1987 NISSAN PULSAR oil temperature

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.

14
LUBRICATION AND MAINTENANCE
SPECIFICATIONS
CAPACITY AND GRADE
Engine:
Lubricant........................................... 15W-50 SF
Sump capacity including filter ........... 3.3 liters
Cooling system capacity............................ 6.0 liters
Manual transaxle:
Lubricant....................................... 80W-90 GL-4
Capacity ............................................... 2.7 liters
Automatic transaxle:
Lubricant.............................................. Dexron II
Capacity ............................................... 6.0 liters
Power steering:
Lubricant.............................................. Dexron II
Capacity ............................................... 1.0 liters
Manual steering lubricant ........ Castrol EPLl grease
Brake fluid type ................................................ Dot 4
1. HOW TO GREASE AND OIL CHANGE
(1) Run the front of the vehicle onto car ramps
and stop the engine. Chock the front wheels. (2) Raise the rear of the vehicle and place
chassis stands under the rear jacking points.
NOTE: It is best if the vehicle is kept as level
as possible to avoi d false readings when
checking the lubricant levels.



(3) Clean around the engine sump drain plug.
(4) Place a drain tin under the engine sump,
remove the engine sump drain plug and allow the
engine sump to completely drain.
NOTE: It is best to drain the engine sump
with the oil at operating temperature. How-
ever, if the oil is hot take care to avoid
scalding.

(5) Check that the sealing gasket on the sump
plug is in a serviceable condition. (6) When the engine sump has completely
drained, install and firmly tighten the sump drain plug.
Wipe around the plug after installation. (7) Place the drain tin under the oil filler,
remove the oil filter using a filter removal tool and
allow the residual engine oil to drain. Smear the
scaling ring of the new filter with engine oil and
lighten the filter by hand as per the instructions
supplied with the new filter.
NOTE: Before installing the new filter, en-
sure that the sealing gasket from the old
filter has not adhered to the filter sealing
surface on the engine.

(8) Remove the level checking plug from the

Location of the engine sump drain plug.
Removing the engine oil filter using a filter removal tool.

Engine Tune-up
Spark plug with burnt electrodes and white blistered
appearance, possibly due to incorrect plug type, loose
plug or motor running too hot.
NOTE: Never attempt to alter the electrode
gap by bending the centre electrode as
damage to the porcelain insulator will
result.

Before installing any spark plugs measure the gap
between the electrodes, pref erably with clean wire
gauges. If wire gauges are una vailable, use clean feeler
gauges. Move the side electrode towards or away from
the centre electrode to obtain the correct gap-

Screw the plugs into the cylinder head ringer tight,
then use a torque wrench to tighten the plugs lo the
specified torque.



Checking the spark plug electrode gap with a wire
gauge.
NOTE: If a torque wrench is unavailable,
extreme care must be taken when tightening
the spark plugs as over tightening may lead
to stripping of the thread from the cylinder
head. If the plugs are tightened with the
fingers and then taken up an additional 1/4
of a turn with a spark plug wrench, they will
be tight enough.

TO TEST COMPRESSION
(1) With the engine at operating temperature.
disconnect the high tension leads from the spark
plugs.
(2) Ensure that the area around each spark plug
is clean to prevent foreign matter entering the cylin-
ders and remove the spark plugs. (3) Remove the fusible link that is positioned
third from the front of th e fusible link connecting
block, located at the rear of the battery. Disconnect
the coil high tension lead from the coil.
NOTE: Failure to remove the fusible link
can result in an explosion.

(4) Install a compression gauge to number one
spark hole according to the gauge manufacturers
instructions. (5) Have an assistant fully open the throttle and
operate the starter switch to rotate the engine. Ob-
serve the compression gauge and stop the engine when
the gauge has reached the highest reading, usually
after 3 or 4 compression strokes.
(6) Record the reading a nd check the compres-
sion of the remaining cylinders in the same manner.
(7) Compare all the readings taken. Variation
between the highest and lowest reading cylinders
should not exceed 100 kPa. (8) If a low reading is recorded on one or more
cylinders the trouble may be isolated as follows :

Lightly file the plug electrodes flat with a points file

30 Engine Tune-up
(1) With the distributor cap and leads removed
as an assembly, test one lead at a time, connecting the
meter probes at the spark plug end of the lead and at
the corresponding terminal in side the cap. Resistance
should be less than 15 000 ohms.
(2) If the resistance is more than 15 000 ohms
remove the lead from the distributor cap and check
(he resistance in the lead only. The lead should be
renewed if the resistance is still more than 15 000
ohms. (3) High distributor cap resistance may be due
to corrosion deposits on the cap terminals. These
deposits should be removed with a small scraper or
emery cloth. Check the distributor cap for cracks or tracking
between the high tension terminals on both the inside
and outside of the cap. Renew the cap if cracks or
tracking are evident.

Check the carbon brush in the centre of the
distributor cap for evidence of arcing and renew as
necessary.

Check the condition of the rotor and renew if
arced excessively or cracked.

HOW TO CONNECT ELECTRICAL TEST
EQUIPMENT

NOTE: Some types of tachometers, timing
lights and ignition system analysers are not
compatible with this type of electronic igni-
tion system and may result in incorrect
readings. It is therefore recommended that
the manufacturer of the test equipment be
consulted before using the equipment.

Do not allow the tachometer lead connec-
tor to short to earth as damage to the test
equipment or ignition system may result.

Timing Light
(1) Connect the timing light to the engine fol-
lowing the instrument manufacturers instructions.

NOTE: Do not connect or disconnect the
timing light with the engine running as
voltage surges could damage the alternator.
Do not allow the high tension leads to open
circuit as damage to the ignition system
could result.

(2) Where necessary, connect the power leads of
the timing light to an external power source to prevent
possible transient voltages in the timing light damag-
ing the vehicle alternator.

Tachometer
(1) Ensure that the tachometer is compatible
with the vehicle ignition system. (2) Disconnect the resistor from the tachometer

View showing the location of the tachometer pickup
wiring connector with the resistor installed
.
pick up wiring connector which is located on the
ignition coil wiring harness, and connect the positive
lead of an accurate tachometer to the brown wire
terminal in the wiring connector.

(3) Connect the negative lead to a good earthing
point.

TO CHECK AND ADJUST IGNITION TIMING
( 1 ) Connect an accurate tachometer and timing
light to the engine as previously described.


View showing the location of the diagnostic link
connector. Passengers seat removed for clarity.
Inset shows the diagnostic link connector terminal
identification.
(2) Start the engine and allow it to reach normal
operating temperature. (3) Connect a jumper lead between terminals A
and B on the diagnostic link connector. (4) With the engine idling at the specified speed,
check the ignition timing with the timing light.
Correct timing exists when the marks on the
crankshaft pulley are aligned with the pointer on the
inner timing cover.

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

40 Engine


Check the engine oil for level and dilution on the dipstick.
dosed. Before dismantling the engine to
inspect the big ends check the engine oil for
correct level and dilution on the dipstick.
Also, remove the oil pressure sender unit
and connect an oil pressure gauge into the
oil gallery to check the oil pressure readings.

MAIN BEARING NOISE (APPARENT)
(1) Loose flywheel: Tighten the flywheel securing
bolls to the specified torque. (2) Low oil pressure: Check the bearing to
journal clearance. Check the condition of the oil
pump and pressure relief valve. Recondition the oil
pump as necessary. (3) Excessive crankshaft end float: Renew the
main bearings. (4) Crankshaft journals out of round and exces-
sive bearing to journal clear ance: Regrind the journals
and renew the bearings (undersize).
(5) Insufficient oil supply: Replenish the oil in
the sump to the correct level.
NOTE: Main bearing noise is indicated by a
heavy but dull knock when the engine is
under load. A loose flywheel is indicated by
a thud or dull click when the ignition is
turned off. It is us ually accompanied by
vibration.

Crankshaft end float noise is indicated by
a sharp rap at idle speed. The crankshaft
can be readily checked for excessive end
float by levering the crankshaft backwards
and forwards.

If the oil pressure is not satisfactory,
remove the main bearing caps and assess
the bearing clearance using the Plastigage
method as described in this section. Ovality
and wear on the main bearing journals can
only be checked with a micrometer after the
crankshaft has been removed.

EXCESSIVE OIL CONSUMPTION
(1) Oil leaks: Check and renew the engine gas-
kets or seals as necessary.
(2) Damaged or worn valve stem oil seals:
Dismantle the cylinder head and renew the damaged
or worn oil seals. (3) Excessive valve stem to valve guide clear-
ance: Ream the valve guides and renew the valves as
necessary. (4) Worn or broken piston rings: Renew the
piston rings on all pistons. (5) Rings too tight or stuck in the grooves:
Renew the rings and clean the ring grooves.
(6) Excessive wear in the cylinders, pistons and
rings: Recondition the cylinders and renew the pistons
and rings. (7) Compression rings incorrectly installed. Oil
rings clogged or broken: Renew the piston rings.
NOTE: Before checking the engine for oil
leaks the engine should be completely de-
greased and cleaned. Run the engine at
operating temperature for a period and
visually check for oil leakage. By placing
white paper on the floor directly beneath the
engine any excessive leak can be readily
pinpointed.

Damaged or worn valve stem oil seals
which allow oil to be drawn down past the
valve stems into the combustion chambers
can be diagnosed by allowing the engine to
idle for a few minutes and then opening the
throttle. If oil is being drawn past the valve
stems a heavy discharge of blue smoke will
be seen at the tailpipe.

Piston, ring and cylinder bore troubles are
normally accompanied by a loss of compres-
sion. Cylinder compression can only be
accurately assessed by using a compression
gauge.

Run the engine over white paper to check for oil leaks.

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

50 Engine
(4) Ensure that the tappet assemblies are full of
clean engine oil and insert the tappets in their
respective bores in the cylinde r head. Install the thrust
pads to the top of each valve assembly ensuring that
they are returned to their original location.
(5) Coat the contact surfaces of the rocker arms
with molybdenum disulphide grease and install the
rocker arms to their origin al locations on the cylinder
head. (6) Clean the mating surfaces of the camshaft
housing and cylinder head. Apply a bead of Loctite
515 to the cylinder head and camshaft housing mating
surfaces. Take care that no sea lant is forced into the
oil passages and install the camshaft housing to the
cylinder head.
(7) Install new cylinder head bolts and lubricate
the bolts and washers with oil.
(8) Apply an initial torque to the cylinder head
bolts of 25 Nm in the corr ect sequence as shown in
the illustration under the Cylinder Head heading.
Further tighten the head bolts in the correct sequence,
in three separate 60 degree stages. Refer to Specifica-
tions. (9) Install the bolts securing the camshaft
drive
belt inner cover to the camshaft housing. (10) Install the camshaft timing gear to the cam-
shaft ensuring that it is correctly located. Tighten the
camshaft timing gear retain ing boll to the specified
torque. (11) Install and adjust the camshaft drive belt as
described under the previous heading. (12) Install the distributor. Refer to the Fuel and
Engine Management section.
(13) Connect the lower radiat or hose and fill the
cooling system with the required coolant. Refer to the
Cooling and Heating Systems section if necessary. (14) Start and run the engine until normal oper-
ating temperature is attained and tighten the cylinder
head bolts another 30-50 degrees in the correct
sequence, ensuring that the tension does not exceed
135 Nm.
TO RENEW CAMSHAFT OIL SEAL,
CAMSHAFT INSTALLED

(1) Remove the camshaft drive belt from the
camshaft timing gear as described under the previous
heading.
(2) Remove the camshaft housing top cover
retaining bolts, remove the cover and discard the
gasket.
(3) Use an open end spanner to hold the cam-
shaft between the inlet and exhaust lobes of number
four cylinder and remove the camshaft timing gear
retaining bolt and the camshaft timing gear. (4) With a pointed drift, tap a small hole in the
front face of the oil seal. Insert a self tapping screw in
the hole and using a pair of pliers, pull on the screw
to remove the oil seal from the housing.
(5) Clean the seal recess and the camshaft sea!
running surface. (6) Lubricate the lip of a new oil seal with engine
oil and slide the seal over the camshaft. Ensure that
the lip of the seal faces to wards the inside of the
camshaft housing. Tap evenly around the edges of the
seal until it is fully seated in the camshaft housing.
(7) Install the camshaft timing gear to the cam-
shaft, ensuring that it is co rrectly located. Tighten the
camshaft timing gear retain ing bolt to the specified
torque. Do not allow the camshaft to rotate while
tightening the bolt. (8) Install and adjust the drive belt as described
under the previous heading. Ensure that the timing
marks are aligned. (9) Install the camshaft hou sing top cover using a
new gasket. Tighten the retaining bolts to the specified
torque.
7. CYLINDER HEAD

Special Equipment Required:
To Dismantle and Assemble — Valve spring com-
pressor

To Inspect — Dial gauge and straight edge
To Install — Drive belt adjusting tool

TO REMOVE AND INSTAL
NOTE: Due to the high residua! 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.

Allow the engine to cool prior to the
removal of the cylinder head to prevent
possible distortion of the cylinder head.

(1) Disconnect the negative battery terminal and
remove the nuts securing the earth wires to the
cylinder head bolts.
(2) Remove the camshaft drive belt as previ-
ously described.
(3) Disconnect the lower radiator hose and drain
the cooling system. Refer to the Cooling and Heating
Systems section if necessary. (4) Remove the alternator adjusting bracket
mounting bolt and insulating washers from the inlet
manifold. Loosen the adjusting bolt at the alternator
and slide the bracket away from the cylinder head. (5) Disconnect the upper radiator hose, coolant
by-pass hose and the heater hose from the thermostat
housing and on 1.6 liter m odels, the coolant hoses
from the inlet manifold. (6) Disconnect the electrica l connectors from the
throttle body, fuel injectors, coil, distributor and on
1.8 liter models, the MAT sensor. (7) Disconnect the oxygen sensor wiring connec-
tor and remove the wiring connectors from the