1969 DATSUN 610 fuel pump
[x] Cancel search: fuel pumpPage 38 of 171
Carburettor
type
Throttle
opening
angle
190
200
Dimension
A
213282
341
213282
221
l
3mm
0
051
in
I
4mm
0
056in
If
adjustment
is
required
the
choke
connecting
rod
can
be
carefully
bent
until
the
required
clearance
is
obtained
THROTTLE
VALVES
INTERLOCK
OPENING
ADJUSfMENT
Open
the
primary
throttle
valve
500
from
the
fully
closed
position
as
shown
in
Fig
D
I
O
At
this
angle
the
connecting
link
2
should
be
at
the
extreme
right
of
the
groove
in
the
primary
throttle
arm
The
linkage
between
the
primary
and
the
secondary
throttles
is
operating
correctly
if
the
clearance
C
between
the
primary
throttle
valve
and
the
wall
of
the
chamber
is
as
follows
Carburettor
type
213304
361
213304
421
213282
331
213282
341
Dimension
C
6
3
mm
0
248
in
6
3
mm
0
248
in
74
mm
0
291
in
74
mm
0
291
in
Adjustment
can
be
made
if
necessary
by
bending
the
connecting
link
until
the
required
clearance
is
obtained
DASHPOT
ADJUSfMENT
This
adjustment
is
only
required
on
carburettors
fitted
to
vehicles
with
automatic
transmission
Correct
contact
must
be
made
between
the
throttle
lever
and
the
dashpot
stem
See
Fig
D
II
Adjustment
can
be
carried
out
if
necessary
by
slackening
the
locknut
2
and
then
rotating
the
dashpot
in
either
direction
so
that
the
throttle
ann
touches
the
stem
at
a
throttle
valve
opening
angle
of
110
At
this
angle
the
clearance
B
between
the
throttle
valve
and
the
wall
of
the
chamber
should
be
as
follows
Carburettor
type
213304
421
213282
341
Dimension
B
0
780mm
90
0307
in
0
586mm
0
0231
in
Retighten
the
locknut
after
completing
the
adjustment
CARBURETTOR
Removal
and
Overhaul
The
carburettor
can
be
removed
from
the
engine
in
the
following
manner
Remove
the
air
cleaner
assembly
2
Disconnect
the
fuel
and
vacuum
pipes
and
the
choke
wire
from
the
carburettor
3
Remove
the
throttle
lever
and
take
off
the
nuts
and
washers
securing
the
carburettor
to
the
manifold
4
Lift
the
carburettor
away
from
the
manifold
and
discard
the
gasket
To
dismantle
the
carburettor
for
a
complete
overhaul
remove
the
primary
and
secondary
main
jets
and
needle
valves
these
are
accessible
from
the
exterior
of
the
carburettor
Remove
the
choke
connecting
rod
pump
lever
return
spring
and
set
screws
and
take
off
the
choke
chamber
The
primary
and
secondary
emulsion
tubes
can
be
with
drawn
after
removing
the
main
air
bleed
screws
If
the
accelerator
pump
is
to
be
checked
take
off
the
pump
cover
but
take
care
not
to
lose
the
return
spring
and
inlet
valve
ball
situated
at
the
lower
part
of
the
piston
Separate
the
throttle
chamber
from
the
float
chamber
by
removing
the
retaining
screws
leave
the
throttle
valve
intact
unless
otherwise
required
All
parts
of
the
carburettor
must
be
ctifefully
cleaned
and
sediment
gum
or
other
deposits
removed
Clean
the
jets
by
blowing
through
them
with
compressed
air
Never
push
wire
through
the
j
ts
or
passages
or
the
orifices
will
be
enlarged
and
the
calibration
affected
Check
all
parts
for
signs
of
wear
and
exchange
them
if
necessary
Examine
the
float
needle
and
seat
for
wear
and
make
sure
that
the
throttle
and
choke
bores
in
the
throttle
body
and
cover
are
not
worn
or
out
of
round
If
the
idling
adjustment
needles
have
burrs
or
ridges
they
must
be
replaced
Inspect
the
gaskets
to
make
sure
that
they
are
not
hard
and
brittle
or
distorted
Oean
the
filter
screen
if
it
is
clogged
or
change
it
if
it
is
otherwist
unsatisfactory
Check
the
operation
of
the
accelerator
pump
by
pouring
petrol
into
the
float
chamber
and
operating
the
throttle
lever
Petrol
should
spurt
from
the
pump
discharge
jet
if
the
pump
is
working
correctly
If
petrol
cannot
be
ejected
from
the
jet
when
the
lever
is
actuated
clean
the
discharge
jet
by
blowing
through
it
with
compressed
air
CARBURETTOR
Assembly
and
Installation
The
assembly
and
installation
of
the
carburettor
is
a
reversal
of
the
dismantling
and
removal
procedures
noting
the
following
points
Always
replace
the
gaskets
if
they
are
not
satisfactory
and
take
care
that
the
carburettor
linkage
operates
smoothly
and
is
not
bent
or
distorted
The
performance
of
the
carburettor
will
depend
on
the
condition
of
the
jets
and
air
bleeds
As
previously
stated
these
pacts
should
be
cleaned
using
petrol
and
compressed
air
only
Replacement
jets
or
air
bleed
screws
can
be
used
to
provide
greater
economy
or
to
increase
output
whatever
the
require
ment
When
the
carburettor
is
installed
adjust
the
idling
speed
as
previously
described
37
Page 43 of 171
Connect
the
fuel
line
from
the
float
chamber
to
the
nozzle
nipple
and
tighten
the
retaining
clip
Pull
out
the
choke
lever
and
place
the
connecting
plaie
betw
n
the
washer
and
sleeve
collar
Screw
the
plate
to
the
nozzle
head
and
check
that
the
collar
is
installed
in
the
hole
in
the
plate
by
mo
ing
the
choke
lever
as
necessary
Recheck
the
piston
to
make
sure
that
it
falls
freely
without
binding
SU
TWIN
CARBURETTOR
Centering
the
jet
Remove
the
damper
oil
cap
nut
and
gradually
raise
the
lifter
pin
4
in
Fig
D
17
Continue
to
raise
the
lifter
pin
until
the
head
of
the
pin
raises
the
piston
by
approximately
8
mm
0
31
in
When
the
lifter
pin
is
released
the
piston
should
drop
freely
and
strike
the
venturi
with
a
light
metallic
click
If
the
pi
ston
does
not
fall
freely
it
will
be
necessary
to
dismantle
the
carburettor
in
the
manner
previously
described
SU
TWIN
CARBURETTOR
FLOAT
LEVEL
Inspection
and
Adjustment
The
fuel
level
in
the
float
chamber
can
be
checked
using
the
special
gauge
ST
19200000
Remove
the
float
chamber
drain
plug
and
install
the
special
gauge
as
shown
in
Fig
D
20
Start
the
engine
and
allow
it
to
run
at
idling
speed
The
fuel
level
is
conect
if
it
is
indicated
on
the
glass
tu
be
at
a
distance
of
22
24
mm
0
866
0
945
in
below
the
top
of
the
float
chamber
The
level
of
the
fuel
can
be
corrected
if
necessary
by
adjusting
the
float
level
in
the
following
manner
Take
out
the
float
chamber
coveT
securing
screws
and
lift
off
the
cover
and
attached
float
lever
Hold
the
cover
so
that
the
float
lev
r
is
facing
upwards
Lift
the
float
lever
and
then
lower
it
until
the
float
lever
seat
just
contacts
the
valve
stem
The
dimension
uH
in
Fig
D
1
should
be
11
12
mm
0
43
0
47
in
and
can
be
corrected
by
bending
the
float
lever
at
the
point
indicated
SU
TWIN
CARBURETTOR
Starting
interlock
valve
opening
adjustment
To
adjust
the
starting
interlock
opening
the
connecting
rod
4
in
Fig
D
22
1
must
be
bent
using
a
suitable
pair
of
pliers
The
throttle
opening
can
be
increased
by
lengthening
the
connecting
rod
or
reduced
by
shortening
the
rod
The
throttle
opening
is
correctly
adjusted
when
the
clearance
8
between
the
throttle
valve
and
throttle
chamber
is
set
to
0
6
mm
0
023
in
with
the
choke
lever
half
completely
out
HYDRAULIC
DAMPER
The
damper
oil
should
be
checked
approximately
every
5000
km
3000
miles
To
check
the
oil
level
remove
the
oil
cap
nut
as
shown
in
Fig
D
23
and
check
the
level
of
oil
against
the
two
grooves
on
the
plunger
rod
Top
up
with
SAE
20
engine
oil
if
the
oil
level
is
below
the
lower
of
the
two
grooves
Take
care
not
to
bend
the
plunger
rod
when
removing
and
replacing
the
oil
cap
nut
and
make
sure
that
the
nut
is
sufficiently
tightened
by
hand
TechnIcal
Data
Engine
Model
Ll4
I400cc
Primary
Secondary
28mm
32mm
21x7mrn
28xlOmm
96
165
60
60
I
Omm
220
100
1
6
Outlet
diameter
Venturi
diameter
Main
jet
Main
air
bleed
1
st
slow
air
bleed
2nd
slow
air
bleed
Economizer
Power
jet
Float
level
Fuel
pressure
Main
nozzle
55
22mm
0
24
kg
sq
cm
3
41b
sq
in
2
2mm
2
Smm
SU
Twin
Carburettors
Type
Bore
diameter
Piston
lift
Jet
needle
Nozzle
jet
diameter
Suction
spring
IUL
38
W6
38mm
1
4961
in
29mm
1417
in
M
76
2
34
mm
0
0921
in
No
23
Float
needle
valve
inner
diameter
Float
level
1
5mm
0
059
in
23mm
0
9055
in
42
Ll6
1600cc
Primary
Secondary
28mm
32mm
22x7mm
29xlOmm
102
165
60
60
1
0mm
180
100
1
6
Ll8
l80Occ
Primary
Secondary
30mm
34mm
23x14x7mm
30xlOmm
102
170
60
60
I
Omm
210
100
1
6
55
22mm
55
22m
2
3mm
2
5mm
2
3mm
2
8mm
Throttle
clearance
at
full
throttle
Position
at
full
throttle
0
6mm
0
0236
in
6
50
FUEL
PUMP
Type
Delivery
amount
Mechanical
1000cc
minute
at
1000
r
p
m
0
18
0
24
kg
sq
cm
2
5
3
41b
sq
in
from
eccentric
on
cam
shaft
Delivery
pressure
Drive
Page 126 of 171
N
Engme
SYMPTOMS
I
Trouble
Shooting
Lubrication
System
SYMPTOMS
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ENGINE
STARTS
BUT
RUNS
FOR
SHORT
PERIODS
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Y
ENGINE
I
tISFIRES
AT
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ENGINE
MISFIRES
AT
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ENGINE
MISFIRES
AT
ALL
SPEEDS
ENGINE
MISFIRES
ON
ACCELERATION
AND
FAILS
TO
REV
ROUGH
IDLE
RUNS
ROUGH
AT
HIGH
SPEED
lACK
OF
POWER
POOR
CCElERA
nON
LACK
OF
TOP
SPEED
EXCESSIVE
FUEL
CONSUMmON
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Page 127 of 171
Trouble
Shooting
Ignition
System
SYMnONS
be
d
t
f
I
h
ENGINE
CRANKS
IUT
DOES
NOT
nART
ENGINE
STARTS
BUT
RUNS
FOR
SHORT
PERIODS
ONLY
ENGINE
MISfiRES
AT
LOW
SPEED
ENCINE
WlSflRES
AT
HIGH
SPEED
ENGINE
MISFIRES
AT
ALL
SPEEDS
ENCINE
MISfiRES
ON
ACCELERATION
AND
FAI
TO
REV
ROUGH
IDLE
ENGINE
RUNS
ROUCH
AT
toGH
SPEED
UCK
OF
POWER
POOR
ACCELERAnON
LACK
OF
TOP
SPEED
EXCESSIVE
FUEL
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lelklndse
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with
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Repllce
Wllh
Je
Page 134 of 171
GIS
DESCRIYfION
ENGINE
Removal
and
Installation
ENGINE
MOUNTING
INSULATORS
ENGINE
Dismantling
Inspection
and
Overhaul
CHAMSHAFT
AND
CAMSHAFT
BEARINGS
CYLINDER
BLOCK
PISTONS
CONNECTING
RODS
CRANKSHAFT
ENGINE
Assembling
VALVE
CLEARANCE
Adjusting
DESCRIYfION
The
G
18
engine
is
a
short
stroke
unit
with
a
displacement
of
1
815
ce
The
aluminium
alloy
cylinder
head
has
cross
flow
ports
and
a
V
shaped
valve
layout
The
single
overhead
camshaft
is
driven
from
the
crankshaft
by
a
double
row
roller
chain
at
a
reduction
ratio
of
2
I
The
crankshaft
is
a
carbon
steel
forging
and
is
provided
with
five
main
bearings
and
four
balancing
weights
Aluminium
thrust
bearings
are
located
at
the
No
2
journal
The
cast
aluminium
alloy
pistons
have
two
comp
ression
rings
and
one
oil
ring
Gudgeon
pins
are
fully
floating
in
the
piston
bores
and
are
equipped
with
circlips
at
each
end
to
limit
the
amount
of
their
travel
The
forged
steel
connecting
rods
have
weight
adjusting
bosses
at
both
large
and
small
ends
to
insure
that
the
rods
are
correctly
balanced
during
operation
The
lubricating
system
is
of
the
pressure
feed
type
with
the
oil
pump
driven
by
a
gear
on
the
crankshaft
Oil
is
delivered
to
the
main
gallery
via
a
full
flow
ftlter
ENGINE
Removal
and
Installation
Although
the
engine
can
be
removed
as
a
single
unit
it
will
prove
an
easier
operation
to
remove
the
engine
with
the
transmission
Proceed
as
follows
Fit
the
engine
slingers
ST49760000
to
the
engine
Disconnect
the
battery
cables
and
lift
out
the
battery
Drain
the
coolant
and
engine
oil
2
Place
alignment
marks
on
the
bonnet
and
hinges
remove
the
bonnet
from
the
vehicle
3
Remove
the
blow
by
hose
from
the
rocker
cover
and
take
off
the
air
cleaner
4
Disconnect
the
accelerator
linkage
and
choke
cable
from
the
carburettor
S
Detach
the
upper
and
lower
radiator
hoses
remove
the
two
brackets
from
the
core
support
and
lift
the
radia
tor
away
from
the
vehicle
The
torque
convertor
oil
pipes
must
be
disconnected
from
the
oil
cooler
if
the
vehicle
is
equip
ped
with
automatic
transmission
Detach
the
fuel
pipe
if
fitted
from
the
engine
and
heater
hose
6
Disconnect
the
electrical
wires
from
the
alternator
thennal
EngIne
OIL
PUMP
OIL
PRESSURE
RELIEF
VALVE
OIL
FILTER
EMISSION
CONTROL
SYSTEM
IGNITION
TIMING
AND
IDLING
SPEED
Emission
control
system
EMISSION
CONTROL
SYSTEM
Maintenance
IGNITION
SYSTEM
IGNITION
TIMING
IGNITION
DISTRIBUTOR
Maintenance
SPARKING
PLUGS
transmitter
the
primary
side
of
the
distributor
oil
pressure
switch
starter
motor
and
reverse
light
switch
7
Remove
the
clutch
slave
cylinder
and
its
return
spring
from
the
transmission
as
described
in
the
section
CLUTCH
8
Disconnect
the
shift
rods
and
selector
rods
then
remove
the
cross
shaft
assembly
by
detaching
the
bracket
from
the
side
member
See
GEARBOX
section
9
Disconnect
the
speedometer
cable
and
detach
the
front
exhaust
pipe
from
the
exhaust
manifold
10
Disconnect
the
propeller
shaft
and
plug
the
gearbox
rear
extension
to
prevent
the
loss
of
oil
11
Jack
up
the
gearbox
slightly
and
remove
the
rear
engine
mounting
support
Take
out
the
bolts
which
secure
the
front
mounting
insulators
to
the
cross
member
12
Attach
chains
or
wire
rope
to
the
engine
Gradually
lower
the
jack
under
the
gearbox
and
carefully
lift
and
tilt
the
engine
and
gear
box
to
clear
the
compartment
Withdraw
the
unit
making
sure
that
it
does
not
foul
the
accessories
Installation
is
a
reversal
of
the
removal
procedure
RefIll
with
the
correct
quantities
of
oil
and
coolant
when
the
engine
is
installed
ENGINE
MOUNTING
INSULATORS
Replacing
The
front
and
rear
mounting
insulators
should
be
checked
with
the
engine
installed
to
make
sure
that
the
dimensions
conform
with
those
given
in
Figs
A
I
and
A
2
To
remove
the
front
insulator
proceed
as
follows
Position
a
jack
under
the
oil
sump
Make
sure
that
the
jack
is
clear
of
the
drain
plug
and
insert
a
wooden
block
between
the
jack
and
sump
to
prevent
the
sump
from
being
damaged
Remove
the
bolts
securing
the
insulator
to
the
front
suspension
member
and
the
nut
attaching
the
insulator
to
the
engine
mounting
bracket
Raise
the
jack
slightly
and
remove
the
insulator
To
remove
the
rear
mounting
insulator
proceed
as
follows
Position
a
jack
to
take
the
weight
of
the
gearbox
and
take
out
the
bolts
connecting
the
insulator
to
the
transmission
rear
extension
housing
Remove
the
bolts
attaching
the
cross
member
to
the
underside
of
the
body
and
withdraw
the
insulator
Installation
of
both
insulators
is
a
reversal
of
the
removal
procedures
S3
Page 144 of 171
carrying
out
extensive
tests
with
the
necessary
equipment
The
hoses
and
connectors
can
of
course
be
checked
for
signs
of
leakage
and
corrected
as
necessary
Also
the
tension
of
the
air
pump
belt
IGNITION
TIMING
AND
IDLING
SPEED
Emission
control
system
The
ignition
timing
should
be
set
and
the
idling
speed
mixture
adjusted
in
the
folloWing
manner
Run
the
engine
until
it
reaches
its
normal
operating
tem
perature
Connect
an
ignition
tachometer
and
timing
light
observ
ing
the
manufacturers
instructions
NOTE
If
the
vehicle
is
equipped
with
automatic
transmission
make
sure
that
the
dashpot
does
not
prevent
the
throttle
from
closing
Turn
the
throttle
shaft
arm
adjusting
screw
anti
clock
wise
so
that
the
tip
of
the
screw
is
clear
of
the
throttle
shaft
arm
see
Fig
A
26
Turn
the
throttle
adjusting
screw
to
set
the
idling
speed
to
700
r
p
m
650
rpm
for
automatic
transmission
Adjust
the
ignition
timing
to
5
A
T
D
C
Refererence
should
be
made
to
the
instructions
given
in
the
section
IGNITION
SYSTEM
for
the
L14
L16
and
LI8
engines
for
ignition
timing
details
Turn
the
idling
adjustment
screw
and
throttle
adjusting
screw
until
the
engine
runs
smoothly
a
t
the
correct
idling
speed
Turn
the
idling
adjustment
screw
clockwise
until
the
engine
speed
starts
to
drop
as
a
weaker
mix
ture
is
obtained
Now
turn
the
idling
adjustment
screw
anti
clockwise
by
one
turn
one
and
a
half
turns
for
automatic
transmission
to
obtain
a
richer
mix
ture
Adjust
the
idling
speed
to
700
rpm
650
rpm
for
automatic
transmission
by
turning
the
throttle
adjusting
screw
Make
sure
that
the
ignition
timing
remains
at
50
A
T
D
C
Turn
the
throttle
shaft
ann
adjusting
screw
clockwise
until
the
tip
of
the
screw
just
contacts
the
throttle
shaft
ann
The
screw
must
not
exert
pressure
on
the
throttle
shaft
arm
EMISSION
CONTROL
SYSTEM
Maintenance
The
system
should
be
inspected
and
serviced
every
I
2
months
or
20
000
km
12
000
miles
whichever
comes
fIrst
to
make
sure
that
the
exhaust
emissions
are
maintained
at
the
minimum
level
Check
the
carburettor
choke
setting
and
adjust
as
described
in
the
section
FUEL
SYSTEM
Check
the
carburettor
idling
speed
mixture
and
adjust
if
necessary
as
described
under
the
heading
IGNITION
TIMING
AND
IDLING
SPEED
in
this
section
2
Check
the
distributor
earn
dwell
angle
and
also
the
condi
tion
of
the
contact
breaker
points
Check
the
ignition
timing
and
adjust
if
necessary
The
distributor
dwell
angle
should
be
adjusted
to
49
55
degrees
and
the
points
gap
to
0
45
0
55
mm
0
0177
0
0217
in
3
Remove
and
clean
the
sparking
plugs
Renew
any
plug
with
badly
worn
electrodes
Set
the
plug
gaps
to
0
80
0
90
mm
0
0315
0
0355
in
by
adjusting
the
earth
electrode
IGNITION
SYSTEM
The
maintenance
and
servicing
procedures
for
the
compo
nents
of
the
ignition
system
on
vehicles
fitted
with
the
GIS
engine
are
basically
similar
to
the
instructions
previously
given
for
the
Ll4
LI6
and
LIS
engines
The
distributor
is
however
of
a
different
type
Either
an
Hitachi
0416
57
distributor
being
fitted
or
an
Hitachi
0423
53
if
the
vehicle
is
equipped
with
an
emission
control
system
The
distributors
have
different
advance
curve
characteristics
as
shown
in
Technical
Data
IGNITION
TIMING
Check
the
ignition
timing
with
a
timing
light
as
previously
described
for
the
LI4
L16
and
L
8
engines
Disconnect
the
distributor
vacuum
line
and
run
engine
at
idling
speed
or
slightly
below
The
timing
should
be
set
at
8
BTDCj600
rpm
for
the
D416
57
distributor
or
at
5
ATDCj600
rpm
for
the
D423
53
distributor
fItted
to
engines
with
emission
control
systems
IGNITION
DISTRIBUTOR
Maintenance
Maintenance
instructions
are
similar
to
those
given
for
the
L14
LI6
and
L18
engines
Set
the
contact
breaker
points
gap
to
0
45
0
55
mm
0
0177
0
0217
in
as
previously
described
SPARKING
PLUGS
The
sparking
plugs
should
be
inspected
and
cleaned
at
regular
intervals
and
renewed
at
approximately
20
000
kIn
12
000
miles
Clean
the
plugs
thoroughly
and
make
sure
they
are
of
the
same
type
and
heat
range
File
the
centre
electrode
nat
before
adjusting
the
gap
Set
the
gap
to
0
8
0
9mm
0
031
0
035
in
if
the
engine
is
fItted
with
emission
control
system
or
to
0
7
0
8
mm
0
028
0
031
in
if
emission
control
is
not
fitted
Adjustment
must
always
be
made
by
bending
the
earth
electrode
TechnIcal
Data
GENERAL
SPECIFICATION
GI8
Engine
Cylinders
Bore
and
stroke
Displacemen
t
Valve
arrangemen
t
Firing
order
Engine
idler
speed
Compression
ratio
Oil
pressure
at
3000
r
p
m
4
in
line
85x80
mm
3
346x3
150
in
1
815
cc
110
8
cu
in
OHC
134
2
600
r
p
m
STD
8
3
I
4
7
to
5
5
kgjsq
cm
66
8
to
78
2
Ibjsq
in
LIQUID
PACKING
APPLICATION
Cylinder
block
2
Cylinder
head
Oil
gallery
blind
plug
Expansion
plug
Gas
breather
guide
Rear
bearing
cap
fitting
surface
Rear
bearing
cap
side
seal
both
ends
Expansion
plug
Rubber
plug
Rea
Manifold
heat
pipe
3
Chain
cover
gasket
both
sides
S13
Page 148 of 171
Fan
coupling
Pulley
ratio
fan
and
water
pump
Tuning
data
Basic
timing
Idling
speed
Distributor
dwell
angle
Spark
plug
gap
Choke
setting
CO
percent
setting
Fan
rpm
water
pump
rpm
3
300
4
000
120
103
Ll71
50
A
T
D
C
700
rpm
650
rpm
automatic
490
550
at
0
02
in
breaker
gap
0
8IJ
0
90
mm
0
03
I
5
0
0355
in
Manual
6
0
I
0
5
air
supply
hose
disconnected
Air
pump
drive
belt
tensioning
Permissible
slackness
of
8
0
12
0
mm
0
3
15
0
4
72
in
under
a
load
of7
1O
kg
1
54
2
20
lb
IGNITION
SYSTEM
DISTRIBUTOR
Type
Firing
order
Rotation
Igntion
timing
Without
emission
control
With
emission
control
Dwell
angle
Condenser
capacity
Advance
characteristics
D416
57
distributor
Hitachi
D416
57
Hitachi
D423
53
with
emission
control
system
134
2
Anti
clockwise
80
B
T
D
C
at
600
rpm
50
A
T
D
C
at
600
r
p
m
49
to
55
degreos
0
20
0
24
1
F
Centrifugal
Start
Maximum
degree
r
p
m
Vacuum
Start
Maximum
degree
r
p
m
Advance
characteristics
D423
53
distributor
Centrifugal
Start
Maximum
degree
r
p
m
Vacuum
Start
Maximum
degree
r
p
m
IGNITION
COIL
Type
Primary
voltage
Spark
gap
Primary
resistance
Secondary
resistance
SPARKING
PLUGS
Type
Gap
Fuel
Systenl
DESCRIPTION
FUEL
PUMP
Testing
FUEL
PUMP
Removing
and
Dismantling
CARBURETTOR
Idling
adjustment
FUEL
LEVEL
Adjusting
STARTING
INTERLOCK
VALVE
OPENING
THROTTLE
VALVE
INTERLOCK
OPENING
CARBURETIOR
Removing
and
Dismantling
DESCRIPTION
A
dual
barrel
down
draught
type
carburettor
is
fitted
to
vehicles
with
the
G
18
engine
A
Stromberg
type
D3034C
carburet
tor
is
installed
on
engines
with
exhaust
emission
controL
and
a
Solex
type
DAK340
carburettor
on
engines
not
equipped
with
this
type
of
system
Both
types
of
carburettors
incorporate
a
550
r
p
m
01
50
at
I
400
16
50
at
2
800
80
mmHg
6
50
at
200
r
p
m
475
r
p
m
01
50
at
1
000
23
50
at
2
600
80
mm
Hg
30
at
120
r
p
m
go
at
400
r
p
m
Hanshin
HM
12F
or
HP5
I
OE
with
emission
control
system
12
volts
more
than
6
mm
0
2362
in
3
8
ohms
at
200C
I
1
2
I
6
8
ohms
at
200
C
NGK
BP
6E
0
7
0
8
mm
0
028
0
031
in
or
0
80
9
mm
0
031
0
035
in
with
emission
control
system
primary
system
for
normal
running
and
a
secondary
system
for
full
load
running
a
float
assembly
which
supplies
fuel
to
both
primary
and
secondary
systems
a
starting
mechanism
and
accelerator
pump
which
provides
a
richer
mixture
on
accelera
tion
SI7
Page 149 of 171
1
D
1
1
I
i
l
I
1
j
j
w
n
I
UJ
1
j
e
tOll
i
j25z
t2JZ2
21
1
S
Mizin
nozzk
2
S
SmtzJJ
v
nturi
3
S
Main
air
bleed
4
S
Slow
jet
5
S
Slow
air
bleed
6
Needle
WIlve
7
Float
8
S
Emulsion
tube
9
S
Mainjd
10
S
Jly
paD
hol
11
S
Throttle
alve
12
Chob
I1tzhe
13
P
Main
air
bleed
14
P
Afuin
nozzle
15
Economizer
bleed
16
P
Slow
jet
17
Slow
onomiur
18
P
Slow
air
bleed
19
Airl
e
nt
20
Lnel
gauge
21
PMainjel
22
Idle
limitler
23
1dl
24
P
Jly
pa
hol
2S
P
Throttle
vahe
Fig
B
l
Sectional
view
of
the
DAK340
carburettor
Coil
Piiton
Strainer
v
cero
Fig
S
3
Electrical
fuel
pump
SI8
A
It
I
IL
o
l
Cfd
rj
1
l
o
j
11
111
r
J
l
l
b
I
1
1
F700
t
vahle
2
Vacuum
piJton
3
P
Slow
air
bleed
4
Slow
jtt
5
Slow
onomUt
T
6
P
Slow
air
bleM
7
Air
Fent
8
P
Main
air
bl
d
9
P
MiJin
nozzle
10
P
SmaU
venturi
1
J
Ozokt
valPe
12
Pumpnozzk
13
Pump
wd6h1
14
Discharft
check
valve
15
S
SnwU
venturi
17
S
Main
air
bleed
18
Step
air
bleed
19
Pump
arm
Fig
B
2
Sectional
view
of
the
D3034C
carburet
tor
fitted
to
engines
with
emiss
ion
control
5Y5tem
20
Step
jet
21
Pump
plunger
22
Inlet
c1r
k
l
aIve
23
S
Mizin
jet
24
lRtzp
uaun
25
lRtzplrragm
26
Step
port
27
Idle
port
28
P
T1vottk
valve
29
Idk
port
30
S
Dw
port
31
Idkadjust
screw
32
P
MiIin
jet
33
Po
NU
jet
34
Float
I
Ul
l
2
1
Fibre
mat
Nvlon
6
Fig
B
4
Fuel
strainer
Fig
Ii
s
Removing
the
fuel
pump
cover
1