1987 NISSAN PULSAR oil dipstick

Lubrication and Maintenance 15


Location of the manual transaxle level plug.
manual transaxle. Using a finger, check that the oil is
level with the bottom of the plug hole. Overfilled units
should be drained to the correct level.

If the oil level is low, use an oil gun to fill the
transaxle to the correct level.

When satisfied that the oil level is correct, install
the plug and tighten firmly. Wipe around the plug
after installation.

NOTE: On automatic transaxle vehicles,
refer to the Automatic Transaxle section for
the checking and topping up procedure.


Location of the manual transaxle drain plug.
(9) Using a funnel, fill the engine with the
specified amount and grade of engine oil. start the
engine and run it for a few minutes. Ensure that the
oil light goes out. Stop the engine, wait for a few
minutes and check the engine oil on the dipstick. If
necessary add oil to bring the level to the full mark on
the dipstick.

NOTE: To prevent overfilling the engine
initially, it is good policy not to pour all the


Underbonnet view of the 1.8 liter engine. Automatic transaxle model.
AUTOMATIC TRANSAXLE DIPSTICK
r

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.

36 Roadside Trouble Shooting


Check the engine oil for level and dilution on the dipstick.
turn creamy. The oil level will also have increased. If
the oil is emulsified, proceed to operation (5).

(2) Remove the fusible link that is positioned
third from the front of th e fusible link connection
block, located at the rear of the battery. Disconnect
the coil high tension lead from the coil. (3) Remove all of the spark plugs except one.
(4) Have an assistant operate the ignition switch
to rotate the engine and listen to the sound made by
the engine as it is being turned over. Move the spark
plug to a different cylinder and repeat the lest. By performing the same test on all cylinders, a
rough comparison can be made to determine if there
is any loss of compression in any cylinder. This will be
apparent by the different sound made by the engine as
it is being turned over.

Normally, if the compression is satisfactory the
cylinder with the spark plug installed will create a
resistance to the rotating engine.

However, if the compression is low in a particular
cylinder, the engine will tu rn over easily and smoothly
when that spark plug is in place.

(5) If the above checks show a loss of coolant
which is present in the engine oil or on the spark plug,
one or more of the following faults may be the cause:

Blown cylinder head gasket.
Cracked cylinder or cylinder head.
If the compression check showed any weak or
inconsistent compressions, in addition to the above
faults any of the following could also be the cause:

Broken piston{s)
Burnt or broken valve(s).
Provided the previous checks do not indicate an

View showing the location of the fusible links.
internal leakage of coolant, proceed with the follow-
ing:

(6) Remove the distributor cap and, with the aid
of an assistant operating th e starter motor, check that
the rotor arm rotates as the engine turns over. (7) Remove the camshaft hous ing top cover and.
again with an assistant operating the ignition switch,
check that all the valves open and close as the engine
turns over.
If the rotor arm or valves do not operate with
engine rotation, one of the following faults may be the
cause:

Rotor arm does not turn but valves operate:
Distributor drive shaft broken.

Rotor arm and valves do not operate: Broken
camshaft drive belt. Sheare d crankshaft timing gear
drive key. Sheared camshaft liming gear drive dowel.

Provided that all the previous checks have been
performed correctly and the operator is satisfied that
none of the components are at fault, all that remains
is for the ignition and valve timing to be checked. It
should be noted, however, that if loss of valve timing
proves to be the fault, th e cause of this occurrence
must be sought and rectified.

(8) In order to check the valve timing it will be
necessary to remove the distributor cap and the
camshaft housing top cover and turn the engine
clockwise via the crankshaft pulley until No. 1 piston
is at TDC on the compression stroke. In this position
the valves of No. 1 cylinder should be closed, the
valves of No. 4 should be rocking and the distributor
rotor should be pointing to the No. 1 high tension lead
segment in the distributor cap.

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.

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.

Engine 51

coolant temperature sensor and temperature sender
switch located in the thermostat housing.

(8) Remove the bolt securing the wiring clamp
to the rear of the manifold and maneuver the wiring
away from the cylinder head and the inlet manifold.
(9) Disconnect the throttle cable and on auto-
matic transaxle models, the kickdown cable from the
throttle body linkage. (10) Remove the bolls securing the throttle cable
bracket to the inlet manifold and place the bracket
and cable(s) to one side.
(11) Mark the fuel supply and return hoses to
ensure correct installation and disconnect the hoses
from the fuel rail or throttle body. Plug the hoses to
prevent the loss of fuel or the entry of dirt. (12) Mark the vacuum hoses connected to the
inlet manifold and throttle body to ensure correct
installation and disconnect the hoses. (13) Remove the nuts securing the engine pipe to
the exhaust manifold and separate the pipe from the
manifold. (14) Remove the oxygen sensor from the exhaust
manifold. Refer to the Fuel and Engine Management
section if necessary. (15) Remove the distributor and coil as described
in the Fuel and Engine Management section. (16) Disconnect the engine breather hoses from
the camshaft housing and cams haft housing top cover.
(17) Remove the bolts retaining the top cover to
the camshaft housing and remove the top cover. (18) Using an open end spanner, 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.
(19) Remove the bolts securing the camshaft
drive belt inner cover to the camshaft housing. (20) Loosen the cylinder head bolts in the reverse
order of the tightening sequence, backing off each bolt
a quarter turn then half a turn at a time until the bolts
are loose.
NOTE: Do not loosen the head bolts while
the engine is warm as distortion of the
cylinder head could result.

(21) Remove the cylinder head bolts and lift the
camshaft housing from the cylinder head. (22) Remove the cylinder head and gasket from
the cylinder block. Installation is a reversal of the removal procedure
with attention to the following points:

(1) Thoroughly clean the gasket surfaces of the
cylinder head, cylinder block and camshaft housing
and check all mating surfaces with a straight edge.
Ensure that all the oilways are clean and free of any
foreign material and lightly oil all operating parts with
engine oil.
(2) Install new gaskets throughout during
assem-
bly.

View of the cylinder head showing the bolt tightening
sequence.
(3) Ensure that the cylinde r head and gasket are
located correctly on the dowels on the cylinder block
face. The head gasket is marked TOP to aid in correct
installation. (4) With the cylinder head and gasket in posi-
tion on the cylinder block, apply an even smear of
Loctite 515 to the cylinder head and camshaft housing
mating surfaces. Take care that no sealant is forced
into the oil passages. (5) Install new cylinder head bolts and lubricate
the bolts and washers with engine oil,
(6) Apply an initial torque to the cylinder head
bolts of 25 Nm in the sequence shown in the
illustration. Further tighten the head bolts in the same
sequence in three separate 60 degree stages. Refer to
Specifications. (7) Install the bolts secur ing the camshaft drive
belt inner cover to the camshaft housing. Install the
camshaft timing gear and tighten the retaining bolt to
the specified torque. (8) Install and adjust the camshaft drive belt as
previously described. (9) Install the distributor, coil and oxygen sensor
as described in the Fuel and Engine Management
section.
(10) Using a new gasket, connect the engine pipe
to the exhaust manifold flange, coat the nuts with an
anti-seize compound and install and tighten the nuts
to
the specified torque. (11) Connect all hoses and electrical wiring dis-
connected during the removal of the cylinder head.
Ensure that all the hoses are returned to their original
locations. (12) Connect the throttle cable and where appli-
cable, the kickdown cable. Adjust the cables as
described in the Fuel and Engine Management section
and the Automatic Transaxle section. (13) Check the engine oil fo r correct level on the
dipstick and for dilution. Change the engine oil and
filter if necessary. (14) Fill the cooling system as described in the
Cooling and Heating Systems section. (15) Start the engine and check for oil or water

68
COOLING AND HEATING SYSTEMS
SPECIFICATIONS
Coolant capacity ........................................ 6.0 liters
Thermostat:
Opening temperature........................... 91 deg
C

Fully open temperature .................... 103 deg
C

Cooling fan:
Fan cut in temperat ure ....................... 100 deg C
Fan cut out temperature ...................... 95 deg C
Radiator cap opening
pressure ................................................... 78 -98 kPa
TORQUE WRENCH SETTINGS
Water pump retaining bolts .............................25 Nm
Thermostat housing bolts .................................15 Nm
Sender unit .......................................................10 Nm
1. COOLING SYSTEM TROUBLE SHOOTING
COOLANT LEAKAGE - EXTERNAL
(1) Loose hose clips or faulty hoses: Tighten the
hose clips or renew the faulty water hoses.
(2) Leaking radiator core or tanks: Repair or
renew the radiator. (3) Leaking heater core or hoses: Repair or renew the heater core. Check the hose clips and hoses
and renew if necessary.

(4)
Leaks at the thermostat cover and/or water
pump O rings. Renew the O rings. (5) Worn or damaged water pump seal assembly:
Renew the water pump. (6) Worn or damaged water pump bearing as-
sembly: Renew the water pump.
(7) Loose or rusted welch plugs; Renew the
welch plugs. (8) Faulty cylinder head gasket or loose cylinder
head bolts: Renew the cylinder head gasket and
correctly tighten the cylinder head bolts. (9) External crack in the cy linder head or cylin-
der block: Repair or renew the faulty components.
NOTE: Check the system for external leak-
age by running the engine to operating
temperature over a dry floor and checking
for the leak source.

Check the vehicle interior below the
heater core for moisture. If a rusted welch
plug is found, it is a good practice to renew
all the welch plugs.

COOLANT LEAKAGE - INTERNAL
( 1 ) Cylinder head gasket leak due to warped
cylinder head or cylinder block gasket faces: Reface


Checking the radiator hose for deterioration.

Check the engine oil for level and dilution on the
dipstick.

Cooling and Heating Systems 69

the cylinder head or cylinder block and renew the
cylinder head gasket.

(2) Crack in the cylinder head or cylinder block:
Repair or renew as necessary.

NOTE; Check the engine for internal leak-
age by withdrawing the dipstick and inspect-
ing for emulsified oil. Run the engine and
check for excessive steam at the exhaust
pipe which would indi cate coolant leakage
into the combustion chamber.

COOLANT LOSS BY OVERFLOW
(1) Overfull system: Drain the excess coolant
from the system.
(2) Faulty radiator cap: Renew the faulty cap.
(3) Blocked radiator core tubes: Clean or renew
the radiator core.

(4) Faulty thermostat: Renew the thermostat.
(5) Coolant foaming due to poor quality anti-
freeze or corrosion inhibitor: Drain the system and
renew the coolant and additive.

Renew the radiator cap if the sealing rubber has
deteriorated.
ENGINE OVERHEATING
(1) Radiator cap defective: Renew the radiator
cap.
(2) Incorrect fuel mixture: Check the fuel system
as described in the Fuel and Engine Management
section. (3) Obstructed air passage through the radiator
core from the front to the rear: Blow the obstruction
from the rear to the front of the radiator core using
compressed air or water pressure. (4) Faulty thermostat: Renew the thermostat.
(5) Incorrect ignition timing: Check and adjust
the ignition timing as described in the Engine Tune-up
section. (6) Incorrect valve timing: Set the valve timing
as described in th e Engine section.
(7) Loss of coolant from the overflow: Check
and rectify as described under the heading Coolant
Loss By Overflow.
(8) Poor circulation: Check and rectify as de-
scribed under the heading Coolant Circulation Faulty.
(9) Low engine oil level: Stop the engine imme-
diately and replenish the oil in the sump. (10) Restricted muffler, catalytic converter or
damaged tailpipe, accompanied by loss of power:
Remove the restrictions or renew the faulty com-
ponents as necessary.
(11) Incorrectly adjusted or dragging brakes:
Check and rectify by adjustment or renewal of
components. (12) Faulty temperature gauge and/or sender unit:
Check and rectify as necessary.
NOTE: Engine overheating is indicated by
an excessive rise in engine temperature
shown by the temperature gauge.

Overheating is usually accompanied by
steam emitting from the coolant overflow
pipe and loss of engine power. A blown
cylinder head gasket may be indicated by
bubbles in the coolant.

COOLANT CIRCULATION FAULTY
(1) Partial blockage of the radiator core tubes:
reverse flush or renew the radiator core.
(2) Sludge deposits in the engine water jacket:
Clean and flush the engine water jacket and add
inhibitor to the coolant. (3) Faulty water pump: Renew the water pump.
(4) Faulty thermostat: Renew the thermostat.
(5) Collapsing lower radiator hose: Renew the
lower radiator hose and check the radiator core tubes. (6) Insufficient coolant in the system: Replenish
the coolant and check for leaks.
NOTE: If rust or sludge deposits are sus-
pected, check the color of the coolant in the
radiator. Rusty or muddy coolant indicates
rust or sludge in the system.

2. HEATER AND AIR CONDITIONER TROUBLE SHOOTING

NO HOT AIR INSIDE VEHICLE
Faulty thermostat: Renew the thermostat.
Faulty heater valve: Check and renew the

Blocked heater hoses: Remove the blockage.
Blocked heater core: Clean or renew the core.

NOTE: Ensure that the engine is reaching
normal operating temperature. If in doubt
check the operation of the thermostat as
described under the Thermostat heading in
this section.

(1)
(2)
valve.
(3)
(4)