oil dipstick DATSUN 610 1969 Workshop Manual

VALVE
CLEARANCES

Adjusting

Incorrect
valve
clearance
will
affect
the

performance
of

the

engine
and

may
damage
the
valves
and
valve
seats
Insuf

ficient
valve
clearance
will
result
in
loss
of

power
and

may

prevent
the
valve
from

seating
properly
Excessive
clearance

causes
the
valve
to
seat
and
reduces
the
amount
of

valve
lift

This
will
result
in

noisy
operation
with

damage
to
the
valves

and
seats

Adjustment
is
made
with
the

engine
switched
off

and
should
be
carried
out

initially
with
the

engine
cold
to

allow
the

engine
to
run
Final

adjustments
are
made
after

wanning

up
the

engine
to

its
Donnal

operating
temperature
The

engine
can
be
rotated

by
removing
the

sparking
plugs
to
release

the

cylinder
compressions
then

selecting

top
gear
and

pushing

the
vehicle
backwards
and
forwards

The
cold
valve
clearances
should
be
set
to
0
20
mm

0
0079
in
for
the
inlet
valves
and
0
25
mm
0
0098
in
for

the
exhaust
valves
Check
the
clearance
between
the
valve
and

rocker

using
a
feeler

gauge
as
shown
in

Fig
A
40
Slacken
the

locknut
and
turn
the
adjusting
screw
until
the

specified
clearance

is
obtained
then

tighten
the
locknut
and
recheck
the
clearance

The
feeler

gauge
should

just
be
free
to
move
between
the
rocker

and
valve
When
the
cold
valve
clearances
have
been
set
run
the

engine
until
it
reaches
its
normal

operating
temperature
then

switch
off
and

adjust
the
valve
clearances
with
the

engine
warm

to

0
25
mm
0
0098
in
for
the
inlet
valves
and
0
30
mm

0
0118
in
for
the
exhaust
valves

ENGINE
LUBRICATION
SYSTEM
Fig
A
41

OIL
PUMP
Removal
and

Dismantling

The
rotor

type
oil

pump
is
mounted
at
the
bottom
of
the

front

timing
cover
and
driven

by
the
distributor
drive
shaft

assembly

Overhaul
of
the

pump
will

require
careful
measurement

of

the
various
clearances
to
determine
the
amount

of
wear

which

has
taken

place
If

any
part
is
found
to
be
worn
it

may
be
neces

sary
to

replace
the
entire
oil

pump
assembly
To
remove
the
oil

pump
from
the

engine
proceed
as
follows

1
Remove
the
distributor

assembly
as
described
in
the

section
IGNITION
SYSTEM
Remove
the
oil

sump
drain

plug
and
drain
off
the

engine
oil
See
under
the
heading

CHANGING
THE
ENGINE
OIL

2
Remove
the
front
stabiliser
and
the
splash
shield
board

3
Withdraw
the

securing
bolts
and
detach
the
oil

pump

body
together
with
the
drive

gear
spindle

Take
out
the
bolts
securing
the

pump
cover
to
the

pump
body

and
withdraw
the
rotors
and
drive
shaft
See
Fig
A
42

The
pin
securing
the
driven
shaft
and
inner
rotor
must
not

00
taken
out
as
the
shaft
is

press
fitted
to
the
rotor
and
the

pin

is
caulked

Unscrew
the
threaded

plug
and
withdraw
the
regulator

valve
and

spring
Oean
each

part
thoroughly
and
examine
for

signs
of

damage
or
wear
Use
a
feeler

gauge
to
check

the
side

clearances
between
the
outer

and
inner
rotors
the
clearances

at
the

tips
of
the
rotors
and
the
clearance
between
the
outer

rotor
and
the

pump
body
See
Technical
Data
for
the
relevant

clearances
The
clearances
can

be
checked

using
a

straight
edge

as

shown
in

Fig
A
43

OIL
PUMP

Assembly
and
Installation

Assembly
is
a
reversal
of
the

dismantling
procedure
Before

installing
the
oil

pump
in
the

engine
it
will
be

necessary
to

rotate

the

engine
until
the
No
1

piston
is
at

T
D
C
on

its

compression
stroke

Fill
the

pump
housing
with

engine
oil
and

align
the

punch

mark
on
the

spindle
with
the
hole
in
the
oil

pump
as
shown

in

Fig
A
44

Install
the

pump
with
a
new

gasket
and

tighten
the

securing
bolts
to
a

torque
reading
of
1
1
1
5
kgm
8
1
Ilb
ft

Replace
the

splash
shield
board
and
the
front
stabiliser
refill

the

engine
with
the

specified
amount
of

engine
oil

OIL
FILTER

The

cartridge
type
oil
filter
can
be
removed
with
the

special
tool
ST
19320000
or
a
suitable
filter
remover
Interior

cleaning
is
not

necessary
but
the
ftIter

body
and
element
must

be

repiaced
every
10
000
km
6000
miles
Be
care
ul
not
to

overtighten
the
filter
when

replacing
or

oil
leakage

may
occur

CHANGING
THE
ENGINE
OIL

After
the
fIrst
oil

change
which
should
take

place
at
1000

km
600
miles
the
oil
should
be

changed
regularly
at
5000
km

3000
miles
intervals

Draining
is
more

easily
accomplished
after
a

lengthy
run

when
the
oil

being
thoroughly
warm
will
flow

quite
freely

Stand
the
vehicle
on
level

ground
and

place
a
suitable

container
under
the
drain

plug
Remove
the
drain

plug
carefully

as
the
hot
oil

may
spurt
out
with
considerable
force
When

refIlling
the

engine
make
sure

that
the
oil
is
to
the
H
mark
on

the

dipstick

19

Part
NanleH
and
AlternatlyeS

Certain

parts
of
motor
cars
are

known

by
other
names
in
different

areas

and
countries
A

list
c
f
the
common
alternatives
is

given
below

ENGINE
ELECTRICA
L

Gudgeon
pin
Piston

pin
small
end

pin
Wrist
Generator

Dynamo

pin
Control
box
Cut

out
Voltage

regulator
Volt

Inlet
valve

Intake
valve

age
control
Circuit
breaker

Piston
oil
control

ring
Piston

scraper
ring

Capacitor
Condenser

Induction
manifold

Inlet
manifold
intake
manifold

Interior

light
Dome

lamp

Oil

sump
Oil

pan
Oil
reservoir

Sump
tray

Core

Plug
Expansion

plug
Welch

plug
Lens
Glass

Sealing
disc

Head

lamp
ring
Headlamp
surround

Headlamp

Dipstick
Oil

dipper
rod
Oil
level

gauge
mouldin

rod
Dillevel
indicator
Direction
indicators

Signal
lamps
Flashers

Silencer
Muffler

expansion
box
diffuser

Micrometer

adjustment
Octane
selector

Tappets
Valve

lifter

push
rods
Rear

lamps
Tail

lamps

Reversing
light
Back
u

pUgh
t

FUEL

Carburettor
choke
Carburettor

venturi
STEERING

Slow

running
jet
Low

speed
jet
Idler

jet

Drop
arm
Pitman
ann

Volume
control
screw

Idling
mixture
screw

Rocker
shaft
Pitman
shaft

Drop
ann
shaft

Fuel

pump
Petrol

pump
Fuel
lift

pump
Swivel

pin
Pivot

pin
King
pin
Steering
pin

Air
cleaner
Air
silencer
Muffler

Stub
axle
Swivel
axle

Fuel
lank

Petrol
Tank
Track

rod
Cross
tube

Tie
rod

Accelerator
Throttle

Drag
link
Side
tube

Steering
connecting

rod

CLUTCH

Steering
column

Steering
gear
shaft

Clutch
release

bearing
Throwout

bearing
Thrust

bearing
Steering
column

bearing
Mast

jacket
bearing

Clutch

lining
Disc

facing
Friction

ring
Steering
arm

Steering
knuckle
ann

Spigot
bearing
Clutch

pilot
bearing
Stator
tube
Control
tube

Clutch

housing
Bell

housing
Steering
joints
Steering
knuckles

GEARBOX
BRAKES

Gearbox
Transmission
Master

cylinder
Main

cylinder

Gear
lever

Change
speed
lever
Gearshift
Brake
shoe

lining
Brake
shoe

facing

lever

BODY

Selector
fork

Change
speed
fork
Shift
fork

Input
shaft
Constant

motion
shaft
First
gannet

Hood

motion
shaft
drive

gear
First

Luggage
locker
Boot

Luggage

compartment

reduction

pinion
Main
drive

pin

Luggage
locker
lid
Boot
lid
Rear
deck

ion

Clutch
shaft
Clutch
gear

Mudguards
Quarter
panels
Fenders
Mud

Countershaft

Layshaft
wings

Synchro
cone

Synchronizing
ring
Roof

Canopy

Reverse
Idler

gear
Reverse

pinion
Nave

plate
Wheel
disc
Hub

cap

Finishing

strip
Moulding
Chrome
strip

REAR
AXLE
Windscreen
Windshield

Rear
Axle
Final

drive
unit
Rear
window
Rear
windscreen
Rear
windshield

Crown
wheel

Ring
gear
Final
drive

gear

Spiral
Backlight

drive
gear
Quarter
ven
t
N
D
V

No

draught
ventilator

Bevel

pinion
Small

pinion
spiral
drive

pinion
Bumpers
Fenders

Loom
Harness

U
bolts

Spring

clips

Odometer

Trip
recorder

Axle
shaft
Half

shaft
Hub

driving
shaft
Jack

Bonnet
catch
Hood
latch

driving
shaft

Kerosene
Paraffin

Differential

gear
Sun
wheel

Boot
Trunk

Differential

pinion
Planet
wheel