cylinder GREAT WALL FLORID 2008 User Guide

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual40
Clutch Master Cylinder Installation
Installation of clutch system is reverse to its removal, but
since the whole clutch system uses hydraulic assistance,
make sure to air bleed it after the installation is completed.
Detailed steps as follows:
(a) Plug one end of the long transparent connection hose
(about 0.5 m long) into the bottom of bleed screw, and
the other end into a fixed container.
(b) Loosen the bleed screw via the open end of the M8,
meanwhile ask the assistant to step on the clutch pedal
repeatedly until no air bubbles can be seen in the hose.
R e m a r k : R e s i d u a l a i r i n t h e c l u t c h s y s t e m h a s b e e n
completely exhausted.
(c) Lastly, lock the bleed screw.
Caution: Refilling the brake fluid reservoir should be
performed while air bleeding the clutch.
Clutch Pedal Removal
1. Remove the battery's negative cable.
2. Remove the glove box at the left of the dashboard.
3. Remove the cotter pin at the U-joint of the clutch
master cylinder, and separate the center pin and the
pedal lever.
4. Remove the clutch pedal bracket from the cowl.
5. Remove the clutch pedal.
(a) Move the clutch pedal to the maximum stroke position.
(b) Take down the return spring.
(c) Remove the bolts and nuts.
(d) Take the pedal lever down from the pedal bracket.
Clutch Pedal Installation
1. Install the clutch pedal.
(a) Install the return spring.
(b) Install the clutch pedal lever.
(c) Install the bolts and nuts.
Tightening torque: 30 N·m
(d) Put the pedal lever at the maximum stroke position and
connect it with the spring, in order to set the pedal to its
initial position.
2. Install the clutch pedal onto the 2 studs of the clutch
master cylinder.
Use a M13 wrench to tighten the clutch pedal brackets with
two M8 nuts.
Tightening torque: 23±3 N·m
3. Install the clutch master cylinder push rod with the U-
joint.
(a) Coat the contact areas between the center pin and the
U-joint pedal connector with multi-functional grease.
(b) In succession, join the U-joint (pedal connector) and
the clutch pedal lever with a cotter pin.
Caution: Insert the center pin into the pedal lever from
the left side of vehicle.
(c) Install the cotter pin onto the center pin.
4. Check and adjust the clutch pedal.
5. Connect the negative cable of the battery.
Bleed screw

Downloaded from www.Manualslib.com manuals search engine 41Clutch Operational System
Clutch Pedal Examination and Adjustment
1. Check if the pedal height is correct.
Height from the carpet: 100-110 mm
2. Adjust the pedal height.
Loosen the lock nut and adjust the clutch pedal limit adjust-
ing bolt until its height is correct, and then tighten the lock
nut.
Tightening torque: 20 N·m
3. Check if the pedal free play is correct.
Step on the pedal until one can feel the resistance.
Pedal free play: 13.7 mm
4. Adjust the free play.
(a) Loosen the lock nuts of the clutch master cylinder and
rotate the push rod until the pedal reaches the correct
free play.
(b) Tighten the lock nuts.
Tightening torque: 20 N·m
(c) Recheck the clutch pedal height.
Pedal height
Lock nut
Limit adjusting bolt
Lock nut
Free play

Downloaded from www.Manualslib.com manuals search engine 45Transmission
Areas of Importance
Removal
During removal, all components should be gently handled to avoid knocking, especially the joint surface.
All components should be placed in the proper order to avoid misplacing \
and mistaking.
Installation
1. Clean all parts before installation (except rubber pieces and gaskets)\
.
2. All oil seals, shaft retainers, and elastic pins should not be reused.
3. All rubbing surfaces should be coated with lubricant, and the lips of all oil seals should be coated with
grease.
4. During installation of the bearings, do not use any kind of rolling element to transmit pressure, and
make sure not to tilt it.
5. During the installation of synchronizer components, the two sides of the spring piston's openings
should alternate.
6. When the transmission is operating under normal working conditions, there should be no lubricant
leakage from any of the parts.
Transportation and storage
1. When transporting a transmission, make sure the conditions are dustproof and rainproof, as well as
take proper care not to damage it due to jolting, shaking, removal, or i\
nstallation.
2. Transmission assembly should be stored in a ventilated, dustproof, and dr\
y place.
3. Users with special transportation or storage requirements should have another discussion to reach an
agreement on this matter in the supply contract.
Use partsBolt codeSpecificationsQuantity
Tighten-
ing torque
(N·m)
Differential case × differential ring gear037-2303309M12 × 1.06123.6
C l u t c h h o u s i n g × r e v e r s e g e a r a r m
bracket subassembly037-1702073M8 × 1.25217.2
No. 1 gear shift fork shaft × No. 1 gear
shift fork037-1702056M6 × 0.75115.7
No. 2 gear shift fork shaft × No. 2 gear
shift fork037-1702056M6 × 0.75115.7
Transmission case × clutch housing037-1701012M8 × 1.251329.4
Transmission case × manipulation lid
subassembly037-1702051M8 × 1.25412.0
Transmission case × position mechanism
component037-1702042M18 × 1.5136.8
Transmission case × reverse gear idler
shaft × sealing ring037-1701404M8 × 1.25129.4
Transmission case × hexagon head plug037-1701016M18 × 1.5239.2
Transmission case × reverse gear switch
subassembly037-1701022M18 × 1.5140.2
Transmission case × cable bracket037-1701019M8 × 1.25411.3
Clutch housing × clutch slave cylinder
subassembly037-1601019M8 × 1.25211.3
Select lever assembly × gear shifting
block037-1702027M8 × 1.25138.0
Clutch housing × release fork support
nail037-1601011M10 × 1.25136.8
Counterweight component × shift lever
component037-1702030M8 × 1.25220.0
Release fork support nail129.4
Thread fastening piece tightening torque table

Downloaded from www.Manualslib.com manuals search engine 47Transmission
1. No. 2 gear sleeve 2. Shaft retainer 3. No. 2 Slider (3) 4. Spring expansion ring (2) 5. No. 2 gear hub 6. 3rd gear synchronizer ring 7. 3rd gear gear assembly 8. Needle bearing 9. With washer bolt 10. Clutch slave cylinder subassembly 11. Release fork protective cover 12. Release fork spring 13. Bolt for flange face (3) 14. Release fork 15. Clutch housing 16. Release fork support nail 17. Ball bearing 18. 2nd gear synchronizer ring 19. T oil seal 20. No. 1 gear sleeve 21. No. 1 Slider 22. 1st gear synchronizer ring 23. 1st gear gear components 24. Needle bearing 25. Release bearing subassembly 26. Tapered roller bearing 27. Guide nozzle 28. 2nd gear gear
assembly 29. No. 1 gear hub 30. Spring expansion ring (2) 31. Bolt for flange face (6) 32. Straight pin 33. Odometer driver 34. T oil seal 35. Tapered roller bearing 36. Adjusting shim (2) 37. Axle shaft gear (2) 38. Planetary gear (2) 39. Gasket (2) 40. Differential case 41. Planetary gear shaft 42. Differential ring gear 43. Bolt for flange face (8) 44. Tapered roller bearing 45. Adjusting shim 46. T oil seal 47. Shaft retainer 48. Retaining ring 49. Needle bearing 50. 3rd driven gear 51. Spacer 52. 4th driven gear 53. 5th driven gear 54. Shaft retainers 55. Tapered roller bearing 56. Adjusting shim 57. Output shaft 58. 5th gear gear assembly 59. Shaft retainer 60. Retaining ring 61. Spring expansion ring (2) 62. Needle bearing 63. Input shaft 64. Adjusting shim 65. Ball bearing 66. 3rd gear gear hub 67. 3rd gear Slider (3) 68. 3rd gear gear sleeve 69. 5th gear synchronizer ring 70. Steel ball 71. 5th gear thrust washer 72. Needle bearing 73. 4th gear components 74. Retaining ring 75. 4th gear synchronizer ring 76. Transmission case
037A Transmission Structural Schematics
1
2
34
567
9
8
10
111213
1415
1617181920
21
222324
25
26
27
2829
3031
32
33
343536
37
3839
4041
42
43
44
45
4647
48
49
50
51
52
53
54
55
59
56
57
58
60
61
62
63646566
6768
69
70
71
72
73
74
75
76

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual72
Suspension System Technical Parameters
Main technical parameters
Suspension type and
composition
Front suspension typeMcPherson independent suspension
Front suspension componentsCoil spring, hydraulic telescopic shock absorber, stabilizer bar, lower swing
arm
Rear suspension typeCompound trailing arm semi-independent suspension
Rear suspension componentsCoil spring, hydraulic cylinder damper, & twist beam welded components
Wheel positional
parameters
(no load)
Front wheel camber-0° 43′ ±30′
Front wheel kingpin angle+10° 21′ ±30′
Front wheel kingpin caster+1° 49′ ±30′
Front wheel toe-in-0° 01′ ±15′
Rear wheel camber-0° 43′ ±30′
Rear wheel toe-in+0° 14′ ±15′
Wheel and tire parameters
Tire specifications: 15 × 6J (For 185/65R15 tires), 16 × 4T (For T125/70R16 tires)
Tire specification: 185/65 R15 88H
Spare tire specification: T125/70R16 96M
Tire pressure must be gauged when the tire is cool: Tire inflation pressure: 200±10 KPa
Spare tir e inflation pressure: 420±10 KPa
Tightening torque
PartCodeAssembly locations for
standard components
Tightening
torque
(N·m)
QuantityGlueGrade
Front
suspen-
sion
Q1861455TF2
(M14×1.5) + Q402
(d2=32 t=5) FD
Subframe & vehicle body (rear)145±15 2Red glue10.9
Q1861275TF2
(M12×1.25) + Q402
(d2=32) FD
Subframe & vehicle body (front)120±102Red glue10.9
Q1401020 (M10×1.25) FDSubframe strut bar mounting bolt49±54Red glue10.9
2904011-S08Swing arm & steering knuckle98±102Red glue
Q1401495 (t=4)
(M14×1.5) FDSwing arm & subframe (front)180±102Red glue10.9
Q1401280 (M12×1.25) FDSwing arm & subframe (rear)120±102Red glue10.9
2904013-S08Swing arm & subframe (rear)/2
2905011-S08Front shock upper assembly loca-
tion40±56
Q32014 (M14×1.5) FDFront shock lower assembly loca-
tion132±104Red glue10.9
Q1400830 (d2=13.5)F r o n t s t a b i l i z e r b a r m o u n t i n g
bracket37±44Red glue
Q32608Front stabilizer bar hanger rod16±24
Rear sus-
pension
Q151B12110TF2+Q402
(d2=35 t=5) FDTwist beam & vehicle body80±102Red glue10.9 grade
with guide
Q32012T13F2
(M12×1.25) FDRear shock absorber & twist beam120±102Red glue10 grade
Q341C10Rear shock absorber & vehicle
body64±54
Wheel3101014-K00Wheel nut (M12×1.25)110±1016
Q30612FD (M12×1.25)Wheel nut cone nut110±1016

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual94
Brake System
Brake System Components Arrangement Schematics.......95
Brake System Maintenance................................................96
Brake Pedal ........................................................................\
98
Parking Brake Control Mechanism Assembly...................102
Vacuum Booster with Brake Cylinder Assembly ...............103
Anti-lock Brake System ....................................................107
ABS General Problem Maintenance and
Areas of Importance .........................................................109
Steering Knuckle and Hub Brake Assembly .....................112
Front Brake Caliper ..........................................................118
Rear Brake .......................................................................124
Rear Support Axle ............................................................131

Downloaded from www.Manualslib.com manuals search engine 95Brake System
Brake System Components Arrangement Schematics
Brake pedal assembly
Vacuum booster with brake cylinder assembly
Left steering knuckle and hub brake assembly
Left parking brake cable assembly
Rear brake assembly RHRear brake drum
Rear wheel speed sensor assembly RH
Right parking brake cable assembly
ABS controller assembly
Right steering knuckle and hub brake assembly
Brake line assembly
Rear wheel speed
sensor assembly LH
Front wheel speed sensor assembly RHFront wheel speed sensor assembly LH
Rear brake assembly LH
Parking brake control mechanism assembly

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual96
Brake System Maintenance
Brake fluid inspection and replacement
Brake fluid directly influences the brake performance and the operating conditions and use life of the brake
system components. Brake fluid has very strong hygroscopic properties, and thus absorbs water easily,
which will then deteriorate the metal and rubber pieces. Polluted and deteriorated brake fluid or its mixture
would cause the brake fluid to boil and gasify, hence reduces braking efficiency. Therefore, pay attention to
the items below when filling or changing the brake fluid:
1. Containers used to hold brake fluid must be tightly closed and sealed
2. Brake fluid is poisonous and damaging to the paint. Hence if it gets on the vehicle surface, rub it
off at once
3. If water or other contaminates found in the brake fluid, and the brake master cylinder's piston seal
has been broken, then the brake fluid and all the rubber pieces inside the brake system including
the brake hose must be replaced
4. The correct brake fluid level in the reservoir must be between MAX and MIN. After the vehicle has
been driven for over 1000 km, check the brake fluid level in the reservoir. If the brake fluid level is
not up to regulation, more brake fluid should be added to the reservoir \
until it reaches MAX.
Hydraulic component inspection and system flushing
1. If the oil-based solvent gets into the hydraulic system, flush the whole system and change all of
the rubber pieces
2. Clean your hands before installing new rubber pieces or other components
3. Do not use regular solvents (kerosene, gas, etc.) when inspecting or cleaning hydraulic
components, instead use absorbing alcohol or brake fluid
4. After inspecting the components, drain the brake fluid from the system. Use new brake fluid to
flush the system. Afterwards, add new brake fluid to perform hydraulic system exhaust
5. Flushing completion sign: When the brake fluid flowing out of the dump valve is clear from any
contaminate.
Hydraulic pressure system drainage
If the brake fluid inside the whole hydraulic pressure system needs to be emptied, open all the bleed screws
with each connected to a hose, as to allow the brake fluid to flow into a container. Step on the pedal slowly
until only air flows out. During the whole procedure, make sure all the \
valves are open.
Hydraulic pressure system air bleeding
The hydraulic brake system must work under a vacuum environment. The air will cause spongy brake or
overall brake failure when it flows into the hydraulic system. It is extremely necessary to bleed system air
when performing any operation on the brake system or if any air inside t\
he brake system is suspected.
1. Air bleeding sequence
If air inside the brake master cylinder is suspected, first perform air bleeding.
(a) If numerous valves are equipped, air bleed each valve
(b) Another sequence principle is: Air bleed from the wheel brake furthest away from the master cylinder.
The air bleeding sequence for the LHD modules is: rear right wheel - left rear wheel - front right wheel
- front left wheel, Right rudder vehicles: rear right wheel - left rear wheel - front left wheel - front right
wheel.
2. Air bleeding method
(1) Manual air bleeding
Use the brake pedal or pump as the air bleeding power source. When the air bleed screws are open, vent the
brake fluid containing the bubbles from the system. Usually this is simultaneously done by two people. One
steps on the brake pedal and the other operates the air bleed screws. Important points to take note of when
performing the operation:
(a) Place the ignition switch to the off position and step on the pedal repeatedly to remove the
vacuum pressure or hydraulic pressure.
(b) Before and after air bleeding, add clean brake fluid into the master cylinder until it reaches
the correct (stated) level.
(c) Check the fluid level frequently to make sure that more than half of the reservoir's capacity is
available.
(d) Bleed screws should only be opened when the pedal is pressed down, and closed before the
pedal is loosened. Meanwhile, check if the vented brake fluid has bubble\
s inside.

Downloaded from www.Manualslib.com manuals search engine 97Brake System
(e) Make sure not to let the system valves block the air bleeding.
(f) When the brake fluid that flows out of the hose or connector has no bubbles, it means that the air
in the system has been exhausted. There is still air inside the system if the hose inserted into the
brake fluid is still bubbling when pressing down the pedal.
(g) Keep the free end of the hose immerged in the brake fluid to avoid air from flowing into the
system while opening the screw.
(h) While air bleeding, hammer the casting part of the vibrating brake device with a rubber hammer.
This is helpful for removing bubbles deep in the brake fluid.
(i) If air in the master cylinder is suspected, then perform air bleeding on the master cylinder first,
then the wheel cylinder or brake caliper.
(j) When releasing air from the tires, generally make sure to release air out of all the tires.
(k) To avoid the possibility of air reversely entering into the system, a bleeder hose that has a check
valve could be used.
(2) Pressure blow-off
Under the proper conditions, a pressure blow-off device can be used to release the air inside the brake system.
3. Air releasing sequence
(1) Master cylinder air bleeding
If the master cylinder does not have air bleed screws, perform the follo\
wing steps:
(a) Check the brake fluid level inside the master cylinder’s reservoir and add to it if necessary.
(b) Slowly take off the front brake pipe connector until the brake fluid flows out from the end.
(c) Reconnect the brake pipe, but do not tighten it.
(d) Slowly step down and press on the brake pedal, check if the brake fluid flowing out of the connector
contains bubbles.
(e) Tighten the pipe fitting.
(f) Have the assistant loosen the pedal, wait for 15 s.
(g) Repeat the above steps until all the air is released.
(h) Take off the rear brake pipe connector, repeat the above steps.
(2) Wheel brake air releasing
(a) Check the brake fluid level inside the master cylinder’s reservoir and add to it if necessary. During the
entire air releasing period, check repeatedly and add promptly.
(b) Connect one end of the bleeder hose with the bleed screw and the other end immerged in the brake fluid.
(c) Have the assistant step on the pedal several times, raise the pedal gradually until it cannot be stepped on
any more, then forcibly press on the pedal once more.
(d) Loosen the bleed screw, check if there are any bubbles in the brake fluid flowing out. Meanwhile, slowly
lower the pedal.
(e) When the brake pedal is close to the stroke end or the out flowing brake fluid does not have any bubbles,
tighten the bleed screw.
(f) Have the assistant release the pedal and wait for 15 s.
(g) Repeat the above steps until there are no bubbles in the flowing brake fluid when the screw is loosened.
(h) Release the air for all the wheels in turn using the same method.
(i) After releasing the air from the entire system, switch the ignition to the on position.
(j) Inspect the stroke of the brake pedal and its reaction.
(k) Inspect the lighting condition of the brake warning lamp, and repeatedly perform maintenance or air
bleeding if necessary.
( l ) Add brake fluid to the reservoir until the specified fluid level, air bleeding is complete.

Downloaded from www.Manualslib.com manuals search engine 103Brake System
Vacuum Booster with Brake Cylinder Assembly
Components
Areas of Importance
1. The vacuum booster with brake cylinder assembly is tightly connected with the brake pedal assembly on
the cowl panel using four nuts. It is also connected with the brake pedal push rod via an center pin and
lock pin. Thus before removal of the assembly, first loosen the rigid pipe fitting with an open-end wrench,
disconnect the lock pin and center pin using pliers, loosen the four nuts, and then proceed with the booster.
2. Tighten the lock nuts on brake master cylinder and vacuum booster according to the specified torque,
and coat with signal paint.
3. Dimensions between the rear housing head face and the adjusting fork hole center is adjusted to
standard before it leaves factory. Please do not adjust it again.
4. The vacuum booster valve rod on the vehicle must be in a free state.
5. The brake master cylinder's working agent is DOT4 brake fluid. It must not be mixed with any other
brake fluid.
Problems and symptomsCausesEliminating methods
M a s t e r c y l i n d e r ' s o i l r e s e r v o i r i s severely leakingThe master cylinder, slave cylinder, or hydraulic line is leaking.Eliminate the areas with leaks (in general, it may be that the pipe fitting's tightening torque is not enough, check one by one and tighten as necessary)
1. Vacuum booster not sufficient2. No boost when the engine is off3. May lead to unsteady engine idling when severe
1. Under non-operating conditions, the vacuum booster leaks air.2. Front and rear housing connection are not sealed.3. Booster's front and rear gas seal sealing failure.4. Vacuum check valve leaks.
1. Replace the front and back gas seal and control valve assembly.2. Replace the vacuum booster.3. Replace the vacuum check valve assembly.
Brake pedal is heavy with no boost effect1. Under non-operating conditions, the vacuum booster leaks air.2. Booster diaphragm worn and damaged.3. Control valve ring cup worn and damaged.
1. Replace the front, back gas seal and booster diaphragm.2. Replace the vacuum booster.3. Replace the control valve assembly.
Spongy pedal when braking1. There is air in the brake fluid.2. Cylinder or slave cylinder leaks oil.3. There is brake line seepage.
1. Eliminate the air in the system.2. Inspect the cylinder and sub-pump cup and replace with new parts.3. Inspect the pipeline and eliminate the seepage.
When continuously step on the brake pedal, the pedal will gradually change and expand till the highest extend.
Pump valve opening blockage.Brake fluid cleanliness is insufficient, please replace the brake fluid.
Troubleshooting
Oil cup cover
Oil cup body
Check valve
Check valve seat
Vacuum booster
Pad
Lock nut
Rod clevisCoupling nut
Rectangular sealing ringCylinder body
Fluid supply sealing ring