clock DATSUN B110 1973 Service Owner's Manual
Page 319 of 513
ENGINE
Adjusting
throttle
opener
setting
engine
speed
1
Connect
servo
diaphragm
vacuum
hose
directly
to
intake
manifold
connector
without
laying
through
vacuum
control
valve
2
With
negative
pressure
vacuum
in
intake
manifold
servo
diaphragm
operates
and
thus
the
primary
throttle
valve
is
opened
When
servo
diaphragm
nor
mally
operates
engine
speed
rises
reaching
1
650
to
1
850
rpm
When
engine
speed
is
not
within
this
range
turn
adjusting
screw
as
necessary
See
Figure
ET
20
l
When
engine
speed
is
lower
than
the
prescribed
range
turn
adjusting
screw
clockwise
2
When
engine
speed
is
higher
than
the
prescribed
range
turn
adjusting
screw
counterclockwise
Upon
completion
of
the
adjustment
set
adjusting
screw
lock
nut
secwely
making
sure
that
engine
speed
is
in
the
prescribed
range
@
II
I
AdJustmg
screw
2
Lock
nut
Fig
ET
20
Servo
diaphragm
adjusting
screw
Servo
diaphragm
Servo
diaphragm
stroke
Link
EC015
3
Disconnect
servo
diaphragm
vacuum
hose
from
intake
manifold
and
connect
it
to
vacuum
control
valve
Connect
vacuum
hose
of
control
valve
to
intake
manifold
normal
piping
Racing
Place
shift
lever
in
neutral
for
MfT
or
N
or
p
for
AlT
Raise
engine
speed
up
to
approximately
3
000
rpm
under
no
load
and
close
throttle
valve
by
releasing
it
from
hand
Examine
engine
speed
to
see
whether
it
falls
to
idling
speed
I
When
engine
revolution
rails
to
idling
speed
See
Figure
ET
24
The
primary
throttle
valve
is
opened
by
the
link
connected
to
it
When
the
engine
speed
is
increased
to
approximately
3
000
rpm
and
lowered
natually
from
this
speed
changes
in
servo
diaphragm
link
stroke
manifold
vacuum
and
en
ine
speed
are
as
shown
in
Figure
ET
21
o
u
u
0
2
Se
o
diaphragm
link
stroke
I
u
2
Full
0
o
Intake
manifold
vacuum
u
c
E
c
O
3000
c
e
Engine
speed
2000
g
i
c
1000
T
j
Time
second
Fig
ET
21
Changes
in
servo
diaphragm
link
stroke
intake
manifold
vacuum
and
engine
speed
ET
14
Page 321 of 513
ENGINE
How
to
read
Figure
ET
22
Determining
operating
pressure
and
adjustment
of
vacuum
control
valve
1
When
atmospheric
pressure
is
known
operating
pressure
is
found
by
following
the
arrow
line
A
When
altitude
is
known
operating
pressure
is
found
by
following
the
arroW
line
B
2
Turn
the
adjusting
screw
of
the
vacuum
control
valve
See
Figure
ET
23
and
adjsut
the
vacuum
control
valve
so
that
negative
pressure
in
the
intake
manifold
is
suspended
for
a
few
seconds
at
the
value
of
operating
pressure
found
as
described
in
I
above
while
the
engine
speed
decreases
from
3
000
to
1
000
rpm
I
Vacuum
adjusting
screw
2
Vacuum
control
valve
3
Lock
screw
4
Throttle
opener
solenoid
5
Control
valve
assembly
Fig
ET
23
Vacuum
control
valve
II
When
engine
revolution
does
not
fall
to
tdling
speed
Intake
manifold
I
Throttle
opene
operating
I
vacuum
curve
when
racing
Operating
pressure
Idling
Engine
evolution
3
000
rpm
Notes
a
When
turning
the
vacuum
adjusting
scre
N
do
not
depress
the
screw
with
a
screwdriver
b
When
measuring
operating
pressure
be
sure
to
tighten
the
lock
screw
of
the
vacuum
control
valve
first
c
When
the
servo
diaphragm
does
not
draw
the
link
or
operating
pressure
is
high
vacuum
turn
the
vacuum
adjusting
screw
clockwise
When
the
servo
diaphragm
draws
the
link
at
idling
speed
or
operating
pressure
is
low
vacuum
turn
the
vacu
um
adjusting
screw
counterclockwise
Set
lock
screw
stationarily
repeat
the
above
described
adjustment
and
make
sure
that
tho
operating
pressure
is
correct
and
that
the
engine
speed
settles
down
at
the
rated
idling
speed
When
engine
revolution
does
not
CaU
to
idling
speed
See
Figure
ET
24
When
the
engine
revolution
does
not
fall
to
the
idling
speed
it
is
necessary
to
reduce
the
idling
negative
pressure
of
the
intake
manifold
lower
than
the
operating
pressure
of
the
throttle
opener
See
Figure
ET
24
case
of
Il
Il
I
When
engine
revolution
falls
to
idling
speed
Intake
manifold
I
Throttle
opene
operating
I
vacuun
curve
when
racing
No
load
No
load
Operating
pressure
I
I
I
I
I
I
I
I
I
Idling
Engine
revolution
3
000
rpm
Fig
EY
24
Characteristic
curves
of
throttle
opener
In
this
case
B
it
is
necessary
to
labour
the
engine
on
road
I
by
chassis
dynamometer
2
or
by
raising
rear
axle
by
stand
3
The
car
should
then
be
accelerated
from
64
to
80
kro
h
40
to
SO
MPH
in
top
gear
for
M
T
or
0
position
for
A
T
After
the
above
procedure
has
been
completed
the
ET
16
Page 408 of 513
FUEL
SYSTEM
c
Oke
valve
1
Or
Rubber
band
Fig
EF
2B
Adjusting
choke
unloadeT
Hi
metal
setting
Measurement
of
bi
metal
heater
resistance
Install
the
bi
metal
cover
in
place
on
the
carburetor
Make
sure
that
the
resistance
across
the
terminal
and
the
carburetor
body
is
in
the
range
from
8
6
to
9
0
ohms
Measure
the
resistance
without
electric
current
through
the
heater
and
at
about
210e
700F
Note
Use
an
accurate
measuring
instrument
such
as
a
wheatstone
bridge
2
Bi
metal
cover
setting
Position
the
hi
metal
cover
until
the
index
mark
is
aligned
at
the
middle
point
of
the
scale
Note
When
somewhat
over
choked
set
bi
metal
cover
after
turning
it
clockwise
slightly
Fig
EF
29
Setting
hi
metal
cover
EF
17
Page 445 of 513
ENGINE
ElECTRICAL
SYSTEM
Ambient
temperature
Rated
regulating
voltage
roC
OF
V
10
14
14
6
to
15
6
0
32
14
45
to
15
45
10
50
14
3
to
15
3
20
68
14
15
to
15
15
30
86
14
0
to
15
0
40
104
13
85
to
14
85
Note
8
Do
not
measure
voltage
immediately
after
driv
ing
Do
this
while
regulator
is
cold
b
To
measure
voltage
raise
engine
speed
gradual
ly
from
idling
to
rated
speed
c
Voltage
may
be
approximately
O
3V
higher
than
the
rated
for
two
to
three
minutes
after
engine
is
started
or
more
specifically
when
regulator
becomes
self
heated
Measurements
should
then
be
made
within
one
minute
after
starting
engine
or
when
regulator
is
cold
d
The
regulator
is
of
a
temperature
compensating
type
Before
measuring
voltage
be
sure
to
meas
ure
surrounding
temperature
and
correct
measure
ments
according
to
the
table
in
the
left
hand
side
ADJUSTMENT
Voltage
regulator
As
the
result
of
above
measurement
when
the
regu
lating
voltage
is
deviated
from
the
rated
value
adjust
the
regulator
in
accordance
with
the
following
instructions
I
Inspect
contact
surface
and
if
rough
lightly
polish
the
surface
with
fine
emery
paper
500
or
600
2
Measure
each
gap
and
adjust
if
necessary
Adjust
the
core
gap
and
point
gap
in
that
order
No
adjustment
is
required
for
the
yoke
gap
J
Adjusting
core
gap
Loosen
the
screw
4
mm
0
1575
in
diameter
which
is
used
to
secure
the
contact
set
on
the
yoke
and
move
the
contact
upward
or
downward
properly
See
Figure
EE
53
t
2
I
I
EE056
4
mm
dia
0
1575
in
dia
screw
Cross
head
screwdriver
Contact
set
Thickness
gauge
Fig
EE
53
Adjusting
COTe
gap
4
Adjusting
point
gap
Loosen
the
screw
3
mm
0
1181
in
diameter
used
to
secure
the
upper
contact
and
move
the
upper
contact
upward
or
downward
adequately
See
Figure
EE
54
EE057
1
Thickness
gauge
2
3
mm
dia
0
1181
in
dia
screw
3
Cross
head
screwdriver
4
Upper
con
tact
Fig
EE
54
Adjusting
point
gap
5
Adjusting
voltage
Adjust
regulating
voltage
with
the
adjusting
screw
When
increasing
voltage
loosen
the
lock
nut
used
to
secure
the
adjusting
screw
and
turn
the
adjusting
screw
clockwise
When
decreasing
turn
this
screw
counterclock
wise
See
Figure
EE
55
EE
25
Page 455 of 513
ENGINE
ElECTRICAL
SYSTEM
SPECIFICATIONS
AND
SERVICE
DATA
Specifications
Make
and
type
0412
80
0412
89
for
Manual
for
Automatic
Transmission
Transmission
Firing
order
1
3
4
2
I
3
4
2
Rotating
direction
Counterclockwise
Counterclockwise
Dwell
angle
49
550
49
550
Condenser
capacity
J
lF
0
20
to
0
24
0
20
to
0
24
Service
data
Point
gap
mm
in
0
45
to
0
55
0
0177
to
0
0217
0
50
to
0
65
1
1
to
1
4
Point
pressure
kg
lb
Condenser
capacity
p
F
Micro
Farad
0
20
to
0
24
Condenser
isolate
resistance
M
1
Mega
Ohms
5
Cap
carbon
point
mm
in
rom
in
Housing
inner
diameter
mm
in
12
0
472
0
010
D
0004
12
45
0
020
0
4902
D
0008
12
45
018
0
4902
0007
Shaft
diameter
lower
part
Clearance
between
shaft
and
housing
mm
in
Amendment
limit
of
clearance
mm
in
0
010
to
0
Q38
0
0004
to
0
0015
0
08
0
0031
8
0
005
0
3150
0
0002
D
O
14
D
0006
8
O
15
0
3150
0006
0
005
to
0
029
0
0002
to
0
00
II
Shaft
diameter
upper
part
mm
in
earn
inner
diameter
rom
in
Clearance
between
shaft
and
cam
mm
in
EE
35