key DATSUN B110 1973 Service Repair Manual
Page 54 of 513
through
all
drive
positions
and
place
the
lever
in
park
P
position
In
this
inspection
the
car
must
be
placed
on
a
level
surface
The
amount
of
the
oil
varies
with
the
temperature
As
a
rule
the
oil
level
must
be
measured
after
its
tempera
ture
becomes
sufficiently
high
I
Fill
the
oil
to
the
line
H
The
difference
of
capacities
between
both
H
and
L
is
approximately
0
4
liter
7
8
U
S
pt
3
4
Imper
pt
and
therefore
take
care
not
to
fill
beyond
the
line
H
2
At
the
time
of
the
above
topping
up
and
changing
of
oil
care
should
be
taken
of
to
prevent
mixing
the
oil
with
dust
and
water
2
Inspecting
oil
condition
The
condition
of
oil
sticking
to
the
level
gauge
indicates
whether
to
over
haul
and
repair
the
transmission
or
look
for
the
defective
part
If
the
oil
has
deteriorated
into
a
varnish
like
quality
it
causes
the
con
trol
valve
to
stick
The
blackened
oil
gives
the
proof
of
the
burned
clutch
brake
band
etc
In
these
cases
the
transmission
must
be
replaced
Notes
a
In
oil
level
checking
use
special
paper
waste
to
handle
the
level
gauge
and
take
care
not
to
let
the
scraps
of
paper
and
cloth
tick
to
the
gauge
b
Insert
the
gauge
fully
and
take
it
out
quickly
before
splashing
oil
adheres
to
the
gauge
and
theu
observe
the
level
c
Use
automatic
transmission
fluid
having
DEXRON
iden
tIficatIon
only
in
the
3N71
B
automatic
transmission
d
Pay
atteutIon
because
the
oil
to
be
used
dIffers
from
that
i
used
in
the
Nissan
Full
Automatic
Transmission
3N7IA
Never
mix
the
oil
with
that
CHASSIS
Inspection
and
repair
of
oil
leakage
When
oil
leakage
takes
place
the
portion
near
the
leakage
is
covered
with
oil
presenting
difficulty
in
de
tecting
the
spot
Therefore
the
places
where
oil
seals
and
gaskets
are
equipped
are
enumerated
below
I
Converter
housing
The
rubber
ring
of
oil
pump
hous
ing
The
oil
eaI
of
oil
pump
housing
The
oil
seal
of
engine
crankshaft
The
bolts
of
converter
housing
to
case
2
Transmission
and
rear
extension
Junction
of
transmission
and
rear
extension
Oil
tube
connectors
Oil
pan
Oil
pressure
inspection
holes
Refer
to
Figure
AT
112
The
mounting
portion
of
vacuum
diaphragm
and
downshift
solenoid
Breather
and
oil
charging
pipe
Speedometer
pinion
sleeve
The
oil
seal
of
rear
extension
To
exactly
locate
the
place
of
oil
leakage
proceeds
as
follows
Place
the
vehicle
in
a
pit
and
by
sampling
the
leaked
oil
examine
whe
ther
it
is
the
torq
le
converter
oil
or
not
The
torque
converter
oil
assumes
color
like
red
wine
when
shipped
from
the
factory
so
it
is
ea
ily
distin
guished
from
engine
oil
or
gear
oil
Cleanly
wipe
off
the
leaking
oil
and
dust
and
detect
the
spot
of
oil
leakage
Use
nonflammable
organic
solvent
such
as
carbon
tetrachloride
for
wip
ing
Raise
the
oil
temperature
by
op
erating
the
engine
and
shift
the
lever
to
0
to
heighten
the
oil
pressure
The
spot
of
oil
leakage
will
then
be
found
more
easily
Note
A
the
oil
leakage
from
the
breather
does
not
take
place
except
when
running
at
high
speed
it
is
impossible
to
locate
the
spot
of
leakage
with
vehicle
stalled
AT
50
Checking
engine
idling
rprn
The
engine
idling
revolution
should
be
properly
adjusted
If
the
engine
revolution
is
too
low
the
engine
does
not
operate
smoothly
and
if
too
high
a
strong
shock
or
creep
develops
when
changing
over
from
N
to
D
or
R
Specified
idling
speed
650
rpm
at
D
position
800
rpm
at
N
position
Checking
and
adjusting
kick
down
switch
and
downshift
solenoid
When
the
kick
down
operation
is
not
made
properly
or
the
speed
chang
ing
point
is
too
high
check
the
kick
down
switch
downshift
solenoid
and
wiring
between
them
When
the
igni
tion
key
is
positioned
at
the
1st
stage
and
the
accelerator
pedal
is
depressed
deeply
the
switch
contact
should
be
closed
and
the
solenoid
should
click
If
it
does
not
click
it
indicates
a
defect
Then
check
each
part
with
the
testing
instruments
See
Figure
AT
I09
0
0
1
M
r
7
I
Y
ATl08
Fig
A
T
l
09
Downshift
solenoid
Note
Watch
for
oil
leakage
from
transmission
case
Page 62 of 513
CHASSIS
Trouble
shooting
guide
for
3N71B
Automatic
Transmission
Order
Test
item
Checking
Oil
level
gauge
2
Downshift
solenoid
3
ManuaIlinkage
4
Inhibitor
switch
5
Engine
idling
rpm
6
Vacuum
pressure
of
vacuum
pipe
7
Operation
in
each
range
8
Creep
of
vehicle
Stall
lest
Oil
pressure
before
testing
2
Stall
test
3
Oil
pressure
after
testing
Road
test
Slow
acceleration
Ist
2nd
2nd
3rd
2
Quick
acceleration
Ist
2nd
2nd
3rd
3
Kick
down
operation
3rd
2nd
or
2nd
1st
Procedure
Check
gauge
for
oil
level
and
leakage
before
and
after
each
test
Check
by
sound
whether
solenoid
operates
when
depressing
accelerating
pedal
fully
with
ignition
key
ON
Check
changing
conditions
into
P
R
N
D
2
and
I
ranges
by
moving
selector
lever
Check
whether
starter
operates
in
N
and
tp
ranges
only
and
whether
reverse
lamp
operates
in
R
range
only
Check
whether
idling
rpm
meet
standard
Checking
whether
vacuum
pressure
is
more
than
450
mmHg
in
idling
and
whether
it
decreases
with
increasing
rpm
Check
whether
transmission
engages
positively
by
shifting
N
o
D
N
2
N
I
and
N
R
range
while
idling
with
brake
applied
Check
whether
there
is
any
creep
in
D
2
I
and
R
ranges
2
1
and
R
range
Measure
line
pressures
in
D
while
idling
Measure
engine
rpm
and
line
pressure
in
D
2
I
and
R
ranges
during
fullthrallIe
operation
Notes
a
Temperature
of
torque
converter
oil
used
in
test
should
be
from
600
to
lOOoC
1400
to
2120F
i
e
sufficiently
warmed
up
but
not
overheated
b
For
cooling
oil
between
each
stall
test
for
D
2
1
and
R
ranges
idle
engine
i
e
rpm
at
about
1
200
rpm
for
more
than
1
minute
in
P
range
Measurement
time
must
not
be
more
than
5
secon
Same
as
the
item
I
Check
vehicle
speeds
and
engine
rpm
in
shifting
up
1st
2nd
range
and
2nd
J
3rd
range
while
running
with
lever
in
D
range
and
engine
vacuum
pressure
of
about
200
mmHg
Same
as
the
item
1
above
except
with
engine
vacuum
pressure
of
0
mmHg
i
e
in
position
just
before
kick
down
Check
whether
the
kick
down
operates
and
measure
the
time
delays
while
running
at
30
40
50
60
70
km
h
19
25
31
38
44
MPH
in
D
range
AT
58
Page 264 of 513
BODY
ELECTRICAL
Improper
stop
position
of
wiper
arm
Improperly
positioned
blade
and
arm
Correct
position
Damaged
or
worn
auto
stop
point
Replace
motor
Improper
wiping
Worn
rubber
blade
Replace
blade
Inadequate
pressing
force
of
wiper
arm
Replace
wiper
arm
IGNITION
SWITCH
AND
STEERING
LOCK
CONTENTS
IGNITION
SWITCH
Removal
IGNITION
SWITCH
WITH
STEER
ING
LOCK
BE
29
BE
29
BE
29
IGNITION
SWITCH
This
3
or
4
position
switch
is
installed
on
the
ignition
switch
bracket
which
is
installed
on
the
instrument
panel
with
two
screws
and
controls
the
engine
ignition
system
and
most
of
electrical
equipment
Removal
Remove
the
ignition
switch
connector
loosen
the
ring
nut
remove
the
ignition
switch
from
the
bracket
Description
Steering
lock
replacement
Warning
switch
and
warning
buzzer
BE
29
BE
30
BE
30
Fig
BE
49
Removing
ignition
switch
IGNITION
SWITCH
WITH
STEERING
LOCK
Description
The
steering
lock
is
built
in
the
ignition
switch
When
the
key
is
set
to
Lock
position
and
rernoved
the
steering
system
is
locked
automatically
The
locking
8E
29
Page 265 of 513
mechanism
is
installed
on
the
steering
jacket
tube
When
the
key
is
set
to
Lock
position
and
removed
the
steering
lock
spindle
is
inserted
in
a
notch
in
the
collar
which
is
stationarity
set
on
the
steering
shaft
to
lock
the
steering
wheel
The
ignitiun
switch
is
installed
on
the
back
of
key
cylinder
with
a
attaching
screw
and
interchangeable
tf
iY
t
7
a
1
Ignition
switch
part
2
Key
cylinder
part
3
Steering
jacket
tube
4
Lock
collar
5
Lock
pindle
6
Steering
shaft
7
Self
shear
type
screw
8
Attaching
screw
Fig
BE
50
Steering
lock
Key
position
Terminal
OFFor
GARAGE
Lock
ON
ST
ART
B
Battery
IG
Ignition
S
Starter
R
Resistance
b
1
Steering
lock
replacement
For
the
purpuse
of
tamper
proof
the
self
shear
type
screws
are
used
and
their
heads
are
sheared
off
when
installed
so
that
the
steering
lock
system
cannot
be
removed
easily
Replace
the
steering
lock
proper
in
accordance
with
the
following
instructions
when
required
Loosen
two
attaching
screws
and
break
the
remaining
twu
self
shear
type
screws
with
a
drill
or
other
proper
tool
Now
remove
the
steering
lock
proper
from
the
BODY
BE
30
steering
jacket
tube
When
installing
a
new
steering
lock
proper
be
sure
tu
tighten
two
new
self
shear
type
screws
to
shear
off
their
heads
Warning
switch
and
warnmg
buzzer
Fig
BE
51
Warning
switch
The
circuit
of
this
warning
system
is
closed
when
the
door
is
opened
with
the
steering
unlocked
because
the
door
switch
and
warning
switch
are
connected
in
series
When
the
cicuit
is
closed
the
buzzer
sounds
When
replacing
the
warning
switch
disconnect
two
cables
remove
the
cap
loosen
two
attaching
screws
and
remove
the
warning
switch
The
warning
buzzer
is
installed
on
the
back
left
side
of
the
instrument
panel
with
two
attaching
screws
FUSE
WARNING
SWITCH
WARN
BUZZ
G
n
WITCH
t
Fig
BE
52
Circuit
diagram
for
warning
system
Page 369 of 513
ENGINE
MECHANICAL
o
Match
mark
Key
groove
Fig
EM
78
1
Setting
chain
12
Install
the
timing
chain
and
camshaft
sprocket
Camshaft
sprocket
tightening
torque
4
0
to
4
8
kg
m
29
to
35
ft
lb
Fig
EM
78
2
Chain
tensioner
installation
Fig
EM
7B
Cam
sprocket
gear
installation
Notes
a
Make
sure
that
the
camshaft
sprocket
dowel
hole
and
crankshaft
sprocket
key
are
in
line
and
both
the
dowel
hole
and
key
are
located
down
ward
b
Set
the
timing
chain
making
its
mating
marks
meet
with
those
of
crankshaft
sprocket
and
camshaft
sprocket
at
the
right
hand
side
13
Install
the
timing
chain
tensioner
and
tighten
the
tensioner
bolts
to
a
torque
of
0
6
to
0
8
kg
m
4
3
to
5
8
ft
lb
Check
the
tensioner
spindle
projection
Wear
limit
Spindle
projection
mm
in
15
0
591
Fig
EM
79
Checking
the
tension
spindle
projection
14
Install
the
crankshaft
oil
thrower
15
Install
the
new
oil
seal
to
the
front
cover
The
front
cover
oil
seal
should
be
replaced
when
the
front
cover
is
disassembled
16
Install
the
front
cover
applying
the
sealing
agent
to
both
surfaces
of
the
gasket
Tightening
torque
0
5
to
0
7
kg
m
3
6
to
5
1
ft
lb
EM
29
Page 400 of 513
FUEl
SYSTEM
Secondary
throttle
valve
is
operated
by
throttle
lever
The
high
power
and
good
acceleration
are
gained
with
combination
of
the
auxiliary
valve
2
Accelerating
pump
gives
excellent
acceleration
3
The
power
valve
mechanism
is
of
a
vacuum
actuated
boost
type
and
improves
high
speed
driving
4
The
throttle
opener
control
system
Refer
to
Section
ET
incorporates
a
servo
diaphragm
The
servo
dia
phragm
helps
open
the
throttle
valve
at
a
decreasing
speed
so
as
to
reduce
the
emission
of
hydrocarbons
to
a
minimum
5
An
anti
dieseling
solenoid
is
used
as
a
means
of
preventing
dieseling
When
the
ignition
key
is
turned
off
the
fuel
passage
involved
in
the
slow
system
is
closed
and
the
fuel
supply
is
shut
down
completely
6
In
the
choke
mechanism
an
electric
automatic
choke
is
used
to
automatically
control
the
choke
valve
operation
during
the
warm
up
of
the
engine
7
The
carburetor
for
automatic
transmission
is
equipped
with
so
called
dash
pot
that
is
it
makes
smooth
decelerating
without
engine
stall
at
any
operating
condi
tion
These
carburetors
are
quite
similar
in
appearance
as
explained
above
except
the
dash
pot
for
the
au
tomatic
transmission
model
The
differences
in
performance
are
explained
in
the
following
as
necessary
for
Manual
transmission
for
4utomatic
transmission
Fig
EF
14
External
view
of
carburetor
STRUCTURE
AND
OPERATION
These
carburetors
consist
of
the
primary
system
for
normal
running
and
secondary
system
for
full
load
running
The
float
system
which
is
commonly
used
by
the
primary
and
secondary
systems
the
secondary
switch
over
mechanism
accelerating
mechanism
etc
are
also
at
tached
The
anti
dieseling
solenoid
valve
and
the
power
valve
mechanism
are
used
The
carburetor
is
of
down
draft
two
barrel
type
EF
9
Page 403 of 513
ENGINE
Step
system
The
construction
of
this
system
corresponds
to
the
idling
and
slow
system
of
the
primary
system
This
system
aims
at
the
power
filling
up
of
the
gap
when
fuel
supply
is
transferred
from
the
primary
system
to
the
secondary
system
The
step
port
is
located
near
the
auxiliary
valve
in
its
fully
closed
state
Anti
uesetmg
solenoid
Ignition
switch
OFF
ON
I
L
i1
7
I
Anti
dieseling
solenoid
valve
When
the
ignition
key
is
turn
to
OFF
current
will
not
flow
through
the
solenoid
and
the
slow
system
fuel
passage
is
closed
to
shut
down
the
engine
without
dieseling
If
anti
dieseling
solenoid
is
found
defective
replace
the
solenoid
as
an
assembled
llnit
Fuse
Ignition
switch
T
Baitery
717
Fig
EF
20
Schematic
drawing
of
anti
dieseling
solenoid
Removal
and
installation
of
anti
dieseling
solenoid
Removal
Solenoid
is
cemented
at
factory
Use
special
tool
STl9
I
50000
to
remove
a
solenoid
When
this
tool
is
not
effective
use
a
pair
of
pliers
to
loosen
body
out
of
position
Installation
I
Before
installing
a
solenoid
it
is
essential
to
clean
all
threaded
parts
of
carburetor
and
solenoid
Supply
screws
in
holes
and
turn
them
in
two
or
three
pitches
2
First
without
disturbing
the
above
setting
coat
all
exposed
threads
with
adhensive
the
Stud
Lock
of
LOCTlTE
or
equivalent
Then
torque
screws
to
35
to
55
kg
cm
30
to
48
in
lb
using
a
special
tool
STl9150000
After
installing
anti
dieseling
solenoid
leave
the
carburetor
move
than
12
hours
without
operation
3
Mter
replacement
is
over
start
engine
and
check
to
be
sure
that
fuel
is
not
leaking
and
that
anti
dieseling
solenoid
is
in
good
condition
Notes
a
Do
not
allow
adhesive
getting
on
valve
Failure
to
follow
this
caution
would
result
in
improper
valve
performance
or
clogged
fuel
passage
b
In
installing
valve
use
caution
not
to
hold
body
directly
Instead
use
special
tool
tight
ening
nuts
as
required
Float
system
Fuel
fed
from
the
fuel
pump
flows
through
the
filter
and
needle
valve
into
the
float
chamber
A
constant
fuel
level
is
maintained
by
the
float
and
needle
valve
As
ventilation
within
the
float
chamber
is
of
an
air
vent
method
Electric
automatic
choke
An
electric
heater
warms
a
bimetal
interconnected
to
the
choke
valve
and
controls
the
position
of
choke
valve
and
throttle
valve
in
accordance
with
the
elapse
of
time
or
the
warm
up
condition
of
engine
The
construction
and
function
of
each
part
of
this
automatic
choke
are
as
follows
See
Figure
EF
21
EF
12