment.
7. Use the circlip pliers to remove the circlip fixed
the major semiaxle bearing outer race.
8. Use the special tools to pull out the major semiaxle
and major semiaxle bearing with the major semiaxle
inner race circlip.
(Refer to “Replacement of Major Semiaxle Oil Seal”)
9. Use the special tools to remove the major semiaxle
oil seal.
(Refer to “Replacement of Major Semiaxle Oil Seal”)
10. Pull out the vent tube on the front axle tube.
11. Use the circlip pliers to remove the circlip. Fasten
the major semiaxle bearing inner race.
12. Press out the major semiaxle bearing on press
machine. (Or knocked out by hand hammer)
Caution: Don’t damage the end spline of major
semiaxle.
special tools
13. Use the special tools to pull out the needle bearing in major semiaxle.
Caution: It should use the pad when use the vise to
clamp the major semiaxle.
14. Use the wrench to remove the bolt which is used
to fix the clump weight and axle bush assembly, take
off the clump weight and axle bush assembly.
15. Use the wrench to remove the bolt fixed the
clump weight bracket welded assembly.
16. Use the wrench to remove the bolt and nut used
to fix the front reducer assembly and front axle
housing.
17. Use the brass rod or hand hammer to knock the
front reducer housing to separate it from the front
drive axle housing.
18. Check the run-out of driven bevel gear.
Rotate the flange; use the dial indicator to measure
the run-out of driven bel gear.
Max. Runout: 0.07mm
It should replace the drive and driven bevel gear totally if the runout is more than 0.07mm.
19
Check the running clearance of drive and
driven bevel gear.
a. Install the dial indicator and ensure the side axis is vertical to
contact tooth surface.
b. Hold the drive gear flange and rotate the driven bevel gear in
clockwise and anticlockwise to measure the clearance.
Specified range of clearance: 0.15-0.25mm
Remarks: Check three average points on circumference of driven
bevel gear at least.
20. Check the engaging mark of drive and driven
bevel gear.
(Refer to “Assembly of Front Reducer Assembly”)
21. Measure the pre-applied load of drive bevel gear
bearing.
Use the torque measuring meter to measure the preapplied
load on the gap between the drive and drivenbevel gear.
Range of pre-applied load: 1.2-1.7N.m
22. Measure the total pre-applied load of drive bevel
gear.
23 Remove the drive gear flange and dustproof cover
assembly.
a. Use the hand hammer and chisel to loose the riveted part of
drive gear nut.
b. Use the special tools to clamp the drive gear flange and
remove the drive gear nut.
c. Use the brass rod to knock down the drive gear flange and
dustproof cover assembly.
24. Use the special tools to remove the drive gear oil
seal.
holding
special tools
pliers
rotate the wrench in clockwise
25. Use the special tools to remove the small
bearing inner race, and then reverse the reducer
to slide out the spacer.
Remarks: The bearing should be replaced by new
one if damaged.
26. Use the wrench to remove two bearing glands.
Remarks: It should distinguish the left and right of
the bearing gland when remove it to avoid the
confusion.
27. Use the brass rod to vibrate the differential
assembly upwardly, then take out the differential
assembly.
Remove the side bearing outer race and marked
with L and R.
29. Remove the left and right adjusting washer; measure its thickness; marked with left and right.
30. Remove the drive bevel gear, then take out the
adjusting washer under spacer.
Check and replacement of reducer
1. Replace the big bearing of drive bevel gear .
a. Use the special tools to press out the big bearing of drive
bevel gear.
special
Caution: It should replace the drive and driven bevel gear in
pair before replace the big bearing if the drive bevel gear is
damaged.
b. Install the washer on the drive bevel gear, Use the special
tools to install the new big bearing .
special
2. Replace the big bearing outer race of drive bevel
gear.
a. Use the brass bar and hand hammer to knock down the big
bearing outer race.
special
b. Use the special tools to press in the new big bearingouter race.
Special tools
3. Replace the small bearing of drive bevel gear.
a. Use the brass rod and hand hammer to knock down the small
bearing outer race of drive bevel gear.
b. Use the special tools to press in the new bearing outer race.
c. Replace it by the new bearing inner race when installs the
special tools
small bearing..
4
Remove two side bearing inner races from the
differential housing.
a Use the special tools to remove the side bearing inner race on
the side of differential assembly with bolt.
b. It should pay attention to does not damage the driven bevel
gear when use the vice for clamping to remove the bearing
inner race on another side.
rubber pad
5. Use the wrench to remove the bolt fastened the
driven bevel gear
Caution: It should make the assembly mark on the
driven bevel gear and differential housing before
disassembly.
assembly mark
rubber pad
6
special tools
Disassembly of differential assembly
a. Use the hand hammer and special tools to knock out the pin
after remove the driven bevel gear.
b. Knock out the planetary gear shaft, rotate the half axle gear to
take out the planetary gear, then take out the half axle gear
and thrust plate.
7. Assembly of differential assembly.
a. Wash the differential housing.
b. Cover the half axle gear thrust plate with the half axle gear,
then installs it in the differential housing.
c. Rotate the half axle gear; install the planetary gear in rolling
and insert the planetary gear shaft.
d. Use the special tools to hit the pin to fix the planetary gear
shaft, and rivet the inserted hole to prevent the loose of pin.
Remarks: The rotation of half axle gear and planetary gear
should be smooth and without block; push the planetary gear
to inside, then use the dial indicator to measure the clearance
between the half axle gear thrust plate and differential
housing.
Rational clearance range: 0.4-0.75mm
It is necessary to replace the half axle gear thrust plate if the
clearance is beyond the previous range, at the same time ensure the
special tools
thrust plate in left and right side has the same thickness.
e. Check the clearance between the half axle gear thrust plate and
differential housing.
f. Clean the surface of differential housing; use the brass rod to
install the driven bevel gear on the differential housing.
Caution: It should align the marked assembly mark when
install the driven bevel gear and knock it in uniformly in
circumference ; it should remove the cooper chip in time if it
is adhered on the driven bevel gear.
g. Coat the fastening bolt of driven bevel gear with the screw
lock agent, then tighten it to the specified torque.
Specified tightening force: 80-95N m
Caution: It should be in the diagonal sequence to tighten the
bolt and tighten it for little, then tighten it to the specified
torque uniformly.
h. On press machine, use the special tools to press the inner
special tools
race of bearing into the bearing position on both sides of
differential housing.
special tools
bearing
bearing
adjusting shim
adjusting
shim
i. Place an adjusting shim in the position of front reducer
housing side bearing near exterior.
j. Install another adjusting shim and the other side bearing outer
race in the front reducer housing with thedifferentialassembly
k. Install two bearing glands, left and right and use the wrench
to tighten the bolt to the specified torque.
Specified torque : 90-115N.m
1.Rotate the driven bevel gear, check the runout of
driven bevel gear.
Max. Runout: 0.07mm
Assembly of front reducer assembly
1.Install the adjusting washer in the drive bevel gear,
install the big bearing inner race of drive bevel gear
by press.
2. Clean the front reducer housing, install the outer
race of big and small bearing on the reducer housing
by press..
3. Install the drive bevel gear into the front reducer
housing, then install the washer, spacer and small
special tools
bearing inner race.
4.Use the special tools to install the drive bevel gear
oil seal.
Caution: It should coat the lip with the oil seal
lithium base grease before install it and the rear
surface of rear oil seal should flush with the top of
front reducer housing after knocked in.
5. Install the drive gear flange and dustproof cover
assembly.
(Refer to “Replacement of Drive Bevel Gear Oil Seal”)
6.Use the special tools to tighten the drive gear nut
to the specified torque; the nut should be precoated
with the lithium base grease.
specified torque : 140-200N m
7. Use the torque measuring meter to measure the
pre-applied load of big and small bearing of drive
bevel gear.
Range of pre-applied load: 1.2-1.7N m
8. Place the differential assembly on the corresponding
position of front reducer housing.
9.Select an adjusting shim and insert it in a side of
side bearing outer race; push the differential assembly to the side with adjusting shim.
10. Use the dial indicator to measure the gear side
clearance of driven bevel gear and drive bevel gear;
select out the adjusting shim in the side which meets
the rational clearance of 0.15mm.
11.Measure the thickness of the adjusting shim.
12. After select out one side adjusting shim, then
select theadjusting of another side according to that
the theoreticthickness of the adjusting shimofanother
side equals to subtracting the thickness of selected
shim and oppositiondistance L2 between outer race of
two side bearings of differential assembly from the
opposition distance L1 between two side bearings of
front reducer housing.
13. Place an adjusting shim in the position of front
reducer housing side bearing and close to exterior.
14. Install the other adjusting shim and the bearing
outer race of another side with the differential
assembly into the front reducer housing.
Remarks: Ensure the selected adjusting shim has
not gap with front reducer housing.
15. Rotate the driven bevel gear to make the differential assembly closed to the front reducer housing.
16. Use the dial indicator to measure the tooth side
gap between the drive and driven bevel gear.
The rational range of gap is: 0.15-0.25mm.
If the measured gap is beyond the range, then adjust it by
adding or reducing the thickness of shim. ( When add in
one side, the other side should be reduced with same
thickness)
Caution: Ensure the selected adjusting shim is
without clearance form front reducer housing.
17. Adjust the pre-applled axial load of side bearing.
a. Remove two adjusting shim, remeasure the thickness of two
adjusting shims.
b. Install the new adjusting shim with thickness 0.06-0.09mm
more than that of removed adjusting shim, then install it with
the differential in the reducer housing.
c. Remeasure the tooth side clearance between the drive bevel
gear and driven bevel gear.
Rational range of clearance: 0.15-0.25mm
Remarks: If the measured gap is beyond the range, then adjust
it by adding or reducing the thickness of shim. ( When add in
one side, the other side should be reduced with same
thickness)
Caution: Ensure the selected adjusting shim has not the
clearance with the front reducer housing.
18. Install the bearing gland of both sides and use
the wrench to tighten it to the specified torque.
specified torque : 90-115N m
Remarks: Distinguish the left and right during assembly.
19. Use the torque measuring meter to measure the
total pre-applied load of front reducer.
specified torque : 1.8-2.4N m
20. Check the meshing mark of drive and driven
bevel gear.
a. Paint 3-4 teeth with the red lead in three different positions
of driven bevel gear.
b. Hold the flange of drive gear; rotate the driven bevel gear in
clockwise and anticlockwise.
c. Check the contacting condition of gear tooth.If the meshing
mark of drive and driven bevel gear does not consist with
thatshown in figure, it should select the proper adjusting
washer for modification according to the detailed form of
meshing mark.
convex of driven
concave of driven bevel
large end contact
toe contact
select the adjusting washer which can make the drive gear close to the
driven bevel gear
small end contact
dedendum contact
sound contact
select the adjusting washer which can make the drive
gear away form the driven bevel gear r
d. Remove the drive bevel gear and use the special toolsto remove
the large bearing of drive bevel gear beforereplacethe adjusting
washer.
e. Insert the new adjusting washer and usethespecial tools to
press in the large bearing of drivebevel gear.
f. Place the adjusting washer above the large bearing on the
drive bevel gear, install the spacer in the reducer housing;
install the drive gear flange andtighten the nut to the specified
torque.
g. Remeasure the pre-applied load of drive gear bearing clearance
and the total pre-applied load of reducer; ensure it meets the
requirement.
21. Use the dial indicator to measure the axial and
radial run-out tolerance of . Drive bevel gear flange.
Max. Axial runout : 0.1mm
Max. Radial run-out tolerance: 0.1mm
Remarks: It should check the big and small bearing of drive
bevel gear when the runout is more than 0.1mm.
22. Rivet the nut of drive bevel gear.
23. Use the bolt coated with screw lock agent toconnect
the clump weight bracket welded assembly to the front
reducer housing and tighten it to the specified torque.
Specified torque : 20-26N m
24.Use the bolt coated with screw lock agent to
connect the clump weight assembly to the clump
weight bracket assembly and tighten it to the specified torque.
Specified torque : 20-26N m
The amount of screw lock agent could cover the screw.
25.Use the pneumaticto screw two studs on the correspon
ding screw hole on the front axle housing until the
limitation.
(It should coat the screw of the stud which is screwed
in the front axle housing with the screw lock agent, and
the amount should be just can cover the screw which is
screw in the front axle housing)
Caution: The position of stud should consist with that before
disassembly.
26. Coat the plane of front axle housing with the
continuous 1596 silicon rubber plane sealant, scrape
it to level by plate.
Caution: Avoid the screw hole when paint the sealant; prevent
the sealant enters into the screw hole.
27. Install the front reducer assembly on the front
drive axle housing and screw on the hexagon bolt and
spring washer combination; cap the spring washer on
the stud, tighten the nut to the specified torque.
(The screw of all bolts should be precoated with screw lock agent)
The specified tightening force of hexagon bolt and spring washer
combination, stud and nut should be: 18-25N m
Caution: The bolt should be tightened in diagonal sequence
evenly; check the reducer housing and axle housing contacting
surface for gap; check the sealant from break. It should
remove the reducer for reinstallation if has the gap or break.
28. Screw the oil filling plug with washer on the front
drive axle.
Caution: Do not tighten it.
29. Screw the oil drain plug on the front drive axle.
Specified torque : 30-35N m
30. Use the special tools to install the major semiaxle
oil seal in the front axle tube.
Caution: Precoat the lip of oil seal with thin lithium base grease
and the oil seal should be installed in position.
31.Use the special tools to install the needle bearing in
the major semiaxle.
special tools
32.Use the special tools to install the major semiaxle
special tools
bearing by press..
33. Use the circlip pliers to install the circlip to clamp
the bearing inner race of major semiaxle.
special tools
34.Insert the spline on small end of major semiaxle
into the spline of front reducer half axle gear; use
the brass rod and hand hammer to knock the major
semiaxle into the front reducer.
Caution: Does not damage the inside needle bearing.
On spline of large end of major semiaxle when
knock in the major semiaxle.
35.Use the circlip pliers to install the circlip in the
flange and clamp the major semiaxle bearing outer
race.
36. Push the mechanical wheel of separator into
theneedle bearing inner race in major semiaxle until
can not move.
37. Detect the electric clutch assembly .
electric clutch detector
a. Measure the clearance between the shift fork and shift fork
sleeve.
Range of clearance : 0.2-0.4mm
It should replace the electric clutch assembly and shift fork
sleeve when the clearance is not in the range.
b. Connect the electric clutch assembly to the electric clutch
detector and power the electric clutch detector with 220V
power supply to test the electric clutch (Before the test,
adjustthe test controller status to make the motor starting time
is 3s ,the time form found the actuator is not in position to
restartingis 2.5s and the time of controller to redrive the
electric clutch is2s) The motor starts for 3s when the gear
switch is shifted form 2WD to 4WD, the lamp flashes at the
same time, the clutch is in 4WD status, the indicator lamp is
light always. If does not reach the 4WD status in the first
time, then the controller restarts it for 2s after 2.5s delay, the
lamp flashes at the same time; if it is still not in position, then
the indicator lamp flashes twice continuously, the indicator
lamp is extinguished for 1s, the motor is stopped. That means
the electric clutch is unqualified and should be replaced by the
qualified product. The motor starts for 3s normally when the
clutch is shifted form 4WD to 2WD, the lamp flashes at the
same time, when the clutch is in 2WD status, the indicator
lamp is extinguished always. If does not reach the 2WD status
in the first time, then the controller restarts it for 2s after 2.5s
delay, the lamp flashes at the same time; if it is still not in
2WD status, then the indicator lamp flashes twice
continuously, the indicator lamp is extinguished for 1s, the
motor is stopped.
That means the electric clutch is unqualified and should be
replaced by the qualified product.
38. Cover the shift fork sleeve on the major
semiaxle spline.
39. Install the separator housing on the front axle
tube flange and use the bolt to tighten it to the
(The bolt should be precoated
specified torque
with the screw lock agent and the amount should be
just can cover the complete screw)
specified torque : 90-110N m
Caution: Before installation, remove the foreign material on
two matching surfaces of separator housing and front axle
tube flange; and precoat the 1596 silicon rubber plane sealant
on the front axle tube flange. Caution: Prevent the sealant
from entering into the screw hole.
40. Press in the plastic vent tube on the electric
clutch housing and front axle tube.
41. Install two location pins in the location pin hole
of electric clutch housing respectively.
42. Coat the connecting surface of electric clutch
housing and electric clutch with 1596 silicon rubber
sealant uniformly; level it by plate.
Caution: The connecting surface should be cleaned
and must not have the oil and other foreign
matters. The sealant must not enter into the electric clutch housing and screw hole.
43. Install the electric clutch assembly on the electric
clutch housing.
a. Make the shift fork cross on the shift fork sleeve.
b. Align the location pin hole of electric clutch with two
location pins, and tighten it by bolt; tighten the bolt to the
specified torque. (Precoat the medium screw of bolt with one
or two drop of screw lock agent)
Specified torque : 23-26N m
44.Insert the clip into the vent tube bracket.
45. Clamp the vent tube clip on the front drive axle
vent tube connecting tube assembly.
46. Connect the front drive axle vent tube connecting
tube assembly to three ports, the front axle tube,
electric clutch and electric clutch housing.
47. Screw off the oil filling plug of front drive axle
housing, then fill the axle housing with the hypoid
gear oil; then tighten the oil filling plug to the specified torque.
Gear oil number: GL-5
Filling amount: The oil level is flush with the lower edge of oil filling
port.
specified torque : 140-150N m
48. Fill the electric clutch housing with the gear oil ;
then tighten the oil filling plug to the specified
torque.
Gear oil number: GL-5
Filling amount: The oil level is flush with the lower edge of oil filling
port.
Specified torque: 140-150N m
Installation of front reducer assembly
1. Install the front drive shaft assembly on the reducer assembly (Refer to “Assembly of Front
Drive Shaft”)
2. Use the jack to support the front drive axle, insert the
hanger plank bolt with washer and tighten it to the specified torque.
Remarks: Do not insert the previous two bolts in reverse direction.
Specified torque : 200-220N m
3. Use the bolt to connect the front drive axle flange to
the drive shaft according to the mark made before
disassembly, and tightens it to the specified torque.
assembly mark
Specified torque : 73-83N m
4. Install the beam under the front drive axle; tighten
the connecting bolt of the beam to the specified torque.
Specified torque : 73-83N m
5. Connect the power sire connector of the electric
clutch to the power output wire of the car.
Axle drving assembly
oil seal pressing block
brake caliper assembly
parking brake assembly
circlip
oil seal
bearing
oil seal base
rear axle
brake disc
N
pull-wire assembly
m: Specified torque
Used component which can not be used any more.
Removal of semiaxle
1. Remove the wheel.
2. Disconnect the manual brake pull-wire from the
carriage; loose the small bracket.
3. Remove the brake caliper; remove the brake disc .
4. Remove the rear halfaxle assembly from the rear
axle housing
a. Use the bolt to connect the special tools to the semiaxle flange
surface.
b. Use the hammer of special tools to remove the rear axle.
5. Remove the circlip from the halfaxle assembly.
Use the circlip pliers to remove the circlip.
limitation
limitation
Check and repair of rear axle components
1. Check the rear axle and flange for wear, damage
and run-out.
Max. Run-out of axle: 2mm
Max. Run-out of flange: 0.2mm
It should replace the rear axle if the rear axle or flange is worn or
damaged, or the measured run-out is beyond the specified value.
2. Check the external oil seal
a. Check for the wear or damage; especially for the lip of oil seal.
b. Replace it if necessary.
3. Check the bearing and oil seal holder
Check for wear and damage, replace it if necessary.
4. Remove the bearing and oil seal holder
a. Move the brake and oil seal pressing block to the limit position
along flange direction; move the external oil seal to the limit
position of oil seal.
b. Place the hook of the special tools in sequence, the position is
shown as figure; make the hook holds the bearing tightly; then
use the bolt to connect the hook to the hammer fixedly; at last,
place it on the pad with halfaxle spline end facing ground.
c. Hold the hammer to beat downwardly with force for several
times to remove the bearing and oil seal holder.
Caution: Do not damage the oil seal .
5. Install the new external oil seal
a. Clean the semiaxle.
b. Coat the lip of external oil seal with proper HP-R grease.
Caution: When install the oil seal, the lip of oil seal must not
contact the semishaft to avoid scratching the oil seal .
6. Replace the bearing and oil seal holder
a. Heat the oil seal pressing block in 22# engine oil to 100 .
Caution: The end of oil seal pressing block with larger chamfer
faces the halfaxle spline. Install it immediately after taken out.
b. Use the hydraulic press to install the new bearing and new oil
seal pressing block by press.
7. Install the circlip
Use the circlip pliers to install the new circlip in the slot of semiaxle.
8. Check the inner oil seal for wear or damage.
special tools
special tools
9. Remove the inner oil seal
Use the special tools to remove the inner oil seal.
10. Install the new inner oil seal
a. Coat the lip of oil seal with proper HP-R grease.
b. Use the special tools to knock in the new oil seal.
Installation of rear axle
1. Install the halfaxle assembly in the axle housing
a. Use the kerosene to clean the semiaxle and inner oil seal holder.
b. Assemble the halfaxle spline and halfaxle gear spline firstly,
then use the brass rod to beat knock the halfaxle assembly into
the axle housing.
Caution: Protect the lip of inner external oil seal and pull-wire
assembly during assembly; do not damage the oil sleeve
assembly; align the brake bolt with the flange bolt of rear axle.
Tightening force: 95-105N m
brake disc
axle housing
2. Install the rear brake disc
flange
halfaxle
assembly
3. Install the brake caliper
Tightening force: 95-105N m
4. Connect the manual brake wire.
5. Install the wheel.
6. Discharge the air of brake system by test.
Reducer
adjusting ring
side bearing
driven bevel gear
adjusting washer
differential housing
locking plate
drive bevel gear
rear bearing
bearing spacer
lock washer with
double ears
oil baffle disc
dustproof cover
flange
plain washer
front bearing
stop plate
oil seal
N
bearing gland
m:
Specified torque
Used component which can not be used any more.
Replace the oil seal on the car
assembly mark
1. Disconnect the reducer from the drive shaft.
a. Make the assembly mark on two flanges.
b. Remove four bolts and nuts.
2. Remove the flange and dustproof cover assembly
3. Remove the oil seal
Use the special tools to remove the oil seal.
4. Install the new oil seal
a. Coat the lip of oil seal with the HP-R grease.
b. Use the special tools to knock in the new oil seal.
Insertion depth of oil seal: 1.0mm
5. Install the flange and dustproof cover assembly
special tools
insertion depth: 1mm
6. Rivet the drive bevel gear nut.
assembly mark
7. Connect the drive shaft flange to the reducer
flange Align the assembly mark ; then connect them
by bolt.
Tightening force: 78
5N
m
8. Check the oil level of reducerReplace the hyperbolic
gear oil if necessary.
Oil number : GL-5 hyperbolic gear
Viscosity : SAE80W/90
Amount: Filled with oil until the oil flows out form oil filling
port.
Removal of reducer
assembly mark
1.Remove the oil drain plug; drain the oil from the
reducer
2. Remove the rear axle
(Refer to Step 2 in “Disassembly of Rear Axle”)
3. Disconnect the drive shaft from the reducer
(Refer to step 1 in “Replace the Oil Seal on Car”)
4
Remove the assembly of reducer.
Disassembly of reducer
Remarks: If the noise of differential is loud, process the following inspection before disassembles the differential to determine
its reason. When the differential has serious problems, it can be
disassembled for repair if necessary.
1. Check the internal clearance of driven bevel gear.
If the clearance is beyond the specified range; adjust the preapplied
load of bearing or repair if necessary.
(Refer to step 13 “Assembly of Reducer”)
Standard internal clearance: 0.15-0.25mm
2. Check the intertooth contact of drive bevel gear
and driven bevel gear.
(Refer to Step 14 in “Assembly of Reducer”)
Record the contact position of tooth.
3. Check the clearance between the thrust plate of
axle shaft gear and differential housing.
Use the feeler to measure the clearance between the thrust plate
of axle shaft gear and differential housing.
Standard clearance: 0.45-0.75mm
It should be replaced by the proper thrust washer if the clearance
is beyond the specified range.
(Refer to Step 2 in “Replacement of Differential Components”)
4. Measure the pre-applied load of drive bevel gear
Use the torsion meter to measure the pre-applied load on the
internal clearance between the drive small gear and driven bevel
gear.
Pre-applied load: 0.4-0.6N m
5. Total pre-applied load
Use the torsion meter to measure the total pre-applied load.
Pre-applied load :
0.9-1.3N m
6. Remove the differential and driven bevel gear
a. Make the assembly mark on the differential bearing gland and
reducer housing.
b.Remove two stop plates.
c.Remove two bearing glands and two adjusting rings.
d.Remove the bearing outer race.
e.Remove the differential form the reducer housing.
Remarks: Mark the label on the removed components to indicate the position of reassembly.
7. Remove the flange and dustproof cover assembly
special tools
a.Use the hammer and chisel to loose the riveted part of nut.
b.Use the special tools to clamps the flange; then remove the nut.
Caution: The used nut can not be used any more.
c.Remove the flange and dustproof cover assembly.
8. Remove the oil seal
Use the tools to pry out the oil seal.
9. Remove the drive bevel gear and spacer
special tools
Remove the drive bevel gear, bearing and spacer from the reducer
housing.
10. Remove the oil baffle disc and front bearing inner
race
11. Replace the rear bearing of drive bevel gear
a. Use the press machine and special tools to pull out the rear
bearing from the drive bevel gear.
b.Use the press machine and special tools to install the reused
adjusting washer and new rear bearing on the drive bevel gear.
special tools
12. Replacement of front and rear bearing outer race
of drive bevel gear.
a. Use the hammer and brass bar to knock out the front and rear
bearing.
b. Use the press machine and special tools to install the new
bearing outer race by press.
13. Remove the side bearing form the differential
housing.
Use the special tools to pull out the side bearing from the differ
ential housing.
14. Remove the driven bevel gear
a.Remove the connecting bolt and lock plate of driven bevel gear.
b.Make the assembly mark on the driven bevel gear and differen
tial housing.
c.Use the rubber hammer or brass rod to knock down the driven
bevel gear.
Assembly of reducer
1. Install the bearing outer race of drive bevel gear.
(Refer to Step 12 in “Disassembly of Reducer”)
2. Install the rear bearing of drive bevel gear and ad
justing washer
special tools
a. Select the proper adjusting washer according to “Meshing Condi
tion of Drive Bevel Gear and Driven Bevel Gear”.
b. Install the rear bearing and selected adjusting washer by press
machine.
3. Install the spacer.
a.Select the adjusting washer between the rear bearing and spacer
based on the experience.
b.Install the spacer.
4. Install the front bearing inner race, oil baffle disc
special tools
and oil seal of drive bevel gear
a. Place the front bearing inner race in the reducer housing; place the
oil baffle disc.
b. Coat the position of reducer housing oil seal and lip of oilseal
with grease uniformly; place the oil seal in position. Start the
press machine for installation.
level
5. Install the drive bevel gear, flange and dustproof
cover assembly
a. Install the flange and dustproof cover assembly in the reducer
housing, Press it to level by hand.
b. Insert the drive bevel gear installed with the spacer, rear bearing
and adjusting washer into the flange through the spline; screw on
the nut.
c. Use the nut to tighten the flange, plain washer and drive gear.
6 Use the special tools to clamp the flange; use the
Special tools
torque wrench to tighten the nut.
Tightening force: 140
160N
m
7. Measure the rotation pretightening force of bearing
For new bearing : 1.2
1.7N m
For reused bearing : 0.4
0.6N m
If does not meet the requirement, replace the adjusting washer
under the spacer until meet the requirement.
Tightening torque : 0-3.5N m
a. Reduce the thickness of adjusting washer if the measured value
is less than standard value;
b. Increase the thickness of adjusting washer if the measured value
is more than standard value.
8. Install the driven bevel gear on the differential
housing.
a. Use the bolt and lock plate to connect the driven bevel gear to the
differential housing.
b. Screw on for three rounds at least by hand; then use the pneu
matic wrench to tighten it properly.
c. Use the torque wrench to tighten it.
Tightening force: 65-95N m
Caution: Tighten the bolt in diagonal .
Use the hand hammer and flat head punch to lock the lock plate.
9. Install the differential side bearing by press.
special tools
Use the press machine and special tools to install the side bearing
on the differential housing by press.
special tools
10. Install the differential assembly
a.Remove the bearing gland. Do not mix the left up with right.
b.Install the differential assembly in the reducer housing.
11.Install the adjusting ring
Use the adjusting ring to press the bearing outer race in position;
tighten it properly. Adjust the clearance between the drive and
driven gear to the proper dimension.
12. Install the bearing gland
a. Align the assembly mark on the bearing cover with that on re
ducer housing; Press down the press cover by hand.
b. Install the lock washer with double ears and nut; tighten the
hexagon nut by pneumatic wrench properly.
assembly mark
13. Adjust the engagement clearance between the drive
and driven gear.
a. Use the torque wrench to tighten four bolts on bearing cover by
torque wrench.
Tightening force: 78-115N m
b. Adhere the measuring meter base on the end surface of reducer
housing; the measuring head contacts the tooth surface; rotate
the driven gear by hand and measure the engagement clearance be
tween the drive and driven gear.
c. If the engagement clearance does not meet the requirement, use
the special tools to adjust the left and right adjusting ring until it
meets the requirement.
d. Recheck the engagement clearance between the drive and driven
gear.
Engagement clearance: 0.13-0.18mm
14. Check the meshing mark of drive and driven bevel
gear.
a. Paint 3-4 teeth with the red lead in three different positions of
driven bevel gear.
b. Rotate the driven bevel gear in clockwise and anticlockwise by
hand.Check the engagement of gear.
arge end contact
toe contact
select the shim which can make the small drive gear
close to the driven bevel gear
small end contact
dedendum contact
sound contact
select the shim which can make the small drive gear away from the driven bevel gear
rear bearing
washer
Select the proper washer from the table for correction if the intertooth
contacting status is bad. The thickness tolerance of washer is 0.01mm.
Set NO. Thickness
Set NO.
Thickness
15. Install the stop washer and stop plate
a. If the drive and driven gear engagement mark meets the requirement,
then use the hand hammer and punch to lock the stop washer.
b. Install the stop plate, spring shim and bolt; tighten the bolt.
Tightening force: 18-25N m
c. Use the punch and hand hammer to knock the lower end of stop
plate in the adjusting ring hole.
16. Measure the total pre-applied load
Pre-applied load : 1.8-2.4N m
If the pre-applied load is beyond the specified; it should replace the
shim between the spacer and rear bearing until meet the requirement.
a. It should replace the adjusting washer if the pre-applied load is
more than specified value.
b. If the pre-applied load is less than specified value, it can retighten
the nut slowly and the torque should be no more than 160N m.
Caution: When tighten the nut, if is beyond the Max. torque, replace the adjusting washer and repeat the pre-applied load process.
Do not reduce the pre-applied load by the method of screw off the
drive gear nut to loose.
17. Check and adjust the run-out of flange.
a.Adhere the dial indicator base on the reducer housing; make the
probe of dial indicator contact with the end surface of flange;
rotate the flange and watch the rotation range of the dial.
Full run-out tolerance of end surface: 0.10mm
b.Adhere the dial indicator base on the reducer housing; make the
probe of the dial indicator contact with the inner diameter of
flange; rotate the flange by hand , and watch the rotation range of
the dial.Radial full run-out tolerance: 0.10mm
18. Rivet the nut of drive bevel gear
Installation of reducer and differential assembly
assembly mark
1.Install the new stiffening ring
2.Install the reducer and differential assembly
Install the reducer and differential assembly in the rear axle housing;
place the washer and nut. Tighten the nut to the specified torque.
Tightening force: 18-25N m
3.Install the reducer and differential assembly flange
on the drive shaft flange and align the assembly
mark; use four bolts and nuts to connect them.
Tighten the bolt and nut to the specified torque.
Tightening force: 78
5N
m
4.Install the oil drain plug; fill the differential with the
gear oil
oil number : GL-5 hyperbolic gear oil
Viscosity: SAE80W/90
Amount: Filled with oil until the oil flow out from the oil filling
port.
Tighten the oil filling plug.
Tightening force: 140-150N m
Differential
thrust plate
straight pin
differential housing half axle
gear
lock washer
planetary gear
planetary gear shaft
half axle
gear
planetary gear
thrust plate
lock washer
Differential
1
Remove the reducer and differential assembly
(Refer to “Removal of reducer”)
2
Remove the differential from the reducer and dif
ferential assembly.
(Refer to “Disassembly of reducer”)
Replacement of differential components
1.Disassembly of differential
Use the hammer and punch to knock out the pin. Remove the
planetary gear shaft, two half axle gears, two planetary gears and
two lock washers, two thrust plates.
2. Assembly of differential
a.Install the half axle gear and thrust plate of axle shaft gear
(Unit: mm)
Set NO.
1
2
Thickness 1.2
1.5
b.Install the planetary gear and planetary gear lock washer in the
differential by rolling. (Unit: mm)
Set NO.
Thickness
c.Use the feeler to measure the clearance between the thrust plate
feeler
and differential housing; it can be replaced by the thrust plate with
different thickness if the clearance is beyond the specified range.
Standard clearance: 0.45-0.75mm
d.Install the straight pin
Use the hammer and punch to knock in the pin through the hole
on the differential housing and planetary gear shaft. Rivet the pin
with the differential housing.
Installation of differential
1 Install the differential assembly in the reducer hous
ing
(Refer to “Assembly of Reducer”)
2 Install the differential
(Refer to “Installation of Reducer and Differential Assembly”)
Rear suspension
upper support pad
of coil spring
long longitudinal
pull-rod assembly
coil spring
rear axle
assembly
short longitudinal pull-rod assembly
short longitudinal
pull-rod fixed bolt
long longitudinal
pull-rod assembly
short longitudinal
pull-rod assembly
cross pull-rod
short longitudinal
pull-rod fixed bolt
connecting bolt
rubber pad
long longitudinal
pull-rodassembly
long longitudinal
pull-rod fixed bolt
cross pull-rod assembly
rear vibration damper
rear stabilizer bar
rear connecting rod of stabilizer bar assembly
bush
plain washer
bush clip
N
m:
specified torque
Removal of vibration damper
1. Use the lifter to raise the car firstly, then support
the rear axle by bracket.
2. Remove the upper and lower fixing nut which is used
to fix the vibration damper; compress the vibration
damper by hand. Remove the upper end firstly, then the
lower end; take out the vibration damper .
Installation of vibration damper:
1. Lower tightening force of vibration damper:
170
5N
m.
Upper tightening torque : Compress the rubber block to 2/3 of
total height.
Caution: If the fixing nut of vibration damper is the lock nut, it
should be replaced by the new lock nut after replace the vibration damper.
Removal of coil spring:
1. Remove the vibration damper (As previous )
2. Use the special tools to clamp the coil spring.
3. Place the car in the bounce status, take out the
coilspring
4. Remove the special tools from the coil spring.
Installation of coil spring:
special tools
1. Firstly, use the special tools to clamp the coil spring
to certain height (height when car is in bounce
status).
2. Cautions for installation: Adjust the rubber gasket on
the spring to ensure the spring in flat status.
3. Remove the special tools.
Removal of connecting rod of stabilizer bar:
1.Shown as figure, firstly screw off the nut in the con
necting place between the connecting rod of stabi
lizer bar and carriage. (Need the inner hexagon
spanner ).
2.Screw off the nut connected to stabilizer bar in same
method; screw off the connecting rod.
Installation of connecting rod of stabilizer bar:
Tighten it to the specified torque during installation:
5N m
63
Brake-1
Chapter 8
Brake
Cautions...................................................................................... 2
Troubleshooting............................................................................2
Check and adjustment..................................................................5
Brake pedal..................................................................................7
Parking brake...............................................................................8
Front brake...................................................................................9
Rear brake...................................................................................16
Rear parking brake......................................................................22
Sensor load proportional valve.....................................................29
Antilock Braking System (ABS)..................................................31
Brake-2
Cautions
Troubleshooting
Failure
Pedal is low or soft
Lag of brake
Brake is stagnant
cause
Inspection content
brake pad is worn
Replace the brake shoe
brake block is worn
Replace the brake block
brake system is leaked
Repair the leakage
master pump has failure
Repair or replace the master pump
Brake system has air
Drain the air from brake system
Brake pump has failure
Replace the brake pump
Auto adjuster of rear brake has failure
Repair or replace the adjuster
Parking brake is adjusted badly.
Adjust the parking brake
Pull wire of parking brake is locked
Repair if necessary
Assist push rod is adjust badly
Adjust the push rod
Extension spring or return spring has fault
Replace the extension spring
Pipeline is blocked
Repair if necessary
brake pad is broken or deformed
Replace the brake shoe
brake block is broken or deformed
Replace the brake block
Auto adjuster is damaged
Replace the adjuster
Master pump has failure.
Replace the master pump
Improper inflation of tyre
Charge the tyre to the proper pressure.
There is grease spot or lubricant oil on the
Find out the cause. Replace the brake shoe or block.
brake shoe or brake block.
Replace the brake shoe
The brake shoe is deformed ; the brake pad
Replace the brake block
is worn or smoothed
Replace the brake drum or brake disc
The brake block is deformed, worn or
Replace the spring
smoothed
Repair the wheel pump
The brake drum or brake disc is deformed
Replace
Extension spring or return spring has failure
Replace the brake block
Wheel pump has failure
Pump has failure
Brake block is blocked
brake pedal is hard
There is the grease spot or lubrication oil on
Find out the cause .
the brake disc or brake block.
Replace the brake shoe or brake block
The brake shoe is deformed; the brake pad is
Replace the brake block
worn or smoothed
Replace
The brake block is deformed, worn or
Replace the assist
smoothed
Repair if necessary
Brake pump has failure.
Repair if necessary
Brake assist has failure
Improper vacuum degree
The brake pipeline is blocked.
Brake-3
Troubleshooting (continued)
failure
cause
Inspection content
(drum brake)
The brake shoe is blocked in the rear apron flange
Filled with lubricated oil
The brake generates the
The rear apron flange is worn
Replace the lubricant flange
crack
The brake shoe pull-out piece spring is loose or lost
Replace
The fixed bolt of rear apron is loose (disc brake )
tighten
Brake block support plate is loose or lost
replace
Installation bolt is loose
tighten
The brake shoe gasket or brake block is worn
Replace, if the scratch is heavy,
The brake caliper and wheel or rotor are disturbed
then fine machine the brake drum or
mutually
rotor again
It has the rustle or rattler
The dustproof cover and rotor, rear apron and brake
Replace it according to requirement
when use the brake
drum are disturbed mutually
Correct or replace
Failure of other brake system component
Repair or replace it according to
Tyre generates the abrasion with the tyre and chassis
requirement
clatter
during
operation.
Check or maintain
The brake drum and brake shoe gasket, rotor and
Check, repair or replace
scream, rattler or vibration
brake block is worn or scratched.
clean or replace
noise when use the brake .
The brake pad or block is dirty, with oil or smoothed.
check, replace
The brake pedal or assistor push bar is adjusted
check and adjust
incorrectly
replace
It has the squeak, continuous
Caution:
The
abrasion
material in the brake will
generate the inherent noise
(disc brake )
replace
The brake block silencing plate is lost or damaged.
clean or remove the flash
abrasion, then emit the
The abrasion of the brake block makes the brake
check, repair or replace
heat. So it is normal that
block abrasion indication plate contacts the rotor
generate the
The brake caliper has burr or is corrosive
and
heat
accident.
during
The
the
squeak by
condition
(drum brake)
will be serious in extreme
The pull-out piece spring of brake shoe is soft,
environment, such as cold,
damaged or improper. The pull-out piece spring pin
hot,
and spring of brake shoe is loose or damaged; and
high
snowing,
humidity,
saliferous
and
mud. The accident squeak
will not cause the fatal
failure of the brake, and
will not reduce the effective
performance of the brake.
rear apron flange has crack
Brake-4
failure
It has the continuous
scream and squeak
when does not use the
brake
cause
Inspection content
The brake pedal or assist push bar is adjusted
incorrectly
Check and adjust
The return of brake assist or master pump or wheel
pump is bad
Check, repair or replace
(disc brake )
The piston is corrosive or blocked
Check and fill with lubrication oil if
The brake block in brake caliper is in improper
position
necessary.
Repair or replacement
Shell abrasion of rotor and brake caliper
The brake block support plate in disc brake is
Repair or replacement
Repair or replacement
installed improperly
The brake block abrasion indication plate contacts
Repair
the rotor for the abrasion of brake block
(drum brake)
The press spring of brake shoe is soft, damaged or
improper.
The flange of rear back rear apron is cracked
The rear apron interfere with the
brake drum
mutually after bent or warp
Improper machining of brake drum, cause the mutual
Repair
Repair or replacement
Repair or replacement
Replace the brake drum
interference of rear apron and brake shoe
components of other brake system:
Brake system has loose or redundant components
The brake pad is smoothed for the rear brake drum is
Check, maintain
necessary.
and
replace
if
adjusted too tight
The wheel bearing is worn damaged or under
lubricated
It still has the rattler,
click or cackle noise
when does not use the
brake.
The stone or foreign enters into the inside of wheel
protecting hood
Remove the foreign materials such as
the stone
The hub nut is loose
Tighten it to the specified torque, it
should be replaced if the bolt hole is
The brake pedal or assistor push bar is adjusted
enlarged
Check and adjust
improperly
The wheel bearing is worn, damaged or lubricated
Check, lubricate or replace
insufficiently
(disc brake )
The muffler spring is soft or lost; the brake block
support plate or external end of brake block is coiled
Repair or replacement
silencing plate is unsound
The slide bush is worn
Check and replace if necessary
The installation bolt is loose
Piston returns unsoundly
(drum brake)
Have loose or redundant component
Check and replace if necessary
Check and tighten if necessary
Check , repair or replace
Check, take out or repair
Brake-5
Check and adjustment
Check and adjustment of brake pedal
1. Check the correctness of height of pedal
Distance from pedal to lower front apron: 152mm, Operating stroke
of pedal push bar is 1mm.
pedal push rod
parking lamp switch
a. Disconnect the brake lamp switch wire connector; loose the
tightened nut; rotate the brake switch to the position not contacted
to limit block of brake pedal
b. Loose the lock nut of operating connecting rod; use the thinnose
pliers to rotate the operating connecting rod to adjust the height
of brake pedal to the standard value; lock the block nut tightenedly
when reach the standard value.
c. Rotate the brake lamp switch to contact with the limit block of
brake pedal; then rotate 1/2 1 round continuously; tighten the
block nut;
d. Connect the wire connector of brake lamp switch;
e. The brake lamp should not be light when the brake pedal is
released.
pedal push rod
3. Check the free stroke of pedal
Free stroke of pedal: 4
6mm
In the status of engine is stop, step on the brake pedal for 2 3 times
after eliminate effect of the brake assist, push down the brake pedal
by hand to just with the resistance, then measure its displacement
(free stroke). It should be in accordance with the standard value.
free stroke of pedal
Brake-6
4. Adjust the stroke of pedal if necessary
a. Rotate the pedal push bar to adjust the free stroke if the stroke
length is improper.
b. Start the engine to confirm the free stroke of pedal.
c. Check the height of pedal after adjusts the free stroke of pedal.
d. The height difference of brake pedal and clutch pedal to front
apron is 0 8mm.
e. The height difference of brake pedal and accelerator pedal to the
front apron is 45
5mm.
Vacuum assist
Remarks:
Use the vacuum assist tester to check the operation of vacuum
assist if possible.
1. Operation inspection
a. Step on the brake pedal for several times before start the engine
and check the reserved distance which should not be changed.
b. Step down the brake pedal and start the engine. If the pedal
moves downwardly a little, then it means the normal operation;
if the brake pedal moves upwardly, then it means the brake
assist is damaged.
2. Air tightness inspection
a. Start the engine and shut off it after 1 2 minutes. Step down the
brake pedal slowly for several times. If the pedal moves
downwardly all long at the first time, but moves upwardly little
by little after second or third times, then it means the vacuum
assist has the sound air tightness. If the pedal height is without
variety, then it means the brake assist is damaged.
b. Step down the brake pedal when the engine is operating; then shut
off the engine but step down the pedal, if the pedal keeps the
stroke without variety within 30s, then it means the vacuum
assist has the sound tightness; if the brake pedal moves upwardly,
then it means the brake pedal assist is damaged.
Brake-7
Air discharge of brake system
Remarks:
It should discharge the air if operate on the brake system or assume the brake system pipeline has the air.
Caution:
Must not keep the brake fluid on the paint surface, wipe off it if
has.
1. Fill the liquid reservoir up with the brake fluid.
Check the liquid level in liquid reservoir after discharge the air of each
wheel pump. Filled with the brake fluid if necessary.
2. Connect the polyethylene resin pipe to the overflow hole plug of
wheel pump;insert the other end of pipe into the container with
half of brake fluid.
Remarks:
When discharge the air of wheel brake pump, it should begin
from the longest pipeline.
3. Air discharge of brake system pipe
a. Step down the brake pedal slowly for several times.
b. Let the assistant presses down the pedal, at the same time screw
off the overflow hole plug until the brake fluid flows out. Then
switch off the overflow hole plug.
c. Repeat the procedure until the liquid is without air bubble.
Tightening torque of overflow hole plug: 11N m
4. Process the same procedure for each wheel pump.
Brake pedal
support sleeve
return spring
screw bar
bush
brake bracket
welded assembly
pin shaft
pedal cover block
hexagon flange nut
rocker arm
welded assembly
Brake-8
fork pin shaft
Replacement of pin shaft
Remarks:
When the connecting fork pin shaft and pin hole is over worn, it
should replace the pin shaft bush.
Remarks:
push bar
lock nut
inner distance
When the clearance between the brake pedal shaft and bush is
large, it should remove the pedal and replace the bush.
Parking brake
rear parking brake pull wire (R)
parking crank assembly
brake pull wire clip
switch assembly
rear parking brake pull wire (L)
1. Adjust the parking crank assembly in position, 6
8 teeth.
2. When the parking brake pull wire is tightened, the torque should
be no more than 400N m.
Brake-9
Front brake
front brake oil pipe
cooper washer
tong
guide pin rubber cover
guide pin dustproof cover
air-bleed
bolt cover
piston Piston
dustproof cover
location pin
guide pin dustproof cover
square seal ring
upper circlip of brake block (I)
upper circlip of brake block (II)
lnner silencing plate combination
cliper bracket
Inner brake block
silencing plate
wear limitation alarm plate of brake block
lower circlip of brake block
outer silencing plate combination
lower circlip of
brake block
N
m:
Specified torque
brake block assembly
Replacement of brake block
Remarks:
When brake during the travel process, if the front wheel has the
continuous screams noise, then it should check the wear limitation
alarm plate of brake block. If the alarm plate has the abrasion
mark with brake disc, then it should replace the brake block .
1. Remove the front wheel
2. Check the thickness of abrasion material of brake block.
Check the thickness of abrasion material of brake block by the watch
hole on the tong.
Replace it if is not within specified range.
Min. thickness : 2.0mm
Brake-10
3
Lift the main body of brake caliper.
a. Remove the hexagon flange bolt.
b. Lift the brake pump and hang it by rope to protect the brake oil
pipe.
Remarks: Do not screw off the brake oil pipe and bleed plug.
4. Remove the following components
a. Two pieces of brake block
b. One piece of silencing plate
c. Two piece of silencing plate combination
d. One wear limitation alarm plate of brake block
e. Four brake block circlip plates
5. Measure the thickness of brake disc
(Refer to step 2 of “ Inspection of component of front brake” )
6. Measure the circular runout of brake disc.
(Refer to step 3 of “Inspection of component of front brake”)
7. Install the brake block circlip plate
Brake-11
8. Install the new brake block
a. Install a wear limitation alarm plate of brake block on the inner
brake block.
b. Install a silencing plate and a silencing plate combination on the
inner brake block.
c. Install a silencing plate combination on the on the outer brake
block.
d. Install two brake blocks; let the wear limitation alarm plate is in
the inside of brake caliper.
Caution: It is unallowable that the operating surface of brake
block and brake disc is polluted by the grease and paint.
e.
Suck a few of brake fluid form the liquid reservoir (prevent the
brake fluid from overflowing from liquid reservoir).
f.
Use the special tools to press the piston .
9. Install the brake pump
Install and tighten the hexagon flange bolt.
Tightening force:
25
35N m
Remarks: Only can replace the brake block on a wheel in one
time to avoid the piston on another wheel is pushed out.
10. Install the front wheel
Tightening force of the wheel fixing nut is 120N m
11. Check whether the brake fluid level is in the specified position.
Brake-12
Removal of brake pump
1. Remove the brake pipeline
Remove the brake pipeline. Use a container to contain the brake fluid.
2. Remove the brake pump from the clamp bracket
a. Remove the hexagon flange bolt, location pin and guide pin.
b. Remove the brake pump.
3. Remove the brake block
a. Two brake blocks
b. One silencing plate
c. Two silencing plate combinations
d. One wear limitation alarm plate of brake block
e. Four brake block circlips
Disassembly of brake pump
1. Remove the piston form the tong
a. Place the wood block between the tong bracket and tong body .
b. Use the air gun or air pipe to aim at the brake oil pipe hole; remove
the piston form the tong.
c. Use the clean rag or soft cloth to take out the piston.
Warning: It must not place the finger in front of the piston when
use the compressed air.
2. Remove the piston gasket from the tong body.
Use the paper clip to remove the piston gasket.
Caution: The used tools must not be sharp to prevent from scratching
the piston gasket.
Brake-13
Check the component of front brake
1. Measure the thickness of the brake block bush.
standard thickness: 9.0mm
minimum thickness: 2.0mm
It should replace the brake block if less than minimum thickness or
has uneven abrasion.
2. Measure the thickness of the brake disc.
standard thickness: 26.0mm
minimum thickness: 24.0mm
It should repair or replace the brake disc if the brake disc is damaged
or worn or its thickness is
less than minimum thickness.
3. Measure the circular runout of the brake disc.
Remarks: It should ensure that the bearing is adjusted correctly
before the measurement . maximum circular runout : 0.11mm
4. Replace the brake disc if necessary.
a. Remove the tong bracket form the steering knuckle.
b. Remove the hub and brake disc. (Refer to section “Front hub”)
c. Install the new brake disc; tighten the connecting bolt to the
specified torque.
Tightening force: 90
100N
m.
d. Install the hub and brake disassembly. (Refer to section “Front
hub”)
e. Install the tong bracket on the steering knuckle; tighten the
connecting bolt to the specified torque.
Tightening torque 140
10N
m.
Brake-14
Assembly of brake pump
1. Preparation work
All components should be washed, dried by wind and without foreign
material before the assembly. During the assembly, cost the guide pin
and location pin with proper vacuum silicon based grease; coat the
working surface of piston and square gasket with proper rubber
lubricant.
2. Install the piston gasket in the tong body.
a. Screw the bleed screw into the bleed hole;
tightening torque 7
10N
m.
b. Install the square gasket in the sealing groove of two cylinders of
pump respectively after coat its working surface with proper
rubber lubricant.
3. Install the piston with dustproof cover in the tong
a. Cover the dustproof cover on the piston.
b. Lengthen the dustproof cover to expose the bottom of piston
from the dustproof cover clip ring; use the tool (for example: steel
wire about
2mm ) to assist insert the clip ring into the cylinder
hole clip ring groove.
Caution: The used tools must not be sharp to prevent the damage
of dustproof cover.
c. Press the piston to the bottom of cylinder hole by hand.
4. Pre Install the guide pin and location pin on the tong bracket.
a. Install the guide pin dustproof cover on the guide pin and location
pin respectively.
b. Screw the guide pin and location pin in the tong bracket
respectively.
Caution: Do not damage the guide pin dustproof cover.
Brake-15
Installation of brake caliper
1. Install the brake block
2. Install the brake pump
a. Install the brake pump.
b. Install and tighten the hexagon flange bolt.
Tightening force:
25
35N m
3. Connect the brake pipeline
Connect the brake oil pipe to the tong body.
Tightening force: 50
5N
m
4. Fill up the brake liquid reservoir with the brake fluid and dis
charge the air in brake system.
5. Check for the leakage of brake fluid.
Caution: Discharge the air after the completion of replacement.
Brake-16
Rear brake (Disk-and-drum type)
brake oil pipe fastening blot 55
guide pin 25
copper washer
30
rectangle seal ring
bleed screw dustproof cover
bleed screw
rear brake oil pipeline
cylinder hole
dustproof cover
piston
location pin 25
30
wire clip
tong body (left)
pin rubber cover
outside brake block
silencing
plate
inside brake block
silencing plate
tong bracket
N
m:
combination
brake block wearing
indication plate
brake caliper locking bolt 100
specified torque
Replacement of brake block
Remarks: if the rear wheel generates the cheep during the braking,
it should check the abrasion indication plate of brake block. If the
indication plate has the abrasion mark with brake disc, then it
should replace the brake block .
1. Remove the rear wheel
2. Check the thickness of brake block bush.
Measure the thickness of the brake block bush (abrasion material)
from the eyehole of tong. If the thickness is not within the specified
range, then it should replace the brake block.
minimum thickness: 2.0mm.
peephole
Brake-17
3. Uplift the brake pump
a. Remove the location pin.
b. Uplift the brake pump and hang it with a rope to protect the brake
oil pipe.
Remarks: do not remove the brake oil pipe.
4. Remove the following components:
a. Two brake blocks
b. Two silencing plates
c. Two silencing plate combinations
d. One brake block bush wearing indication plate
e. Two brake block circlips
5. Measuring the depth of brake discs
(refer to the step 2 of measuring the components of rear brake)
6. Measuring the brake disc circular runout
(Refer to step 3 of measuring the components of rear brake)
7. Install the brake block Circlip
Brake-18
8. Install new brake block
a. Install a brake block bush wearing indication plate on the internal
brake block.
b. Install one silencing plate and one silencing plate combination on
each brake block.
Remarks: Coat the two sides of silencing plate with disc brake
oil (which cannot be replaced with oil of other models).
c. Install two brake blocks, make the wearing indication plate in the
lower position (near the tank cylinder).
Remarks: The working surface of the brake block and brake
disc are not allowed to be contaminated by grease and paint.
9. Install the sub pump
a. Unscrew the release screw, absorb some of the brake fluid.
b. Press the plunger with hammer beam or similar tools, and unscrew
the release screw at the same time.
Tightening force:
8
13N
m
Remarks: Only the brake block of one wheel can be replaced for
once, lest the plunger on the opposite side be bounced.
c. Install and tighten the location pin.
Tightening force:
25
30N
m
10. Install the rear wheel
Tightening force: 120N m
11. Fill up with the brake fluid and drain the air in the brake
system after the completion of replacement.
Brake-19
Removal of brake pump
1.Remove the brake pipeline
Remove the brake pipeline. Use a container to contain the brake fluid.
2. Remove the pump form the bracket
a. Remove the location pin and guide pin.
b. Remove the tong.
3. Remove the brake block
a. Two pieces of brake block
b. Two pieces of silencing plate
c. Two pieces of silencing plate combination
d. One piece of brake block bush abrasion indicating plate
e. Two brake block circlips
Disassembly of brake pump
1. Remove the piston form the tong
a. Insert the cleaning cloth or other soft cloth into the place between
piston and tong.
b. Use the compressed air to remove the piston and cylinder hole
dustproof cover from the tong.
Warning: it must not place the finger in front of the piston when
use the compressed air.
2. Remove the piston gasket form the tong
Use the screwer to remove the piston gasket.
Brake-20
Check the components of rear brake
1. Measure the thickness of the brake block bush.
Standard thickness: 8.0mm
Minimum thickness: 2.0mm
It should replace the brake block if less than minimum thickness or
has uneven abrasion.
2. Measure the thickness of brake disc.
standard thickness: 18.0mm
minimum thickness: 16.0mm
It should repair or replacement brake disc if it is scratched or worn or
its thickness is less than minimum thickness.
3. Measure the circular runout of brake disc.
Remarks: It should ensure that the rear bearing is adjusted
correctly before the measurement.
Maximum circular runout : 0.11mm
4. Replace the brake disc if necessary.
a. Remove the bracket form the rear axle flange.
b. Remove the rear brake disc and install the new brake disc .
c. Install the bracket and tighten the fastening brake caliper bolt.
Tightening force: 100
5N m
Brake-21
Assembly of pump
1. During the assembly, coat the guide pin with the proper vacuum
sili con based grease; coat the operating surface of piston and
square gasket with proper rubber lubricant.
2. Install the piston gasket and piston in the tong
3. Install the cylinder hole dustproof cover and wire clip in the
tong.
4. Install the rubber pin cover on the tong bracket.
Installation of brake caliper
1. Install the brake block
Brake-22
2. Install the piston gasket in the tong body.
a. Screw the bleed screw into the bleed hole;
b. Install the square gasket in the sealing groove of two cylinders of
pump respectively after coat its working surface with proper
rubber lubricant.
Tightening torque 7
10N
m.
3. Connect the brake pipeline
Connect the brake oil pipe to the tong.
5N
Tightening force: 50
m
4. Fill up the brake system with the brake fluid and drain the air
in the brake system.
5. Check for leakage of brake fluid.
Rear parking brake
pull-out piece
spring draw bar
stopper
push pedal
release spring
upper release spring
push pedal
saddle type washer
brake shoe pulling arm
rear brake disc
rear brake shoe
pulling arm pin
hand brake
stay wire
front brake shoe
lower tension spring
clearance-adjusting bolt
pull-out piece
spring seat
clearance-adjusting
bolt head
clearance-adjusting gear
Used component which can not be used any more.
Removal of rear brake
Remarks: When the brake torque of the hand brake cannot meet
the brake requirement, the thickness of the brake shoe gasket
shall be tested. If it is less than the minimum value of brake show
gasket, the brake shoe shall be replaced.
minimum thickness: 1.0mm
Brake-23
1. Remove the rear wheel
2. Remove the rear brake caliper
3. Remove the rear brake disc
Remarks: If the brake disc is difficult to remove, remove the
adjust ment spout plug, insert the screwdriver into the adjust
ment spout of the rear brake bedplate, Release the brake shoe
adjustment device through twisting the clearance-adjusting gear.
4. Remove the shoe plate, pull-out the piece spring , pull-out piece
spring seat, pull-out piece spring draw bar
5. Remove the lower tension spring and clearance-adjusting device
Use clipper to remove the extension spring, release the clearance
adjusting device and remove it.
6. Remove the two upper extension springs
7. Remove the brake shoe
a. Remove the brake shoe, baffle, baffle return spring.
b. Remove the band brake stay wire from the stay and brake pulling
arm.
Brake-24
8. Remove the parking brake pulling arm
Use the screw driver to remove the parking brake pulling arm
Check and maintain the components of brake
1. Check the dismantled components
Check to se whether the dismantled components are wearing, rusted
or damaged.
2. Measure the internal diameter of the brake disc
Standard inter diameter: 210mm
maximum internal diameter: 212mm
3. Measure the thickness of the brake shoe
standard thickness: 4.0mm
minimum thickness: 1.0mm
If the thickness of the brake shoe is less than the minimum value, or
there is uneven wearing, the brake shoe shall be replaced.
Remarks: If any one of the brake shoes needs to be replaced, all
the brake shoes need to be replaced to keep the even brake
performance.
4. Check whether the contact between the brake shoe gasket and
brake disc is sound.
If the contact between the brake shoe gasket and brake disc is bad, it
should use the brake shoe grinding device to repair or replace the
brake shoe assembly.
Brake-25
Assembly of rear parking brake
Remarks: Assemble the component according to the direction shown in figure;
It is prohibited strictly that the working surface of brake drum and abrasion disk is polluted by the paint and grease. It
should be removed by the fine abrasive paper if the abrasion disk has little dirty. The brake shoe should be replaced when
the polluted area is large, otherwise it will cause the serious effect of insufficient brake force.
left wheel
right wheel
front
front
1. Install the clearance-adjusting device assembly
Insert the clearance-adjusting shaft head into the clearance-adjusting
wheel; screw the clearance-adjusting screw rod into the clearance
adjusting wheel.
Remarks: The screw direction of left clearance-adjusting screw
rod is the left hand.
The screw direction of right clearance-adjusting
screw rod is the right hand.
2. Coat the following components with the proper anti-high tem
perature grease :
a. Contact position of brake soleplate and brake shoe.
b. Contacting surface of push plate and shoe plate; contacting surface of clearance-adjusting device assembly and shoe plate.
Brake-26
2. Install the parking brake pulling arm
Install the parking brake pulling arm and use a new saddle washer.
3. Install the rear brake shoe
a. Install the parking brake pull wire on the parking brake pulling
arm.
b. Insert the end of rear brake shoe into the support pin of brake
soleplate.
Insert the pull-out piece spring pull bar into the brake soleplate and
brake shoe assembly, then insert the pull-out piece spring and pullout piece spring base. Use the pull-out piece spring fork to rotate
the pull-out piece spring base in position.
4. Install the front brake shoe
install the front shoe plate; insert one of its ends into the fixed pin of
soleplate.
Insert the pull-out piece spring pull bar into the brake soleplate and
brake shoe assembly, then insert the pull-out piece spring and pullout piece spring base. Use the pull-out piece spring fork to rotate the
pull-out piece spring base in position.
5. Install the brake push plate
Insert the push plate release spring into the push plate; then install
the push plate on the place between the front and rear brake shoe
assemblies.
Brake-27
6
Install the lower tension spring
Install the lower tension spring between the front and rear shoe plate.
7. Install the clearance-adjusting device.
Install the clearance-adjusting device after poke the brake shoe by
screwer.
8. Install two upper release springs
Insert the block into the support pin, then install the upper release
spring on the place between two brake assemblies.
9. Check the operating process of automatic adjusting mechanism.
a. Pull the manual brake pill-wire, then release it. Check the clearance-adjusting gear for rotation. If can not rotate, check the rear
brake and find the problem.
b. Adjust the clearance-adjuster to the length as short as possible.
Brake-28
10. Adjust the clearance between the brake drum and brake shoe.
Poke the adjusting hole plug on the brake drum, insert the screwdriver
into the clearance-adjusting hole; rotate the clearance-adjusting gear
to expand the brake shoe until the brake disc can not be rotated by
hand. Then rotate it for 3-5 teeth in anticlockwise, rotate the brake
disc by hand at the same time, it is proper that it can rotate freely
and without the contact between the abrasion and disc. It is allowable
that the non-running-in brake shoe has the slight abrasion sensing.
When adjust the clearance, the left and right wheel must be adjust at
the same, install the adjusting hole plug after the completion of
adjusting .
11.Rear brake caliper assembly
12.Rear wheel assembly
Tighten torque :120N.m
Brake-29
Adjustment load-sensing proportional valve
The action of load-sensing proportional valve is to prevent the rear wheel is braked before the front wheel is braked by adjusting the
distribution of front and rear brake force according to the difference of vehicle rear shaft load, then avoid the risk of vehicle rotation.
The adjustment of proportional valve is shown as follows:
a. The rear shaft load can be 820Kg after adjustment (including driver).
b. Install the brake pressure measuring meter and drain the air.
c. Increase the front brake pressure to 12Mpa, the rear brake pressure should be within 8 9 Mpa.
d. If necessary, adjust the hydraulic pressure.
1. Move the sensing spring bracket on the rear axle, the right hook of sensing spring moves to right; the rear brake
pressure is increased .
2. Vice versa, the rear brake pressure decreases, the adjustment scope of the frame is 20mm.
3. The extension amount of spring of load sensing proportional valve is controlled within 84
95mm.
Brake-30
output manometer
input manometer
Replace of load-sensing proportional valve
1. Removal
Disconnect the brake pipeline form the valve; remove the lock nut and
remove the adjusting bolt from the suspension arm bracket; remove the
installation bolt and take off the load-sensing proportional valve assembly.
2. Installation
a. Use two installation bolts to fix the load-sensing proportional valve.
The bolt tightening torque is 23N
m,
b. Tighten the adjusting bolt locking nut,
c. Connect each brake pipeline.
The tightening torque of the connector is 16N m,
d. Filled with the brake fluid, discharge the air from the brake system;
check the brake pressure and leakage.
Brake-31
Antilock Braking System (ABS)
Cautions
1.
It must not remove or install the electric elements and wire bunch plug when the ignition switch is in ON to avoid
the damage of ECU. It should turn off the ignition switch if needs disassembly.
2.
Pay attention to do not knock or impact the ABS ECU during the maintenance and repair, for it will damage the
ABS ECU easily.
3.
The wheel speed sensor and hydraulic unit (integrated with ECU) of BOSCH ABS8.0 can not be repaired, it should
be replaced in integral if damaged.
4.
After the brake system is maintained, the brake pedal maybe soft. Discharge the air according to the normal brake
system.
5.
It must use the brake fluid from original manufacturer; the brake fluid of different number cannot be used in mixed,
otherwise it will cause the failure of brake system. Select the tyre of original type as most as possible
Repair of Antilock Braking System (ABS)
1.
It should process the failure diagnosis for the brake system before process the ABS failure diagnosis. It can
diagnose out the failure rapidly by using Table 1. In Table 1, the small number means the failure which occurs most
possibly. Check each element according to the sequence and maintain or replace it if necessary.
2.
Check the following elements for normal operation before the diagnosis:
Brake fluid level and brake fluid quality
Pressure of tyre, size of tyre, shape and depth of tyre figure
Other brake component
These components will affect the brake effect of the ABS. Check the system sensor, connecting wire and connector for correct
installation, arrangement and connection. Ensure the completeness of fuse, repair or replace it if necessary.
3.
Process the analysis and diagnosis according to the ABS advanced by owner. Use the diagnosis instrument (Annex
1) for final check and confirmation. It must process the run inspection after the competition of all ABS maintenance.
The test condition is shown as follows:
4.
a.
Confirm the tyre complies with the requirement, the tyre pressure is normal.
b.
The brake system (including brake light ) is normal
c.
The brake system is without leakage.
d.
The position and installation of wheel speed sensor is correct.
e.
All fuses are normal.
test method:
Run for 1 min at least when the vehicle speed is beyond 40Km/h, process a proper brake. Then read out the failure code to
ensure the ABS is without failure code.
Brake-32
Brake-32
Table 1
Name of element
(failure)
Brake is low or
soft
Brake system (leakage of brake
fluid)
1
1
Brake system (with air)
2
2
Lag of brake
Block of brake
brake shoe (worn)
Piston oil seal (worn or
damaged)
3
1
4
11
parking brake (brake shoe is out
of round)
4
parking brake (improper
adjustment)
2
parking brake pull-wire (lag)
3
Assist push bar (improper
adjustment)
Brake
noise
3
brake pedal (small free stroke)
Brake main pump (failure)
The brake is very hard
but has bad effect
5
9
8
Tension or release spring (failure)
8
brake shoe (crack or
deformation)
5
5
Piston (lag)
6
1
brake shoe (with oil)
8
2
Piston (block)
7
assist system (vacuum leakage)
10
4
1
5
3
9
brake shoe support plate (loose)
4
fixed bolt (loose)
2
Slide pin (worn)
5
brake drum (crack)
brake shoe (with foreign
material)
4
7
3
6
6
brake shoe (harden )
7
Noise reduction plate (worn)
9
Press spring (damaged)
10
Steering-1
Chapter 9
Steering
Precautions...............................................................................2
Troubleshooting........................................................................2
Inspection on vehicle.................................................................3
Steering linkage........................................................................4
Hydraulic power steering system...............................................6
Steering-2
Steering-3
Steering-4
Steering-5
Technical requirements
1.The fastening torque of the mounting bolts of the integral power
steering gear assembly is
2.The fastening torque of the connecting bolts of the steering drive subassembly and the integral power steering gear assembly is
3. The fastening torque of the connecting bolts of the steering drive
assembly and the left horizontal beam of the frame is
4. The fastening torque of the mounting bolts of the power steering
pump is 40N.m.
5. The tension force of multi-wedge belt 4PK1100 is 4PK1100.
6. Centering fastening of the handwheel: steer the front wheel to the
right front and remove the handwheel without changing the position
of the steering stem, install the handwheel aligning the center, the
radials of the handwheel should be at the left & right centering state;
the symbol of “the Great Wall” on the steering wheel shall be in
driver’s straight view position, secure the nut firmly with the
fastening torque of
7. Inspection of free clearance of the handwheel
Steer the car in a straight direction and stop the engine, apply a 5N force to
the handwheel along the circumference, left turn the handwheel and stop
the turning when the resistance is increasingly felt with each turn; then right
turn the handwheel and stop the turning when the resistance is increasingly
felt with each turn; the angle rotated along the circumference is the free
clearance of the handwheel, whose standard value shall be below 20 , and
the angle from the center to the right shall not be more than 10
Steering-6
Steering-7
B-Black
Br- Brown
G- Green
Gr- Gray
L- Lake blue
Lg- Light green
Or- Orange
P- Pink
R- Red
V- Violet
W- White
Y- Yellow
Wire Harness
Wire harness middle link number pin function diagram 1
linked to instrument wire harness 2
linked to engine bay 2
Figure VIII
2.2-1
Controller of the Central Door Lock
1. Positive pole of the power supply (12V) is connected to the positive pole of car’s battery through a 15A fuse; when the
engine is started, the voltage is not less than 10V.
2. Output of the central door lock. The unlock cable connected to the executor of the central door lock is usually grounded
through the normally-closed contact of the internal relay; when the door is unlocked by the remote controller or unlocked
manually, the public contact of the relay will get through with the normally-open contact, realizing an output of 12V
voltage.
3. Output of the central door lock. The lock cable connected to the executor of the central door lock is usually grounded
through the normally-closed contact of the internal relay; when the door is locked by the remote controller or locked
manually, the public contact of the relay will get through the normally-open contact, realizing an output of 12V voltage.
4. Key detection cable. This cable is connected to the ignition lock of the car and will get through with the grounding wire
when the key is inserted into. (negative input)
5. Right direction indicator. The cable is connected to the positive pole of the right direction indicator of the car; an output of
12V voltage will be available when this cable is at work.
6. Left direction indicator. The cable is connected to the positive pole of the right direction indicator of the car; an output of
12V voltage will be available when this cable is at work.
7. Negative input of door switch, which is connected to the door switch of the car; this cable will be earthed when the door is
opened. (Interior lights will be on)
a. Open the door and then close it, the reading light will be on for 10 seconds; if during this period, it is detected that the key has
been inserted into the ignition lock or the door closed, then the reading light will turn off.
b. When the key is pulled out of the ignition lock, then reading light will turn on, during this period, if the key is reinserted into
the ignition lock or the door lock, the reading light will be off; if there is not any action when the door is closed within 1
minute, the reading light will automatically turn off.
8. ON power supply detection cable. A conductive wire connected to the ON gear of the ignition lock. (When the key is turned
to the ON position, a 12V output will be available)
9. Car speedometer detection cable, which is connected to the detection cable of car's speedometer. (When the car is
accelerated to the speed of 15km/h, the instruments unit will output a 500mS rectangular positive pulse to the central door
lock controller, which will control the locking of the central door lock when this 500mS rectangular positive pulse signal is
detected by the controller.)
10. Output of window closing signal. When the door is locked by the remote controller, this line will be available with an
output of 12V positive current for one second and then be off. (No output)
11. Locking signal. The locking signal line connected to the central door lock of car's left front door is connected through with
the grounding line when at work. (Earthing)
12. Unlocking signal. The unlocking signal line connected to the central door lock of car's left front door is connected through
with the grounding line when at work. (Earthing)
13. Negative pole of the power supply, which is connected to the car body, (earthing) line shall be as short as possible,
over-length will produce the interference.
Function of controller of the central door lock
1. Locking. When all the car doors are closed, press LOCK button of the remote controller once, at this time, the direction
indicator will flash once and the central door lock is closed.
2. Unlocking. At the locking state, press UNLOCK button of the remote controller once, at this time, the direction indicator
will flash two times and the central door lock is opened.
3. Car-finding function. At the locking state, press LOCK bottom of the remote controller once, and at this time, the direction
indicator will flash ten times quickly. Press UNLOCK button of the remote controller to quit the car-finding function.
4. Automatic prevention function. At the locking state, press UNLOCK button of the remote controller to open the lock; if the
CD Player and Air Conditioning System-1
Chapter 11
CD Player and Air Conditioning System
CD Player and Air Conditioning System-2
CD Player
Function Overview
This product is a kind of car audio system with VFD multi-information integrated display screen with such functions as PLL
electronic tuning radio, CD playing and operation & control of air conditioning system, it can receive AM, FM and FM stereo
radio broadcast programs, play CDs, electronically operate and control the air conditioning system of the car. The integrated
display screen can display the working state of the radio, CD player, air conditioning system, operating mode as well as
information concerning the equalizer, clock and the temperature inside and outside.
Wiring Instructions(see the diagram)
with the speakers: the amplifier of main unit of this system is designed with 4-channel BTL output, each speaker must
be wired individually; the phase position and place of the speaker must be connected correctly; please disconnect the
player from the power supply before connecting the speaker so as to avoid the short-circuit.
2. Connecting main unit with the integrated display screen:
Use the specially-supplied 12-pin connector cable to connect the VFD integrated display screen and main unit.
3. Connection of power supply, output and communication line of main unit:
At first, connect the communication cable of the 20-pin connector plug to the air conditioner ECU, then connect the speaker
output line to other lines, finally connect the yellow memory power supply cord (10A fuse tube) directly to the positive role of
accumulator; when all the wiring is completed, connect the red power supply cord (1A fuse tube) to the positive power supply
of the ignition lock.
4. Connecting main unit with the antenna
Typical antenna: insert the plug of coaxial cable of car’s antenna into the antenna socket of main unit.
Automatic antenna: insert the plug of coaxial cable of car’s antenna into the antenna socket of main unit, then connect the blue
antenna control cable in the 20-pin connector to the automatic antenna control end, connect the positive pole line of power
supply of automatic antenna to the positive pole of accumulator and the negative pole line to the earth.
5. Connecting main unit with CD-change box
CD player and the CD-change box are connected with the signal cables.
Prior to the installation, please be sure to remove three protective screws on the CD-change box and have it pasted with
ant-dust paper. If the protective screws are not removed, CD can not be played normally.
Attention: Improper wiring may result in the damage to the player!
12-pin connector cable
20-pin connector cable
antenna adaptor
integrated display screen
main unit
(Figure 7-1) Wiring Diagram
CD Player and Air Conditioning System-3
A-side View
(Figure 7-2) cable position of 2-pin connector socket
Pos. No.
Color
Function
Pos. No.
Color
Function
1
White
Send the data (TX)
11
Shielded cable
Earthing of data cable
2
Red
Receive the data (RX)
12
—
—
3
Brown
Telephone mute (TEL)
13
Blue
Automatic antenna (ANT )
4
Orange
Lighting (LAMP)
14
Red
Ignition power supply (ACC)
5
—
—
15
6
—
—
16
Yellow
Memory power supply B+
Front left speak (-FL-)
17
Green and black
Rear left speak (-RL-)
Front left speak (+FL+)
18
Green
Rear left speak (+RL+)
Front right speak (-FR-)
19
Violet and black
Rear right speak (-RR-)
Front right speak (-FR+)
20
Violet
7
White and
black
8
9
White
Gray and
10
black
Gray
Grounding wire
{Rear
right speak (+RR+)
Possible Troubles of CD Player, Inspection and Analysis
Trouble Descriptions
No programs received for AM and FM
Impurity of sound after radio auto-searching
No sound of one speaker
Refuse to work
No power supply
Possible causes, inspection and solutions
Check if the antenna is pulled out and socket becomes
loosened.
Tune to the correct radio station with manual tuning method
Check the speaker and the socket or adjust the balance(front,
back, left and right)
Check the power supply, or disconnect and connect the power
supply and restart the player.
Check if the plug-in fuse and output plug is loosened and if the
fuse is burned down.
Single channel when played
Check if the speaker is in open-circuit and examine its plug
Not read CD
Check the CD type and if it is placed in reverse or scratched.
Display screen displaying bad
Check the connecting wire of display screen or adjust the
brightness level higher
Air conditioner refuses to start
Inspect the ECU of air conditioner and air conditioning system
Button failure of air conditioner
Inspect the ECU of air conditioner and air conditioning system
CD Player and Air Conditioning System-4
Air Conditioning System
Composition of Air Conditioning System
Air conditioning system mainly consists of air conditioner control unit, display unit, sensors and executor elements.
outside temperature sensor
fresh air damper executor
inside temperature sensor
mode damper executor
integrated display screen
temperature sensor
of the evaporator
emperature damper executor
of the air conditioner
CD Player
CD Player and Air Conditioning System-5
1. integrated display screen
2. CD player
3. Air conditioner ECU
4. Temperature sensor the evaporator
5. Outside
temperature sensor
6. Outside temperature sensor
7. Speed-adjusting module
8. Temperature damper executor
9. Mode damper executor
10. Fresh air damper executor
Definition of each button on CD player of air conditioner panel
[1] Button to increase the temperature
[7] wind conveying mode button
[2] Button to decrease the temperature
[8] button to start air conditioner
[3] automatic operation button
[9] button to decrease the wind amount
[4] front-defrost button
[10] power-off button of air conditioner
[5] rear-defrost button
[11] button to increase the wind amount
[6] external circulation button
Definition of each button in air conditioning display zone of the integrated display screen
[1] display of inside temperature setting of air conditioner
[5] switch button of outside temperature display
[2] display of automatic operation of air conditioner
[6] display zone of outside temperature
[3] display zone of wind conveying mode of air conditioner
[7] clock display zone
[4] display zone of wind amount of air conditioner
Control and display unit:Control and display unit of the air conditioner mainly consists of:
Air conditioner ECU: The CC6460K model is designed with the individual air conditioner ECU to control the overall operation
of air conditioning system; Air conditioner ECU is installed under the bottom of CD player.The control panel of air conditioner
is designed with an integrated pattern with the control panel of CD player: to regulate, control and set the operation of the air
conditioning system.
Integrated display screen: display the working condition of air conditioning system of the car; relevant functions of air
conditioning system can be found to be displayed in different zone in the integrated display screen.
The sensor
Sensors of CC6460K Model automatic air conditioning system include: inside temperature sensor, outside temperature
sensor, temperature sensor executor of the evaporator.
Executor components include: mode selection executor motor, cold & hot executor motor, internal & external circulation
executor motor.
Trouble Diagnosis and Repair of Automatic Air Conditioning System
1. Self-diagnosis of the system
CC6460K air conditioning system is designed with the system self-diagnosis function. When the air conditioning system fails to
work, the self-diagnosis function designed for the car can be activated for the initial trouble diagnosis.
Operating directions:
At first, start the engine (turn the ignition switch from OFF to ON) and press OFF,A U TO, RR and MODE successively and the
pressing of MODE switch shall last at least 2 seconds. The button must be pressed down within 10 seconds when the engine is
started (the ignition switch is turned to ON position).If the system is supposed to be released, then press A U TO switch or turn
off the ignition switch (OFF) .If one step is supposed to switch to another step, then press TEMP (HOT) or TEMP (COLD)
switch based on the needs.
CD Player and Air Conditioning System-6
The inspection procedures
Turn the ignition switch from OFF to ON
During the period of 10 seconds after the engine is started(turn the ignition switch from OFF to ON), press OF F, A U TO,
RR and MODE once more, and the pressing of MODE switch shall last at least 2 seconds .
NO
The display symbols all light up
failure of the switch or display tune
Press down “Temp+” switch
NO
Enter into self-diagnosis procedur1?
“ Temp +” switch failure
Step 1: Display “01”
(set the temperature zone)
Press down “Temp+” switch
Step 2: Display “02”(set the
temperature zone)
All sensors are good.
all other display symbols turn off
Display “000”(outsidetemperature)
CD Player and Air Conditioning System-7
Sensor failure
Code of failure
The code of the sensor with failure
is showed on the display screen.
Sensor failure
100
Open circuit of outside temperature sensor
200
Short circuit of outside temperature sensor
010
Open circuit of inside temperature sensor
020
short circuit of inside temperature sensor
001
Open circuit of temperature sensor of the evaporator
002
Short circuit of temperature sensor of the evaporator
Press down “Temp+” switch
Step 3: Display “03”(set the temperature zone)
Display the outside temperature value
Press down “Temp+” switch
Step 4: Display “04”(set the temperature zone)
Display the inside temperature value
Press down “Temp+” switch
Step 5: Display “05”
(set the temperature zone)
Press down “Temp+” switch
Display the temperature value of the evaporator
CD Player and Air Conditioning System-8
Step 6: Display “06”(set the temperature zone)
Code number
Code Meaning
0x0
Temperature damper executor works normally
Display the detection code of mode/
0x1
Detection for temperature damper executor is in progress.
temperature damper executor
0x2
Temperature damper executor failure
00x
Mode damper executor works normally
01x
Detection for mode damper executor is in progress.
02x
Mode damper executor failure
Press down “Temp+” switch
Note: X is a digital number without specific meaning; the code
number is displayed in the outside temperature display zone.
Step 7: display “07”(set the temperature zone)
Action of the executor mechanism:
Mode damper: wind to the person
Circulation damper: internal circulation
Temperature damper: cold end
Wind amount: the maximum
Compressor: enabled
Press down “Temp+” switch
display “08”
C
CD Player and Air Conditioning System-9
Action of the executor mechanism:
Mode damper: wind to the person and the fee
Circulation damper: internal circulation
Temperature damper: in the middle
Wind amount: bigger
Compressor: enabled
Press down “Temp+” switch
Step 9: display “09”
Action of the executor mechanism:
Mode damper: wind to the person and the feet
Circulation damper: external circulation
Temperature damper: hot end
Wind amount: medium
Compressor: enabled
Press down “Temp+” switch
display “10”(set the temperature zone)
Action of the executor mechanism:
Mode damper: wind to the feet and defrost
Circulation damper: external circulation
Temperature damper: in the middle Wind amount: small
Compressor: off
CD Player and Air Conditioning System-10
Press down “Temp+” switch
Step 11: display “11”(set the temperature zone)
Action of the executor mechanism:
Mode damper: defrost
Circulation damper: external circulation
Temperature damper: cold end
Wind amount: the minimum
Compressor: off
Attention: during the inspection period from step 7 to step 11, the controller will forcibly transit the output signal based on
the code number displayed on the integrated display screen to the functioned executor; the inspection must be done with
such methods as visual inspection, listening to abnormal sound or touching the air vent by hand so as to judge whether
there is any improper operation.
Trouble Diagnosis and Troubleshooting of A i r Conditioning System
Air cooling system
Refrigeration of air conditioner failed
Trouble
Descriptions
Analysis of the Cause
1. fuse burned down, compressor’ s relay damaged
2. pressure switch contact disconnected, short circuit or open circuit of the
routing
3. open circuit of clutch’s winding
4. switch burned down
5. master relay burned down
6. slide of the clutch
1.No pick-up of compressor
7. belt of the compressor broke or too loose
8. compressor failure
9. sensor failure(judged by reading the failure code)
R efrigeration
air
10. insufficient cold media, lower systempressure(< 0.97MPa)
of
conditioning
11. system pressure above 1.37MPa
system failed
12. water temperature of the engine too high
13.V oltage of the clutch below 7V
1. normally-open contact of the compressor’ s relay stuck and serious leakage
2. Pick-up of Compressor
of system cold media, systemrunning short of cold media
2. no wind from the blower
1. fuse burned down
2. motor brush of the blower damaged
3. no wind from the blower
3. switch of the blower damaged
4. coming off of distribution wire connectors or circuit disconnected
5. speed-adjusting module damaged
6. no wind from the blower when at high speed, high-speed relay damaged
CD Player and Air Conditioning System-11
b .Insufficient refrigeration output
T rouble
Descriptions
Analysis of the Cause
1. compressor works normally
(1) low-level pressure at high-pressure and low-pressure sides
a. block of expansion valve
b. openness of expansion valve too narrow
(2) high-level pressure at high-pressure and low-pressure sides
a. failure to high-voltage pipeline, flow not smooth
b. malfunction of thermo resistor
c. openness of expansion valve too wide
d. too much refrigeration oil
e. too much refrigerant
f. poor heat dissipation of the condenser
(3) pressure at high-voltage side too low
a. low-pressure pipeline damaged
b. block of low-pressure pipeline
(4)pressure at low-pressure side too low
a. the evaporator frosted
b. block of expansion valve
c. low-pressure pipeline not smooth
d. malfunction of thermo resistor
(5)pressure at low-pressure side sometime normal, sometimes with negative pressure,
Inadequate
1. wind amount
moisture and ice block in air cooling system
refrigeration
is normal
(6)negative pressure at low-pressure side, pressure at high-pressure side too low, block of air
cooling system
(7)pressure at low-pressure side too low, pressure at high-pressure side too high
a. internal block of drier of fluid reservoir
b. block of high-pressure pipeline
(8)pressure at low-pressure side too high, pressure at high-pressure side too low
a. leakage of the compressor
b. damaged valve of compressor
(9)poor heat radiation of condenser due to small wind amount from the condensing blower
2. compressor works improperly
(1)internal malfunction of compressor
(2)belt of compressor too loose or sliding
(3)failure of electromagnetic clutch
a. low voltage of power supply
b. mutual interference of the stator and rotor
c. malfunction of amplifier stabilizing the idle speed
d. circuit disconnected, coming off of the joints
e. poor operation of the switch and relay
f. short circuit and open circuit of the routing
g. poor earthing
3. other causes
bad sealing of wagon
CD Player and Air Conditioning System-12
c.
T he cooling system sometimes works while sometimes refuses to work.
T rouble
T he
cooling
system
sometimes
produces
refrigeration effect while
sometimes not.
Descriptions
1. compressor works normally
compressor works improperly
d.
A nalysis of the Cause
1. ice block in the cooling system
2. failure of thermal resistor or temperature sensing bulb
3. poor contact of A /C switch
4. condensing blower damaged
1. slide of the clutch
2. coming off of the clutch’ s winding
3. poor earthing of clutch’ s winding
Noise of the air cooling system
T rouble
Noise of the air cooling system too
loud
Descriptions
Noise too loud
A nalysis of the Cause
(1) belt too loose or worn too much
(2) fastening screw of mounting holder of the compressor
loosened
(3) mounting holder of the compressor damaged
(4) internal parts of the compressor damaged
(5) too much refrigeration oil or none
(6). slide of the clutch
(7). B earing of the clutch running short of oil or damaged
(8). motor bearing of the blower damaged
(9) holder of the blower broken or loosened
(10) blade of the blower broken or loosened
(11). Friction of the blower’ s blade with other components
e . Precautions for the overhaul of air cooling system
When the air cooling system encounters the trouble, the cause for such trouble shall be analyzed inlightof trouble varieties,
followed with the examination and report work.
CD Player and Air Conditioning System-13
2.air heating system
T rouble
Heating not supplied or
not sufficiently supplied
No rotation of blower
leakage of water
Overheat
Insufficient hot air
volume for defrosting
C auses of the trouble
1. blower of air conditioner failure 2. relay of the blower damaged
3. heating water pipe blocked
4. cooling water pipe blocked
5. cold/hot damper executor damaged 6. insufficient cooling liquid
1. fuse burned down or poor contact of the switch
2. motor of the blower burned down
3. open circuit of high-speed relay of the blower
4. speed-adjusting module damaged
5. short circuit
W ater pipe of air heating aged, insecure joint
1. speed-adjusting resistor of the fan damaged
2. cold/hot damper executor damaged
1.
2.
3.
4.
5.
6.
7.
mode executor damaged
falling off of the drive rod
damper not in position
air vent blocked
inadequate heating supply
installation of wind tunnel not fit
circuit disconnected
Volume of Refrigeration Oil Addition and its Methods
1. CC6460K air conditioning system is designed with SD7V16 compressor, whose refrigeration oil type as
specified is SP-10PAG; hence application of other type of refrigeration oil may damage the parts and compo
nents of the compressor. When the air conditioning system goes through maintenance and replacement of
parts, it should be added with new refrigeration oil, whose volume is listed as follows: the evaporator and
condenser: 30ml; the drier: 20ml; the pipeline: 10ml.
Addition of refrigeration oil can be available with two methods: The direct addition and the vacuum suction
2. Direct addition method
a. remove the oil filler plug and fill with the specified SP-10PAG refrigeration oil.
b. observe through the hole of oil filter plug and rotate front plate of clutch to make the piston connecting rod right position in the
center of the hole of oil filter plug.
c. insert the dipstick along the right side of piston connecting rod till the top of dipstick touches the case of the compresso r
d. pull out the dipstick and examine the graduations (grooves) of refrigeration oil, the readings shall be within the range of 4-6
scales.
e. screw firmly the oil filter plug with the fastening torque of 14.7± 4.9N. m
3. Vacuum suction method:
Firstly pump out the refrigerating system to the vacuum of 0.2x105Pa, and then fill with the specified 0.2x105 Pa refrigeration oil;
the detailed steps are as follows:
a. switch off the high-pressure manual valve and the auxiliary valve.
b. dismantle the high-pressure side hose from the manifold pressure gauge and insert it into the oil cup
c. open the auxiliary valve and have the refrigeration oil sucked into the refrigerating system from the oil cup.
d. when the refrigeration oil in the oil cup is almost pumped out to the vacuum, then immediately turn off the auxiliary valve to
prevent the air from being sucked into the system.
e. secure the hose adapter at high-pressure side to the manifold pressure gauge, start the vacuum pump and turn on the highpressure manual valve, then turn on the auxiliary valve to pump the system to the vacuum state of 0.2x10 5Pa, keep such state
for 15mins so as to discharge out the air flowing into the system along with the oil.
CD Player and Air Conditioning System-14
4. Attention:
a. when a new compressor is used to substitute for the old one, the oil must be released to some extent that its oil volume is the
same as that of old compressor so as to avoid the influence over the refrigeration effect due to too much oil.
b. when an old or repaired compressor is employed, the volume of the refrigeration oil in the compressor must be kept the same
as that of the replaced compressor.
Pumping Out of A i r Conditioning System to the Vacuum and Addition of Refrigeration Oil
Connect the manifold pressure gauge with the pipe of air conditioner (compressor) and the multi-purpose adapter of the vacuum
pump for the purpose of pumping out of the system to the vacuum state.
Before pumping out to the vacuum, turn on the high-pressure and low-pressure valve of the manifold pressure gauge and the end valve
(if provided) of the vacuum pump, then press the button ON to start the vacuum pump, the duration shall be more than 20 minutes.
When the reading of manifold pressure gauge is -760mmHg or below, turn off the high-pressure and low-pressure valve (if opened),
and press the switch to turn off the vacuum pump.
low pressure
high pressure
manifold pressure gauge
blue
quick coupler
manifold pressure gauge
low pressure gauge
high pressure gauge
red
quick
coupler
low-pressure pump
high-pressure pipe
yellow
quick coupler
blue
yellow
Red
vacuum pump
1. check the air tightness
Continue to check the pressure reading of the manifold pressure gauge after turning off the vacuum pump.
If the pressure reading remains unchanged within 20 minutes after the vacuum pump stops running, then it indicates that th e
refrigerating system has no leakage, the operator can proceed with next work; while change of the reading indicates that the
system has the leakage. Launch the examination and pump out to the vacuum after the leakage is fixed.
2. Injection of the refrigerant
When the air tightness of the system is verified correct, connect the refrigerant reservoir (or gas bottle) with one end of the yellow
air-charging hose, while other end of yellow air-charging hose is connected with the liquid injection port in the middle of the
manifold pressure gauge. Ensure that the refrigerant reservoir is connected firmly with the nut of air-charging hose, then turn on
the valve of refrigerant reservoir; at this time, the high-pressure and low-pressure is closed, use a tip screw driver or other similar
tools and press the by-pass valve spool for 1~ 2 seconds to discharge out the air in the air-charging hose and the manifold
pressure gauge.
CD Player and Air Conditioning System-15
low-pressure
off
air washing
off
blue
off
red
blue
yellow
low-pressure pipe
tip screw driver
high-pressure
on
red
yellow
high-pressure pipe
refrigerant reservoir
refrigerant reservoir
Turn on the high-pressure valve on the manifold pressure gauge and inject the refrigerant to the system from high-pressure pipeline.
At this time, the attention shall be given to the readings of high-pressure meter and low-pressure meter, and make sure that these two
pressure all go up. If the refrigerant is being injected while the pressure does not go up, then the joints of the pipeline may be loosened
or the seals damaged, inject the refrigerant once more after finding out the cause and the fixing. When the increase of pressure stops,
turn off the high-pressure valve of the manifold pressure gauge and then start the engine.
Operate the switch in a way as follows:
Turn the switch of air conditioner to “ON”
Regulate the temperature controller to the coolest position,
Enable the air conveying to the maximum,
Select the internal air circulation between the internal/external air circulation,
During this process, the door and windows will be all opened.
Adjust the engine’s speed to the specified free running speed.
Erect the refrigerant reservoir or gas bottle (have the refrigerant injected into the refrigerating system in a gas state), turn on the
low-pressure valve of the manifold pressure gauge.
When the compressor is at work, please do not turn on the high-pressure valve.
Before checking the refrigeration level, please confirm the injection volume of the refrigerant specified for air conditioning system.
When injecting the refrigerant, carefully observe the high-pressure side of the manifold pressure gauge and the flow condition of
the refrigerant (clear, foaming or turbid), all these could be viewed through the inspection window, by which the moment of stop
injecting the refrigerant can be reasonably judged(turning off the low-pressure valve).
CD Player and Air Conditioning System-16
low pressure
high pressure
on
on
blue
red
low-pressure pipe
high-pressure pipe
yellow
refrigerant reservoir
When judging the injection volume of the refrigerant, please make the settings based on the following working conditions:
Water tank temperature of the engine: stable
Speed of the engine: normal free running speed
Switch of air conditioner: ON
Switch of the fan: “High” gear
Temperature controller: air return temperature inside the car is between 25 and 30 .
Fresh air control: internal circulation
Door: all opened
Window: all opened
Repair and replacement of pipeline
a. Before installation of parts and components, the negative pole of the accumulator must be disconnected.
cut off
b. When the air entries of the refrigerating system, water tank of the engine and the air conditioner are opened, please make sure that
all openings are capped to prevent the penetration of the dust, foreign matters or water.
protective cap
protective cap
protective cap must be installed.
CD Player and Air Conditioning System-17
At ends of each pipe the protective caps should be installed till the pipe is connected to the refrigerating system.
compressor oil
fasten it by using two wrenches at the same time
d. When connecting the pipe, apply little compressor oil to the O-ring and fasten the nut with two wrenches. Attention: never
spatter the compressor oil to the painted parts or the plastic components to avoid the corrosion. If these components are
spattered with the oil, please clean it immediately.
e. When connecting the pipe, please follow the torque listed in the following table to fasten the screws or the nuts:
Diameter of Pipe
Fastening Torque (N·m)
¢8mm
12-15
¢16mm
30-35
30-35
Daily Maintenance of Air Conditioning System
In order to ensure normal operation of air conditioning system, maintenance and care services shall be frequently performed for the
air conditioning system. The daily maintenance of air conditioning system is illustrated as follows:
1. Inspect, wash and clean the condenser of air conditioning system, requiring that radiator pins are clean and there is no dirt
between the pins. After the car runs in the rain or on the muddy road, the fan of the condenser should be inspected to find
whether it bears the earth, sand, stone and etc, and remove them if any.
2. Check the quantity of the working media of the refrigerating system; when the compressor set works normally, observe the
liquid viewing glass, under the normal circumstance, there shall be not air bubbles in the glass.
3. Inspect the drive belt. The belt between the compressor and the engine should be tensioned.
4. Check if there is any abnormal noise or odor in the air conditioning system.
5. Check if the temperature difference between the air inlet and outlet of the compressor is normal.
6. Check if the hose of the refrigerating system is in an apparent good condition and connections of all joints are secure.
7. Check if the pipeline of the refrigerating system collides with other parts and components, and if there is any oil leakage trace
left at each joint.
8. Check if the circuit connection of the refrigerating system is secure and if there is an occurrence of short circuit and falling off
9. Check if fastening bolts of the compressor are firmly secured or broken.
Safety airbag-1
Chapter 12
Safety airbag
Safety airbag-2
Instructions for maintenance
For your safe operation, please read the following instructions prior to your operation.
1. The maintenance of SRS safety airbag must be operated under the procedure and directions instructed in this
chapter.
2. The operation must be done with the test instruments and special tools designated by the chapter.
3. The following parts must be replaced by new ones providing something wrong with them.
a. SRS safety airbag control unit (SRS-ECU)
b. Clock spring module
c. The driver’s side safety airbag module
d. The passengers’ side safety airbag module.
e. Safety airbag wiring harness.
4. The safety airbag electric principles figure and definitions of connector clips are in Figure 1,SRS-ECU stitch
definition in Table 1 and the position and form of safety airbag failures indicator lamp in combined instrument in
Figure 2.
Table 1 SRS-ECU stitch description
Wire#
Name
Description
Diagnosis of serial data I/O (K-line)
The driver’s side safety airbag, high position
The driver’s side safety airbag, low position
Passengers’ side safety airbag, high position
Passengers’ side safety airbag, low position
Diagnosis request
5. The maintenance operation must be started after 60 seconds following the removal of negative connection of
accumulator, wrap the negative with insulating tape for insulation.
Due to the capacitance in SRS-ECU to maintain certain power to make the safety airbag release within a certain time after the
power-off of accumulator, the operation must be started after a while to avoid any possible major damaging accident caused
by the safety airbag’s improper release.
6. The parts such as SRS-ECU, safety airbag module as well as clock spring should be removed off and well preserved
providing the temperature is high enough to cause any damage(above93¡æ) in the painting operation.
The failure codes must be debugged with the diagnostic scanner following the repairing of SRS safety airbag system so as to
make alarm lamp work functionally.
Safety airbag-3
Safety airbag-4
safety airbag system alarm lamp
impact sensor and diagnosis module
passengers’ side inflation elements and airbag
insulating tape
battery
wire
Safety airbag-5
Test instrument
Instrument
Name
Utility
Test the systematic failures in
diagnostic scanner
SRS safety airbag system, debug
ECU. failure codes.
The basic failure diagnosis process
The failure code DTC of both present and history-accumulated failures may co-exist.
Caution
The safety airbag alarm lamp flashes for 6 times and then extinguishes when the ignition switch is in ON
position after the installation of new safety airbag system electronic control unit, which demonstrates the
normal function of SRS safety airbag system. In this case the system does not need to be tested, otherwise it
should be diagnosed and repaired.
If the alarm lamp does not illuminate when the ignition switch is in ON position, repair the alarm lamp relevant
circuit and, then further operate to get it into work.
The alarm lamp
Scan the ECU by connecting
keeps illuminating.
the scanner with k-line
Failure detection
Failure
Debug the
handling
failure codes
The test for SRS safety airbag alarm lamp
safety airbag system alarm lamp
SRS-ECU will execute a series of diagnosis and test to check whether the function of airbag system is prepares. The check can
prevent the restriction system from mis-explosion and ensure the necessary explosion during collision. If found the failure,
SRS-ECU will save a proper failure code and light the alarm lamp to indicate a failure status for the convenience of maintenance.
If connect the pin 2# wire 488# (diagnosis request wire) on the diagnosis port to the ground (wire 50#) for more than 2s, the
safety airbag alarm lamp will flash the code. For detailed position refer to following figure.
Safety airbag-6
brown white
red
diagnosis plug
black
Failure judgment
1.
Failure record (failure code storage)
When ECU determines the error through the cyclic diagnosis and test, SRS-ECU should saves the corresponding code, first
judgment time, final judgment time and number of occurrence in EEPROM.
RS-ECU can stores 6 failures at most, under voltage failure and two collision records (front and side).
Failure code approved by SRS-ECU
Serial No.
Failure description
Debugging
1
Ignition loop 1 (driver’s front airbag), resistance is too high or open-circuit.
Can
2
Ignition loop 1 (driver’s side front airbag), resistance is too low or short-circuit
Can
3
Ignition loop 1 (driver’s side front airbag), grounding
Can
4
Ignition loop 1 (driver’s side front airbag), connected to power supply
Can
5
Ignition loop 2 (passenger side front airbag), resistance is too high or open-circuit.
Can
6
Ignition loop 2 (passenger side front airbag), resistance is too low or short-circuit
Can
7
Ignition loop 2 (passenger side front airbag), connected to power supply
Can
8
Ignition loop 2 (passenger side front airbag), connected to power supply
Can
9
Power voltage is high
Can
10
Power voltage is low
Can
11
Alarm light failure, connected to power supply or lamp is short-circuit
Can
12
Alarm lamp is failure- grounding or filament is open-circuit.
Can
13
Shortage/failure of algorithm parameter
14
The front collision is recorded
15
Communication failure
16
Internal failure (refer to following table)
Cannot (replace the
SRS-ECU)
Cannot (replace the
SRS-ECU)
Can
Cannot
(replace the
SRS-ECU)
Safety airbag-7
The failure code transmission is completed by SRS-ECU’s input to the defined diagnostic scanner through the maintenance system’s
serial data interface. (X-431 diagnostic scanner) Failure code of diagnosis
Description of flash code
Failure
Failure code
Flash code
1
No storage error
$12
2
Front airbag driver’s, high resistance
$9,021
$21
3
Front airbag driver’s , low resistance
$9,022
$22
4
Front airbag driver’s, short-circuit of GND
$9,024
$24
5
front airbag driver’s , short –circuit of VBATT
$9,025
$25
6
front airbag passenger, high resistance
$9,015
$15
7
front airbag passenger, low resistance
$9,016
$16
8
front airbag passenger , short-circuit of GND
$9,018
$18
9
Front airbag passenger , short-circuit of VBTT
$9,019
$19
10
High voltage of battery
$9,031
$31
11
Low voltage of battery
$9,032
$32
12
Failure of alarm lamp
$9,061
$61
13
Internal failure (replace SDM)
$9,071
$71
14
Front collision record
$9,051
$51
15
Side collision driver’s record
$9,056
$56
16
Side collision passenger record
$9,057
$57
17
Retightened safety belt collision
$9,058
$58
18
Beyond the allowable repeat usage times
$9,054
$54
3. Interior failure
The micro controller can test the following items not only in starting detection but also in cyclic diagnosis detection.
a. Ignition circuit triggers the transistor: The high-side transistor is detected not only in the starting detection but also in the
circulation diagnosis. But for the low-side transistor is opened when is connected to power supply directly, so the low-side
transistor only can be detected in the starting detection to avoid the misexplosion.
b. The ignition voltage is provided by the booster transformer.
c. The acceleration sensor is detected by itself when start the detection.
d. Allowable deviation scope of acceleration sensor in circulation diagnosis.
e. Micro controller includes (AD converter, ROM, RAM etc.)
f. Status of safety sensor
Cautions:
Connector of explosion tube circuit has the short-circuit bar. When the connector is not connected, the end (+) of
explosion tube is connected to end (-) directly to prevent the failure outspread caused by static. When the connector
is bas and short-circuit bar is connected, the failure may not be eliminated.
An external watch dog can detect the operating status of micro controller. It can trigger the watchdog when the micro con
troller has failure. The watch dog will reset the micro-controller and light the alarm lamp.
Safety airbag-8
Internal failure determined by SRS-ECU
Serial
No.
List of failure
1
Micro-controller
2
Driver’s front airbag ignition loop
3
4
5
6
7
8
Description of failure
AD converter or EEPROM is faulty (the micro controller will be reset
and alarm lamp is light when the RAM has failure.)
Enable the failure
Measure the failure of loop
Passenger front airbag ignition loop
(if realized)
Seat safety belt preloaded ignition loop
(if realized)
Enable the failure
Measure the failure of loop
Enable the failure
Measure the failure of loop
Passenger side safety belt preloaded
ignition loop (if realized)
Driver’s side airbag ignition loop
(if realized)
Enable the failure
Measure the failure of loop
Enable the failure
Measure the failure of loop
Passenger side airbag ignition loop
(if realized )
Maximum times of explosion of safety
belt pre-tightener
Enable the failure
Measure the failure of loop
Reach the maximum value 6
Holding time of ECU energy
(self-supply time)
Too short
10
Accelerometer
Deviation range
Sensor not in constant, stable model
Sensor tests the failure itself
11
The measurement of ignition loop is
rejected continuously
No cycling diagnosis test
12
Safety sensor
Calculate the safety sensor open-loop using the method that power-off
for 2 or more than 2 seconds is considered as passing
13
Initial firing current
14
The ignition of side airbag is not
determined.
9
(duplicated calculation)
All initial firing current in normal status when the front airbag releases.
Though SRS-ECU has received ignition information for 5 times during
HSIS cycling ignition, the ignition can not be determined due to the side
safety..
Debug the failure codes
Approach 1. The failure codes will be debugged following the ECU’s receipt from the X-431 diagnostic tester of the debugging
failure codes order through the serial interface, however, if an internal failure code is recorded or one impact is
recorded, the debugging will not be executed.
Approach 2. Ground 488# line for 5 times in 10 seconds to debug the failure codes.
Failure status display (alarm lamp keeps illuminating).
1. Bulb test
SRS-ECU will light the alarm lamp in order to test the bulb after working voltage is provided to it through the battery. The lamp
will flash for 6 times and then extinguish at 1HZ in the initial phase. The alarm lamp will keep illuminating after the working
voltage is provided in order to inform the driver’s system failures. The alarm lamp will keep illuminating for 6 seconds after the
ignition on and then be extinguished if the history-accumulated failures are less than five times. In the initial phase, SRS-ECU will
not prepare to test impact and stop release till the circuit is stable. Therefore, alarm lamp’s display manner will be one of
following projects in the initial phase. (Table 4.9).
Project 1. If the impact is recorded or the number of history accumulated failures is or more than 5,the alarm lamp will keep
illuminating, simultaneously, it will also keep illuminating if there is a possible explosion failure.
Safety airbag-9
Project 2. The number of history- accumulated failures is or more than one and less than 5. (The case of low power is excluded)
Project 3 functional working (neither possible explosion failure or historical failure).
Table 4.9 indicator lamp’s activities after ignition
2.Failure indication
The alarm lamp will indicate it in case any failure arises. If the external failure is a historical one, the indication will be called off. If
the number of history-accumulated failures is or more than 5, the alarm lamp will keep illuminating albeit no failure emerges. The
case of low power will be excluded.
A displayed or historical failure can but only be reconfigured by the service personnel. An internal failure or impact record can not
be reconfigured, in these cases, SRS-ECU must be replaced.
3.Micro controller-independent alarm lamp illumination
The micro-controller in clear failure status can not work therefore can not control the alarm lamp. In this case, the alarm lamp
will be directly lighted via suitable circuit despite of the micro-controller. As following,
The battery for SRS-ECU fails, the alarm lamp will be continuously lighted through the lamp drive function.
b. No internal working voltage, the alarm lamp keeps illuminating
c. Reconfiguration caused by watchdog’s trigging failure, the alarm lamp flashes.
d. No work of micro-controller, the alarm lamp keeps illuminating
e. Incomplete plugging-in of SRS-ECU connector, the alarm lamp keeps illuminating via shoring bar Next explain the diagnostic
procedure by taking some examples
If the alarm lamp is found keeping illuminating, please test it according to the following procedure even it extinguishes finally.
First test the failure region with the scanner followed by the test in the failure region with the corresponding approaches and
steps.
a If an internal failure or the explosion of safety airbag is scanned, replace the SRS-ECU
b.Troubleshooting
Safety airbag-10
Troubleshooting
Extinguishments or normal-light of alarm lamp
NO.
Troubleshooting item
The warning lamp of safety airbag
1
system is not displayed.
2
Description
Safety airbag system warns circuit failure
The warning lamp of safety airbag
Safety airbag system warns circuit failure or external
system is light normally.
failure.
1. Extinguishments of safety airbag system alarm lamp
1
Extinguishments of safety airbag system alarm lamp
Test status
Safety airbag system warns circuit failure.
No voltage (fuse shutoff)
Possible causes
Combined instrument failure
Failure of wiring harness between instrument cluster and ECU unit
Diagnostic procedure
When first carry out failure test, joggle the wiring harness and plug to test whether there is periodical bad contact in the circuit, if
it so, please confirm whether the plug, terminal and wiring harness well connected and in good condition. If it is not any of previous
cases, operate according to the following steps.
Procedure
Test
Test other wiring harness and instrument cluster
1
Operation
Yes
indicator lamp
·place the ignition switch in ON position
·light other alarm and indicator lamps
Bulb test
Place the ignition switch in LOCK
position followed by next step
Test the instrument cluster power-supply
No
system and grounding system (fuse), then
go to step 5.
Yes
Next step
Warning:
Incorrect handling with the safety airbag system
units will cause the safety airbag’s improper
release and pretension of safety belt, which will
lead to serene accidents. Please read safety airbag
2
service warning before handling the safety airbag
units.
·Place the ignition switch in LOCK position。
·shut off accumulator negative line and keep the
status for at least 60 seconds.
·Remove the combined instrument.
Test the connection between the two
corresponding stitches of safety airbag alarm lamp
No
Replace the bulb of alarm lamp.
Safety airbag-11
Procedure
Test
Operation
Test the wiring harness connection between ECU
Yes
Next procedure.
unit and instrument cluster.
·Place the ignition switch in LOCK position。
3
·shut off accumulator negative line
·shut off the instrument cluster plug
No
Replace the wiring harness and get into
step 5
·test the connection between alarm lamp circuit
and its relative circuits
2. Normal-light of safety airbag system indicator lamp
2
Normal-light of safety airbag system alarm lamp
Test status
Normal-light of safety airbag system alarm lamp
Insufficient battery voltage
ECU internal failure
Combined instrument safety airbag alarm lamp failure
ECU plug misconnects
Possible causes
Combined instrument plug bad-contact
ECU power-supply fuse shutoff or bad contact
Misconnection of ECU plug terminal
Bad contact between ECU plug terminal and grounding wiring
harness.
Driver’s or passengers’ side safety airbag circuit failure.
Safety airbag-12
Begin the test with diagnostic communication with special diagnostic device (X-431 diagnostic tester) and ECU
to find out the failure causes, do the next test providing communication is not successful.
Procedure
Test
Operation
Yes
Test the battery
1
Next procedure
Insufficient battery supply.
Test the battery voltage
Is the voltage higher 9V?
No
Test
Yes
Next step
the
charging/discharging
system, then go to step 5.
Test the wiring harness connection between ECU and
combined instrument.
Place the ignition switch in LO C K position。
Shut off the battery negative.
O pen the central channel guard plate.
2
No
Shut off the instrument combined connector clip
Connect the negative of battery
Check the circuit and continue the
operation according to step 5.
Place the ignition switch in ON position.
Check whether the instrument connector clip terminal
voltage is 12V(power supply and instrument line)
Place the ignition switch in LO C K position。
Yes
Check the connection of corresponding terminals between
3
instrument
connector
clip
and
diagnostic
interface
Next step
Repair
No
(diagnose the two ends of K-line)
or
replace
the
wiring
harness and continue according to
step 5
M ake sure the shutoff of accumulator negative line and
Yes
Next step
keep the status for at least 1 minute.
Shut off ECU connector clip
3
Shut off the instrument cluster plug.
No
Connect the ECU plug terminal 5,7,9 and instrument
Replace the wiring harness and
step 5
cluster plug?
Remove EC U to check the condition of term inal and
4
whether the shorting bar is broken.
Yes
No
M ake sure that the failure will never reoccur after
Reconnect EC U connector clip
and next step.
Troubleshooting followed b y the
Yes
repairing.
Replace ECU
Place the ignition switch in LO C K position。
explanations to customers upon
the repairing procedure.
Shut off accumulator negative line and keep the status for
at least 1 minute.
Connect all ECU plugs
Connect
5
the
driver’s
side
safety
airbag
combined
instrument plug
Connect the passengers’ side safety airbag combined
instrument plug
Connect the driver and passengers’ side pretension safety
belts plugs.
(Vehicles with pretension safety-b elts)
Connect clock spring plug
Connect the accumulator negative line
Place the ignition switch in ON position
Does the safety airbag alarm lamp work functionally?
Retest
No
the
failure
symptoms;
repeat from step 1 if the failure
reoccurs.
Safety airbag-13
Internal failure
Failure code
SRS safety airbag system unit internal failure
$9071
Warning
The test condition of this failure is the failure code that may not emerge before the test,
Test condition
DTC conducts the test, and the preparatory work must be done before the test because the
damage to working personnel or system may be caused by the incorrect operation during the
test.
SRS safety airbag system electronic-control unit internal circuit failure.
Possible causes
SRS safety airbag system unit internal failure
Operation
With regard to replacing SRS safety airbag system unit, take references in the removal/installation of safety airbag system
Safety airbag-14
Power-supply
Failure code
Low power-supply voltage for SRS safety airbag system electronic-control unit
$9032
Warning
The test condition of this failure is the failure code that may not emerge before the test, DTC conducts the test,
Test condition
and the preparatory work must be done before the test because the damage to working personnel or system
may be caused by the incorrect operation during the test.
The voltage for SRS safety airbag system unit connector clip is stitch 5 and 6 is under 9V
Possible
causes
Procedure
1
Accumulator low voltage
Failure with the wiring harness between accumulator and SRS safety airbag system electronic-control unit
Test
Operation
Check accumulator
Yes
Next step
Test accumulator voltage
No
Accumulator low voltage, test the
Is the voltage above 9V
Check the wiring harness between accumulator and fuse
recharging/discharging system
Yes
Next step
No
Check the wiring harness
Yes
Next step
No
Replace wiring harness
panel
2
Remove fuse panel without releasing the connector clips
Place the ignition switch in ON position
Test the potential of two fuse corresponding contactors, the
potential above 9V?
Check the wiring harness between fuse panel and SRS
safety airbag system unit connector clip
Warning:
If not correctly handled, the safety airbag module as well
as pretension safety belt may possibly be trigged, released
and tensioned, thus make serene damage to people.
Therefore, please carefully read the repairing warning
before trouble handling. Please take references in safety
airbag system repairing warning
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute
3
plus
Remove steering pillar shell
Release the clock spring connection clips
Remove the PAB trim cover, glove box (passengers’ side
safety airbag is under the trim cover)
Release passengers’ side safety airbag module connector
clips
Release all SRS safety airbag system unit connector clips
Install back the accumulator negative wire,
Place the ignition switch in ON position
Is the potential of SRS safety airbag system unit connector
clips stitch 5,6(grounding) above 9V?
Safety airbag-15
Drive side failure
Failure code
$9021
$9022
$9024
$9025 4
Test
condition
Possible
causes
Procedure
1
Present failure codes
Place the ignition switch in LOCK position
Replace SRS safety airbag system unit
Release accumulator negative wire and wait for 1 minute
See he removal/installation of SRS
plus
Driver’s side safety airbag failure (high or low resistance, shorting grounding,
etc.)
Yes
safety airbag system unit
Remove the left trim cover
History accumulated failure codes
Shut off SRS safety airbag system unit translation
The end of failure diagnosis
connector clips
Install back the accumulator negative wire, place the
Warning
switch
in ON the
position
If ignition
not correctly
handled,
safety airbag module as well as pretension
belt may
possibly
be trigged, released
No safety
Replace
wiring
harness
Is tensioned,
the potential
of make
SRS safety
unit connector
and
thus
serene airbag
damagesystem
to people.
Therefore, please carefully read the repairing warning before
clips stitch
5,6(grounding)
above 9V?in safety airbag system repairing warning
trouble
handling.
Please take references
Driver’s side safety airbag
The resistance between the SRS safety airbag system connector clips connectors not within the designated scope
SRS safety airbag system driver’s side airbag relative wiring harness shorting or shutoff
Driver’s side safety airbag module failure
Clock spring internal failure
Failure of circuit connector clips between clock spring and SRS safety airbag system electronic-control unit
Shutoff or shorting of wiring harness between clock spring and SRS safety airbag system electronic-control unit.
Misconnection of SRS safety airbag system driver’s side airbag generator connector clip
Test
Operation
Check the clock spring
Warning
If not correctly handled, the safety airbag module may possibly be
trigged and released thus make serene damage to people. Therefore,
please carefully read the repairing warning before trouble handling.
Please take references in safety airbag system repairing warning.
Are the relative parts of clock spring normal? (The relation between
stitches, unnecessary shutoff or shorting?) if the present clock spring can
be replaced by a better one.
Next step
Confirm the failure in driver’s side safety airbag module or other parts.
Normal
Abnormal
Replace the clock spring
Take references in the
removal/installation for
safety airbag system and
clock spring
Replace the driver’s side
safety airbag module
Safety airbag-16
4
5
6
7
8
Confirm the failure in clock spring or other parts
configure the special tools fuel and temperature diagnostic instrument
at 2Ω position
Install back the accumulator negative wire
Place the ignition switch in ON place
Any failure code in display?
Check the wiring harness between clock spring and SRS safety airbag
system electronic-control unit
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute plus
Remove PAB trim cover, glove box (passengers’ side safety airbag is
under the trim cover)
Release the passengers’ side safety airbag module connector clip
Release all SRS safety airbag system unit connector clips
Check whether the following troubles are with the harness between
connector clips terminals of SRS safety airbag system unit and clock
spring
Grounding
Power-supply shorting
Shutoff
Is the previous wiring harness normal?
Check the clock spring connector clip
Remove the steering pillar shell
Release the clock spring connector clip
Is the clock spring connector clip normal?
Check clock spring
Remove clock spring
Take references in removal/installation of safety airbag system as
well as clock spring
Check clock spring
Take references in the test for safety airbag system and clock spring.
Is the clock spring normal?
Check the wiring harness between clock spring and SRS safety airbag
system electronic-control unit
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute plus
Remove PAB trim cover, glove box (passengers’ side safety airbag is
under the trim cover)
Release the passengers’ side safety airbag module connector clip
Release all SRS safety airbag system unit connector clips.
Check whether the following troubles are with the harness between
connector clips terminals of SRS safety airbag system unit and spring
clock.
Grounding
Power-supply shorting
Shutoff
Is the previous harness normal?
Yes
Next step
No
Replace clock spring
Take references in the removal
and installation for safety airbag
system and clock spring.
Normal
Replace SRS safety airbag
system unit; take references in
removal/installation of SRS
safety airbag system unit.
Abnormal
Replace the wire harness
Normal
Next step
Abnormal
Replace the wiring harness or
connector clips
Normal
Next step
Abnormal
Replace clock spring
Take
references
in
the
removal/installation of safety
airbag system and clock spring.
Normal
Next step
Abnormal
Replace clock spring
Take
references
in
the
removal/installation of safety
airbag system, and clock spring
Safety airbag-17
Passengers’ side failure
Failure code
$9015
$9016
$9018
$9019
Test condition
Possible causes
Procedure
1
Passengers’ side safety airbag module (high or low resistance or shorting grounding)
Warning
If not correctly handled, the safety airbag module as well as pretension safety belt may possibly be
trigged, released and tensioned, thus make serene damage to people. Therefore, please carefully read the
repairing warning before trouble handling. Please take references in safety airbag system repairing warning
If with passengers’ side safety airbag failure
The resistance between SRS safety airbag system unit connector clip stitch 13 and stitch 14 not within the
designated scope.
The wiring harness shorting between safety airbag system unit stitch 13 and stitch 14
Open loop between SRS safety airbag system unit connector clip stitch 13 and stitch 14,
Passengers’ side safety airbag module failure
The failure of connector clip between passengers’ side safety airbag module and SRS safety airbag system
electronic-control unit
The failure of connector clip between SRS safety airbag system unit and grounding jumper.
The circuit shutoff or shorting between passengers’ side safety airbag module and SRS safety airbag system
electronic-control unit
The circuit shutoff or shorting between SRS safety airbag system unit and grounding jumper
SRS safety airbag system unit failure
Test
Is the vehicle with passengers’ side safety airbag module
Check passengers’ side safety airbag connector clips
Operation
Yes
Next step
No
Step 5
Present failure code
Safety airbag-18
Impact-vehicle diagnosis
Test SRS-ECU diagnostic signals
1. Connect the (X-431 diagnostic test’s) diagnostic joint
2. Read the diagnostic results with X-431 diagnostic tester
Repairing procedure
1.When safety airbag is released.
The following parts should be replaced with new ones
a. Passengers’ side safety airbag module
b. SRS-ECU
c. Driver’s side safety airbag module
2 Check the following parts; replace them with new ones providing something wrong with them.
a. Clock spring
b. Steering-wheel, steering column, bottom steering shaft module
3.Driver’s side safety airbag module’s installation status towards the steering wheel.
a. Check whether abnormal knocking is with the steering wheel, its activity is in good condition and its clearance is normal.
b. Check whether the wiring harness joint is broken and its terminal is deformed.
Caution: Due to the impact, the diagnostic instrument cannot communicate with SRS-ECU when accumulator is lack of
power, in this case, check and maintain the instrument panel wiring harness or utilize the extension power supply.
Safety airbag-19
1. Check whether depression, crack or deformation is with the SRS-ECU bracket.
2. Check whether the joint is broken and terminal is deformed
3. Check SRS-ECU bracket’s installation status
a. Check whether depression, crack or deformation is with the shroud
b. Check whether the joint is broken, terminal is deformed and wiring harness is meshed.
c. Check whether depression, crack or deformation is with the gas generator shield.
d. Make sure the direction of the arrow is straightforward
4. Check the installation status of safety airbag module.
Driver’s side safety airbag module (the following Figure)
connect the horn
generator
connect the driver’s side
module
bracket
Clock spring (right Figure)
1.
Check whether the joint and protecting tube are broken and the terminal is deformed.
2.
Check whether the shield is deformed.
Steering wheel, steering column and bottom steering shaft module
1.
2.
Check the installation status of driver’s side safety airbag module
Check whether abnormal knocking is with the steering wheel and its clearance is normal
Passengers’ side safety airbag module (the following Figure)
1.
2.
Check the installation status of passengers’ side safety airbag module
Check whether the shield is deformed
Safety airbag-20
Passenger side airbag (PAB)
Wiring harness joint (instrument cluster wiring harness)
Check whether the wiring harness is well installed, the joint is broken and the terminal is deformed.
Warning
The attentions for use and maintenance for SRS safety airbag are displayed in the Figure. Operate according to the sign and, the
destructed and dirty sign must be replaced with a new one steering
wheel in Figure6-1
Driver’s side safety airbag module in Figure 6.2
Clock spring in Figure 6.3
SRS-ECU in Figure 6.4
Sun visor in Figure 6.5
Passengers’ side safety airbag module in Figure 6.6
Safety airbag-21
warning signs
Figure 6
1
Figure 6
2
Figure 6
4
warning signs
Figure 6
3
passengers’ side safety airbag module
warning signs
Figure 6
5
Figure 6
6
Removal methods for all the parts
Safety airbag electronic-control unit
Caution
Continue the operation 60 seconds after the removal of accumulator negative. Wrap the removed negative with
insulating tape for insulation.
2. The SRS-ECU must not be separated nor repaired replace the failed SRS-ECU with a new one.
3. Prevent the SRS-ECU from shock and vibration, replace the SRS-ECU with depression, crack or deformation with a
new one.
4. Do replace the SRS-ECU with a new one after the safety airbag is released.
5. Do not damage the SRS-ECU when removing or maintaining the parts next to it.
Safety airbag-22
1.
Operations before removal
a. Place the ignition switch in OFF position.
b. Remove the accumulator negative and well preserve it somewhere or wrap it with tape.
2.
Removal procedure.
a. Central channel’s side panel (or remove the co-instrument panel)
b. Remove the connector clip connecting with the safety airbag ECU
3.
Installation sequence
a. SRS-ECU;
b. Install the connector clip connecting with the safety airbag ECU
c. Central channel’s side panel (or remove the co instrument panel)
d. Connect the grounding jumper.
4.
Some points for installation
a. SRS-ECU installation
b. Post-installation test
Place the ignition switch in ON position
SRS alarm lamp flashes in 6 seconds and extinguishes.
c. If not extinguishes, the failure test and troubleshooting must be done.
5.
Test
a. Whether the depression, crack or deformation is with the SRS-ECU shield.
b. Whether the terminal is broken or deformed.
Caution: The SRS-ECU safety airbag will not work normally if the SRS-ECU is not correctly installed.
Caution: The SRS-ECU with depression, crack or deformation must be replaced with a new one.
For the inspection of SRS-ECU besides the previous refer to related item of troubleshooting
Safety airbag-23
Driver’s and passengers’ side safety airbag module (DAB, PAB), clock spring
Caution
1. Continue the operation 60 seconds after the removal of accumulator negative. Wrap the negative with insulating
tape for insulation.
2. Safety airbag module and clock spring must not be separated nor repaired, replace the failed ones with new ones.
3. Please pay high attention when using the safety airbag module and clock spring, do not let them fall on the ground
nor fall into water or oil. Moreover, replace the depressed, crack or deformed ones with new ones.
4. After the safety airbag module is released, keep the released side up, store it somewhere flat and do not lay anything
on it.
5. The safety airbag module must not be stored in a place with the temperature above 93
.
6. The released safety airbag module must be replaced with a new one, at the same time test the clock spring, replace
it with a new one if something unusual with it.
7. Use gloves and protection glasses during operating the released safety airbag.
8. The unreleased safety airbag must be abandoned after its release.
Caution
During the removal, the wring harness connector clip must be removed before the removal of other wring harness
connector clips in order to avoid the possible improper release caused by static interferences, which is reversal to the
case of installation.
1. Removal and installation
Driver’s side safety airbag module, passengers’ side safety airbag module, clock spring.
2. Operations before removal.
a. Take out the ignition switch key after the steering wheel and front wheel in straightforward direction.
b. Remove the connections of accumulator negative
3. Driver’s side safety airbag module removal procedure
a. Screw off the bolts of two sides, as showed in Figure 8-1
b. Shut off the wiring harness connector clip
c. Remove the safety airbag module assembly
d. Remove the steering wheel
4. Passengers’ side safety airbag module removal procedure
a. Remove all the trim covers and glove boxes of instrument panel separate the PAB module’s airbag wiring harness connector
clip from the safety airbag’s PAB side one.
b. Remove M6 bolts and separate PAB module from instrument panel armed beam.
c. Remove the instrument panel itself.
d. Remove the M5bolts of two sides of four PAB modules.
5. Clock spring removal procedure
a. Remove DAB module (shut off the connecting connector clip)
b. Carefully remove the steer
c. Open the combined switch upper shield, find and shut off the bottom wring harness connector clip
d. Remove the clock spring from the steer
6. Driver’s side safety airbag module (DAB) and its installation procedure
Safety airbag-24
7. Passengers’ side safety airbag module (PAB) and its installation procedure.
a. Test before installation
Carefully take PAB module, justify both of them and plug four trim cover M5bolt into the mounting holes of the module’s
both sides
Well install together the module with trim cover bracket and instrument panel mounting bracket with four M5 bolts.
After the installation of the entire instrument assembly to the vehicle, tightly fix the PAB module to the vehicle transverse
beam with 2 matted M6 bolts at the glove box site.
Well mutually plug the PAB module airbag wiring harness connector clip and safety airbag wiring harness PAB side
connector clip it is the end of PAB module installation.
b. Connection of accumulator terminal
c. Post-installation test
8. Clock spring installation procedure
a. Test before installation
Cross the line of upper clock spring through the hole in steer.
connect and fix the clock spring and steer
install the combined switch upper cover
install the steering wheel
steering wheel and safety module assembly
b. Connect accumulator’s terminal
c. Post-installation test
Figure 8
1
Figure 8
2
The removal of steering wheel (Figure 8.2)
Safety airbag-25
d. Remove the steering wheel by removing the mounting screw from the mid-position. (Shut off the horn connector)
Caution
It is difficult to separate the steer from steering column due to the over meshing between spline and steering column,
in this case, do not forcibly remove the steer but screw off the bolt on the steering column and lift up the steer instead
(the forced removal will damage the clock spring since the connection between the steer and the spring)
Caution
Diagnose the safety airbag module circuit with electric diagnostic instrument without separating it.
Let the removed driver’s side safety airbag module bottom-side up and store it at a clean and dry place.
Store the clock spring in a clean and dry place.
9. Installation operation instructions
a. The test before installation
The new safety airbag or clock spring must be tested before installation.
Caution
The safety airbag module must be abandoned after its release according to the procedure
Connect the accumulator negative
Connect the K-431 diagnostic instrument with the diagnostic interface (16 plug)
Caution
Place the ignition switch in OFF place when connect or shut off the
diagnostic instrument.
Place the ignition switch in ON position
Read the diagnostic circuit, check whether the safety airbag module is in normal condition except the failure regions.
Place the ignition switch in OFF position
Remove accumulator negative and wrap it with the tape for insulation.
Caution
Continue the operation 60 seconds after the removal of accumulator negative
Install the clock spring to the steer after its involution
Clock spring’s central involution, clockwise screw the clock spring to the end, then turn it for 3 circles anticlockwise and make
the involution with the marked sites
Figure 8.3
Safety airbag-26
Caution
If without the clock spring central involution, the steering wheel will not be able to rotate at midway, or the clock spring
circuit will be damaged so that jeopardize SRS safety airbag’s normal activities.
The spacer must be removed after replacing a clock spring with a new one, otherwise it will damage the clock spring.
c. Steering wheel and safety airbag module assembly installation.
Install the steering wheel and safety airbag module assembly after clock spring’s central involution.
Caution
Do not jam the clock spring wiring harness during the steering wheel and safety airbag module assembly installation.
After the installation, rotate the steering wheel to left and right positions as enough as possible to confirm whether something
abnormal is with it.
d. Post-installation test.
lightly rotate the steering wheel to the left and right to confirm whether something abnormal and noises will arise.(Driver’s side
safety airbag module, clock spring)
Place the ignition switch in ON place.
SRS alarm lamp flashes in 6 seconds and then extinguishes.
safety airbag system failure alarm lamp
Do the troubleshooting if the alarm lamp re-illuminates after its extinguishments following the 6-second-flashing (or it keeps
illuminating from the very beginning)
10. Test
a. Driver’s side airbag module test (Figure8-3)
Check the following items and replace the corresponding safety airbag module part with anything abnormal with a new one.
Abandon the safety airbag’s old parts after its release according to the instructed procedure.
Caution
The safety airbag module (squib) circuit resistance can even not be tested by the designated tester.
When testing the resistance with an experimental instrument, sometimes the improper release will be caused by the
static interference because of the current in explosion pipe and cause some major damaging accidents.
Whether depression, crack or deformation is with the shroud.
Whether the joint is broken and the terminal is deformed.
Whether depression, crack or deformation is with the gas generator shield.
Safety airbag module. Installation status.
Caution
Replace the safety airbag with depression, crack or deformation with a new one. Its old parts must be abandoned after
its release.
Safety airbag-27
b. Clock spring test (figure 8.5,figure 8.6)
Check the following items and replace the clock spring with anything abnormal (even it is quite tiny) with a new one
Whether the joint and protection tube are broken and the terminal is deformed.
Whether the shield is damaged.
Check the connection between clock spring’s upper joint terminal and it’s corresponding bottom terminal.
Plug in a thin probe from the 3# joint of clock spring.
Caution
Do not directly plug in the probe from the bottom of the joint.
Figure 8
5 As showed in Figure 8.5,Plug a thin probe into the current tester to check the connection of the terminal.
Safety airbag-28
Safety airbag module abandoning instruction
Carry out the operation according to the following procedure to abandon a safety airbag module or a vehicle with the SRS
safety airbag. First of all, release the safety airbag.
Unreleased safety airbag module abandoning
Caution
First release the SRS safety airbag when abdbdon it.
Release the safety airbag outside the vehicle to replace the safety airbag module.
Conduct the operation somewhere next to a smoke tester due to the smoke during the safety airbag’s release.
Tell the people to cover their ears and try to conduct the operation somewhere far away from the residential area due
to the big noise during the safety airbag’s release.
Remove the accumulator positive and negative and remove the accumulator off the vehicle.
Caution
Continue the operation 60 seconds after the removal of accumulator positive and negative.
Release the safety airbag module according to the following procedure.
1. Driver’s side safety airbag module
a. Remove the blocking lever
b. Remove the clock spring 2# joint and instrument panel wiring harness joint (yellow)(figure 8.6)
the shroud
protection tube
Caution
The clock spring joint will short automatically after the removal of clock spring from the instrument wiring harness,
which can prevent any possible major accident caused by the incorrect release of driver’s side safety airbag module duo
to the static interference from happening.
c. Connect the SRS safety airbag translation wring harness with 2 6m plus release wiring harnesses, wrap the joint part with
insulating tape for insulation.
shorting site
SRS translation wiring harness
6m plus
releases wring harness
Safety airbag-29
Mutually connect (short) the other end of release wring harness to avoid the possible incorrect release caused by the static
interference.
d. At the clock spring’s 2# joint, tract the translation wiring harness out of the vehicle with the release wiring harness (Figure 9.2)
clock spring
clock spring connector clip
srs translation wiring harness
release wiring harness
e. Close all the windows and doors and wear the guard to reduce the noises.
Caution
The guard should be worn because the glass with cracks is very fragile.
f. Shut off the joint of driver’s side safety airbag release wiring harness somewhere far from the vehicle, and connects the joint
with the accumulator and makes the safety airbag release.
auto body outer panel.
releases wring harness.
Caution
Continue the operation after the confirmation of nobody is in or next to the vehicle.
Its gas generator is quite hot after the driver’s side safety airbag’s release, it can be used after its cooling down for more
than 30 minutes.
Contact with the local service station of the Great Wall Auto Stock Corporation if the driver’s side safety airbag module
cannot be released.
g. Abandon the released driver’s side safety airbag module according to the instructions.
auto body outer panel.
release wiring harness
Safety airbag-30
2.
Release outside the vehicle
Caution
Release the safety airbag somewhere open and plain as well as 6m plus from the obstacles and people
When release the safety airbag outdoors, try to avoid the strong wind and ignite windward in the breeze.
a. Remove the accumulator negative and positive and remove the accumulator.
Caution
Continue the operation 60 seconds after the removal of the accumulator.
b. Release the safety airbag module according to following procedure
driver’s side safety airbag module
remove the driver’s side safety airbag module off the vehicle.
Caution
The two ends of the terminal will short automatically without the joint connection of driver’s safety airbag module,
therefore the possible improper release caused by static interference can be avoided; if it improperly releases, keep the
released side up and store it somewhere plain, do not lay anything on it.
Prepare 2 6m plus release wiring harnesses and mutually connect the other ends(short-circuit) of them to avoid the possible
improper release caused by static interference.( refer to figure 9-4)
wiring harness for release
shorting site
6m plus
Touch the vehicle with your hands to eliminate the static electricity.
Caution
Strictly execute the previous procedure for it can prevent the possible incorrect release caused by the static interference
from happening.
Shut off the driver’s side safety airbag module wiring harness and connect it with two release wiring harnesses( refer to figure
9-5)
release wiring harness
passengers’ side safety airbag module
shoring site
insulating tape
Safety airbag-31
Installed the stand-by bolts on the driver’s side safety airbag module’s inside bolt and fasten a thick wire to the wheel rim to
fix it.
Connect the release wiring harness connecting with the driver’s side safety airbag module with the low part of an old tire loading
the wheel rim. ( refer to figure 9-6)
driver’s side safety airbag module
release wiring harness
Lay three wheel-hub-free old tires on the tire fixing the driver’s side safety airbag module (Figure 9-7).
wheel-hub-free old tires
release wiring harness
Shut off the joint of driver’s side safety airbag release wiring harness somewhere far from the vehicle, and connect the joint with
the accumulator and make the safety airbag release (Figure9-8).
release wiring harness.
Caution
Release the driver’s side safety airbag module after the confirmation of nobody close to it.
Its gas generator is quite hot after the driver’s side safety airbag’s release, it can be used after its cooling down for more
than 30 minutes.
Contact with the local service station of the Great Wall Auto Stock Corporation if the driver’s side safety
Safety airbag-15
Place the ignition switch in L OC K position
R elease accumulator negative wire and wait for 1 minute
plus
R emove the left trim cover
Shut off SR S safety airbag system unit translation
connector clips
Install back the accumulator negative wire, place the
ignition switch in ON position
Is the potential of SR S safety airbag system unit connector
clips stitch 5,6(grounding) above 9V ?
4
Y es
Present failure codes
R eplace SR S safety airbag system unit
See he removal/installation of SR S
safety airbag system unit
History accumulated failure codes
T he end of failure diagnosis
No
R eplace wiring harness
Drive side failure
Failure code
$9021
$9022
$9024
$9025
Driver’s side safety airbag failure (high or low resistance, shorting grounding, etc.)
Test
condition
Warning
If not correctly handled, the safety airbag module as well as pretension safety belt may possibly be trigged, released
and tensioned, thus make serene damage to people. Therefore, please carefully read the repairing warning before
trouble handling. Please take references in safety airbag system repairing warning
Driver’s side safety airbag
The resistance between the SRS safety airbag system connector clips connectors not within the designated scope
SRS safety airbag system driver’s side airbag relative wiring harness shorting or shutoff
Possible
causes
Driver’s side safety airbag module failure
Clock spring internal failure
Failure of circuit connector clips between clock spring and SRS safety airbag system electronic-control unit
Shutoff or shorting of wiring harness between clock spring and SRS safety airbag system electronic-control unit.
Misconnection of SRS safety airbag system driver’s side airbag generator connector clip
Procedure
Test
1
Check the clock spring
Warning
If not correctly handled, the safety airbag module may possibly be
trigged and released thus make serene damage to people. Therefore,
please carefully read the repairing warning before trouble handling.
Please take references in safety airbag system repairing warning.
Are the relative parts of clock spring normal? (The relation between
stitches, unnecessary shutoff or shorting?) if the present clock spring can
be replaced by a better one.
2
Confirm the failure in driver’s side safety airbag module or other parts.
Replace the DAB module with a better one
Install back accumulator negative wire
Place the ignition switch in ON position
Is the failure code still in display or can be debugged?
3
Check clock spring wiring harness connector clip
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute plus
Remove steering pillar shell
Release the clock spring connector clip, is it in normal condition?
Operation
Normal
Next step
Abnormal
Replace the clock spring
Take references in the
removal/installation for
safety airbag system and
clock spring
Can
Replace the driver’s side
safety airbag module
Take references in the
removal/installation for
driver’s side safety airbag
in safety airbag system
No
Next step
Normal
Abnormal
Next step
Replace
harness
the
wiring
Safety airbag-16
4
5
6
7
8
Confirm the failure in clock spring or other parts
configure the special tools fuel and temperature diagnostic instrument
at 2Ω position
Install back the accumulator negative wire
Place the ignition switch in ON place
Any failure code in display?
Check the wiring harness between clock spring and SRS safety airbag
system electronic-control unit
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute plus
Remove PAB trim cover, glove box (passengers’ side safety airbag is
under the trim cover)
Release the passengers’ side safety airbag module connector clip
Release all SRS safety airbag system unit connector clips
Check whether the following troubles are with the harness between
connector clips terminals of SRS safety airbag system unit and clock
spring
Grounding
Power-supply shorting
Shutoff
Is the previous wiring harness normal?
Check the clock spring connector clip
Remove the steering pillar shell
Release the clock spring connector clip
Is the clock spring connector clip normal?
Check clock spring
Remove clock spring
Take references in removal/installation of safety airbag system as
well as clock spring
Check clock spring
Take references in the test for safety airbag system and clock spring.
Is the clock spring normal?
Check the wiring harness between clock spring and SRS safety airbag
system electronic-control unit
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for 1 minute plus
Remove PAB trim cover, glove box (passengers’ side safety airbag is
under the trim cover)
Release the passengers’ side safety airbag module connector clip
Release all SRS safety airbag system unit connector clips.
Check whether the following troubles are with the harness between
connector clips terminals of SRS safety airbag system unit and spring
clock.
Grounding
Power-supply shorting
Shutoff
Is the previous harness normal?
Yes
Next step
No
Replace clock spring
Take references in the removal
and installation for safety airbag
system and clock spring.
Normal
Replace SRS safety airbag
system unit; take references in
removal/installation of SRS
safety airbag system unit.
Abnormal
Replace the wire harness
Normal
Next step
Abnormal
Replace the wiring harness or
connector clips
Normal
Next step
Abnormal
Replace clock spring
Take
references
in
the
removal/installation of safety
airbag system and clock spring.
Normal
Next step
Abnormal
Replace clock spring
Take
references
in
the
removal/installation of safety
airbag system, and clock spring
Safety airbag-17
Passengers’ side failure
Failure code
$9015
$9016
$9018
$9019
Test condition
Possible causes
Procedure
1
2
3
Passengers’ side safety airbag module (high or low resistance or shorting grounding)
Warning
If not correctly handled, the safety airbag module as well as pretension safety belt may possibly be
trigged, released and tensioned, thus make serene damage to people. Therefore, please carefully read the
repairing warning before trouble handling. Please take references in safety airbag system repairing warning
If with passengers’ side safety airbag failure
The resistance between SRS safety airbag system unit connector clip stitch 13 and stitch 14 not within the
designated scope.
The wiring harness shorting between safety airbag system unit stitch 13 and stitch 14
Open loop between SRS safety airbag system unit connector clip stitch 13 and stitch 14,
Passengers’ side safety airbag module failure
The failure of connector clip between passengers’ side safety airbag module and SRS safety airbag system
electronic-control unit
The failure of connector clip between SRS safety airbag system unit and grounding jumper.
The circuit shutoff or shorting between passengers’ side safety airbag module and SRS safety airbag system
electronic-control unit
The circuit shutoff or shorting between SRS safety airbag system unit and grounding jumper
SRS safety airbag system unit failure
Test
Is the vehicle with passengers’ side safety airbag module
Check passengers’ side safety airbag connector clips
Warning
If not correctly handled, the safety airbag module may possibly be
trigged and released thus cause serene damage to people, therefore,
please carefully read the maintenance warning.
Take references in safety airbag maintenance warning.
Place the ignition switch in LOCK position
Release accumulator negative wire and wait for about 1 minute
plus
Remove the PAB trim cover, glove box (passengers’ side safety
airbag is under the trim cover)
Release passengers’ side safety airbag module connector clip
Is the previous connector clip normal?
Confirm whether the failure cause is with passengers’ side safety
airbag module or some other parts
Connect a better module to the terminal A and B of passengers’
side safety airbag connector clip
Connect the accumulator negative wire
Place the ignition switch in ON position
Any failure code in display?
Operation
Yes
Next step
No
Step 5
Present failure code
Next step
History- accumulated failure codes
Next step
Yes
No
Replace the wiring harness
Yes
Next step
No
Replace passengers’ side safety airbag
module
Take
references
in
the
removal/installation of passengers’ side
safety airbag module in safety airbag
system.
Safety airbag-18
Check the wiring harness between passengers’ side safety airbag
module and SRS safety airbag system electronic-control unit
Present failure code
Place the ignition switch in LOCK position
Replace SRS safety airbag system
Release accumulator negative wire and then wait for about 1
unit
minute plus
Take
Remove steering pillar shell
Release clock spring connector clip
Normal
Release driver’s and passengers’ side safety airbag module
4
references
removal/installation
in
of
SRS
safety airbag system unit in safety
airbag system.
connector clips
History-accumulated
Release all SRS safety airbag system unit connector clips
failure
codes
Check whether the following troubles are with the circuit of the
The end of failure diagnosis
connector clips terminals between SRS safety airbag system
electronic-control unit and passengers’ side safety airbag
module
Grounding
Power-supply shorting
Abnormal
Shutoff
Replace
the
relative
wiring
harness
Is the previous circuit normal?
Impact-vehicle diagnosis
Test SRS-ECU diagnostic signals
1. Connect the (X-431 diagnostic test’s) diagnostic joint
2. Read the diagnostic results with X-431 diagnostic tester
Repairing procedure
1.When safety airbag is released.
The following parts should be replaced with new ones
a. Passengers’ side safety airbag module
b. SRS-ECU
c. Driver’s side safety airbag module
2 Check the following parts; replace them with new ones providing something wrong with them.
a. Clock spring
b. Steering-wheel, steering column, bottom steering shaft module
3.Driver’s side safety airbag module’s installation status towards the steering wheel.
a. Check whether abnormal knocking is with the steering wheel, its activity is in good condition and its clearance is normal.
b. Check whether the wiring harness joint is broken and its terminal is deformed.
Caution: Due to the impact, the diagnostic instrument cannot communicate with SRS-ECU when accumulator is lack of
power, in this case, check and maintain the instrument panel wiring harness or utilize the extension power supply.
Appendix-1
Appendix
A important parts assurance and request.........................................1
B non-metal materials consumption table.......................................12
C Special tools.............................................................................14
D important working regions and tightening torque
important working region............................................................17
E Electric wiring diagram ..............................................................18
Appendix A-1
Control item
fixing to the
Torque wrench
23
2N m
Steel plate gauge 100mm
hexagon flange nut (Q32012)
Control item
locate the
riage and fix it with
some bolts(Q32012),
10N
m.
hexagon flange nut (Q32012)
90
Torque wrench
Appendix A-2
Torque wrench
Connection of steering linkage co- fixed torque of nut 1 in the Figure is 25
assembly and
connection of steering linkage co- the fixed torque of nut 2 in the Figure is 70
the torque is: 70 10N m the fixed
assembly and left carriage
10N m
Torque wrench
Torque wrench
cross universal joint
steering linkage co-assembly
integral power steering general assembly
Connection of left right long longitudinal the fixed torque of nut 1 in the Figure is
tie assembly and carriage and rear axle
Torque wrench
Connection of left right short longitudinal the fixed torque of nut 2 in the Figure is
Torque wrench
tie assembly and rear axle assembly.
Connection of left right short longitudi- the fixed torque of nut 3 in the Figure is
Torque wrench
nal tie assembly and carriage
Connection of cross tie assembly and rear the fixed torque of nut 1 in the Figure is
Torque wrench
axle assembly
Connection of cross tie assembly and the fixed torque of nut 1 in the Figure is
Torque wrench
carriage.
short longitudinal tie
assembly (L)
short longitudinal tie assembly (R)
long longitudinal tie assembly
Appendix A-3
Locate the rear transverse stabilizer rob in the corresponding Viewing confirmation
position of carriage, symmetries the left and right during
installation.
Connection of rear transverse the fixed torque of nut 2 in the Figure is 23
3N m
Torque wrench
5N m
Torque wrench
stabilizer rod and rear axle
Connection of rear transverse the fixed torque of nut 1 in the Figure is 63
stabilizer rod and rear transverse
stabilizer robs connecting bar
assembly.
rear transverse stabilizer
bush
rear transverse stabilizer rod connecting bar assembly
Upper suspension arm and upper suspension
the fixed torque of nut 1 in the Figure is
arm steering knuckle ball pin
145
Steering gear cross tie ball pin
the fixed torque of nut 2 in the Figure is120
10N
15N
Torque wrench
m
Torque wrench
m
Lower suspension arm and lower suspension
the fixed torque of nut 3 in the Figure is 230
arm steering knuckle ball pin
20N
Torque wrench
m
1. (upper suspension arm steering knuckle ball pin nut) bolt
2. (steering gear cross tie ball pin nut) left steering
knuckle and wheel hub brake assembly
4. left steering knuckle and steering knuckle
and wheel hub brake assembly.
3. (lower suspension arm steering knuckle ball pin nut bolt
Appendix A-4
the fixed torque of nut 1in the Figure is 25
3N m Torque wrench
Connection of front transverse stabilizer rob the fixed torque of nut 2in the Figure is 63
5N m Torque wrench
Connection of front transverse stabilizer rod
and carriage.
and front transverse stabilizer rod connecting
bar assembly
front transverse stabilizer rod
bush
front transverse stabilizer rod
bush clip
Drive shaft assembly installation
connecting bar assembly
Plug the front part of drive shaft into transmission assembly
Viewing and handle
splinded shaft, after their good meshing, screw the central bearing
confirmation
hexagon bolt into the corresponding screw hole of the carriage
Center bearing connecting bolt
the fixed torque of bolt 1 in the Figure is 65
5N m
Torque wrench
Drive shaft bolt
the fixed torque of bolt 2in the Figure is 65
5N m
Torque wrench
transmission assembly
rear axle assembly
drive shaft assembly
Appendix A-5
the fixed torque of bolt 1 in the Figure is 78
drive shaft bolt
5N m
front axle drive shaft assembly
rear axle drive shaft assembly
transmission assembly
petrol lien joint
petrol pipe joint
two way valve
petrol line joint tightening torque is 16
rear axle assembly
2N
torque wrench
Appendix A-6
Driver steering oil pump installation
Fixed torque of tubular hexagon bolt 1 in the Figure is
40N
Multi-wedge belt
Torque
m
Multi-wedge belt 4PK1100 tension is 500
50N
Torque
driver steering oil pump
multi-wedge belt 4PK1100
cover lock mounting bolt
cover lock mounting bolt’s torque is 9
effect
the cover lock can be opened freely, the position is reliable
2N m
without any jam.
cover lock cable
cover lock buckle
fastening blot
cover lock mounting bracket
Appendix A-7
Out handle can be normally and efficiently used, no linkage Handle confirmation
falling off, the backup door can be opened and closed freely
without any jam nor unlocking.
rear door assembly
backup door bottom buckle
backup door lock
The fixed torque of bolt 1 in the Figure is 6
backup door out handle
1N m
The door can be opened and closed smoothly without any jam nor
unlocking.
door lock assembly
Torque wrench
Appendix A-8
Apply washer on the front windshield Evenly apply it on the sticking region with the width of about Viewing confirmation
glass-sticking region
25mm and completely volatilize it.
Apply base-coater on the front
windshield glass-sticking region
Shake the base-coater to be sufficiently even followed by the Viewing confirmation
even application on the sticking region with the width of about
20mm and dry it for 2-15 minutes
Apply washer on front windshield
Wash the glass frame with the width of about 25mm,
glass
instantly clean it and volatilize the washer completely.
Apply base-coater on front
Shake the glass base-coater to be sufficiently even followed Viewing confirmation
by the even application on the glass frame with the width of
windshield glass
Viewing confirmation
about 20 and dry it for 2-15 minutes
Apply adhesive on front windshield
Vertically apply the glass adhesive on the glass frame and Viewing confirmation
glass
make it even and continuous. Height: 18mm, width: 12mm
Front windshield glass fixing
Instantly install and fix the glass after the glass adhesive Viewing confirmation
application. Set the left and right clearance between front
windshield glass and the glass frame to be 12mm
front windshield glass
Wash, base-coat and stick according to the corresponding positions showed by the broken line in the Figure
Appendix A-9
Apply washer on the glass-sticking Evenly apply it on the sticking region with the width of about Viewing confirmation
region of the backup door
25mm and volatilize it completely.
Apply base-coater on the glass- Shake the base-coater to be sufficiently even followed by the
sticking region of the backup door
Viewing confirmation
even application on the sticking region with the width of
about 20mm and dry it for 2-15 minutes
Apply washer on the backup door
Wash the glass frame with the width of about 25mm and
glass frame
volatilize the washer
Apply base-coater on the backup
Shake the glass base-coater to be sufficiently even followed
door glass frame
by the even application on the glass frame with the width of
Viewing confirmation
Viewing confirmation
about 20 and dry it for 2-15 minutes
Apply adhesive on the backup door Vertically apply the glass adhesive on the glass frame and make Viewing confirmation
glass frame
it even, continuous. Height: 12mm, width: 8mm
Backup door glass fixing
Instantly install and fix the glass after the glass adhesive
Vi e w i n g / h a n d l e
application
confirmation
backup door
backup door glass
Wash, base-coat and stick according to the corresponding positions showed
by the broken line in the Figure
Appendix A-10
Control item
Apply
washer
on
side
Request
Control mean
Evenly apply it on the sticking region with the width of about
Viewing confirmation
window sticking region
25mm and completely volatilize it.
Apply base-coater on side
Shake the base-coater to be sufficiently even (for at least 1
window sticking region
minute) followed by the even application on the sticking region
Viewing confirmation
with the width of about 20mm and dry it for 2-15minutes
Apply
washer
on
side
Wash the glass frame with the width of about 25mm and
window glass frame
volatilize the washer completely.
Apply base coater on side
Shake the base-coater to be sufficiently even followed by the
window glass frame
even application on the glass frame with the width of about
Viewing confirmation
Viewing confirmation
2omm and dry it for 2-15 minutes.
Apply adhesive on side
Vertically apply the glass adhesive on the glass frame and make
window glass frame
it even, continuous. Height: 12mm, width 8mm
Side window fixing
Instantly install and fix the glass after the glass adhesive
Viewing confirmation
Viewing /handle confirmation
application.
side window glass
the auto body
Wash, base-coat and stick according to the corresponding positions showed
by the broken line in the Figure
Appendix A-11
Driver seat assembly installation
bolt 1 in the Figure tightening torque:is 33
43N m
Torque wrench
The headrest can be up and down smoothly, angle-adjuster
Viewing and handle
handle can be normally used, driver, co-driver seat can move
confirmation
freely and transmission trim cover can be freely opened.
seat assembly
Wheel nut fixing procedure
Installation order is A-C-E-B-D-F as showed in the Figure
Wheel nut fixed torque
the fixed torque of nut 1 in the Figure is 135
brake disc assembly
15N m
Appendix B-12
Non-metal materials consumption table
Name
Brand, specification and
technical condition
Transmission lever. Three-hole
Measuring
unit
Suitable
Kg
Suitable
L
Suitable
Installing ring flange
L
Suitable
Radiator and co-tank -
Kg
7
3#
Twisted bar spline, speed shaft
L
Suitable
5001TF
Glass base coat
m
0.03
L
Suitable
Silicon oil
Thread
Utility
rubber block
Note
Short, longitudinal front fixed
block
1271
sealing agent
bolt, hub cap bolt, transmission
lever bolt, carriage fixing
Silicone rubber
surface sealing
1596 (super gray)
agent
Anti-freeze
vinyl-EG --35℃
liquid
antifreeze liquid
Molybdenum
disulfide
pressed
lithium base
grease
Glass
base
coater
Air-filtering suction tube, door
Butyl tape
Attraction
6×2×700
seal film
DEXRON3 (ATF-3)
Steering fuel cup assembly
L
1
Clutch oil
DOT4
Clutch master cylinder
L
0.15
Brake fluid
DOT4
Vacuum assist fluid reservoir
L
0.525
steering fluid
For the exported
vehicle for
Auto gear oil
GL-4 75W/90
Transmission
L
2.2
extremely cold
areas
For the exported
vehicle for
Auto gear oil
GL-4 75W/90
Transfer case
L
2.7
extremely cold
areas
Auto gear oil
GL-4 80W/90
Transmission
L
1.4
Auto gear oil
GL-4 80W/90
Transfer case
L
2.5
For the exported
vehicle for
Auto gear oil
GL-5
75W/90
Rear axle
L
2.9
extremely cold
areas
2.9L=5.14PTS
Auto gear oil
GL-5
80W/90
Rear axle
L
2.9
2.9L=5.14PTS
Appendix B-13
For the exported
Auto gear oil
GL-5 140
Transmission
L
1.4
vehicle for extremely
hot areas
For the exported
Auto gear oil
GL-5 140
Transfer case
L
2.7
vehicle for extremely
hot areas
For the exported
Auto gear oil
GL-5 140
Rear axle
L
2.9
vehicle for extremely
hot areas
2.9L=5.14PTS
For the exported
Auto gear oil
GL-5 140
Front axle
L
1.4
Auto gear oil
GL-5 75W/90
Front axle
L
1.4
Auto gear oil
GL-5 80W/90
Front axle
L
1.4
Glass adhesive
HV3
Front windshield glass
L
0.6
Glass adhesive
7120
L
0.9
vehicle for extremely
hot areas
1.4L=2.46PTS
Clearance
adhesive
Liquid adhesive
Windshield
washer
Refrigerant
Backup door glass, side window
glass
LY-22
Luggage rack
Kg
Suitable
LY-609
Warming pipe, speed lever
L
0.02
Q35
Front and rear windows
L
3
R134a
Air-conditioning system
Kg
0.73
1.4L=2.46PTS
Non-metal Materials Consumption Table.
Name
Engine lubricating
oil
Brand, specification and
technical condition
SL 10W-40
Utility
Oil pan
Measuring
unit
L
Quantity
4.3
Note
Available for 4G64S4M
engine
Available for 4G64S4M
Engine lubricating
oil
SL 5W-30
Oil pan
L
Suitable
VP04604
Glass
L
Suitable
Kg
Suitable
Kg
Suitable
engine and exported
vehicles for extremely
cold areas.
Glass activator
Lithium base
grease
Industrial
Vaseline
Grease HP-R
Front axle,
chassis parts
Seat support,
accumulator
points
Appendix C-14
only for 1.4kw starter front
bearing
valve guide bush removing or
repairing tool
valve spring presser
crankshaft pulley remover
crankshaft pulley fixing tool
camshaft bearing removing and
repairing tools
plugging plate A
bolt
nut
shaft A
pin
removing and replacement
removing and replacement
Appendix C-15
crankshaft front oil seal replacing
tool
crankshaft oil seal replacing tool
Appendix C-16
*1. only for 1.0kw starter front
injection pump crankshaft
bearing cone tool
bearing
*2. only for high-speed, small rotor
front bearing
*1. starter bearing
injection pump spline shaft
remover
alternator pulley assembly nut
wrench assembly
*2. high-speed, small rotor front
bearing assembly
only for high-speed, small ones
Appendix D-17
Serial
Working region and
Torque
Serial
No.
specification
N·m
No.
200
25
270±25
26
320±30
27
63±5
28
78±10
29
140±10
30
wheel nut M12×1.25
135±15
140±10
31
steering wheel lock nut M12×1.25-8
30±5
145±15
32
steering gear-carriage fixing nut M12×1.25-8
90±10
1
upper arm shaft fixed
bolt M14×1.5-10.9
front shaft of lower arm
2
connecting bolt M16×
1.5-10.9
rear shaft of lower arm
3
connecting bolt M18×
1.5-10.9
Working region and specification
engine suspension connecting bolt M10×
1.25-10.9
transmission suspension connecting bolt M10×
1.25-10.9
transmission-engine connecting bolt M10×
1.25-10.9
Torque
N·m
78±10
78±10
50±5
bottom arm limiting
4
stopper fixed bolt M10
drive shaft connecting bolt M10×1.25-10.9
78±5
×1.25-8.8
upper arm ball pin
5
pedestal connecting bolt
drive shaft bearing fixed bolt M10×1.25-8.8
65±5
M10×1.25-10.9
bottom arm ball pin
6
pedestal connecting bolt
M12×1.25-10.9
front twisted bar
7
pedestal connecting bolt
M12×1.25-10.9
8
9
upper arm ball channel
fixing nut M16×1.5-10
front vibration damper
Bush
upper fixing nut M10×
compressed
1.25-8
by 1/3
70±10
33
1.5-9.8
bottom arm ball pin
10
channel fixing nut M18
230±20
steering angle drive co-carriage bolt M10×
34
×1.5-10
steering system universal-joint lock bolt M8×
1.25-8.8
50±5
25±3
front vibration damper
11
bottom connecting bolt
90±10
35
steering linkage ball fixing nut M14×1.5-8
120±10
M12×1.25-8.8
12
rear vibration damper
Bush
upper fixing nut M10×
compressed
1.25-8
by 1/3
36
rear vibration damper
13
bottom fixing nut M14
170±15
37
23±3
38
×1.5-8
front cross stabilizer rod
14
-carriage fixed bolt M8
×1.25-8.8
steering linkage adjustment lock nut M14×
1.5-8
front axle front shackle connecting bolt M14×
1.5-10.9
front axle rear shackle
connecting bolt M14
×1.5-10.9
60±5
180±20
180±20
Appendix D-18
front cross stabilizer rod
15
-connecting bar bottom
63±5
39
brake petrol pipe joint M10×1.25
16
200±20
40
180±15
41
safety belt seat connecting bolt 7/16″-8.8
40±2
200±20
42
body suspension connecting bolt M10×1.25-9.8
63±5
200±20
43
Engine oil pan drain bolt
40±5
180±15
44
Transmission/transfer case refueling/drain bolt
30~35
23±3
45
front drive axle refueling bolt M20×1.5
145±5
63±5
46
Front drive axle drain bolt Rc1/2
30~35
63±5
47
rear drive axle refueling/drain bolt M20×1.5
145±5
25±3
48
Starter and wheel box connecting bolt
30±3
arm bolt M10×1.25-8
long longitudinal tie
16
connecting bolt M14×
safety belt body connecting bolt 7/16″-8.8
40±2
1.5-10.9
short longitudinal tie
17
front connecting bolt
M14×1.5-10.9
short longitudinal tie rear
18
connecting bolt M14×
1.5-10.9
cross tie -carriage
19
connecting bolt M14×
1.5-10.9
20
cross tie -rear axle fixing
nut M14×1.5-8
rear cross stabilizer rod
21
-rear axle fixed bolt M8
×1.25-8.8
rear cross stabilizer rod
22
-connecting bar -carriage
bolt M10×1.25-8
23
24
standby tire bracket fixed
bolt 10×1.25-8.8
standby tire lifter fixed
bolt M8×1.25-8.8