engine DATSUN 210 1979 Manual Online
Page 88 of 548
Hot
air
Engine
Fuel
To
manifold
I
Air
inlet
pipe
2
Air
con
trol
valve
3
Hot
air
pipe
4
Diaphragm
5
V
Bellum
hose
6
Diaphragm
spring
7
Air
bleed
valve
closed
8
Temperature
sensor
assembly
Fig
EF
3
Hot
Air
Delivery
Mode
During
cold
engine
operation
EC007
COLD
AIR
OPERATION
1
When
the
vacuum
is
small
or
when
the
engine
is
operating
under
heavy
load
the
air
control
valve
opens
widely
irrespective
of
the
temperature
around
the
sensor
to
introduce
the
cold
air
for
increased
power
of
the
engine
2
When
the
engine
intake
air
tem
Cold
air
I
L
CD
mf
LlF
JII
1
perature
is
high
The
s
ns
r
air
bleed
valve
opens
fully
to
break
the
vacuum
passage
between
the
intake
manifold
and
the
vacuum
motor
Due
to
the
force
of
the
vacuum
motor
diaphragm
spring
tne
air
control
valve
closes
the
hot
air
pipe
of
the
air
cleaner
and
introduces
the
cold
air
See
Fig
EF
4
I
manifold
I
Air
nlet
pipe
2
Air
control
valve
3
Hot
air
pfpc
4
Diaphragm
5
Vacuum
hoses
6
Diaphragm
spring
7
Air
bleed
alve
fully
open
8
Temperature
assembly
EF715
Fig
EF
4
Cold
Air
Deliuery
Mode
During
hot
engine
operation
TEMPERATURE
SENSOR
The
temperature
sensor
is
attached
to
the
inside
of
the
air
cleaner
The
bi
metal
built
in
the
sensor
detects
the
engine
intake
air
temperature
and
opens
or
closes
the
vacuum
passage
in
the
sensor
I
Protector
cover
2
Screw
3
Adjusting
frame
4
Air
temperature
bi
metal
5
Rivet
6
Valve
seat
frame
7
Lower
frame
8
Air
bleed
valve
9
Gasket
EF206
Fig
EF
5
Temperature
Sensor
EF
3
VACUUM
MOTOR
AND
AIR
CONTROL
VALVE
The
vacuum
signal
from
the
tem
perature
sensor
acts
upon
the
vacuum
motor
diaphragm
The
valve
shaft
at
tached
to
the
diaphragm
is
then
moved
up
or
down
in
response
to
the
vacuum
on
the
diaphragm
This
movement
of
the
valve
shaft
actuates
the
air
control
valve
to
control
the
temperature
of
the
air
to
be
introduced
into
the
air
cleaner
@
@
@
I
Valve
spring
2
Diaphragm
3
Retainer
4
Valve
shaft
EF207
Fig
EF
6
Vacuum
Motor
REMOVAL
AND
INSTALLATION
AIR
CLEANER
I
Loosen
bolts
securing
air
cleaner
to
air
cleaner
bracket
2
Loosen
air
cleaner
lock
bolt
and
remove
air
cleaner
from
carburetor
Disconnect
the
following
hoses
when
dismounting
air
cleaner
I
Fresh
air
duct
2
Hot
air
duct
3
Vacuum
hose
Sensor
and
idle
com
pensator
to
intake
manifold
4
Hose
Air
pump
relief
valve
Non
California
models
except
Canada
5
Air
induction
hose
Canada
and
FU
models
6
Hose
A
B
valve
to
air
cleaner
7
Hose
Air
cleaner
to
throttle
opener
or
vacuum
switch
8
Blow
by
hose
Air
cleaner
to
rocker
cover
3
To
install
reverse
the
removal
procedure
Page 89 of 548
TEMPERATURE
SENSOR
Removal
I
Using
pliers
flatten
clip
con
necting
vacuum
hose
to
sensor
vacuum
tube
1
Pipe
2
Catch
3
Fixed
with
adhesive
4
Hose
5
Tab
6
Clip
7
Gasket
EC019
Fig
EF
7
Removing
Seruor
2
Disconnect
hose
from
sensor
3
Take
off
clip
from
sensor
vacuum
tube
and
dismount
sensor
body
from
air
cleaner
Note
The
gasket
between
sensor
and
air
cleaner
is
bonded
to
the
air
cleaner
side
and
should
not
be
removed
Installation
Mount
sensor
on
the
specified
position
2
Insert
clip
into
vacuum
tube
of
sensor
After
installing
each
vacuum
hose
secure
hose
with
the
clip
Note
Be
sure
to
install
vacUl
11n
hose
correctly
Correct
position
is
R
H
side
to
Ntisan
mark
at
the
top
face
of
sensor
for
intake
manifold
L
H
side
for
Deuum
motor
VACUUM
MOTOR
1
Remove
screws
securing
vacuum
motor
to
air
cleaner
2
Disconnect
valve
shaft
attached
to
vacuum
motor
diaphragm
from
air
control
valve
and
remove
vacuum
motor
assembly
from
air
cleaner
3
To
install
reverse
the
removal
procedures
Engine
Fuel
Fig
EF
8
Removing
Vacuum
Motor
INSPECTION
AIR
CLEANER
FILTER
Viscous
paper
type
air
cleaner
filter
does
o
ot
rt
quire
any
cleaning
opera
tion
until
it
is
replaced
periodically
Brushing
or
blasting
operation
will
cause
clogging
and
result
in
enrich
ment
of
carburetor
mixture
and
should
never
be
conducted
For
reo
placement
interval
of
air
cleaner
filter
refer
to
Maintenance
Schedule
AUTOMATIC
TEMPERATURE
CONTROL
SYSTEM
Engine
failures
resulting
from
a
malfunctioning
A
T
C
system
are
manifest
during
cold
weather
opera
tion
Such
failures
include
Engine
stall
or
hesitation
Increase
in
fuel
consumption
Lack
of
power
If
these
phenomena
should
occur
check
A
T
e
system
as
described
in
the
following
before
carrying
out
inspection
of
carburetor
I
Check
that
vacuum
hoses
are
se
l
urely
connected
in
correct
position
2
Check
each
hose
for
cracks
or
distortion
3
Check
A
T
C
system
for
proper
function
as
follo
ys
Confirm
that
engine
is
cold
before
starting
test
With
engine
topped
disconnect
fresh
air
duct
if
so
equipped
Place
a
mirror
at
the
end
of
air
cleaner
inlet
pipe
as
shown
and
check
to
see
if
air
control
valve
is
in
correct
position
EF
4
Fig
EF
9
Inspecting
Valve
Po
man
Air
control
valve
is
in
correct
posi
tion
if
its
cold
air
inlet
is
open
and
hot
air
inlet
is
closed
4
Start
engine
and
keep
idling
Immediately
after
engine
starting
check
air
control
valve
for
correct
position
as
described
above
In
this
case
correct
position
of
air
control
valve
is
the
reverse
of
step
3
under
hood
air
inlet
is
closed
and
hot
air
inlet
is
open
S
Check
that
air
control
valve
grad
ually
opens
to
cold
air
inlet
side
as
engine
warms
up
When
environmental
temperature
around
temperature
sen
sor
is
low
spend
more
time
for
engine
warming
up
operation
to
facilitate
smooth
operation
of
air
control
valve
If
the
above
test
reveals
any
prob
lem
in
the
opera
ion
of
air
control
valve
carry
out
the
following
test
VACUUM
MOTOR
I
With
engine
stopped
confirm
that
cold
air
inlet
is
open
and
hot
air
inlet
is
c1
Sed
If
not
check
air
control
valve
link
age
for
proper
operation
2
DiscoJln
ct
ac
um
motor
inlet
vacuum
hose
and
connect
another
hose
to
the
inlet
to
apply
vacuum
to
vacuum
motor
Vacuum
can
be
appli
d
by
breathing
in
tile
hos
e
end
as
shown
Then
confirm
that
the
air
control
valve
moves
3
With
hot
air
inlet
in
open
posi
tion
as
described
in
step
2
above
pinch
vacuum
hose
with
fingers
and
cut
off
air
from
vacuum
hose
In
this
condition
check
that
air
control
valve
maintains
the
condition
described
in
step
2
for
more
than
30
seconds
and
that
hot
air
inlet
is
open
If
diaphragm
spring
actuates
the
air
control
valve
by
Page 90 of 548
its
spring
force
to
close
within
30
seconds
replace
vacuum
motor
as
an
assembly
since
this
may
be
resulted
from
air
leak
at
vacuum
motor
dia
phragm
TEMPERATURE
SENSOR
If
tests
indicate
that
A
T
C
system
is
malfunctioning
and
motor
is
func
tioning
properly
check
temperature
sensor
for
proper
operation
Confirm
that
engine
is
cold
before
starting
tests
Start
engine
and
keep
idling
Immediately
after
starting
engine
disconnect
vacuum
motor
inlet
vacu
um
hose
and
make
suce
that
intake
vacuum
is
present
at
end
of
vacuum
DESCRIPTION
The
idle
compensator
is
basically
a
thermostatic
valve
which
functions
to
introduce
the
air
directly
from
the
air
cleaner
to
the
intake
manifold
to
compensate
for
abnormal
enrichmerit
of
mixture
in
high
idle
temperature
The
bi
metal
attached
to
the
idle
compensator
detects
the
temperature
of
intake
air
and
opens
or
closes
the
valve
Two
idle
compensators
having
different
temperature
characteristics
are
installed
one
opens
at
an
intake
air
temperature
of
60
to
700C
140
to
IS80F
and
the
other
at
70
to
800C
158
to
1760
F
EF222
1
Orifice
2
Bi
metal
3
Rubber
valve
Fig
EF
ll
Idle
Compensator
Engine
Fuel
hose
If
vacuum
is
weak
or
is
not
present
at
all
check
vacuum
hoses
for
leakage
Replace
temperature
sensor
if
vacuum
hoses
are
in
good
order
EF978
Fig
EF
l0
Checking
for
Pressure
of
Intake
Vacuum
IDLE
COMPENSATOR
INSPECTION
I
Check
that
valve
is
in
closed
position
when
bi
metal
temperature
is
lower
than
operating
temperature
To
check
breathe
air
into
tube
or
suck
air
If
excessive
air
leakage
is
found
at
the
valve
replace
idle
compensator
as
an
assembly
Note
that
two
idle
com
pensators
are
mounted
to
air
cleaner
and
that
it
is
ne
essary
to
plug
the
valve
of
one
of
these
idle
compensa
tors
so
as
to
prevent
air
leak
while
checking
the
other
one
I
t
I
I
Orifice
2
Rubber
valve
EF225
Fig
EF
12
Checking
Idle
Compensator
Note
When
checking
idle
compensa
tor
on
car
disconnect
hose
leading
EF
5
2
Reconnect
vacuum
hose
to
vacu
um
motor
and
warm
up
engine
3
Check
that
air
control
valve
grad
ually
opens
to
cold
air
inlet
side
as
engine
warms
up
When
environmental
temperature
around
temperature
sen
sor
is
low
spend
more
time
for
engine
warming
up
operation
to
facilitate
smooth
operation
of
air
control
valve
If
air
control
valve
does
not
open
check
air
control
valve
linkage
for
binding
Replace
temperature
sensor
if
air
control
valve
linkage
is
functioning
properly
to
idle
compensator
and
connect
other
hose
then
carry
out
check
as
described
above
2
Warm
up
engine
completely
3
Open
engine
hood
and
remove
air
cleaner
cover
4
Direct
warm
air
to
idle
compensa
tor
with
a
heat
gun
And
measure
operating
temperature
of
idle
compensator
EF043A
Fig
EF
13
Checking
Idle
Compemator
for
Op
ration
Note
Locate
stick
temperature
gauge
as
close
to
sensor
as
possible
so
that
warm
air
from
dryer
is
directed
to
these
parts
evenly
Page 91 of 548
Engine
Fuel
S
Idle
compensator
is
ill
good
order
if
a
hissing
sound
is
heard
when
its
temperature
reaches
operating
tern
perature
If
not
replace
idle
compensator
ldlerompensator
l
b
l
r
I
No
1
60
to
700C
140
to
15
Of
No
2
70
to
800C
158
to
1760F
FUEL
FILTER
DESCRIPTION
t
t
I
J
i
l
The
fuel
filter
is
a
cartridge
type
It
useS
a
paper
element
1
Body
2
Paper
element
3
Cover
EFOOS
Fig
EF
14
Sectional
View
of
Cartridge
Type
FuelFilte
FUEL
PUMP
t
j
f
EC132
Fig
EF
15
Schematic
View
of
Fuel
Pump
EF
6
OPERATING
TEST
Note
When
disconnecting
fuel
hoses
me
a
container
to
receive
fuel
remaining
in
fuel
hoses
STATIC
PRESSURE
TEST
The
static
pressure
test
should
be
conducted
as
follows
I
Disconnect
fuel
hose
between
car
buretor
and
fuel
pump
2
Connect
a
rubber
hose
to
each
open
end
of
aT
connector
and
con
nect
this
connector
hose
assembly
be
tween
carburetor
and
fuel
pump
Note
Locate
this
T
eonnector
as
close
to
carburetor
as
possible
3
Connect
a
suitable
pressure
gauge
to
the
opening
of
T
connector
and
fasten
the
hose
between
carburetor
and
T
connector
secUrely
with
a
clip
4
Start
and
run
the
engine
at
various
speeds
Page 92 of 548
5
The
pressure
gauge
indicates
static
fuel
pressure
in
the
line
The
gauge
reading
should
be
within
the
specified
value
Fuel
pump
pressure
0
21
to
0
27
kg
em2
3
0
to
3
8
pli
I
Note
If
the
fuel
in
the
carburetor
float
chamber
has
run
out
and
engine
has
stopped
remove
clip
and
pour
fuel
into
carburetor
Fasten
clip
securely
and
repeat
static
pres
sure
test
If
pressure
is
not
within
the
specifi
ed
limit
remove
pump
as
an
assembly
CAPACITY
TEST
The
capacity
test
is
conducted
only
when
static
pressure
is
within
the
specification
To
conduct
this
test
proceed
as
follows
1
Disconnect
pressure
gauge
from
T
connector
and
in
its
vacant
place
install
a
suitable
container
as
a
fuel
sump
2
Start
engine
and
run
at
1
000
pm
3
Pump
should
deliver
the
specified
amouni
of
fuel
If
little
or
no
fuel
flows
from
open
end
of
pipe
it
is
an
indication
that
fuel
line
is
clogged
or
pump
is
mal
functioning
Fuel
pump
capacity
450
cc
27
46
eu
inl
min
at
1
000
rpm
REMOVAL
AND
INSTALLATION
Note
When
disconnecting
fuel
lines
use
a
container
to
receive
fuel
remaining
in
fuel
hoses
I
Disconnect
inlet
and
outlet
fuel
hoses
from
fuel
pump
2
Remove
fuel
pump
3
To
install
reverse
the
order
of
removal
Engine
Fuel
DISASSEMBLY
@@
@@
@
@@
1
Remove
screws
and
detach
upper
and
lower
bodies
2
Remove
screws
and
take
off
cap
and
cap
gasket
from
upper
body
3
Remove
inlet
and
outlet
connee
tors
4
Remove
valve
retainer
screws
and
take
off
valve
retainer
S
To
remove
diaphragm
press
down
its
center
against
spring
force
With
diaphragm
pressed
down
ilt
it
until
end
of
pull
rod
touches
inner
wall
of
body
Then
release
diaphragm
to
unhook
push
rod
Note
Be
careful
not
to
damage
dia
phragm
or
oil
seal
INSPECTION
Check
all
components
for
cracks
EF
7
I
Packing
2
Valve
a5scm
bly
3
Retainer
4
Screw
5
Diaphragm
assembly
6
Diaphragm
spring
7
Retainer
8
Diaphragm
assembly
9
Complete
body
lower
10
Screw
11
Washer
spring
12
Fuel
pump
cap
13
Cap
gasket
14
Connector
inlet
15
Connector
outlet
16
Rocker
arm
spring
17
Nut
18
Washer
spring
19
Washer
pJain
20
Gasket
21
Spacer
22
Rocker
pin
23
Spacer
24
Rocker
arm
EC134
Fig
EF
16
Fuel
Pump
wear
or
any
abnormalities
and
replace
with
new
parts
if
necessary
ASSEMBLY
I
To
assemble
reverse
the
order
of
disassembly
Closely
observe
the
following
instructions
Use
new
gaskets
Lubricate
rocker
arm
rocker
arm
link
and
rocker
arm
pin
before
installation
2
After
assembly
test
the
function
as
follows
a
Position
fuel
pump
assembly
about
I
meter
3
3
ft
above
fuel
level
of
fuel
strainer
and
connect
a
pipe
from
strainer
to
fuel
pump
b
Operate
rocker
arm
by
hand
If
fuel
is
drawn
up
soon
after
rocker
arm
is
released
fuel
pump
is
functioning
properly
Page 93 of 548
DESCRIPTION
The
carburetors
are
of
downdraft
two
barrel
type
designed
to
increase
ppwe
r
a
fu
l
eC
l
Il
Y
t
3
ell
a
to
reduce
exhaust
gas
emissions
These
carburetors
present
several
distinct
features
of
importance
to
car
owner
A
summary
of
features
is
as
fol
lows
1
Secondary
throttle
valve
is
oper
ated
by
throttle
lever
High
power
and
good
acceleration
are
gained
with
com
bination
of
the
auxiliary
valve
2
Accelerating
pump
provide
ex
cellent
acceleration
3
Power
valve
mechanism
is
a
vacuo
urn
actuated
boost
type
and
improves
high
speed
driving
4
The
throttle
opener
control
sys
tem
Except
FU
model
incorporates
a
servo
diaphragm
which
helps
open
the
throttle
valve
at
a
decreasing
speed
so
as
to
reduce
hydrocarbon
emissions
to
a
minimum
5
An
anti
d
eseling
solenoid
valve
is
installed
to
prevent
dieseling
When
ignition
key
is
turned
off
the
fuel
passage
involved
in
the
ow
system
is
closed
and
the
fuel
supply
is
shut
down
completely
The
solenoid
valve
also
serves
as
an
actuator
of
the
fuel
shut
off
system
on
the
FU
model
6
In
the
choke
mechanism
an
elec
trie
automatic
choke
is
used
to
auto
maticaDy
control
chok
valve
opera
tion
during
engin
war
up
7
The
carburetor
comes
equipped
with
dash
pot
which
ensures
smooth
deceleration
without
engine
stall
under
aU
operating
conditions
STRUCTURE
AND
OPERATION
These
carburetors
consist
of
a
main
system
for
normal
running
a
slow
system
for
idling
and
an
accelerating
and
power
mechanisIll
Some
emission
control
devices
are
added
E
ngine
Fuel
CARBURETOR
I
J
1
Primary
main
jet
2
Idle
adjust
screw
3
hUe
nozzle
4
By
pass
hole
5
Primary
throttle
valve
6
Primary
slow
jet
7
ptug
8
Primary
5l
w
air
bleed
9
Primary
main
air
bleed
10
Primary
air
vent
pipe
11
Primuy
main
nozzle
12
Choke
valve
13
Primary
small
venturi
14
Secondary
small
venturi
15
Secondary
air
vent
pipe
16
Secondary
main
nozzle
17
Secondary
main
air
bleed
18
Secondary
slow
air
bleed
1
Oloke
valve
2
Primary
air
vent
pipe
3
Prima
y
main
nozzle
4
Primary
slow
jet
19
Plug
20
Secondary
slow
jet
21
Needte
22
Fuel
fLlter
23
Secondary
tIuottle
valve
24
Auxiliary
valve
25
Secondary
main
jet
Note
Do
not
remo
the
parts
inarbd
with
anuteriak
EF416A
Fig
EF
17
Carburetor
PRIMARY
SYSTEM
PrlinarJ
main
sJstam
The
fUel
flowing
out
of
the
passages
at
bottom
of
float
chamber
passes
through
the
primary
main
jet
and
is
mixed
with
air
coming
from
main
air
bleed
The
gas
mixture
is
pulled
out
into
the
venturi
through
the
main
nozzle
When
throttle
valve
is
wide
open
and
engine
require
dense
mixture
gas
power
valve
opens
and
fuel
also
flows
into
main
system
EF044A
Fig
EF
18
PtJrlially
Loading
EF
8
Page 94 of 548
t
1
Primary
main
nozzle
2
Primary
main
air
bleed
3
Primary
slow
air
bleed
4
Primary
slow
jet
5
Primary
main
jet
6
Idle
nozzle
7
Primary
throttle
valve
EF417A
Fig
EF
I9
Portially
Loading
IdUns
nd
slow
system
Passing
through
the
main
jet
the
fuel
passage
is
separated
from
main
line
fuel
flows
through
the
slow
jet
primary
slow
air
bleed
is
ejected
from
the
by
pass
hole
and
idle
nozzle
cp
v
Ii
l
1
Primary
main
air
bleed
2
Primary
slow
air
bleed
3
Anti
fieseling
solenoid
valve
4
Primary
main
jet
5
Idle
nozzle
6
Primary
throttle
valve
EF711
Fig
EF
20
Idling
and
Slow
System
Aceeler
tlns
meeh
nlsm
A
mechanical
accelerating
pump
synchronized
with
the
throttle
valve
is
used
Engine
Fuel
When
throttle
valve
is
closed
piston
rod
is
pushed
up
wi
th
linkage
which
pushes
up
piston
through
piston
return
spring
When
piston
comes
down
inlet
valve
closes
outlet
valve
opens
and
fuel
within
the
pump
is
blown
out
from
the
pump
je
t
by
compressed
piston
return
spring
The
fuel
hits
against
side
wall
of
small
venturi
becoming
minute
drops
and
compen
sating
transient
spareness
of
fuel
1
r
@
CD
V
1
Piston
2
Pump
lever
3
Pump
nozzle
4
Piston
return
spring
5
Inlet
valve
EF239
6
Outlet
valve
7
Primary
throttle
valve
8
Pump
connecting
rod
Fig
EF
21
Accelerating
Mechani
m
Power
v
lve
meeh
nlsm
The
vacuum
actuated
boost
type
power
va
v
mechanism
makes
use
of
the
downward
pulling
force
of
the
air
stream
below
throttle
valve
When
throttle
valve
is
slightly
open
ed
during
light
load
running
a
high
vacuum
p
ston
upward
against
the
spring
leaving
power
valve
closed
When
vacuum
is
lowered
during
full
load
or
acceleration
the
spring
pushes
vacuum
piston
downward
opening
power
valve
to
furnish
fuel
I
t
f
i
1
Vacuum
piston
2
Power
valve
EF240
Fig
EF
22
Power
Valve
EF
9
SECONDARY
SYSTEM
Second
ry
m
ln
system
When
the
primary
throttle
valve
is
wide
open
and
engine
produces
high
power
the
secondary
throttle
valve
begins
to
open
by
the
linkage
However
auxiliary
valve
does
not
open
at
a
slow
speed
due
to
counter
weight
connected
to
valve
shaft
As
engine
picks
up
speeds
the
auxiliary
valve
opens
against
the
load
of
counterweight
and
secondary
sys
em
starts
operation
for
high
power
operation
The
fuel
flowing
out
of
the
passage
at
bottom
of
float
chamt
er
passes
through
secondary
main
jet
The
fuel
is
mixed
wi
th
air
coming
from
main
air
bleed
and
mixture
is
blown
in
to
the
venturi
through
main
nozzle
When
primary
throttle
valve
is
in
full
open
position
secondary
throt
tle
valve
is
also
fully
opened
I
Secl
ndary
slow
air
bleed
2
Secondary
main
air
bleed
3
Secondary
main
nozzle
4
Primary
main
nozzle
5
Primary
main
air
bleed
6
Primary
slow
air
bleed
7
Primary
slow
jet
8
Primary
main
jet
9
Idle
nozzle
10
Primary
throttle
valve
11
Auxiliary
valve
12
Secondary
throttle
valve
13
Secondary
main
jet
14
Counterweight
15
Secondary
slow
jet
EF418A
Fig
EF
23
At
Full
Open
Stow
Speed
Page 95 of 548
I
Secondary
slow
air
bleed
2
Secondary
main
air
bleed
3
Secondary
main
nozzle
4
Primary
main
nozzle
5
Primary
main
air
bleed
6
Primary
slow
air
bleed
7
Primary
slow
jet
8
Primary
main
jet
9
Idle
nozzle
10
Primary
throttle
valve
II
Auxiliary
valve
12
Seco
dary
throttle
valve
13
Secondary
main
jet
14
Counterweight
IS
Secondary
slow
jet
EF419A
Fig
EF
24
At
Full
Open
High
Speed
Engine
Fuel
Secondary
slow
system
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
stepport
is
located
near
the
auxiliary
valve
in
its
fully
closed
state
ANTI
DIESELING
SYSTEM
The
carburetor
is
equipped
with
an
anti
liese1i
lg
solenoid
valye
As
the
ignition
switch
is
turned
off
the
valve
is
brought
into
operation
shutting
off
the
supply
of
fuel
to
the
slow
circuit
The
following
figure
shows
a
see
tional
view
of
this
control
An
ti
dies
eling
solenoid
valve
Ignition
switch
OFF
ON
t
L
li
FLOAT
SYSTEM
There
is
only
one
float
chamber
while
two
carburetor
systems
primary
and
secondary
are
provided
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
Because
of
the
inner
air
vent
type
float
chamber
ventilation
fuel
con
sumption
is
not
affected
by
dirt
ac
cumulated
in
the
air
cleaner
Ignition
switch
Q
1
T
Battery
niT
EC
3
Fig
EF
25
Anti
dieseling
Solenoid
Valve
The
needle
valve
includes
special
hard
steel
ball
and
wiD
not
wear
for
all
its
considerably
long
use
Besides
the
insertion
of
a
spring
will
prevent
the
flooding
at
rough
road
running
THROTTLE
OPENER
CONTROL
SYSTEM
T
O
C
S
Except
FU
model
The
function
of
the
throttle
opener
is
to
open
the
throttle
valve
of
the
carburetor
slightly
while
the
car
is
in
EF
10
deceleration
During
deceleration
the
manifold
vacuum
rises
and
the
quan
tity
of
mixture
in
the
engine
is
not
suffICient
for
normal
combustion
to
continue
4
consequently
a
great
amount
of
unburned
HC
is
emitted
Carburetors
equipped
with
the
throttle
opener
supply
the
engine
with
an
adequate
charge
of
combustible
mixture
to
maintain
proper
combus
tion
during
deceleration
resulting
in
a
dramatic
reduction
in
HC
emission
The
system
for
the
manual
trans
mission
model
consists
of
servo
dia
phragm
vlicuum
control
valve
throttle
opener
solenoid
valve
spee
l
detecting
switch
and
amplifier
On
the
auto
matic
transmission
model
an
inhibitor
and
inhibitor
relay
are
used
in
place
of
speed
detecting
switch
and
amplifier
on
the
manual
transmission
model
An
altitude
corrector
fitted
to
vacuum
control
valve
serves
to
automatically
regulate
the
operating
pressure
in
the
system
with
variation
of
atmospheric
pressure
T
o
C
S
n
operatIon
At
the
moment
when
the
manifold
vacuum
increases
as
occurs
upon
de
celeration
the
vacuum
control
valve
opens
to
transfer
the
manifold
vacuum
to
the
servo
diaphragm
chamber
and
the
throttle
valve
of
the
carburetor
opens
slightly
Under
this
condition
a
proper
amount
of
fresh
air
is
sucked
into
the
combustion
chamber
As
the
result
complete
combustion
of
fuel
is
as
sisted
by
this
additional
air
and
the
amount
of
H
C
contained
in
exhaust
gases
is
dramatically
reduced
Throttle
Clpener
sol
nold
valve
operation
Manual
transmission
models
The
throttle
opener
solenoid
valve
is
controlled
by
a
speed
detecting
switch
which
is
actuated
by
the
speed
ometer
needle
As
the
car
sp
ed
falls
below
16
km
h
10
MPH
this
switch
is
acti
vated
producing
a
signal
The
signal
is
led
to
the
amplifier
so
that
the
signal
can
be
amplified
to
a
degree
large
enough
to
actuate
the
Page 96 of 548
throttle
opener
solenoid
valve
The
throttle
opener
solenoid
valve
is
actuated
and
the
servo
diaphragm
chamber
is
opened
to
the
atmosphere
In
this
case
the
seIVo
diaphragm
does
not
opera
te
Engine
Fuel
Automatic
transmission
models
As
long
as
the
shift
lever
is
in
the
N
or
p
position
the
inhibitor
switch
on
the
transmission
is
turned
on
and
the
throttle
opener
solenoid
valve
is
actuated
Under
this
condition
the
seIVo
diaphragm
does
not
operate
because
of
the
same
reason
as
men
tioned
for
the
manual
transmission
model
ON
Car
peed
betow
t6
km
h
to
mph
OFF
Car
peed
above
16
km
h
to
mph
To
intake
manifold
j
lJl
11
1
ti
i
ljn
L
o
1
Servo
diaphragm
2
Vacuum
control
valve
3
Altitude
corrector
4
Throttle
opener
solenoid
valve
5
Inhibitor
switch
N
p
ON
for
automatic
transmission
6
Speed
detecting
switch
below
10
MPH
ON
for
manual
transmission
7
Amplifier
8
Ignition
switch
9
Primary
throttle
valve
Note
FUEL
SHUT
OFF
SYSTEM
The
fuel
shut
off
system
is
to
shut
off
the
fuel
during
deceleration
there
by
reducing
fuel
consumption
This
system
also
helps
prevent
a
tempera
ture
rise
in
the
catalytic
converter
during
long
periods
of
deceleration
The
major
parts
of
the
system
are
an
anti
dieseling
solenoid
a
neutral
detecting
switch
a
throttle
valve
switch
and
an
engine
revolution
switch
e
1
l
6
I
I
I
I
I
I
I
I
I
l
L
I
Broken
tine
applies
only
to
Automatic
Transmission
7
Anti
dieseling
solenoid
Electric
current
OFF
ON
valve
I
I
h
L
Battery
I
Neutral
detecting
switch
l
2
Throttle
valve
switch
3
Engine
revolution
switch
4
Transistor
ignition
unit
o
Ignition
switch
EF105A
Fig
EF
26
Throttle
Opener
System
ill
Ignition
coil
U
EF846
Fig
EF
27
Anti
dieseling
Solenoid
Valve
EF
11
Page 97 of 548
Fuel
shut
oH
s
stein
operation
During
deceleration
when
the
en
gine
speed
is
above
a
certain
level
the
anti
dieseling
solenoid
valve
of
the
carburetor
closes
so
that
the
fuel
is
shut
off
When
engine
speed
falls
below
a
certain
level
the
anti
dieseling
solenoid
vaJv
oP
lS
so
that
the
f
el
flows
However
if
the
engine
speed
is
below
the
designated
level
even
during
deceleration
the
fuel
shut
off
system
does
not
operate
When
the
shift
lever
is
in
neutral
the
fuel
shut
off
system
does
not
operate
The
functions
of
each
part
of
this
system
are
as
follows
I
Engine
revolution
switch
The
engine
revolution
switch
turns
off
when
the
engine
revolution
is
above
2
100
rpm
and
turns
on
when
the
engine
revolution
falls
below
1
650
rpm
This
switch
is
actuated
hy
a
pulse
of
the
ignition
system
This
switch
is
located
on
the
right
hand
dash
side
panel
in
the
passenger
compartment
as
shown
in
the
follow
ing
figure
Engine
Fuel
I
Fig
EF
28
Location
of
Engine
Revolution
Switch
2
Neutral
detecting
switch
The
neutral
detecting
switch
turns
on
in
neutral
and
turns
off
in
other
shift
lever
positions
h
1
Neutral
detecting
switch
2
Revenelamp
switch
3
Top
detectim
switch
EC275
3
Throttle
valve
switch
The
throttle
valve
switch
is
installed
on
the
carburetor
It
turns
off
when
the
throttle
valve
is
closed
and
turns
on
when
the
throttle
valve
is
open
The
opening
position
of
the
throt
tle
valve
switch
is
calibrated
in
engine
rpm
when
the
engine
is
revved
up
under
no
load
The
switch
turns
on
when
the
engine
revolution
is
above
1
150
rpm
and
turns
off
when
the
engine
revolu
tion
is
below
1
000
rpm
1
Micro
switch
2
Connector
3
Adjusting
screw
EF848
Fig
EF
30
Location
of
Throttle
Valve
Switch
Fuel
shut
off
Anti
dieseling
Engine
revolution
Throttle
valve
opening
Shift
lever
position
system
solenoid
valve
Activated
Closed
Except
neutral
OFF
Closed
OFF
Neutral
ON
High
OFF
Except
neutral
OFF
Open
ON
Inactivated
Open
Neutral
ON
Closed
OFF
Excep
t
neutral
O
F
Low
ON
Neutral
ON
Except
neutral
OFF
Open
ON
Neutral
ON
Continuity
of
switch
Fig
EF
29
Locotion
of
Neutral
Detecting
Switch
EF
12