1969 DATSUN 610 oil

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

inter
lW
j

@lPX

TT
Y

Gw

PRIMARY
COIL

RESISTOR

I
I

l1@

l
I

IGNITION
U

SECONDARY

COIL
COIL

IS
AK
R
POIN

i

1
1

DISTRISUTOR

I

1
J

ISI
V

nl
N

I

TO
STARTER

l

1
ROTOR
HEAD

r
SPARK
PLUG

Fig
C
t

Ignition
sys
em
circuit

diagram

i
II

@

1
1

@

J

i
9

28

l

I
i
1

I

I

@

@

G
N

7

Fig
C

2lgnition
distributor

1

Shaft
assembly

2
Collar

assembly

3
Cam
assembly

4
Governor

weights

5
Governor
spring

6
Rowr

head

7

Breaker
plate
8
Contact
set

9
Tennirtal

assembly

10
Vacuum
control

J
1
Condenser

12

Distributor
cap

13
Carbon

point

14
Plate

15

CIilmp

IgnItIon
System

DESCRII
TION

IGNITION
TIMING

IGNITION
DISTRIBUTOR
Maintenance

ADJUSTING
THE
CONTACT
BREAKER
GAP

CENTRIFUGAL
ADVANCE
MECHANISM

VACUUM
ADVANCE
MECHANISM

IGNITION
DISTRIBUTOR
Removal
and

Dismantling

IGNITION
DISTRIBUTOR

Assembling
and
Installation

SPARKING

PLUGS

DESCRII
TION

The

ignition
circuit

comprises
the
distributor

ignition
coil

ignition
switch

spark
plugs
high
tension
lead
and
the

battery

See
Fig
C
1

The
Hitachi
distributor
is
shown
in

exploded
form
in

Fig

C
2

19niton

timing
is

automatically
regulated
by
the
distributor

centrifugal
advance
mechanism
or
vacuum
advance
mechanism

depending
upon
the

demand
made
on

the
engine

The
vacuum
advance
mechanism

operates
under
part

throttle

only
and
uses
intake
manifold

depression
to
advance
the

ignition
timing
When
the

engine
speed
is
increased
the
vacuum

is

inoperative
and
ignition
timing
is

regulated
by
the

centrifugal

advance
mechanism

The

centrifugal
advance
mechanism
uses
a

system
of

governor
weights
and

springs
which
turn
the
carn

assembly
in
on

anti
clockwise
direction
to

advance
the

ignition
timing
As
the

engine
speed
is
decreased
the

weights
move
back
and
allow
the

cam
to
return

thereby
retarding
the

ignition
timing

The

ignition
coil
is
an
oil
filled
unit

comprising
a
coil

around
which
is
wound
the

secondary
and

primary
windings
The

number
of
turns
in
the

primary
winding
provide
a

high
secondary

voltage
throughout
the

speed
range
The
resistor
is
automatically

by
passed
at
the
moment
of

starting
and
allows
the

ignition

coil
to

be

directly
connected
to

the

battery
This
applies
the

full

battery
voltage
to
the

coil
to

give
the

necessary
staTting

boost

When
the
starter
switch
is
released
the
current
flows
through

the
resistor
and
the

voltage
through
the
coil
is

dropped
for

normal

running
purposes

IGNITION
TIMING

The

ignition
timing
can

be

accurately
checked

using
a

stroboscopic
timing
light
which
should
be
connected
in
accor

dance
with
the
manufacturers
instructions

Make
sure
that
the

timing
marks
on
the
crankshaft

pulley

are
visible
if

they
are
not
visible
mark

them
with
chalk

or

white

paint
Each
mark

represents
a
50
division
of
the
crank

angle

Disconnect
the
distributor
vacuum

line
start

the

engine

and
allow
it
to
run
at
normal

idling
speed
or

slightly
below

Point
the

timing
light
at
the

timing
pointer
on
the
front
cover

Fig
C
3
The
crankshaft

pulley
groove
should

appear

to

be

stationery
and

aligned
with
the

pointer
on
the
front
cover

The

top
dead
centre
mark
is
located
at
the
extreme

right
as

shown
in
the
illustration
If
the

setting
requires
adjustment
the

distributor

flange
bolts
must
be
slackened
and
the
distributor

body
turned
clockwise
to
advance
or
anti
clockwise
to
retard

the

timing
See
Technical
Data
for

timing
settings

After

adjusting
the

timing
tighten
the
distributor

flange

bolts
and
recheck
the

timing

IGNITION
DISTRIBUTOR
Maintenance

Remove
the
distributor

cap
by
easing
away
the
two

clamps

and
examine
the

points
for

signs
of

burning
or

pitting
The

points
can
be
cleaned
if

necessary
using
a
fine

grade
of
oilstone

or
file
The
faces
of
the

points
must
be

completely
flat
and

parallel
and
all
abrasive
dust
removed
with

compressed
air
If

the

points
are

excessively
pitted
they
must

be
renewed
and

grease

applied
to
the

moving
contact

pivot
and
the
surface
of

the
cam

Ensure
that
the
distributor

cap
is

thoroughly
clean
both
inside

and
outside
A

contaminated

cap
will

promote
tracking

indicated

by
black
lines
and
caused

by
electrical

leakage
between

the

segments
on
the
inside
of

the

cap
Make
sure
that
the

carbon

button
is
not
worn
Both
the
distributor

cap
and
rotor

must
be
renewed
if

they
are
cracked
or

damaged

IGNITION
DISTRIBUTOR

Adjusting
the
contact

breaker

gap

To

adjust
the
contact
breaker

points
remove
the
distributor

cap
and

pull
the
rotor
off

the
cam

spindle

Turn
the

engine
until

the
heel
of
the
contact
breaker
arm

is

positioned
on
the
cam

lobe
the
contact

breaker

gap
is
set
to

the
maximum
in
this

position

Slacken
the

adjusting
screw

Fig
CA
insert
a
feeler

gauge

between
the

points
and

adjust
the
breaker

plate
until
the
re

quired
gap
of
0
45
0
55
mm
0
0177
0
0217
in

is
obtained

Tighten
the

adjusting
screw
and
recheck
the

setting
After

the
contact
breaker

gap
has
been

adjusted
check
the

ignition

timing
as

previously
described

The
tension
of
the
contact
breaker
should
be
0
5
0
65

kg

I
I
I
4
lb
Measure
the
tension
with
a

gauge
and
at
900
to

the
contact
breaker
arm

29

CENTRIFUGAL
ADVANCE
MECHANISM

Special
equipment
is

required
to
check
the
advance

characteristics
It
is

possible
however
to

carry
out
an
exam

ination
of

the
caffi

assembly
and
the

weights
and

springs
to

ensure
that
the
earn
is
not

seizing

Lift
off
the
distributor

cap
and
turn
the
rotor
anti
clock

wise
When

the
rotor

is
released
is
should
return
to

the
fully

retarded

position
without

sticking
If
it

does
not
return
to
the

fully
retarded

position
it
will
be

necessary
to
check
for

dirt

and
weak

springs

It
should
be
noted
that

any
wear
in
the

mechanism
or

lose
of

spring
tension
will

upset
the
advance
characteristics
and

cause

unsatisfactory
engine
running
performance
over
the

speed

range

VACUUM
ADVANCE
MECHANISM

The

diaphragm
of
the
vacuum
advance

mechanism
is

mechanically
connected
to
the
contact
breaker

plate
The
rise

and
fall
of
inlet
manifold

depression
causes

the

diaphragm
to

move

the
contact
breaker

plate
to

advance
or

retard
the

ignition

If
the
vacuum

control
unit
fails
to

function

correctly
a

check
can
be
carried
out
to
ensure
that
the
contact
breaker

plate

is

moving
freely
and
that
the

three
steel

balls
at

the

top
and

oottom
of
the

plate
are

adequately
lubricated

Also
make
sure
that
the
vacuum
inlet

pipe
is
not
blocked

or

leaking
and
is

securely
tightened

Leakage
may
be
due
to
a

defective

diaphragm
which

should

be
renewed

along
with

any
other

faulty
part
of
the
mechanism

IGNITION
DlSTRffiUTOR
Removal

and

Dismantling

Disconnect
the

battery
leads

2
Disconnect
the

high
tension
lead
at

the
coil

3
Withdraw

the
high
tension
leads
from
the
distributor

cap

4
Detach
the
suction

pipe
from
the
vacuum
control
unit

5
Mark
the

position
of
the
distributor
and
rotor
remove
the

flange
mounting
bolts

and
withdraw
the
distributor

To
dismantle
the
distributor

proceed
as

follows

Take
off
the
distributor

cap
and
remove

the
rotor

Slacken

the
two
set
screws

holding
the
contact
breaker

upper
plate

Remove
the

primary
cable
terminals
and
withdraw
the
contact

set
from

the
distributor
Fig
C
S
Remove
the
vacuum
control

unit

c
Remove
the
two
screws
and
lift
out
the
contact

breaker

plate
detach
the

clamp
the
terminal
and
the
lead

To
remove
the
cam
take
out
the
centre
screw
as

shown
in

Fig
e
6
Drive
out

the
drive

pinion
retaining
pin
with
a
drift

and
hammer
Fig
e
and
remove
the

pinion
and
washer
Take

care
not
to
stretch
or
deform
the

governor
springs
when

detaching

them
from
the

weights

IGNITION
DISTRIBUTOR

Assembling
and

Installing

Assembly
is
a
reversal
of
the

dismantling
procedure

Lubricate
the

moving
contact

pivot
and
smear
the
lobes
of
the

cam
with
multi

purpose
grease

If

the
centrifugal
advance
mechanism
has
been
dismantled

the

governor
springs
and
cams
must
be
refitted
as

shown
in

Fig
e
8
The

governor
weight

pin
6
should
be
fitted
into

the

longer
of
the
two
slots

leaving
a
certain
amount
of

clearance

for
the
start

and
end
of
the

centrifugal
advance
movement

When

installing
the
distributor
take
care
to

align
the

body

and
rotor

with
the
marks
made
during
removal
The
rotor
must

be

positioned
in
its

original
location
it
will
turn

slightly
when

the
distributor
is
inserted
and
the

gear
teeth
mesh
Remove
and

replace
the
distributor
if

the
rotor
does
not

point
to
the

align

ment

mark
until
both
distributor

body
and
rotor
are
correctly

aligned

SPARKING
PLUGS

The

sparking
plugs
should
be

inspected
and
cleaned
at

regular
intervals
not

exceeding

every
10
000
km
6000
miles

New

sparking
plugs
should
be
fitted
at

approximately
20
000

km
12
000
miles

Remove
the

plugs
and
check
the
amount
of
electrode

wear
and

type
of

deposits
Brown
to

greyish
tan

deposits
with

slight
electrode
wear

indicate
that
the

plugs
are

satisfactory
and

working
in

the
correct
heat

range

Dry
fluffy
carbon

deposits
are
caused

by
too

rich
a
mixture

dirty
air
cleaner
excessive
idling
or

faulty
ignition
In
this

case

it
is
advisable
to

replace
the

plugs
with

plugs
having
a

higher
heat

range
Oily
wet
black

deposits
are
an

indication

of

oil
in

the
combustion
chambers

through
worn

pistons
and

rings
or
excessive
clearance
between
valve

guides
and
stems

The

engine
should
be
overhauled
and
hotter

plugs
installed
A

white
or

light
grey
centre

electrode
and
bluish
burned
side

electrode
indicates

engine
overheating
incorrect

ignition
timing

loose

plugs
low
fuel

pump
pressure
or
incorrect

grade
of
fuel

Colder

sparking
plugs
should
be
fitted

The

plugs
should
be
cleaned
on
a

blasting
machine
and

tested
Dress
the
electrodes
with
a
small
file
so
that
the
surfaces

of
both
electrodes
are
flat
and

parallel
Adjust
the
spark
plug

gap
to
0
8
0
9
mm
0
031
0
035
in

by
bending
the
earth

electrode
Refit
the

plugs
and

tighten
them
to
a

torque
reading

of
1
5
2
5

kgm
II
15Ib
ft

31

TechnIcal
Data

IGNITION
DISTRIBUTOR

Type

L16
ll8
with

single
carbl

L16
L18
with
twin
arb

L14

Firing
order

Rotation

Ignition
timing
BTDC

0411
58K

0409
54K

0411
63

Dwen

angle
Hitachi
D411
58K

Hitachi
D409
54
K

Hitachi
0411
63

I
3
4

2

anticlockwise

100
at
600
r

p
m

140
at
650
c

p
m

80
at
600
r

p
m

49
550

Contact

point

gap
setting

Contact

spring
tension
0
45
0
55
mm
O
OI77
0
0217
in

0
50
0
65

kg
l
l
0
I
43
lb

Condenser

capacity
0
22
0
44
F

IGNITION
COil

Type

Spark
plugs

With

single
carb

With
twin
carb

Plug

gap

Tightening
torque
Hitachi
6
R
200

NGK
BP
5ES

NGK
BP
6ES

0
8
0
9
mm
0
031
0
035
in

1
5
2
5

kgm
II
15Ib
ft

1300cc

engine
IGNITION
TIMING

Adjustment

100
B
T
D
C
600
r

p
m

32