check engine SUZUKI SX4 2006 1.G Service Workshop Manual

Downloaded from www.Manualslib.com manuals search engine Front Suspension: 2B-20
12) Install exhaust No.1, No.2 and center pipe referring
to “Exhaust System Components in Section 1K”.
13) Install wheel and tighten nut to specified torque.
Tightening torque
Wheel nut: 85 N·m (8.5 kgf-m, 61.5 lb-ft)
14) Install air cleaner assembly referring to “Air Cleaner
Assembly Removal and Installation in Section 1D”.
15) Install hood referring to “Hood Removal and
Installation in Section 9J”.
16) Lower hoist and vehicle in unloaded condition,
tighten suspension control arm bolts to specified
torque.
Tightening torque
Suspension control arm bolt: 95 N·m (9.5 kgf-m,
69.0 lb-ft)
17) Connect negative (–) cable at battery.
18) Confirm front wheel alignment referring to “Front
Wheel Alignment Inspection and Adjustment”.
Front Suspension Frame CheckS6RW0D2206017
Inspect for cracks, deformation or damage.
If defective, replace.
Front Stabilizer Bar, Bushing and/or Joint
Check
S6RW0D2206018
Stabilizer Bar
Inspect for damage or deformation.
If defective, replace.Stabilizer Bushing
Inspect for damage, wear or deterioration.
If defective, replace.
Stabilizer Joint
1) Check for smooth rotation.
2) Check damages of ball stud.
3) Check damages of dust cover.
NOTE
Stabilizer joint (1) cannot be disassembled.

If there is any damage to either parts, stabilizer joint
must be replaced as a complete unit.
Front Suspension Fasteners CheckS6RW0D2206019
Check each bolt and nut fastening suspension parts for
tightness. Tighten loose one, if any, to specified torque,
referring to “Front Suspension Construction”.
I5RW0A220034-01
I5RW0A220035-01
I5RW0A220036-01
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I4RH01220007-01

Downloaded from www.Manualslib.com manuals search engine 2C-7 Rear Suspension:
6) Connect rear height sensor link (if equipped) to rear
axle referring to “Height Sensor Removal and
Installation (If Equipped) in Section 9B”.
7) Install exhaust center pipe and muffler.
8) After installing removed parts, bleed air from brake
system referring to “Air Bleeding of Brake System in
Section 4A”. And then adjust parking brake cable
referring to “Parking Brake Inspection and
Adjustment in Section 4D”.
9) Install wheel and tighten wheel nuts to specified
torque.
Tightening torque
Wheel nut: 85 N·m (8.5 kgf-m, 61.5 lb-ft)
10) Lower hoist and bounce vehicle up and down
several times to stabilize suspension.
11) Tightening shock absorber lower nuts and rear axle
bolts to specified torque.
NOTE
When tightening these nuts and bolts, be
sure that vehicle is not on hoist and in
unloaded condition.

Tightening torque
Rear shock absorber lower nut: 90 N·m (9.0 kgf-
m, 65.0 lb-ft)
Rear axle bolt: 73 N·m (7.3 kgf-m, 53.0 lb-ft)
12) Perform brake test (foot brake and parking brake).
13) Check each installed parts for brake fluid leakage.
Rear Axle and Coil Spring InspectionS6RW0D2306009
• Inspect for cracks, deformation or damage.
• Inspect bushing for damage, wear or breakage.
Replace any defective part.
Rear Axle Bush InspectionS6RW0D2306010
Inspect for cracks, deformation or damage. If necessary,
replace rear axle assembly.
Rear Wheel Disc, Bolt and Bearing InspectionS6RW0D2306011
• Check tightness of wheel nuts and, if necessary,
retighten to specified torque.
• Check wheel disc deformation, damage, crack and
etc.
Replace defective disc with new one.
• Check installation face inside of wheel disc for rust.
As rust affects adversely, remove it thoroughly.
Tightening torque
Wheel nut: 85 N·m (8.5 kgf-m, 61.5 lb-ft)
• Check wear of wheel bearings. When measuring
thrust play, apply a dial gauge to axle shaft center.
When the thrust play exceeds limit, replace bearing.
Rear wheel bearing thrust play
Limit: 0.1 mm (0.004 in.)
• Check noise and smooth rotation of wheel by rotating
wheel. If it is defective, replace bearing.
(a)I5RW0A230022-01
I3RM0A230049-01
I3RM0A230050-01

Downloaded from www.Manualslib.com manuals search engine 2C-9 Rear Suspension:
Installation
1) Insert wheel stud bolt (1) in hub hole. Rotate wheel
stud bolt slowly to assure that serrations are aligned
with those made by original bolt.
2) Install brake back plate, rear wheel hub and new rear
wheel hub bolts and then tighten rear wheel hub
mounting bolts to specified torque.
CAUTION!
Use new rear wheel hub mounting bolts.

Tightening torque
Rear wheel hub mounting bolt: 73 N·m (7.3 kgf-
m, 53.0 lb-ft)
3) For 4WD model, install rear drive shaft referring to
“Rear Drive Shaft Assembly Removal and
Installation in Section 3A”.
CAUTION!
Never reuse rear drive shaft nut.

Tightening torque
Drive shaft nut (a): 175 N·m (17.5 kgf-m, 127.0
lb-ft)4) Connect wheel speed sensor and tighten wheel
speed sensor bolt (2WD model) to specified torque.
Tightening torque
Wheel speed sensor bolt : 11 N·m (1.1 kgf-m, 8.0
lb-ft)
5) Connect brake pipe (1) to wheel cylinder and tighten
brake pipe flare nut to specified torque.
Tightening torque
Brake pipe flare nut (a): 16 N·m (1.6 kgf-m, 11.5
lb-ft)
6) Install brake drum referring to Step 1) and 2) of
“Installation” under “Rear Brake Drum Removal and
Installation in Section 4C”.
7) Fill reservoir with brake fluid and bleed brake
system. For bleeding operation, see “Air Bleeding of
Brake System in Section 4A”.
8) Install wheel and tighten wheel nuts to specified
torque.
Tightening torque
Wheel nut: 85 N·m (8.5 kgf-m, 61.5 lb-ft)
9) Upon completion of all jobs, depress brake pedal
with about 300 N (30 kg, 66 lbs) load at least 3 times
so as to obtain proper drum-to-shoe clearance.
Adjust parking brake cable. For adjustment, see
“Parking Brake Inspection and Adjustment in Section
4D”.
10) Check to ensure that brake drum is free from
dragging and proper braking is obtained.
11) Perform brake test (foot brake and parking brake).
12) Check each installed part for fluid leakage.
1
I5JB0A220017-01
1,(a)
1
I7RW01230012-01
(a)
1
I5RW0A230018-01

Downloaded from www.Manualslib.com manuals search engine 2D-1 Wheels and Tires:
Suspension
Wheels and Tires
General Description
Tires DescriptionS6RW0D2401001
The tire is of tubeless type. The tire is designed to
operate satisfactorily with loads up to the full rated load
capacity when inflated to the recommended inflation
pressures.
Correct tire pressures and driving habits have an
important influence on tire life. Heavy cornering,
excessively rapid acceleration, and unnecessary sharp
braking increase tire wear.
Tire Placard
The “Tire Placard” is located on the left or right door lock
pillar and should be referred to tire information.
The placard lists the maximum load, tire size and cold
tire pressure where applicable.
NOTE
Whether rim size and/or maximum load are
listed or not depends on regulations of each
country.

Inflation of Tires
The pressure recommended for any model is carefully
calculated to give a satisfactory ride, stability, steering,
tread wear, tire life and resistance to bruises.
Tire pressure, with tires cold, (after vehicle has set for 3
hours or more, or driven less than one mile) should be
checked monthly or before any extended trip. Set to the
specifications on the “Tire Placard” located on the left or
right door lock pillar.
It is normal for tire pressure to increase when the tires
become hot during driving.
Do not bleed or reduce tire pressure after driving.
Bleeding reduces the “Cold Inflation Pressure”.
Higher than recommended pressure can cause:
• Hard ride
• Tire bruising or carcass damage
• Rapid tread wear at center of tire
Unequal pressure on same axle can cause:
• Uneven braking
• Steering lead
• Reduced handling
• Swerve on accelerationLower than recommended pressure can cause:
• Tire squeal on turns
• Hard Steering
• Rapid and uneven wear on the edges of the tread
• Tire rim bruises and rupture
• Tire cord breakage
• High tire temperature
• Reduced handling
• High fuel consumption
Matched Tires and Wheels (Steel Type)
Tires and wheels are match mounted at the assembly
plant.
This means that the radially stiffest part of the tire, or
“high spot”, is matched to the smallest radius or “low
spot” of the wheel.
This is done to provide the smoothest possible ride.
The “high spot” of the tire is originally marked by paint
dot (1) on the outboard sidewall. This paint dot will
eventually wash off the tire.
The “low spot” of the wheel is originally marked by paint
dot (2) on the wheel rim-flange. Properly assembled, the
wheel rims’ paint dot should be aligned with the tires’
paint dot as shown in figure.
Whenever a tire is dismounted from its wheel, it should
be remounted so that the tire and wheel are matched. If
the tire’s paint dot cannot be located, a line should be
scribed on the tire and wheel before dismounting to
assure that it is remounted in the same position.
I2RH01240001-01

Downloaded from www.Manualslib.com manuals search engine Wheels and Tires: 2D-2
Replacement Tires
When replacement is necessary, the original equipment
type tire should be used. Refer to the Tire Placard.
Replacement tires should be of the same size, load
range and construction as those originally on the vehicle.
Use of any other size or type tire may affect ride,
handling, speedometer / odometer calibration, vehicle
ground clearance and tire or snow chain clearance to the
body and chassis.
It is recommended that new tires be installed in pairs on
the same axle. If necessary to replace only one tire, it
should be paired with the tire having the most tread, to
equalize braking traction.
WARNING!
Do not mix different types of tires on the
same vehicle such as radial, bias and bias-
belted tires except in emergencies, because
handling may be seriously affected and may
result in loss of control.

The metric term for tire inflation pressure is the kilo
pascal (kPa). Tire pressures is usually printed in both
kPa and kgf/cm
2 on the “Tire Placard”.
Metric tire gauges are available from tool suppliers.
The chart, shown in the table, converts commonly used
inflation pressures from kPa to kgf/cm
2 and psi.
Wheels DescriptionS6RW0D2401002
Wheel Maintenance
Wheel repairs that use welding, heating, or peening are
not approved. All damaged wheels should be replaced.
Replacement Wheels
Wheels must be replaced if they are bent, dented, have
excessive lateral or radial runout, air leak through welds,
have elongated bolt holes, if lug wheel bolts won’t stay
tight, or if they are heavily rusted. Wheels with greater
runout than shown in the following may cause
objectional vibrations.
Replacement wheels must be equivalent to the original
equipment wheels in load capacity, diameter, rim with
offset and mounting configuration. A wheel of improper
size or type may affect wheel and bearing life, brake
cooling, speedometer / odometer calibration, vehicle
ground clearance and tire clearance to body and
chassis.How to Measure Wheel Runout
To measure the wheel runout, it is necessary to use an
accurate dial indicator. The tire may be on or off the
wheel. The wheel should be installed to the wheel
balancer of the like for proper measurement.
Take measurements of both lateral runout “a” and radial
runout “b” at both inside and outside of the rim flange.
With the dial indicator set in place securely, turn the
wheel one full revolution slowly and record every reading
of the indicator.
When the measured runout exceeds the specification
and correction by the balancer adjustment is impossible,
replace the wheel. If the reading is affected by welding,
paint or scratch, it should be ignored.
Lateral runout limit “a”
Aluminum wheel: 0.3 mm (0.012 in.)
Steel wheel: 0.9 mm (0.035 in.)
Radial runout limit “b”
Aluminum wheel: 0.3 mm (0.012 in.)
Steel wheel: 0.7 mm (0.028 in.)
Metric Lug Nuts and Wheel Studs
All models use metric lug nuts and wheel studs.
Metric lug nuts and wheel studs size
M12 x 1.25
If a broken stud is found, see “Front Wheel Hub, Disc,
Bolt and Bearing Check in Section 2B”, “Front Wheel
Hub, Steering Knuckle and Wheel Bearing Removal and
Installation in Section 2B”, “Rear Wheel Hub Assembly
Removal and Installation in Section 2C”. kPa kgf/cm
2psi
Conversion: 1 psi =
6.895 kPa 1 kgf/cm
2 =
98.066 kPa160 1.6 23
180 1.8 26
200 2.0 29
220 2.2 32
240 2.4 35
260 2.6 38
280 2.8 41
300 3.0 44
320 3.2 47
340 3.4 50I4RS0A240001-01
I2RH01240003-01

Downloaded from www.Manualslib.com manuals search engine 2D-3 Wheels and Tires:
Irregular and/or Premature Wear DescriptionS6RW0D2401003
Irregular and premature wear has many causes. Some
of them are as follows: incorrect inflation pressures, lack
of tire rotation, driving habits, improper alignment.
If the following conditions are noted, tire rotation is
necessary:
• Front tire wear is different from rear’s.
• Uneven wear exists across tread of any tires.
• Both sides of front tire wears are not even.
• Both sides of rear tire wears are not even.
• There is cupping, flat spotting, etc.
A wheel alignment check is necessary if following
conditions are noted:
• Both sides of front tire wears are not even.
• Wear is uneven across the tread of any front tire.
• Front tire treads have scuffed appearance with
“feather” edges on one side of tread ribs or blocks.
Wear Indicators DescriptionS6RW0D2401004
Original equipment tires have built-in tread wear
indicators (1) to show when they need replacement.
These indicators (1) will appear as 12 mm (0.47 in.) wide
bands when the tire tread depth becomes 1.6 mm (0.063
in.).
When the indicators (1) appear in 3 or more grooves at 6
locations, tire replacement is recommended.
Radial Tire Waddle DescriptionS6RW0D2401005
Waddle is side to side movement at the front and/or rear
of the vehicle. It is caused by the steel belt not being
straight within the tire. It is most noticeable at a low
speed, 8 to 48 kph (5 to 30 mph).
It is possible to locate the faulty tire by road testing the
vehicle. If it is on the rear, the rear end of the vehicle
shakes from side to side or “waddles”. To the driver in
the seat, it feels as though someone is pushing on the
side of vehicle.
If the faulty tire is on the front, waddling is more visual.
The front sheet metal appears to be moving back and
forth and the driver feels as though he is at the pivot
point in vehicle.
Waddle can be quickly diagnosed by using Tire Problem
Detector (TPD) and following the equipment
manufacture’s recommendations.
If TPD is not available, an alternative method of
substituting known-good tire / wheel assemblies can be
used as follows, although it takes a longer time.
1) Ride vehicle to determine whether the front or rear
waddles.
2) Install tires and wheels that are known to be good
(on similar vehicle) in place of those on waddling end
of vehicle. If waddling end cannot be identified,
substitute rear ones.
3) Road test again. If improvement is noted, reinstall
originals one at a time till waddle causal tire is found.
If no improvement is noted, install known-good tires
in place of all four. Then reinstall originals in the
same manner.
[A]: Hard Cornering, under inflation or lack of tire rotation
[B]: Incorrect wheel alignment, tire construction not uniform or wheel
heavy acceleration
I3RH0A240002-01
I2RH01240005-01
I2RH01240006-01

Downloaded from www.Manualslib.com manuals search engine Wheels and Tires: 2D-4
Equipment manufacture’s recommendations
Radial Tire Lead / Pull DescriptionS6RW0D2401006
“Lead / Pull” is the deviation of the vehicle from a straight
path on a level road even with no pressure on the
steering wheel.
Lead is usually caused by the following conditions.
• Improper tire and wheel alignment.
• Uneven brake assemblies.
• Tire construction.
The way in which a tire is built can produce lead in a
vehicle. An example of this is placement of the belt. Off
center belts on radial tires can cause the tire to develop
a side force while rolling straight down the road. If one
side of the tire has a little larger diameter than the other,
the tire will tend to roll to one side. This will develop a
side force which can produce vehicle lead.
The procedure in the figure (Lead Diagnosis) should be
used to make sure that wheel alignment is not mistaken
for tire lead.
• Part of the lead diagnosis procedure is different from
the proper tire rotation pattern currently in the owner
and service manuals. If a medium to high mileage tire
is moved to the other side of the vehicle, be sure to
check that ride roughness has not developed
• Rear tires will not cause lead.
Balancing Wheels DescriptionS6RW0D2401007
There are two types of wheel and tire balance: static and
dynamic. Static balance, as shown in figure, is the equal
distribution of weight around the wheel. Wheels that are
statically unbalanced cause a bouncing action called
tramp. This condition will eventually cause uneven tire
wear.Dynamic balance, as shown in figure, is the equal
distribution of weight on each side of the wheel
centerline so that when the tire spins there is no
tendency for the assembly to move from side to side.
Wheels that are dynamically unbalanced may cause
shimmy.
Inflate tires to recommended pressure
Road test vehicle on level unrouned road in both directions
Switch front tires side to side and road test again
Lead corrected,
if roughness results, replace tiresLeads in same directionLeads reverses direction
Put tires back in original position
and check alignmentInstall a known-good tire on one front side
Lead remains install a known-good
tire in place of other front tire
Lead remains known-good tires are not goodLead corrected replace tire
Lead corrected replace tire
I2RH01240007-01
1. Heavy spot wheel tramp [A]: Before correction
2. Balance weights addition point [B]: Corrective weights
3. C/L of spindle
1. Heavy spot wheel shimmy [C]: Before correction
2. Balance weights addition point [D]: Corrective weights
3. C/L of spindle
I2RH01240008-01
I2RH01240009-01

Downloaded from www.Manualslib.com manuals search engine 2D-7 Wheels and Tires:
Specifications
Wheels and Tires SpecificationsS6RW0D2407001
Tire size (Standard)
: 205/60 R16 92H
Wheel size (Standard)
: 16 x 6J (for 205/60 R16)
Tightening torque
Wheel nut: 85 N·m (8.5 kgf-m, 61.5 lb-ft)
NOTE
• Tire inflation pressure should be checked when tires are cool.
• Specified tire inflation pressure should be found on tire placard or in owner’s manual which came
with the vehicle.

Tightening Torque SpecificationsS6RW0D2407002
Reference:
For the tightening torque of fastener not specified in this section, refer to “Fasteners Information in Section 0A”. Fastening partTightening torque
Note
N⋅mkgf-mlb-ft
Wheel nut 85 8.5 61.5) / )

Downloaded from www.Manualslib.com manuals search engine Table of Contents 3- i
3
Section 3
CONTENTS
Driveline / Axle
Precautions ................................................. 3-1
Precautions............................................................. 3-1
Precautions on Driveline / Axle ............................. 3-1
Drive Shaft / Axle ..................................... 3A-1
Front ......................................................................... 3A-1
General Description ............................................. 3A-1
Front Drive Shaft Construction ............................ 3A-1
Component Location ........................................... 3A-1
Front Drive Shaft Assembly Components
Location ............................................................ 3A-1
Diagnostic Information and Procedures ............ 3A-2
Front Drive Shaft Symptom Diagnosis ................ 3A-2
Repair Instructions .............................................. 3A-2
Front Drive Shaft Components ........................... 3A-2
Front Drive Shaft Assembly On-Vehicle
Inspection.......................................................... 3A-3
Front Drive Shaft Assembly Removal and
Installation ......................................................... 3A-3
Front Drive Shaft Disassembly and
Reassembly ...................................................... 3A-4
Center Shaft and Center Bearing Support
Disassembly and Reassembly (If Equipped) .. 3A-12
Specifications..................................................... 3A-13
Tightening Torque Specifications ...................... 3A-13
Special Tools and Equipment ........................... 3A-14
Recommended Service Material ....................... 3A-14
Special Tool ...................................................... 3A-14
Rear ........................................................................ 3A-15
General Description ........................................... 3A-15
Rear Drive Shaft Construction .......................... 3A-15
Repair Instructions ............................................ 3A-15
Rear Drive Shaft Components .......................... 3A-15
Rear Drive Shaft Assembly Removal and
Installation ....................................................... 3A-16
Rear Drive Shaft Disassembly and
Reassembly .................................................... 3A-16
Specifications..................................................... 3A-18
Tightening Torque Specifications ...................... 3A-18
Special Tools and Equipment ........................... 3A-18
Recommended Service Material ....................... 3A-18
Special Tool ...................................................... 3A-18
Differential ................................................ 3B-1
Precautions...........................................................3B-1
Precaution for Rear Differential Oil Leakage....... 3B-1
Precautions in Diagnosing Trouble ..................... 3B-1
General Description .............................................3B-2
Rear Differential Description ............................... 3B-2
Coupling Description ........................................... 3B-2
4WD Control System Components ..................... 3B-3
4WD Control System Description........................ 3B-4
Function of 4WD Control System Component .... 3B-4
4WD Control System Wiring Circuit Diagram...... 3B-5
Terminal Arrangement of 4WD Control
Module .............................................................. 3B-5
Input / Output Signal Table of 4WD Control
Module .............................................................. 3B-6
On-Board Diagnostic System Description ........... 3B-6
CAN Communication System Description........... 3B-7
Diagnostic Information and Procedures ............3B-8
4WD Control System Check ............................... 3B-8
4WD Position Indicator Operation Check.......... 3B-10
4WD Control System Operation Inspection ...... 3B-10
Visual Inspection ............................................... 3B-11
DTC Check........................................................ 3B-11
DTC Clearance ................................................. 3B-11
DTC Table ......................................................... 3B-12
Fail-Safe Table .................................................. 3B-12
Scan Tool Data ................................................. 3B-13
Rear Differential Symptom Diagnosis ............... 3B-14
4WD Control Symptom Diagnosis..................... 3B-14
4WD Position Indicator Does Not Come ON at
Ignition Switch ON but Engine Stops .............. 3B-15
4WD Position Indicator Remains ON Steady
at Ignition Switch ON....................................... 3B-16
DTC C1240: 4WD Control Module Power
Supply Circuit Malfunction............................... 3B-17
DTC C1243: Internal Circuit Malfunction of
4WD Control Module ....................................... 3B-18
DTC C1250: Coupling Air Temperature
Sensor Circuit Open ........................................ 3B-19
DTC C1251: Coupling Air Temperature
Sensor Circuit Short ........................................ 3B-21
DTC C1252: Coupling Assembly Circuit Open .. 3B-22
DTC C1253: Coupling Assembly Circuit Short .. 3B-24
DTC C1254: 2WD/4WD Switch Malfunction ..... 3B-25
DTC U0073: Control Module Communication
Bus Off ............................................................ 3B-27

Downloaded from www.Manualslib.com manuals search engine 3-ii Table of Contents
DTC U0100: Lost Communication with ECM .... 3B-27
DTC U0121: Lost Communication with ABS /
ESP® Control Module..................................... 3B-27
DTC U0155: Lost Communication with
Instrument Panel Cluster (IPC) Control
Module ............................................................ 3B-27
Inspection of 4WD Control Module and Its
Circuits ............................................................ 3B-27
Repair Instructions ............................................3B-30
Rear Differential Oil Level Check ...................... 3B-30
Rear Differential Oil Change ............................. 3B-30
2WD/4WD Switch Removal and Installation ..... 3B-31
2WD/4WD Switch Inspection ............................ 3B-31
4WD Control Module Removal and
Installation ....................................................... 3B-31
Coupling Air Temperature Sensor Removal
and Installation ................................................ 3B-31
Coupling Air Temperature Sensor Inspection ... 3B-32
Coupling Assembly Inspection .......................... 3B-32
Rear Differential Mountings Components ......... 3B-33
Front Mounting Arm and/or Rear Mounting
Bracket Assembly Removal and Installation ... 3B-34
Rear Mounting Bracket Assembly
Disassembly and Reassembly ........................ 3B-34
Rear Differential Dismounting and
Remounting ..................................................... 3B-34
Rear Differential Components ........................... 3B-35
Rear Differential Disassembly and
Reassembly .................................................... 3B-36
Rear Differential Inspection ............................... 3B-47
Specifications .....................................................3B-48
Tightening Torque Specifications ...................... 3B-48
Special Tools and Equipment ...........................3B-48
Recommended Service Material ....................... 3B-48
Special Tool ...................................................... 3B-49
Transfer .................................................... 3C-1
General Description ............................................. 3C-1
Transfer Description ............................................ 3C-1Diagnostic Information and Procedures ............3C-1
Transfer Symptom Diagnosis..............................3C-1
Repair Instructions ..............................................3C-2
Transfer Oil Level Check.....................................3C-2
Transfer Oil Change ............................................3C-2
Transfer Dismounting and Remounting ..............3C-3
Transfer Assembly Components .........................3C-4
Transfer Assembly Disassembly and
Reassembly ......................................................3C-5
Reduction Drive Gear Assembly Disassembly
and Reassembly ...............................................3C-7
Reduction Driven Gear Assembly
Disassembly and Reassembly ..........................3C-8
Transfer Right Case and Left Case
Disassembly and Reassembly ..........................3C-9
Transfer Output Retainer Assembly
Disassembly and Reassembly ........................3C-10
Transfer Assembly Inspection ...........................3C-14
Bevel Gear Tooth Contact Inspection ...............3C-14
Specifications .....................................................3C-16
Tightening Torque Specifications ......................3C-16
Special Tools and Equipment ...........................3C-17
Recommended Service Material .......................3C-17
Special Tool ......................................................3C-17
Propeller Shafts ....................................... 3D-1
Precautions ...........................................................3D-1
Propeller Shaft Caution .......................................3D-1
General Description .............................................3D-1
Propeller Shaft Construction ...............................3D-1
Diagnostic Information and Procedures ............3D-1
Propeller Shaft Symptom Diagnosis ...................3D-1
Repair Instructions ..............................................3D-2
Propeller Shaft Joint Check.................................3D-2
Propeller Shaft Assembly Removal and
Installation .........................................................3D-2
Propeller Shaft Inspection ...................................3D-2
Specifications .......................................................3D-3
Tightening Torque Specifications ........................3D-3