1969 DATSUN 610 width

t
r

Engine
type

Ovendi
cngth
1300
L
13

Overall
width

Oyerall
height

Turning
circle
din

metres
tfeet
Supen
eded
by

Track
font

rear
1400
c
c

car

Ground
dearance
Olin

Weight
dry
I
820
808

I

Fuel
tClflk
capacity
35
29
6

150
93

Fuel
consumption

aximum
peed
Technical
Data
BLUEBIRD

400
1600
1600

U4
U6

0
4
120
162
20

1
560
6142
410
55
51

420
55
91

10
2
33
5

270
50
0

2
420
95
281

215
8
5

885
1
950
210
8
27

930
2
050

10
1
12

33
2
27
7

50
931
28
2123
5

60
99
L
16

4
215
165
941

1
600
62
99

405
55
3
Ii

0
6
34
8

290
50
79

1
300
51
18

2
500
98
43

185
7
281

955
2
1061

12
14
5

28
2
23
5

60
991
BLUEBIRD
1800
L
18

3
0
5
57

320
5
971

000
2
2051

165
103
BLUEBIRD

1800
ESTATE

U8

4
280
168
501

4
5
557

330
52
361

1
065
2
348

OUTER
DIAMETER

4
0mm
0
1575
in
Undersize

4
5mm
0
1772
in
Undersize

5
Omm
0
1969
in
Undersize
87
000
87
05mm
3
4252
3
4272
in

87
50
87
55mm
3
4449
3
4468
in

88
00
88
05mm
3
4646
3
4665
in

PISTONS

Checking

Check
each

piston
for

signs
of

seizure
and
wear
Renew

BIlY
piston
which
is
unsatisfactory

Remove
all
carbon
deposits
from
the

grooves
and

piston

rings
Measure
the
side
clearance
of
each

piston
ring
and

groove

with
a
feeler

gauge
as
shown
in

Fig
A
25
If
the
side
clearance
is

excessive
new

rings
should
be
fitted
The
clearance

required
for

new

pistons
a

piston
rings
can
be
found
in
Technical
Data

Check
the

piston
ring
gap
by
placing
the

ring
in
the

cylinder

bore
as
shown
in

Fig
A
26
The

ring
can

be

squared
in
the

bore

by
pushing
it
into

position
with
the

piston
Measure
the

ring
gaps

with
a
feeler

gauge
and

compare
the
dimensions
with
the
infor

mation

given
in
Technical
Data

NOTE
If
new

piston
rings
are
to

be
fitted
and
the

cylinder

has
not
been
rebafed
check
the

piston
ring
gap
with

the

ring
positioned
at
the
bottom
of
the

cylinder

This
being
the

position
with
the
least
amount
of
wear

O1eck
the
clearance
between

gudgeon
pin
and

piston
If

the

specified
limit
is
exceeded
it
will
be

necessary
to

replace

both

piston
and

pin
It
should
be

possible
to

press
the

gudgeon

pin
into
the

piston
by
hand
at
a
room

temperature
of
200C

680F
The

pin
should
be
a
tight

press
fit
in
the

connecting

rod

CONNECTING
RODS

O1ecking

Cleck
the

connecting
rods
for
bends
or

twists

using
a

guitable

connecting
rod

aligner
The
maximum
deviation
should

not
exceed
0

05
mm
0
0020
in

per
100
mm
3
94
in

length

of
rod

Straighten
or

replace

any
rod
which
does
not

comply

with
the

specified
limit

When

replacing
the
connecting
rod
it
is
essential
to
ensure

that
the

weight
difference
between
new
and
old
rods
is
within

5

gr
0
18
oz
for
the
1400
cc

engine
and
7

gr
0
25
oz
for

the
1600
and
1800
cc

engines

Install
the
connecting
rods
with

bearings
to

the

correspond

ing
crank

pins
and
measure
the
end

play
of
the

big
ends
s
e

Fig
A
27
The
end

play
should
be
between
0
2
0
3
mm

0
0079
0
0118
in
fthe
maximum
limit
of
0
6
mm
0
Ql18

in
is
exceeded
the
connecting
rod

must
be

replaced

CRANKSHAFT

Inspection
and
Overhaul

aean
the
crankshaft

thoroughly
before

checking
the
shaft

for
distortion
and
cracks

Measure
the

journals
and

crankpins
for
our
of
round
If

the

journals
and

pins
are
found
to
be
oval
or

if
the
wear

limit

exceeds
the

specified
fUnning
clearance
it
will

be
necessary
to

re
llrind
the
crankshaft
to

the

required
undersize
See
Technical
I

INNER
DIAMETER

82
45
82
60mm
3
24613
2520
in

82
4S
82
60mm
3
24613
2520
in

82
4S
82
60mm
3
24613
2520
in

Data

Place
the
crankshaft
in
V
blocks
as
shown
in
Fig
A
28

and
check
with
the
aid
of
a
dial

gauge
that
the
shaft

bending

limit
of
0
05
mm
0
002
in
is
not
exceeded
With
the
dial

gauge

positioned
against
the
centre

journal
the
crankshaft
should
be

rotated

by
one
turn
The
actual
bend
value
will
be
a
half
of
the

reading
obtained
on
the

gauge
If
the

specified
limit
is
exceeded

it
will
be

necessary
to

replace
the
crankshaft

Install
the
crankshaft
in
the
cylinder
block
and
check
the

crankshaft
end
float
which
should
be
be
J
Yieen
0
05
0
18
mm

0
0020
0
0071
in
Make
sure
that
the
main
drive
shaft

pilot

bushing
at
the
rear
of
the
crankshaft
is
not
worn
or

damaged
in

any
way
Replace
the

bushing
if

necessary
using
the

special

puller
STl
66
1000
I

Thoroughly
clean
the
bushing
hole
before

installing
and

press
in
the
new

bushing
without

oiling
so
that
its

height

above
the

flange
end
is
4
5
5
0
mm
0
18
0
20
in

Main

bearing
clearance

The
main
bearing
clearances
can
be
checked

using
a

strip

of

plastigage
Set
the
main
bearings
on
the

caps
Cut
the

plasti

gage
to
the
width
of
the

bearing
and

place
it

along
the

crankpin

making
sure
that
it
is
clear
of

the
oil
hole
Install
the
bearing

caps
and

tighten
the
bearing

cap
bolts
to
a

torque
reading
of
4
5

5
5

kgm
33
40
Ib
ft
DO
NOT
turn
the
crankshaft
when

the

plastigage
is
inserted
Remove
the
main

bearing
cap
and
take

out
the

plastigage
which
should
be
measured
at
its
widest

po
t

with
the
scale

printed
in
the
plastigage
envelope
The
standard

clearance
is
0
020
0
062
mm
0
0008
0
0024
in
with
a
wear

limit
of
0
1
mm
0
0039
in
If
the

specified
limit
is
exceeded

an
undersize

bearing
must

be
used
and
the
crankshaft
journal

ground
accordingly
See
Technical
Data

Bearings
are
available

in
four
undersize
of
0
25
0
50
0
75
and
1
00
mm
0
0098

0
0197
0
0295
and
0
0394
in

Connecting
rod

bearing
clearance

The

connecting
rod

bearing
clearances
should
be
checked

in
a
similar
manner
to

the
main

bearing
clearances
The
standard

clearance
is
0
025
0
055
mm
0
0010
0
0022
in
with
a
wear

limit
of
0
1
mm
0
0039
in
Undersize
bearings
must
be
fitted

and
the

crankpins
reground
if
the

specified
wear
limit
is
ex

ceeded
See
Technical
Data

Bearings
are
available
in
six
under

sizes
of
0
6
0
12
0
25
0
50
0
75
and
1
00
mm
0
0236

0
0047
0
0098
0
0197
0
0295
and
0
0394
in

Fitting
the
crankshaft

bearings

Cb
eck
the
fit
of
the

bearing
shells
in
the
following
manner

Install
the
shells
on
the
main

bearing
caps
and

cylinder
block

bearing
recess

and

tighten
the

cap
bolts
to
the

specified
torque

13

Engine
model

Number
of

cylinders

Arrangement
of

cylinders

Cubic

capaci
ty

Bore
x
stroke

Arrangemen
t
of

valves

Max
B
H
P

Max

torque

Firing
order

eidlingspeed

Compression
ratio

Oil

pressure

Valve
clearance

hot

Inlet

Exhaust

Valve
clearance
cold

Inlet

Exhaust

Valve
head

diameter

Inlet

Exhaust

Valve
stem

diameter

Inlet

Exhaust

Valve
lift

Valve

spring
free

length

Valve

spring
fitted

length

Valve

spring
coil
diameter

Valve

guide
length

Inlet

Exhaust

Valve

guide
protrusion
rreclll11cal
ata
L

lJEngine

LI3

4

In
line

1296

83
0
x
59
9

3
2677
x
3583
in

Overhead
camshaft

77
at
6000

rpm

II
1

kgm
at
3600

rpm

I
342

600

rpm

8
5
1

3
8
4
2

kg
sq
em

54
60Ib

sq
in

VALVES

0
25
mm
0
010
in

0
30
mm
0
01
in

0

20
mm
0
008

in

0
25
mm
O
OIJ
in

38
mm
1
50
in

33
mm

1
30
in

8
0
mm
0
31
in

8
0
mm
0
31
in

10
0

mm
0
40
in

48
12
mm

1
89
in

40
0
mm
30
7

kg

1
57
in
67

7
lb

34
9
mm
1
37
in

59
0
mm
2
32

in

59
0
mm
2
32
in

10
4
10
6
mm
0
41
0
42
in

Valve

guide
inner
diameter

Inlet

8
00
8

l
8
mm
0
315
0
3154

in

Exhaust
8
00
8
018
mm
0
315

0
3154

in

Valve

guide
outer
diameter

Inlet

Exhaust

Valve

guide
to
stem
clearance

Inlet

Exhaust

20
11
985
11
996
mm
0
472
0
4723

in

11
985
11
996
mm
0
4172
0
4723

in

0
015
0
045
mm
0
0006
0
0018

in

0
040
0
070
mm
0
0016
0
0028

in
Valve
seat
width

Inlet

Exhaust

V
lve
seat

angle

Valve
seat

insert
interference

fit

Inlet

Exhaust

Valve

guide
interference
fit

Inlet
1
4
1
8
mm
0
055
0
071
in

1
6
2
0
mm
0
063
0
079
in

450

0
08
0
11
mm
0
0031
0
0043

in

0
06
0
10

mm
0
0024
0
0039

in

0
027
0
049
mm
0
0011
0
0019

in

CAMSHAFT
AND
TIMING
GEAR

Camshaft
end

play

Camshaft
lobe
lift

Camshaft

journal
diameter

Max
camshaft
run
out

Camshaft

bearing
to

journal

clearance

Camshaft

bearing
inner

diameter
0
08
0
38
mm

0
0011
0
0019
in

6
65
mm
0
261
in

47
949
47
962
mm
fI
8877

1
8883
in

0
05
mm

0
002
in

0
038
0
076
mm
0
0015
0
0026

in

48
000
48
016
mm

1
8898

1
8904
in

CONNECTING
RODS

Distance
from
centre
to
centre
132
97

133
03
mm
5
235

5
237
in

Bearing
shell
thickness

Standard

Big
end
side

play

Connecting
rod

bearing

running
clearance

Connecting
rod

rend
or

twist
1
498
1
506
mm
0
059
0
593

in

0
20
0
30

mm
0
008
0
012
in

0
014
0
056
mm
0
0006
0
0022

in

0
03
mm

per
100
mm
0
0012

in

per
3
937

in

CRANKSHAFT
AND
MAIN

BEARINGS

Crankshaft
material

Number

of

bearings

Main

journal
diameter

Max

journal

taper

Max

journal
out
of
round

Crankshaft
end

play
Special

forged
steel

5

54
942
54
955
mm
2
1631

2
1636

in

0
03
mm
0
0012
in

0
03
mm
0
0012
in

0
05
0
015
mm
0
002
0
0059

in

Wear
limit

Crank

pin
journal
diameter

Max
crankpin
taper

Max

crankpin
out
of
round

Thickness
of
main

bearing

shells
0
3
mm
0
012

in

49
961
49
975
mm

1
967
1
9675

in

0
03
mm
0
012
in

0
03
mm
0
012
in

1
827
1
835
mm
0
072
0
0722

in

Main

bearing
running
clearance

0
020
0
062
mm
0
0008
0
0024

in

Max
main

bearing
running

clearance

Crankshaft
bend
limit

Material

Type

Piston
diameters

Standard

I
st
oversize

2nd
oversize

3rd
oversize

4th
oversize

5th
oversize

Width
of

ring
grooves

Top
and
second

Oil
control

Piston

running
clearance
0
12
mm

0
0047
in

0
05
mm
0
002
in

PISTONS

Cast
aluminium

Slipper
skirt

82
99
83
04
mm
3
267
3
269

in

83
22
83
27
mm
3
276
3
278

in

83
47
83
52
mm
3
286
3
288

in

83
72
83
77
mm
3
296
3
298

in

83
97
84
02
mm
3
305
3
308

in

84
47
84
52
mm
3
326
3
328

in

2
0
mm
0
08
in

4
0
mm

0
16
in

0
025
0
045
mm
0
001
0
002

in

PISTON
PIN

Pin
diameter
20
995
21
000
mm
0
8266

0
8268

in

Pin

length
72
00
72
25
mm
2
8346
2
8445

in

Pin

running
clearance
in

piston
0
008
0
010
mm
0
0003
0
0004

in

Pin
interference
fit
in
small
end
bush

0
015
0
033
mm
0
0006
0
0013

in

Piston

ring
height

Top
and
second

Oil
control

Side
clearance
in

grooves

Top
PISTON
RINGS

2
0
mm
0
08
in

4
0
mm
0
16
in

0
040
0
073
mm
0
0016
0
0029

in
Second

Oil
control

Piston

ring
gaps

Top

Second

Oil
control

Material

Distortion
of

sealing
face

Max
distortion

Valve
seat
insert
material

Inlet

Exhaust

Fit

Drive

Chain

Chain
tensioner
0
030
0
063
mm
0
0012
0
0025

in

0
025
0
063
mm
0
001
0
0025

in

0
23
0
38
mm
0
0091
0
0150

in

0
15
0
30
mm

0
006
0
012

in

0
15
0
30
mm
0
006
0
012
in

CYLINDER
HEAD

Aluminium

alloy

0
03
mm
0
0012
in

0
1
mm
0
004
in

Aluminium
bronze

Special
cast

Hot

pressed

CAMSHAFT
DRIVE

From
crankshaft

double
roller

type

Spring
and
oil

pressure
control

Engine
model
lWIN
CHOKE
CARBURE
ITOR

Outlet
diameter

Venturi
diameter

Main

jet

Main
air
bleed

Slow

running
jet

Power

jet

Float
level

Fuel

pressure

Weight

Altitude

setting
main

jet

1000
m
3300
ft
94

2000
m
6600

ft
92

3000
m

10
000

ft
89

4000
m

13
300
ft
87

5000
m

16
600
ft
85
PRIMARY
L13

SECONDARY

30mm

27x
12mm

150

90

180
26
mm

21
x
8
mm

96

80

43

40

23
I
mm
0
905
0
04

in

0
24

kg
sq
em
3
41b

sq
in

2
55

kg
5
61
lb

1

21

TechnIcal
Data
L
14
16
and
18

Engine

GENERAL
SPECIFICATIONS

Cylinders

Displacement

L14

L16

L18

Bore
and
stroke

L14

L16

Ll8

Compression
ratio

L14

L16

single
carburettor

L16
SU

twin
carburettor

L18

single
carburettor

Ll8

SU
twin
carburettor

Valve

arrangement

Firing
order

e

idling
speed

Engine

idling
speed
with
automatic
transmission

Oil

pressure
Hot
at
2000
r

p
m

Valve

clearance
Hot

Intake

Exhaust
0
25
mm
0
0098

in

0
25
mm
0
0098
in

Valve
clearance

Cold

Intake

Exhaust

Va
head
diameter

L14

Intake

Exhaust

Vahoe
head
diameter
L16

Intake

Exhaust
0
20

mm
0
0079

in

0
20
mm

0
0079

in

38
mm
1
5361
in

33
mm

1
2992

in

42
mm

1
6535

in

33
rom
1
2992
in

Valve
head
diameter

L18

Intake

Exhaust
42
mm

1
6535
in

35
mm
1
3780

in

Valve
stem
diameter

Intake

7
965
7
980
mm
0
3136
0
3142
in

Exhaust

7
945
7
960
mm

0
3128
0
3134
in

Valve

length
L14

Intake

Exhaust
115

6
115
9mm
4
551
4

562in

115
7
116
0
mm

4
555
4
567
in

Valve

length
L16
LIB

Intake

114

9
115
2
mm
4
524
4
535

in

Exhaust

115
7
116
0
mm

4
555
4
567
in

22
4
in
line

1428

cc
87
1
cu
in

1595
cc
97
3
cu
in

1770

cc

108
0
cu
in

83
x
66
mm

3
27
x
2
60
in

83

x
73
7
mm
3
27
x
2
90
in

85
x
7B
mm
3
35
x
3
07
in

9
0

8
5

9
5

8
5

9
5

Overhead
valve

I
3
4

600
r

p
m

single
carburettor
650
r

p
m
twin
carburettor

650

r

p
m

single
carburettor

700
r

p
m
twin

carburettor

3
5
4
0

kg
sq
cm

50
57Ib

sq
in

VALVES

Valve
lift

Single
carburettor

Valve
lift

Twin
carburettor
10
0
mm
0
3946

in

10
5
mm

0
413
in

Valve

spring
free

length
LI4

Ll4
Intake

Ll4

Exhaust
outer

L14
Exhaust
inner

Valve

sprin8
free

length
L16
LIB

Outer

Inner
49
0
mm

1
929
in

49
98
mm
1
968

in

44
85

mm

1
766
in

49
98
mm

1
968

in

44
85
mm
1
766
in

59
0
mm

2
393
in

10
6
mm

0
417
in
Valve

guide
length

Valve

guide
height
from
head
surface

Valve
guide
diameter
inner

Intake
8
018

Exhaust
8
018

Valve

guide
diameter
outer

Intake

12

034

Exhaust

12
034

Valve

guide
to
stem
clearance

Intake

Exhaust

Valve
seat
width
L14

Intake

Exhaust

Valve
seat

width
L16
LIB

Intake

Exhaust
8
000

mm
0
3154

0
3150
in
clia

8
000
mm

0
3154

0
3150
in
clia

12
023
mm
0
4738
0
4733

in
clia

12
023

mm
0
4738
0
4733

in
clia

1
8
mm

1
1024
in

I
7
mm
1
0630
in

I

4
mm

0
0551
in

1
3
mm
0
0512

in

0
020
0
053
mm
0
0008
0
0021
in

0
040
0
073

mm
0
0016
0
0029
in

liB
Oversizes

Ring

groove
width

Top
ring

Second

ring

Oil

ring

Piston
to
bore

clearanl
e

Pin
diameter

I
ength

Ll4
Ll6

Ll8

Pin
to

piston
clearance

Pin
interference
fit
in
small
end
bush

Piston

ring
height

Top

Second

Side
clearance

Ll4
Ll6

Top
ring

LI8

Top

ring

Second

ring

Ring

gap

U4

Top
ring

U4
Second

ring

Ll6

Top
ring

L
16
Second

ring

U8

Top
ring

U8
Second

ring

Oil

ring

Oil

pump

Oearance
between
inner

and
outer
rotor

Rotor

tip
clearance

Oearance
between
outer
rotor

and

body

Rotor
to

bottom
cover

clearance

Oil

pressure
at

idling

Oil

pressure
relief
valve

spring

Free
length

Fitted

length

Relief
valve

opening

pressure

24
85465485
515
mm
3
648
667
ill

86
065
86
015
mm

13
3844
33864
in

0
mm
CO
0787

in

0
mm
0
0787
in

4
0
mm
0
1
q
c
in

0
025
0
045
mm
0
0010
0
0018
in

PISTON
PIN

20
995
1
000
mm

0
8266

0
8168
in

72
00

72
25

0
001

0
Dl5
72
25
mm

2
8346
2
8445
in

73
00
mm

2
8445

2
8740
in

0
013
mm
0
00004
0
00051
in

0

033
mm
0
0006
0
0013
in

PISTON

RING

1
977
mm
0
0778

in

1
977
mm
0
0778
in

0
040
0
080
mm
0
0016
0
0031
in

0
045
0
080
mm

0
0018
0
0031
in

0
030
0
070
mm
0
0012
0
0028
in

0
23
0
38
mm
0
0091

0
0150

in

0
15
0
30
mm
0
0059
0
0118
in

0
25
0
40
mm
0

0098
0
0157
in

0
15
0
30
mm
0
0059
0
0118
in

0
35
0

55
mm
0
0138
0
0217
in

0
30
0
50mm
0
0118
0
0197
in

0
30
0

90
mm
0
0118
0
0354
in

LUBRICATION

SYSTEM

Rotor

Pump

0
05
0
12
mm
0

0020
0
0047

in

less
than
0
12
mm
0
0047
in

0
15
0
21
mm
0
0059
0
0083
in

0
03
0

13
mm
0
0012
0
0051
in

0
8
2
8

kg
sq
cm
11
40
Ib

sq
ln

52
5
mm

2
067
in

34
8
mm

1
370
in

3
5
5
0

kg
sq
cm

50
71
Ib

sq
ln

The
thermostat
can
be

tested

by
suspending
it
with
a

thermometer
in
a

container
ftlled
with
water

Heat
the
water

gradually
and
stir
it
to

obtain
a
uniform

temperature
Maintain

a
constant

check
of
the

temperature
and

make
sure

that
neither
the
thermostat

or
thermometer

touch

the
sides
of
the
container
or
false

readings
will
be
obtained

The
thermostat
should

begin
to

open
at
a

temperature
of

820C

1
50C

179
60F
2

70Fj
and
should
be

fully

open

with
a
maximum
valve
lift
of
8
mm

0
315
in
at
a

temperature

of

950C
2030F

When

installing
the
thermostat

apply
adhesive
to

both
sides

of
the

gasket
before

refitting
the
water
outlet
elbow

RADIATOR
Removal

Drain

the

cooling

system
as

previously
described
and
remove

the
front

grille

2
Disconnect

the
radiator

upper
hose
lower

hose
and
hose
to

the
reservoir
tank

3
Remove
the

radiator

securing
bolts

and
lift
out
the

radiator

Fig
B
4
It
should
be
noted
that
cars
fitted

with
automatic
transmission

incorporate
a
transmission
oil
cooler

which
must

be
disconnected

Installation

is
a

reversal
of
the
removal

procedure
refill

the

system
as

previously
described

FLUID
COUPLING

The
water

pump
is

equipped
with

a
fluid

coupling
on

vehicles
fitted
with
an

air
conditioner

The
fluid

coupling

Limits

the
maximum
fan

speed
to

approximately
3000

r

p
ro

and
eliminates
noise

and
loss
of

power
at

high
engine

speeds

A
fault
in
the

coupling
may
be
caused

by
the

entry
of

foreign
matter

If
a
fault

developes
the

oupling
must
be

removed
and
dismantled

and
the
interior
cleaned

by

washing

in
solvent
The
condition
of
the
seal

and

bearing
must
be
care

fully
checked

and
the

coupling
replaced
if
the
latter

items
have

become
blackened
If
oil
leaks
occur

it
will
be

necessary
to

replace
the

water

pump
assembly
with
the

coupling
After

cleaning
the
unit
refill

with
11
5
cc
silicon
oil

using
a

suitable

syringe

TechnIcal

Data

Radiator

Radiator

cap
working
pressure

Radiator
core

heightxwidth

x

thickness

1400

and
1600
cc

engines
510

body

1600
and
1800
cc

engines
610

body
Corrugated
fin

type

0
9

kg

sq
cm

13Ib
sq
in

280x488x38mm

I
LOx
19
2x
1
49

in

360x502x32mm

l4
2x19

8x1
26
in

Thermostat

valve

opening

temperature

Standard

B20C
l
BOOF

Cold
climates
880C

1900F

Tropical
climates

76
50C
l700F

Max
valve
lift

Cooling
system

capacity

With

heater

Without
heater

Cooling
system

capacity

With

heater
Above
8
mm
0
31
in

6
8litres

1
75
US

gall

1
5

Imp
gall

6
4litres

1
75
US

gall

1
375

Imp
gall

1600

and
1800
cc

engines
610

body

6
5litres
l
7

US

gall

1
375

Imp
gall

6
0

Iitres
1
625
US

gall

1
375

Imp

gall
Without
heater

27

cage
Mcasure
the
clearance
between
the

rear
face
of
thc
side

gear
and
the
differential
cage
as

shown
in

Fig
G
ll

and
if

necessary
use
a

tluust
washer

which
will

given
a

clearance
of

0
1
0
2mm
0
004
0
008
in
Fit
the

pinion
shaft
lock

pin

and
secure
it

by
caulking
with
a

punch
Lubricate
the

gear
teeth

and
check
the

gear
for
freedom
of
rotation

Install
the
crown
wheel
in
the

differential

cage
and
insert

the
bolts
with
new
lock

straps
Tap
the
head
of
each
bolt

lightly

and

tighten
the
bolts
in
a

diagonal

pattern
to
a

torque
reading

of
7
0
8
0

kgm
51
58Ib
ft
Measure
the
width
of

the
side

bearings
before

installing
them
Place
a

weight
of
2
5

kg
5
5
1b

on
the

bearings
and
check
the
nominal
width
which
should
be

20mm
0
787
in
Press
the

side

bearings
into
the
differential

cage

Adjustment
of
drive

pinion

preload

This

adjustment
is
carried
out
without

fitting
the
oil
seal

Press
the
front
and
rear

bearing
outer
races

into
the

gear
carrier

and
fit

the

pinion
height
adjusting
washer

Fig
G
12
the

shims

and
the
rear

bearing
inner
race
onto

a

dummy
shaft

special
tool
ST
31
120000
The
old
washers
and

shims
can

be

re
used
if
the
tooth
contact

pattern
was
found
to
be

correct

on
the

pre
dismantling
check
Fit
the
drive

pinion
bearing
spacer

the
washer
ans

special
collar
5T
312140000
or
5T
31500000

and

the
drive

flange
on
to

the

dummy
shaft

Tighten
the
drive

pinion
nut
to
a

torque
reading
of
17

20

kgm
123
145
Ib

ft

Measure

the
drive

pinion
bearing
pre
load
and
select
washers
and

spacers
to

give
a

pre
load

of
7
1
0

kg
cm
6

9Ib
in
with
new

bearings
or
3

6
kg
cm
2

6
5
Ib
in
with
used

bearings

Adjusting

spacers
are
available
in

lengths
of
56
2
57
2
mm

2
2126
2

2520
in
and

adjusting
washers
in
thicknesses
of

59
2
31
mm
0
1020
0
0909
in

Adjustment
of

pinion
height

The

pinion
height
or
distance

of
the
face
of
the

pinion
to

the
axis
of
the

crownwheel
is

adjusted
by
the
thickness
of
the

adjusting
washer
behind
the
drive

pinion
gcar

The
drive

pinion
has
a

tolerance
mark
etched
on
its
face

this
tokrance
is

accompanied
by
a

or

sign
to
show
the

deviation
from
the
nominal
dimension
Thc

plus
sign
indicates

that

the
nominal
distance
must
be
increased
and

the
minus

sign
that
it
mllst
be
decreased
The
tolerances
are
shown
in

Fig

G
I3

The

pinion
height
can

be

adjusted
using
the

original

adjusting
washer
and
shims
between
the
rear

bearing
cone

and

the

drive

pinion
Install
the

setting
gauge
5T
31210000
on
the

carrier
with
the

dummy
pinion
installed
Sce

Fig
G
14

Measure
the
clearance
between
the
head
of
the

dummy

shaft

and
the
tip
of
the

setting
g
wge
using
a
feeler

gauge
as

shown
in

Fig
G
15
The
clearance
is

also
shown
at
the

point

T
in
Fig
G
14
The

required
thickness
of
the

adj
lsting

washer
can

be
obtained

using
the
following
formula

S
W

T
H
x

0
01
0
20

Where
W

thickness
of
inserted
shims
and
washers

T
Measured
thickness

H
Figure
engraved
on

pinion
head
o

S

Required
thickn
ss
of
washers
and
shims

A

typical
example
is
given
below

w

20
1
20

T

H

S
340
0
24
2
x
0
01

0
20
3
40
mm

0
24
mm

3
46
mm

An
adjusting
washer
rrlust
be
selected
which
is
nearest
in

thickness
to
the
value
of
3
46mm
Adjusting
washers
are
available

in
thicknesses
of
3
09mm
0
01217
in
to
3
66m
0
1441
in

for
the
l800cc
models
and
in
thicknesses
of
O

2
and
2
4mm

0
787
0
866
and
0
945
in

for
the
1400
and
1600
cc
models

Fit
the
selected

adjusting
washer
and
shims
to
the
drive

pinion
and

press
on
the
rear

bearing
inner

race
Install
the
drive

pinion
into
the
differential
carrier

together
with
the

bearing

spacer
and
washer

the
front

bearing
inner
race
and
the
front

bearing
pilot
spacer

Fit
the
drive
flange
and
washer
on
the
drive

pinion
and

secure
them
with
the

pinion
nut

Tighten
the
nut
to
a
torque

reading
of
17
20

kgm
123
145Ib
ft

SIDE
BEARING
SHIMS
Selecting

The
side

bearing
pre
load
must

be
adjusted
with
selected

shims

if
the

differential
carrier
the

cage
the
side
bearings
or

the
bearing
covers
have
been
renewed

The

required
thickness
of

the
shims
can
be
obtained

using

the

following
formula
and

referring
to

Fig
G
l
5

T1
left
side
bearing
A
C
GI
D
E
H
x
0
01

0
76

T2

right
side
bearing
B
D
G2
F
H
x
0
01
0
76

Where

A
B

C
D

E
F
The

figure
on
the
differential
carrier

The

figure
on
the
differential

cage

The
differences
in
width
of
the
left
or

right
hand

bearings
against
the
nominal
width
of
20
0mm

0
7874
in

given
in
units
of
1
100
mm

Gl

G2

H
The

figure
on

the
side
cover

The
figure
on
the
crownwheel

The
A
B
C
D
G
and
H

figures
indicate
the
dimensional

variations
in
units
of
1
100
mm
fr
Jm
the
standard
measurement

An

example
of
the
calculations
to
decide
the
thickness
of
shim

required
is

given
below

Where

A
I
B
2
C
2
D
1
GI
3
G2
1
E
O
Olmm
F

O
02mm
H

Left
side

bearing

Tl
A

C
G
1
D
H
x

0
01
0
76
E

I
3
1
2
x

0
01
0
76
0
01
0
8mm

Right
side

bearing

T2
B
D
G2
H
x
0
01
0
76
F

2

I
I
2

x
0
01
0
76
0
02
0
8mm

67