1969 DATSUN 610 battery
[x] Cancel search: batteryPage 113 of 171
inter
E
Q
G2
I
o
Battery
E
A
r
0
c
3
l
I
I
o
I
Voltmeter
Fig
M
15
Testing
the
alternator
@
S
J
I
FJ8
M
lH
Separating
the
front
and
rear
covers
t
112
FJ8
M
17
Removing
the
brush
bolder
1
PuOey
assembly
2
Front
CCJVU
3
Front
bearing
4
Rotor
5
Rear
betrrint
6
Stator
7
RetlTcoPO
8
8
h
assembly
9
Diode
ph
10
Diode
COPO
1lI81
@11
Throughbolt
i
Fig
M
l6Tbe
altematorc
Is
it4
1ttDr
@
lOa
Fig
M
19
Removing
the
rotor
from
me
front
cover
Page 116 of 171
ALTERNATOR
Dismantling
Refening
to
Fig
M
16
remove
the
pulley
nut
and
take
off
the
pulley
rim
fan
and
spacer
Withdraw
the
brush
holder
retaining
screws
and
remove
the
brush
holder
cover
Withdraw
the
holder
and
brushes
as
shown
in
Fig
M
17
Slacken
and
remove
the
three
through
bolts
and
separate
the
diode
housing
from
the
drive
end
housing
by
tapping
the
front
bracket
lightly
with
a
wooden
mallet
Fig
M
18
Remove
the
screws
from
the
bearing
retainer
and
separate
the
rotor
from
the
front
cover
Fig
M
19
Remove
the
rear
bearing
from
the
rotor
assembly
with
the
aid
of
a
puller
as
shown
in
Fig
M
2D
Take
off
the
diode
cover
and
unsolder
the
three
stator
coil
lead
wires
from
the
diode
terminal
Remove
the
A
terminal
nut
and
diode
installation
nut
and
remove
the
diode
assembly
Do
not
force
the
diode
assembly
when
removing
or
it
may
be
damaged
Remove
the
stator
from
the
rear
cover
ALTERNATOR
Inspection
Use
an
ohmmeter
as
shown
in
Fig
M
21
to
test
the
rotor
field
coil
Apply
the
tester
between
the
slip
rings
and
check
that
the
resistance
is
approximately
4
4
ohms
at
normal
ambient
temperature
Check
the
conductivity
between
slip
ring
and
rotor
core
as
shown
in
Fig
M
22
if
conductivity
exists
the
field
coil
or
slip
ring
must
be
earthing
and
the
rotor
assembly
should
be
renewed
Cbeck
the
stator
to
ensure
that
there
is
conductivity
retween
the
individual
stator
coil
terminals
as
shown
in
Fig
M
23
If
there
is
no
conductivity
between
the
individual
terminals
the
stator
is
defective
Check
each
lead
wire
including
the
neutral
wire
as
shown
in
Fig
M
24
If
there
is
conductivity
between
any
wire
and
the
stator
COTe
the
stator
core
is
earthing
and
the
stator
must
be
replaced
Diodes
Three
positive
diodes
are
mounted
on
the
positive
plate
and
three
negative
diodes
are
mounted
on
the
negative
plate
The
diodes
allow
current
to
flow
in
one
direction
only
The
diodes
on
the
positive
plate
only
allow
current
to
flow
from
the
terminal
to
the
positive
plate
whilst
the
diodes
on
the
negative
plate
only
allow
current
to
flow
from
the
negative
plate
to
the
terminal
A
diode
which
allows
current
to
flow
in
ooth
directions
or
does
not
allow
current
to
flow
in
the
correct
direction
is
unserviceable
and
all
six
diodes
must
be
replaced
Use
a
tester
as
shown
in
Figs
M
25
and
M26
to
check
each
diode
Brushes
Check
the
movement
of
the
brushes
in
their
holders
The
brushes
should
move
freely
and
can
be
eased
in
necessary
by
carefully
ming
the
sides
Oean
the
brush
holders
before
replacing
the
brushes
Renew
the
brushes
if
they
are
worn
below
a
length
of
7mm
0
275
in
With
the
brush
projecting
approximately
2mm
0
08
in
from
the
holder
it
is
possible
to
measure
the
brush
spring
pressure
using
a
spring
balance
as
shown
in
Fig
M
27
The
pressure
of
a
new
brush
should
be
255
345
grammes
9
0
12
2
oz
the
pressure
will
however
decrease
by
approxi
mately
20
grammes
per
I
amm
0
039
in
of
wear
ALTERNATOR
Assembly
and
Installation
Asssembly
is
a
reversal
of
the
dismantling
prQcedure
noting
the
following
points
The
stator
coil
lead
wires
must
be
resoldered
to
the
diode
assembly
terminal
as
quickly
as
possible
or
the
diodes
may
be
damaged
When
installing
the
diode
A
tenninal
make
sure
that
the
insulating
bushing
and
tube
are
correctly
fitted
The
pulley
nut
should
he
tightened
to
a
torque
reading
of
350
400
kg
cm
301
344Ib
in
Mount
the
assembly
in
a
vice
as
shown
in
Fig
M
28
and
when
the
pulley
is
tightened
make
sure
that
the
deflection
of
the
pulley
groove
does
not
exceed
O
3mm
m
o
118
in
ilEA
D
LAMPS
Replacing
All
weather
type
sealed
beam
headlamp
units
are
fitted
to
the
vehicle
Each
lamp
is
of
the
double
fIlament
type
with
a
full
beam
filament
of
50W
and
a
dipped
beam
filament
of
40W
The
replacement
of
the
sealed
beam
unit
can
be
carried
out
as
follows
Remove
the
wiring
socket
from
the
back
of
the
headlamp
unit
On
Coupe
models
withdraw
the
screws
attaching
the
front
grille
to
the
radiator
core
support
On
all
other
models
remove
the
three
retaining
screws
and
remove
the
headlamp
rim
Withdraw
the
three
retaining
screws
securing
the
retaining
ring
3
in
Fig
M
29
and
remove
the
sealed
beam
unit
When
installing
a
new
sealed
beam
unit
make
sure
that
the
Top
mark
on
the
ring
is
uppennost
when
fitted
HORNS
The
circuit
for
the
horns
is
shown
in
Fig
M
30
The
horns
can
be
adusted
for
v01ume
and
tone
in
the
following
manner
Remove
the
connector
and
the
retaining
nut
in
the
centre
of
the
horn
withdraw
the
horn
from
the
vehicle
Connect
a
voltmeter
and
ammeter
into
circuit
as
shown
in
Fig
M
3I
Set
the
switch
to
ON
and
check
that
the
voltmeter
shows
a
reading
of
12
to
12
5
volts
The
sound
can
be
regulated
by
turning
the
adjusting
screw
Fig
M
32
A
reading
of
2
5
amps
should
be
obtained
for
the
flat
type
of
horns
or
5
0
amps
for
the
spiral
type
of
horns
Turning
the
adjusting
screw
clockwise
will
increase
the
current
turning
anti
clockwise
decreases
the
current
Install
the
horns
in
the
vehicle
and
check
that
the
correct
sound
can
still
be
obtained
when
the
higher
voltage
of
14
15
volts
is
generated
by
the
alternator
Turn
the
adjusting
slightly
if
necessary
then
tighten
the
locknut
INSTRUMENT
PANEL
Removal
The
instrument
panel
holds
the
various
meters
and
indicators
A
printed
circuit
board
is
located
at
the
rear
of
the
panel
and
the
connections
to
it
are
multiple
connectors
When
the
panel
is
remove
the
instruments
are
easily
withdrawn
for
inspection
and
servicing
Disconnect
the
battery
negative
terminal
2
Remove
the
windscreen
wiper
switch
lighting
switch
and
choke
control
knobs
by
pressing
them
in
and
turning
anticlockwise
Remove
the
escutcheon
3
Disconnect
the
cigarette
lighter
cable
at
the
rear
of
the
instrument
panel
and
turn
the
cigarette
lighter
outer
case
so
that
it
can
be
removed
115
Page 117 of 171
inter
@IP
Fig
M
33
Removing
the
instrument
panel
h
J
I
II
VI
BATTERY
FUSIBLE
LINK
0
3
Br
WASHER
MOTOR
I
ILR
rj
WIPER
MOTO
R
ILR
lity
111
W
J
9P
l
l
0
0
IGNITION
SWITCH
FUSE
BOX
IDA
0
W
ACC
r
WIPER
SWITCH
P
I
2
W
I
X
9
LWI
t
j
LR
Fig
M
36
Circuit
diagram
for
the
windshield
wipers
and
washer
Fig
M
35
Removing
the
wiper
arm
116
Fig
M
34
Wiper
motor
and
linkage
1
Wiper
arm
2
Pivot
3
Wiper
ann
4
Pirot
5
WiTNr
motor
f
Fig
M
37
Steering
lock
installation
1
Steering
lode
cwmp
2
Self
hear
ty
screw
3
Ignition
switch
4
SUmng
lock
Page 118 of 171
4
Remove
the
shell
covers
from
the
steering
column
slacken
the
screws
securing
the
meter
housing
and
withdraw
the
panel
from
the
facia
Fig
M
33
5
Pull
out
the
12
pole
round
shaped
connector
and
remove
the
speedometer
cable
union
nut
then
remove
the
instru
ment
panel
completely
WINDSCREEN
WIPERS
A
two
speed
wiper
motor
is
fitted
The
motor
has
an
auto
stop
mechanism
and
drives
the
wiper
arms
through
a
link
mechanism
located
behind
the
instrument
panel
If
the
wiper
system
does
not
operate
check
the
fuses
connectors
control
switch
and
motor
If
the
wiper
speed
does
not
change
the
switch
must
be
repaired
or
replaced
If
the
wiper
motor
becomes
unserviceable
it
can
be
removed
from
the
vehicle
in
the
fOllowing
manner
I
Remove
the
connector
plug
from
the
motor
See
Fig
M
34
2
Working
from
the
passenger
compartment
side
of
the
dash
panel
remove
the
nut
connecting
the
wiper
motor
worm
wheel
shaft
to
the
connecting
rod
3
Remove
the
three
bolts
securing
the
wiper
motor
to
the
cowl
and
lift
out
the
motor
Battery
Starter
motor
Type
Output
No
load
Terminal
voltage
Current
Revolution
Load
Terminal
voltage
Current
Torque
Brushes
Brush
length
Wear
limit
Spring
tension
Commutator
Standard
outer
diameter
Wear
limit
Depth
of
nuca
Repair
limit
Repair
accuracy
Qearance
between
armature
shaft
and
bushing
Repair
liinit
Repair
accuracy
Armature
shaft
ou
ter
diameter
Pinion
side
Rear
end
Wear
limit
Bend
limit
The
wiper
arms
can
be
removed
quite
easily
by
taking
off
the
attachment
bolt
as
shown
in
Fig
M
J
5
and
then
pullin
the
wiper
arm
from
the
pivot
shaft
When
installing
the
wiper
arm
make
sure
that
the
blade
is
positioned
approximately
27mm
1
06
in
away
from
the
bottom
of
the
windscreen
and
tighten
the
wiper
arm
attachment
bolt
WINDSCREEN
WASHERS
The
windscreen
washer
SWItch
and
wiper
switch
are
com
bined
in
a
single
unit
See
Fig
M
36
the
washers
can
be
operated
by
turning
the
switch
in
the
appropriate
direction
It
should
be
pointed
out
that
it
is
inadvisable
to
operate
the
washers
for
more
than
30
seconds
at
a
time
If
the
washers
are
operated
in
short
spells
of
approximately
10
seconds
duration
their
working
efficiency
will
remain
unimpaired
for
a
considerable
length
of
time
IGNITION
SWITCH
AND
STEERING
LOCK
The
steering
lock
is
built
in
to
the
goition
switch
When
the
key
is
turned
to
the
LOCK
position
and
then
removed
the
steering
system
is
automatically
locked
by
the
steering
lock
spindle
which
engages
in
a
notch
in
the
collar
on
the
steering
shaft
See
Fig
M
37
The
heads
of
the
screws
are
sheared
off
on
installation
so
that
the
steering
lock
system
cannot
be
tampered
with
If
the
steering
lock
is
to
be
replaced
it
will
be
necessary
to
remove
the
two
securing
screws
8
and
then
drill
out
the
self
shearing
screws
7
When
installing
a
new
steering
lock
tighten
the
new
self
shearing
screws
until
the
heads
shear
TechnICal
Data
12
volt
HITACHI
S114
87M
1
0KW
12
volts
Less
than
60
amperes
More
than
7000
r
p
m
6
3
volts
Less
than
420
amperes
More
than
0
9
mkg
6
5
lb
ft
16
mm
0
630
in
6
5mm
0
256
in
0
8
kg
1
8
lb
33mm
1
299
in
2mm
0
078
in
0
2mm
0
008
in
0
5
0
8mm
0
0197
0
0315
in
0
2mm
0
008
in
0
03
O
lmm
0
0012
0
0039
in
13mm
0
512
in
11
5
mm
0
453
in
O
lmm
0
0039
in
0
08
mm
0
0031
in
Oearance
between
pinion
and
stopper
0
3
1
5mm
0
0118
0
0591
in
ALTERNATOR
Type
HITACHI
LTl25
06
HITACHI
LTl33
05
USA
Canada
More
than
18
amps
at
14
volts
2500
r
p
m
More
than
25
amps
at
14
volts
5000
r
p
m
Output
current
LTl25
06
Output
current
LT
133
05
More
than
24
amps
at
14
volts
2500
r
p
m
More
than
33
amps
at
14
volts
5000
r
p
m
Brushes
Lengtb
Wear
limit
Spring
pressure
14
5mm
0
571
In
7mm
0
2756
in
0
25
0
35
kg
0
55
0
771b
Slip
ring
Outer
diameter
Reduction
limit
Repair
limit
Repair
accuracy
31
mm
1
220
in
I
mm
0
039
in
O
3mm
0
0118
in
0
05
mm
0
0197
in
VOLTAGE
REGULATOR
Type
Regulating
voltage
HITACHI
TL
lZ
37
14
3
15
3
volts
at
200C
680F
117
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 150 of 171
The
type
D3034C
carburettor
has
certain
additional
features
These
include
a
power
valve
mechanism
to
improve
the
performance
at
high
speed
a
fuel
cut
off
valve
which
cuts
the
fuel
supply
when
the
ignition
key
is
turned
to
the
off
position
and
an
idling
limiter
to
maintain
the
emissions
below
a
certain
level
Sectional
views
of
the
two
types
of
pumps
are
shown
in
Figs
8
1
and
B
2
An
EP
3
electrical
fuel
pump
is
located
in
the
centre
of
the
spare
wheel
housing
in
the
boot
Fig
B
3
shows
a
sectional
view
of
the
pump
with
its
contact
the
pump
mechanisms
solenoid
relay
and
built
in
filter
The
air
cleaner
uses
a
viscous
paper
type
element
which
should
be
replaced
every
40
000
km
24
000
miles
Cleaning
is
not
required
and
should
not
be
attempted
The
cartridge
type
fuel
strainer
incorporates
a
fibre
clement
which
should
be
renewed
at
inervals
not
exceeding
40
000
km
24
000
miles
Fit
B
4
shows
a
sectional
view
of
the
assembly
The
fuel
lines
should
not
be
disconnected
from
the
strainer
when
the
fuel
tank
is
full
unless
absolutely
necessary
as
the
strainer
is
below
the
fuel
level
FUEL
PUMP
Testing
Disconnect
the
fuel
hose
from
the
pump
outlet
Connect
a
hose
with
an
inner
diameter
of
approximately
6
mm
0
024
in
to
the
pump
outlet
and
place
a
container
under
the
end
of
the
pipe
Note
that
the
inner
diameter
of
the
pipe
must
not
be
too
small
or
the
pipe
will
be
incapable
of
delivering
the
correct
quantity
of
fuel
when
testing
Hold
the
end
of
the
hose
above
the
level
of
the
pump
and
operate
the
pump
for
more
than
IS
seconds
to
check
the
delivery
capacity
The
capacity
should
be
I
400
cc
3
24
U
S
pts
in
one
minute
or
less
The
pump
must
be
removed
from
the
vehicle
if
it
does
not
operate
or
if
a
reduced
quantity
of
fuel
flows
from
the
end
of
the
hose
Remove
the
pump
from
the
vehicle
and
test
as
follows
Connect
the
pump
to
a
fully
charged
battery
If
the
pump
now
operates
and
discharges
fuel
correctly
the
fault
does
not
lie
in
the
pump
but
may
be
attributed
to
any
of
the
following
causes
Battery
voltage
drop
poor
battery
earth
loose
wiring
loose
connections
blocked
hoses
or
a
faulty
carburettor
If
the
pump
does
not
operate
and
discharge
fuel
when
connected
to
the
battery
then
the
pump
itself
is
faulty
and
must
be
checked
as
follows
First
make
sure
that
current
is
flowing
This
will
be
indica
ted
by
sparking
at
the
tenninals
If
current
flows
the
trouble
is
caused
by
a
sticking
pump
plunger
or
piston
The
pump
must
be
dismantled
in
this
case
and
the
parts
thoroughly
cleaned
in
petrol
If
the
current
does
not
flow
a
coil
or
lead
wire
is
broken
and
the
pump
must
be
renewed
A
reduced
fuel
flow
is
caused
by
a
faulty
pump
inlet
or
discharged
valve
or
blocked
filter
mesh
The
pump
must
of
course
be
dismantled
and
serviced
as
necessary
FUEL
PUMP
Removing
and
Dismantling
Remove
the
bolts
attaching
the
fuel
pump
cover
to
the
floor
panel
see
Fig
B
S
Remove
the
bolts
attaching
the
pump
to
the
cover
2
Disconnect
the
cable
and
fuel
hoses
Withdraw
the
pump
Dismantle
as
follows
Slacken
the
locking
band
screws
and
remove
the
strainer
strainer
spring
filter
strainer
seal
and
locking
band
Remove
the
snap
ring
Withdraw
the
four
screws
from
the
yoke
and
remove
the
electromagnetic
ulJ
it
Press
the
plunger
down
and
withdraw
the
inlet
vaive
the
packing
and
the
cylinder
and
plunger
assembly
A
defective
eledrical
unit
cannot
be
dismantled
as
it
is
sealed
and
must
be
renewed
as
a
complete
unit
FUEL
PUMP
Inspection
and
Assembly
Wash
the
strainer
filter
and
gasket
in
petrol
and
dry
using
compressed
air
Renew
the
filter
and
gasket
if
necessary
Note
that
the
filter
should
be
cleaned
every
40
000
km
24
000
miles
Wash
the
plunger
piston
and
inlet
valve
in
petrol
and
make
sure
the
piston
moves
smoothly
in
the
cylinder
Replace
the
parts
if
found
to
be
defective
Insert
the
plunger
assembly
into
the
cylinder
of
the
electri
cal
unit
and
move
the
assembly
up
and
down
to
make
sure
tha
t
the
contacts
are
operated
If
the
contacts
do
not
operate
the
electrical
unit
is
faulty
and
must
be
renewed
Assembly
is
a
reversal
of
the
dismantling
procedures
tak
ing
care
to
renew
the
gaskets
as
necessary
CARBURETIOR
Idling
Adjustment
The
D3034C
carburettor
fitted
to
engines
equipped
with
an
emission
control
system
must
be
adjusted
as
described
under
the
heading
IGNITION
TIMING
AND
IDLING
SPEED
in
the
section
EMISSION
CONTROL
SYSTEM
Reference
should
be
made
to
carburettor
idling
adjustment
procedures
for
the
L14
L16
and
LI8
engines
when
adjusting
the
type
DAK
340
carburettor
fitted
to
the
G
18
engine
A
smooth
engine
speed
of
approximately
550
rpm
should
be
attained
in
this
case
FUEL
lEVEL
Adjustment
DAK
340earburettor
A
constant
fuellevcl
in
the
float
chamber
is
maintained
by
the
float
and
needle
valve
See
Fig
8
6
If
the
fuel
level
does
not
correspond
with
the
level
gauge
line
it
will
be
necessary
to
care
fully
bend
the
float
seat
until
the
float
upper
position
is
correctly
set
The
clearance
H
between
valve
stem
and
float
seat
should
be
I
5
mm
0
0059
in
with
the
float
fully
lifted
Adjustment
can
be
carried
out
by
carefully
bending
the
float
stopper
3
FUEL
lEVEL
Adjustment
D3034Ccarburettnr
The
fuel
level
should
correspond
with
the
level
gauge
line
Adjustment
can
be
carried
out
if
necessary
by
changing
the
gaskets
between
the
float
chamber
body
and
needle
valve
seat
The
gaskets
are
shown
as
item
4
in
Fig
B
7
When
correctly
adjusted
there
should
be
a
clearance
of
approximately
7
mm
0
027
in
between
float
and
chamber
as
indicated
STARTING
INTERLOCK
VALVE
OPENING
The
choke
valve
at
its
fully
closed
position
automatically
opens
the
throttle
valve
to
an
optimum
angle
of
14
degrees
on
the
type
DAK
340
carburettor
and
13
5
degrees
on
the
D3034C
carburettor
With
the
choke
valve
fully
closed
the
clearance
G
I
in
Fig
8
should
be
1
I
mm
0
0433
in
This
clearance
S19