1987 NISSAN PULSAR clutch

CONTENTS
INTRODUCTION........................................ 5
VEHICLE IDENTIFICATION AND
GENERAL SPECIFICATIONS................. 7
GENERAL INFORMATION...................... 8
Tools and equipment ............................................. 8 Safety .................................................................... 10
General repair procedures..................................... 11
LUBRICATION AND MAINTENANCE... 14
Specifications......................................................... 14
How to grease and oil change .............................. 14
Service schedule ................................................... 17
WHEELS AND TYRES............................. 21
Specifications......................................................... 21
How to change a road wheel ................................ 21
Tire wear troubl e shooting ..................................... 22
Care and main tenance ......................................... 23
ENGINE TUNE-UP.................................... 25
Tune-up specifications ........................................... 25
Tune-up operat ions............................................... 25
ROADSIDE TROUBLE SHOOTING....... 32
Trouble shoot ing.................................................... 32
To check ignition and el ectrical system ................ 33
To check fuel system ............................................ 34
To check mechani cal system ................................ 35
ENGINE....................................................... 37
Specifications ........................................................ 37
Engine mechanical tr ouble shooting ...................... 39
Description ............................................................ 41
Engine and transaxle assembly ........................... 42
Manifolds ............................................................... 44 Camshaft, rocker arms and tappets..................... 48
Cylinder head........................................................ 50
Engine sump and oil pum p pickup pipe................ 54
Oil pump ............................................................... 55
Pistons, connecting rods and cylinder bores ........ 57
Crankshaft and bearings ...................................... 60
Flywheel /drive plate............................................... 63
Engine mountings.................................................. 64
Exhaust system .................................................... 66
COOLING AND HEATING SYSTEMS.... 68
Specifications ........................................................ 68 Cooling system trouble shooting ........................... 68
Heater and air conditioner trouble shooting ......... 69 Description ............................................................ 70
Radiator ................................................................ 70
Cooling fan ............................................................ 73
Thermost at............................................................ 75
Thermostat housing .............................................. 76
Water pump .......................................................... 76
Welch plugs .......................................................... 76
Heater unit, water valv e and controls ................... 77
Blower fan ............................................................. 80
Air condition ing ..................................................... 80
FUEL AND ENGINE MANAGEMENT ... 82
Specifications ........................................................ 82 Fuel and engine management trouble shooting ... 82
Description ............................................................ 84
Service precautions and procedures
..................... 86
System diagnosis and adjustments ...................... 89
Fuel supply components ....................................... 92
Air flow components .............................................. 98
Electronic components .......................................... 104
EMISSION CONTROL............................. 117
Introduction ........................................................... 117
Crankcase ventilati on system............................... 117
Evaporate control system..................................... 117
Air preheat system — 1.6 liter engines ................ 119
Exhaust control system ........................................ 120
CLUTCH...................................................... 121
Specifications........................................................ 121
Clutch trouble shooting......................................... 121
Description ............................................................ 122
Clutch unit and release mechanism..................... 123
Clutch pedal ......................................................... 124
Clutch c able.......................................................... 124
Clutch adjustments ............................................... 125
MANUAL TRANSAXLE AND
DRIVE SHAFTS......................................... 126
Specifications ........................................................ 126
Manual transaxle and drive shaft trouble shooting 126
Description............................................................ 128
Transaxle assembly.............................................. 129
Differential and final drive assembly ..................... 135
Gear lever assembly ............................................ 136
Drive shafts .......................................................... 137
AUTOMATIC TRANSAXLE....................... 140
Specifications........................................................ 140
Automatic transaxle trouble shooting.................... 140
Description............................................................ 141
Transaxle fluid ...................................................... 141
Brake band........................................................... 142
Kickdown cable .................................................... 142
Transaxle select or linkage ................................... 142
Neutral safety switch ............................................ 142
Transaxle assembly .............................................. 143
STEERING................................................. 145
PART 1. STEERING TROUBLE SHOOTING....145
Faults, causes and remedies................................ 145
PART 2. MANUA L STEERING......................... 147
Specifications ........................................................ 147
Description............................................................ 147
Steering wheel ...................................................... 147
Steering column.................................................... 148
Steering gear assembly ....................................... 149
PART 3. POWE R STEERING .......................... 152
Specifications........................................................ 152
Description............................................................ 152
In car adjustments, checks and minor repairs ..... 152
Steering wheel ...................................................... 153
Steering column.................................................... 153 Power steering pump ........................................... 153
Power steering gear assembly............................. 154

10 General Information

If tools are to be stored for any length of time, it is
good policy to wipe them with an oily cloth.

Bladed screwdrivers should be checked for dam-
age to the tip. If necessary, the tip can be returned to
its original profile by careful grinding. Do not grind
screwdriver tips to a sharp point.

Hammer heads should be secure on their handles
and should be regularly checked for cracking or other
damage.

Chisels and punches should be checked for dam-
age or 'mushrooming' of the head. Any faults should
be rectified by grinding.

Hydraulic jacks should be regularly checked for
fluid leaks. Chassis stands and car ramps should be
checked for damage and cracks. Any equipment that
is suspect should not be used.

STORES
For routine maintenance, stores of automotive
oils, greases and additives should be kept on hand.
The following is a suggested list.

Engine oil.
Brake fluid.
Manual transmission or automatic transmission
oil — automatic transmission oil is also used in
the power steering system.
Rear axle oil.
Cooling system corrosion inhibitor/antifreeze.
Chassis grease.
High melting point grease, for hub bearings etc.
Penetrating oil or spray.
Kerosene or similar cleaning solvent.
Methylated spirits.

Oils and greases are available in handy pack size for
do-it-yourself lube jobs.
2. SAFETY
PERSONAL SAFETY
Safety when working on a motor vehicle is basical-
ly a matter of commonsense. Some safety precautions
to prevent personal in juries are as follows.

Raising a Vehicle
Always jack a vehicle on firm, level ground and at
the specified jacking points . Ensure that the wheels
remaining on the ground are fully chocked.

After raising the vehicle, place chassis stands
underneath and allow the weight of the vehicle to rest
on them. Do not use bricks, blocks of wood or similar
material.

NOTE: Never work under a vehicle which is
only supported by a jack.

Electrical System
Always disconnect the negative battery terminal
when working on any electrical components. Avoid
wearing metal watches, rings and chains which may
short across live terminals.

As battery gases are explosive, keep naked flames
and sparks clear of the work area. When connecting
and disconnecting jumper leads, use extreme caution
to avoid sparking.

Electronic Ignition Systems
Electronic ignition systems produce dangerous
high tension voltages in bo th the primary and second-
ary circuits which can be fatal. Exercise extreme
caution when working on or near any ignition system
components. Do not disconnect high tension leads
while the engine is running.

Work Area
Do not run the engine in a confined space. Ensure
that the work area is adequately ventilated.

Spilt oil or water should be cleaned immediately
to avoid the possibility of slipping.

Fuel System
Always disconnect the negative battery terminal
when working on any fuel components. Do not smoke.
Keep naked flames and sparks clear of the work area.

Do not siphon fuel using the mouth. Use a hand
pump or suitable siphon.

Do not attempt to repair a fuel tank by welding it.
This is an extremely hazardous procedure and should
be entrusted to a specialist.

Cooling System
To avoid scalding, use caution when releasing the
radiator cap on an engine wh ich is at normal operating
temperature. Turn the cap anti-clockwise to the first
stop and allow any pressure in the system to release.
When the pressure is released, remove the cap from
the radiator.

Brakes
As asbestos is used in some brake lining material,
avoid inhaling brake dust. Do not use compressed air
to remove the dust. Gentle brushing with a small
brush or using a vacuum cleaner with a hose attach-
ment are the safest methods of cleaning the brakes.
The above precautions also apply to the clutch plate
lining material.

Roadside Trouble Shooting 35


View showing the location of the fuel pump fuse and the EGI and fuel pump relays.
switch. When starting the engine, the fuel
pump will not operate until the oil pressure
is sufficient to extinguish the oil pressure
warning lamp. Therefore it will be necessary
to operate the starter motor for a longer
period than usual to start the engine.

(3) If the fuel pump cannot be felt operating,
check the fuel pump fuse located in the fuse panel
adjacent to the steering column.

If the fuel pump fuse is serviceable, refer to the
Fuel and Engine Management section for detailed
tests on the fuel pump.

(4) Check that all fuel hose connections are
secure.
(5) Remove the spark plugs and check for petrol
saturation of the electrodes which indicates flooding.
Thoroughly clean and dry the spark plugs before
replacement. Fully depress the throttle pedal and turn the
ignition switch to the start position. If the engine does
not start, proceed as follows.

Check that the MAP sensor hose is not blocked or split
and ensure that all electrical connections are clean and
secure.
If flooding persists, refer to the Fuel and Engine
Management section.

(6) Check that all EFI electrical wiring connec-
tors are clean and secure.
(7) Check that the MAP sensor vacuum hose is
securely connected at each end and is not split or
blocked.
4. TO CHECK MECHANICAL SYSTEM
The following check procedure assumes that the
starter motor will rotate the engine. If not, on manual
transaxle models, depress the clutch pedal to disen-
gage the engine from the tr ansaxle in case the fault lies
within the transaxle.

If the starter motor will not rotate the engine, it
will be necessary to remove the starter motor and
attempt to turn the engine over manually. This will
establish whether the fault lies with the starter motor,
which could be jammed or defective, or with the
engine, which could be seized or have broken internal
components such as connecting rods, pistons and
crankshafts etc.

If the starter motor is not at fault and the engine
will not rotate manually, refer to the Engine Mechan-
ical Trouble Shooting heading in the Engine section.

It should be noted that the only way that cylinder
compression can be accurately tested is with a com-
pression gauge. The method described in the following
procedure is only intended to give a rough indication
when checking for causes of engine breakdown,

(I) When the engine is cool, check for loss of
coolant from the cooling system.

If coolant loss is evident, check carefully for any
indication of external leakage. Remove the engine oil
dipstick and check for wate r contamination (emulsi-
fication) of the oil. When oil mixes with water it will
Ensure that all fuel connections are securely tightened.

38 Engine
*Piston skirt to cylinder bore clearance:
1.6 liter .....................................0. 020-0.040 mm
1.8 liter .....................................0. 010-0.030 mm
Gudgeon pin length:
1.6 liter ...................................................... 53 mm
1.8 liter .................................................. 61.5 mm
Gudgeon pin diameter.................20.990-20.995 mm
Gudgeon pin clearance in piston:
1.6 liter .....................................0. 010-0.020 mm
1.8 liter ..................................0. 0055-0.0115 mm
Gudgeon pin offset in piston:
1.6 liter......... 0.35-0.65 mm towards thrust side
1.8 liter................... 0.8 mm towards thrust side
*Measured 9 mm from the bottom of the piston skirt
for 1.6 liter models and 6 mm from the bottom of the
piston skirt for 1.8 liter models.
PISTON RINGS
Rings per piston:
Compression .......................................................2
Oil contro l .......................................................... 1
End gap:
Compression ................................ 0.30-0.50 mm
Oil control —
1.6 liter ......................................... 0.33-1.10 mm
1.8 liter ......................................... 0.40-1.40 mm
CONNECTING RODS AND BEARINGS
Connecting rod side clearance............ 0.07-0.24 mm
Maximum connecting rod weight variation..8 grams
Crankpin bearing oil clearance ....... 0. 019-0.063 mm

CRANKSHAFT AND MAIN BEARINGS
Number of bearings .................................................. 5
End float taken at ...................... No. 3 main bearing
End float .......................................... 0.070-0.302 mm
Bend limit ...................................................0.03 mm
Main bearing oil clearance .............0. 015-0.040 mm
Main bearing journal diameter.. .57.982-57.995 mm
Crankpin diameter .......................48.971-48.987 mm

FLYWHEEL
Ring gear run out limit.................................. 0.3 mm
Clutch face regrind limit .............................. 0.3 mm
CAMSHAFT
Drive ...................................................... Toothed belt
End float .............................................. 0.04-0.14 mm
Bend limit ................................................... 0.03 mm
Bearings ...........................................Direct in housing
Journal diameter:
Standard —

No. 1 ..................................... 42. 455-42.470 mm
No. 2 ..................................... 42. 705-42.720 mm
No. 3 ..................................... 42.955-42.970 mm
No. 4 ..................................... 43.205-43.220 mm
No. 5 ..................................... 43.455-43.470 mm
Undersize —
No. 1 .....................................42.355-42.370 mm
No. 2 ......................................42.605-42.620 mm
No. 3 .....................................42.855-42.880 mm
No. 4 ......................................43.105-43.120 mm
No. 5 .....................................43. 355-43.370 mm
*An undersize camshaft can be identified by a violet
flash between the inlet and exhaust lobes of No. 2
cylinder.

Housing diameter;
Standard —

No. 1 .....................................42. 500-42.525 mm
No. 2 .....................................42.750-42.775 mm
No. 3 .....................................43.000-43.025 mm
No. 4 ......................................43.250-43.275 mm
No. 5 .....................................43.500-43.525 mm
*Undersize —
No. 1 .....................................42.400-42.425 mm
No. 2 .....................................42.650-42.675 mm
No. 3 .....................................42.900-42.925 mm
No. 4 ......................................43.150-43.175 mm
No. 5 .....................................43.400-43.425 mm
*An undersize camshaft housing can be identified by
a violet flash on the centre camshaft bearing support.

LUBRICATION
Oil pump type .......................................Involute gear
Filter type................................... Full flow disposable
Oil pressure at 4 000 rpm .....................480-620 kPa
Rotor assembly end float .................. 0.03-0. 010 mm
Rotor teeth backlash ......................... 0.010-0.20 mm
TORQUE WRENCH SETTINGS
*Cylinder head bolts:
Initial torque ............................................. 25 Nm
1st stage ......................................... + 60 degrees
2nd stage ........................................ + 60 degrees
3rd stage......................................... + 60 degrees
4th stage, engine at operating
temperature .............................. + 30-50 degrees
Exhaust manifold nuts .................................... 22 Nm
Exhaust manifold flange nuts ......................... 22 Nm
Inlet manifold nuts.......................................... 22 Nm
Throttle body to inlet manifold nuts ..............12 Nm
Camshaft liming gear bolt ...............................45 Nm
Camshaft retainin g plate bolts ......................... 7 Nm
Camshaft cover bolts......................................... 8 Nm
Thermostat cover bolts ....................................15 Nm
*Main bearing bolts..................60 Nm + 45 degrees
Connecting rod bearing
cap nuts ................................... 35 Nm + 45 degrees
* Crankshaft timing
gear bolt.................................. 145 Nm + 35 degrees
*Flywheel bolts
(microencapsulated) ................ 60 Nm + 30 degrees
*Drive plate bolts (microencapsulated)........... 60 Nm
Water pump bolts............................................ 25 Nm

Engine 41

DROP IN OIL PRESSURE
(1) Oil level low in the sump: Check and replen-
ish the oil to the full mark on the dipstick.
(2) Thin or diluted oil: Change to the correct oil
grade and rectify the source of dilution. (3) Oil pump relief valve stuck or spring broken;
Free up the relief valve or renew the broken relief
valve spring. (4) Excessive bearing clearance: Renew the bear-
ing shells or recondition the crankshaft journals as
necessary.
(5) Excessive wear of the oil pump components:
Renew or recondition the oil pump.
NOTE: If the vehicle is not equipped with an
oil pressure gauge re move the oil sender unit
and connect a pressure gauge into the oil
gallery. Check the oil pressure with the
engine cold and hot. If the oil pump or relief
valve are faulty. low pressure will be indi-
cated with the engine both hot and cold.
However, if the bearings are at fault a fairly
high oil pressure will be indicated when the
engine is cold, but a marked drop in pressure
will occur when the engine is hot.

ENGINE WILL NOT ROTATE
(1) Starter motor drive jammed: Remove the
starter motor. Check and renew the damaged drive
and/or flywheel ring gear.
(2) Engine overheated an d seized: Remove and
dismantle the engine. Check and renew any damaged
components. See the following note.
(3) Water in the cylinder due to a blown head
gasket or cracked cylinder block or head: Remove the
cylinder head. If the gasket is blown, check for
cylinder block and head distortion and reface if
necessary. Renew the cylinder head and/or cylinder
block if cracked.
(4) Broken crankshaft, connecting rod. piston
etc. due to overheating, fatigue etc: Remove and
dismantle the engine. Examine and renew any com-
ponents as necessary. (5) Valve head broken off due to overheating,
fatigue etc: Remove the cylinder head and check the
head, piston and cylinder bore for damage. Repair or
renew as necessary.
NOTE: Invariably when an engine seizes
because of overheating due to lack of oil
and/or water, damage is done to the bear-
ings, pistons etc. Although there may be
instances where an engine will start and run
after it has cooled down and the oil and
water have been replenished, it will usually
be found that oil consumption increases, oil
pressure decreases and the engine will be
noisier, depending on the degree of damage.

When a cylinder head gasket blows allow-
ing water into the cylinders, or compression
loss between the cylinders, it is essential to
check the gasket faces on the cylinder block
and head for distortion. Sufficient water can
enter a cylinder because of a blown head
gasket, cracked cylinder or head to prevent
an engine from rotating.

This is normally preceded by difficult
starting, misfiring, excessive steam from the
exhaust and loss of water from the radiator.

Frequent jamming of the starter motor
drive with the flywheel ring gear can be due
to a bent starter armature shaft or damaged
teeth on the drive and/or ring gear. With the
starter motor removed, the flywheel ring
gear teeth can be examined through the
starter motor mounting aperture. Renewal
of the ring gear requires removal of the
transaxle, clutch and flywheel on manual
transaxle models and the removal of the
transaxle and drive plate on automatic
transaxle models. To check for a bent arma-
ture shaft, rotate the shaft by hand while
holding the end in close proximity to a fixed
object.

2. DESCRIPTION
The 1.6 and 1.8 liter engines are basically identi-
cal in design.

Both engines share the same stroke. The 1.8 liter
engine has a larger bore thus giving it increased
capacity.

The engine is a four cylinder, inline, overhead
camshaft design transversely mounted in the front of
the vehicle.

The camshaft runs in five integral support bear-
ings in the camshaft housing which in turn is mounted
directly on to the cylinder head and retained by the
cylinder head bolts.

Camshaft end float is controlled by a retaining
plate engaged in a groove machined in the rear
camshaft journal. The camshaft is driven by the
crankshaft timing gear vi a a reinforced rubber belt.

The aluminum cross flow cylinder head houses
the tappets, rocker arms a nd valve assemblies. An oil
pressure relief valve is installed to the cylinder head to
maintain oil pressure to the hydraulic tappets at a
predetermined setting.

The exhaust valve springs are equipped with
rotators mounted below the valve springs which rotate
the exhaust valve assemblies. The rocker arms pivot
on hydraulic tappet assemblies and locate in notched
lash pads mounted on the valve stems. The camshaft
lobes bear directly onto the rocker arms and due to
the characteristics of the hydraulic tappet assemblies,
no provision is made for tappet clearance adjustment.

42 Engine
The cylinder block is a cast iron alloy, deep skirt
design and the crankshaft is supported in the cylinder
block by five precision insert replaceable main bear-
ings. Crankshaft end float is controlled by the flanged
centre main bearing. Connecting rods are I section
forgings equipped with precision insert replaceable big
end bearings. The gudgeon pins are an interference fit
in the connecting rod and a floating fit in the piston.

The cast aluminum pistons are equipped with
two compression rings and one oil control ring.

The twin rotor, involute gear oil pump is mounted
directly to the front face of the cylinder block. The
inner rotor is internally driven by the crankshaft. The
oil pump pressure relief valve is not adjustable, and
consists of a plunger and spring mounted in the oil
pump body.

The pump draws oil through a screen in the sump
and delivers it, via a full flow replaceable oil filter, to
the oil gallery from where it is distributed to the
hydraulic tappets, camshaft and crankshaft bearings
and to the overhead rocker and valve mechanism.

3. ENGINE AND TRANSAXLE ASSEMBLY
Special Equipment Required:
To Remove and Instill — Suitable lifting tackle,
extra long chassis stands, suitable trolley

TO REMOVE
NOTE: Due to the high residual pressure
within the fuel system, it will be necessary to
depressurize the system before removing any
fuel supply components. Refer to the Fuel
and Engine Management section for the
correct procedure.

(1) Disconnect the negative battery terminal.
(2) Mark around the bonnet hinges with a soft
lead pencil Co facilitate correct installation. With the
aid of an assistant, remove the bonnet retaining bolts
and remove the bonnet from the vehicle.
(3) Drain the engine and transaxle lubricant.
(4) Open the coolant drain tap located on the
lower radiator pipe and drain the coolant. (5) Loosen the hose clips and disconnect the
heater hoses from the heater pipes at the bulkhead.
NOTE: Do not use excessive force to remove
the heater hoses from the heater pipes or the
heater core will become dislodged from the
heater unit. If necessary, cut the heater
hoses from the pipes using a sharp knife.

(6) Loosen the hose clamps and disconnect the
radiator hoses from the engine assembly. (7) Disconnect the positive lead from the bat-
tery. (8) On 1.8 liter models, disconnect the air inlet
duct.
(9) On 1.6 liter models, remove the air cleaner
assembly. Refer to the Fuel and Engine Management
section if necessary. (10) Disconnect the throttle cable from the throt-
tle body and from the camshaft housing top cover
bracket, if applicable. (11) Disconnect the fuel supply and return hoses.
Mark the hoses as an aid to installation. (12) Suitably mark and disconnect the charcoal
canister hoses. (13) Disconnect the injector wires from the injec-
tors. On 1.6 liter models, slide the wiring out from the
throttle body. (14) Disconnect the wiring fr om the throttle po-
sition sensor (TPS), idle air control (IAC) valve,
oxygen (O
2) sensor wire, coolant temperature sensor,
coolant sender and on 1.8 liter models, the manifold
air temperature (MAT) sensor. (15) Disconnect the wiring connector adjacent to
the top heater hose, the wiring from the alternator and
the two earth wires from underneath the cylinder head
bolts. (16) Lay the wiring loom over on the passenger
side of the engine compar tment, clear of the work
area.
(17) On manual transaxle models, loosen the
clutch cable adjusting nuts and remove the cable
through the slot in the lever. Remove the clutch cable
bracket from the transaxle after removing the retain-
ing bolts and place the cable to one side.
(18) Disconnect the wiring from the starter mo-
tor, speedometer sender and on manual transaxle
models, the reverse lamp switch wiring.
(19) If applicable, disconnect the power steering
lines from the pump and drain the fluid into a
container. Suitably plug the lines and the pump to
prevent the entry of dirt.
(20) On automatic transaxle models, disconnect
the selector cable and bracket from the transaxle
assembly.
Disconnect the transaxle oil cooler lines from the
transaxle. Plug the lines and fittings to prevent the
entry of dirt etc.

(21) Loosen the front wheel nuts, raise the front
of the vehicle and support it on extra long chassis
stands. Ensure that the vehicle is high enough to allow
removal of the engine from underneath. (22) Remove the front wheels and the engine
splash guards from the vehicle.
(23) On manual transaxle models, remove the
stay rod and control rod bolts and nuts and disconnect
the rods from the transaxle.
(24) Remove the lower control arm to steering
knuckle ball joint nuts and separate the ball joints
from the steering knuckle by holding a dolly or a
hammer against one side of the steering knuckle and
hitting the other side with a hammer. The taper on the
ball joint will release fr om the steering knuckle.
(25) Pull the steering knuckles outward swiftly to

Engine
edge of the bearing cap to cylinder block joint. Install
the bearing cap bolts and tighten to the specified
torque.

(17) Lubricate the l i p of the new oil seal with
lithium grease and carefully install the seal into
position over the crankshaft . Insert the seal as far as
possible using finger pressure and then fully install the
sea! using a tubular drift. Ensure that the seal is not
damaged during installation and that the seal is
mounted square to the block face.
(18) Install the remainder of the engine
compo-
nents by referring to the relevant headings in
this
section.
TO RENEW CRANKSHAFT OIL SEALS

Front
(1) Remove the camshaft drive belt as previ-
ously described.
(2) Disconnect the lower radiator hose and drain
the cooling system. (3) Select fifth gear on manual transaxle models
and firmly apply the handbrake. (4) On automatic transaxle models, remove the
torque converter inspection cover to allow access to
the ring gear. Have an assi stant hold the ring gear
using a suitable lever. (5) Remove the crankshaft timing gear retaining
bolt and discard. (6) Remove the crankshaft timing gear from the
crankshaft. It may be necessary to lever the gear from
the crankshaft using two screwdrivers. Remove the
key and spacer from the crankshaft. (7) Using a centre punch, tap a small hole in the
front face of the oil seal. (8) Insert a self tapping screw into the hole.
(9) Remove the seal from the oil pump by
gripping and pulling the end of the screw with a pair
of pliers. (10) Coat the l i p of a new seal with multi-purpose
grease. (11) Install the oil seal to the oil pump using a
tubular drift. Ensure that the lip of the oil seal faces
the inside of the housing.
(12) Install the remaining components in the re-
verse order of removal, usi ng a new crankshaft timing
gear retaining bolt and referring to the relevant
headings in this section as necessary.
Rear

(1) Remove the automatic transaxle or manual
transaxle as described in the appropriate section. (2) Remove the flywheel/drive plate as described
under the following heading. (3) Lever the oil seal from the rear of the
crankcase being careful not to damage the crankshaft.
(4) Coat the lip of a new seal with Lithium
grease.
(5) Install the oil seal over the crankshaft. Ensure
that the li p of the oil sea l faces towards the engine.
(6) Insert the seal as far as possible using finger
pressure, and then fully seat the seal using a tubular
drift. (7) Install the remaining components in the
re-
verse order of removal, referring to the relevant
headings in this section as necessary.
12. FLYWHEEL/DRIVE PLATE

Special Equipment Required:
To Renew Ring Gear — Suitable heat source
TO REMOVE
(1) Remove the transaxle from the vehicle as
described in the Manual or Automatic Transaxle
sections, whichever is applicable. (2) On manual transaxle models, mark the fly-
wheel and the clutch pressure plate cover to ensure
correct assembly.
View of the drive plate and retaining bolts.
Progressively loosen and remove the pressure
plate retaining bolts.

Using a dial gauge, check the runout of the clutch
face contacting surface of the flywheel. If the runout
exceeds 0.3 mm have the flywheel face surfaced by a
clutch specialist or authorized dealer.

(3) Suitably mark the flywheel or drive plate so
that the unit can be installed in the original position
on the crankshaft. Remove the retaining bolts. (4) Lift the flywheel or drive plate from the
engine.
TO CHECK AND INSPECT

Inspect the clutch face contacting surface of the
flywheel for cracks or excessive scoring.

(2) Inspect the ring gear teeth for damage, cracks
or wear. The ring gear on manual transaxle models
can be renewed separately from the flywheel, but on

64 Engine
automatic transaxle models the complete drive plate
must be renewed.

(3) Inspect the drive plate bolt holes for elonga-
tion which is caused by loose retaining bolts.
(4) Inspect the drive plate for cracks.
(5) Repair or renew the flywheel if necessary.
TO INSTAL

Installation is a reversal of the removal procedure
with attention to the following points:

(1) The flywheel and drive plate retaining bolts
are special micro-encapsulated fasteners.

Install new micro-encapsulated bolts of the
correct
strength classification on assembly.

(2) Thoroughly clean the crankshaft threads with
a thread tap. Clean the threads with solvent and dry
before installing the flywh eel or drive plate retaining
bolts.
(3) Tighten the flywheel or drive plate retaining
bolts to the specified torque and on manual transaxle
models, align the clutch plate as described in the
Clutch section.
TO RENEW FLYWHEEL RING GEAR
(1) With the flywheel removed from the vehicle,
drill a 6 mm diameter hole between two teeth of the
ring gear.

NOTE: Do not drill right through the ring
gear as this will damage the flange on the
flywheel.

(2) Secure the flywheel, with the drilled hole
uppermost in a soft jawed vice.
(3) Place a cold chisel above the hole in the ring
gear and hit it sharply to split the ring gear.
(4) Check the direction of the chamfered face of
the old ring gear. The new ring gear must be installed
to the flywheel with the chamfer in the same direction. (5) Remove the ring gear, clean the mounting
face on the flywheel and remove any burrs. (6) Polish a few spots of the ring gear with emery
cloth and heat the ring gear evenly until the polished
spots turn dark blue.
NOTE; Do not heat the ring gear past the
point required to achieve a dark blue color
or the tempering of the ring gear teeth will
be impaired.

(7) With the flywheel suitably supported, pick
the ring gear up using plie rs, and place it evenly onto
the flywheel. Use a hammer and a brass drift to ensure
that the ring gear seats ag ainst the flywheel flange.

NOTE: Allow the ring gear to cool slowly.
Do not quench it in water.

13. ENGINE MOUNTINGS
TO RENEW LEFT HAND SIDE MOUNTING
(1) Disconnect the positive and negative battery
terminals, loosen the battery clamp nuts and withdraw
the battery from the engine compartment.
(2) Remove the bolts retaining the battery car-
rier to the inner mudguard and remove the battery
carrier and associ ated components from the engine
compartment. (3) Support the transaxle using a jack. Interpose
a block of wood between the head of the jack and the
transaxle to prevent damage to the transaxle.

View of the flywheel and retaining bolts.

Dismantled view of the left hand side engine mounting
assembly installed to vehicles with an automatic tran-
saxle.