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ZENITH MODEL 87A8
CARBURETOR
L-57, L.77
Seri s
SERVICE INSTRUCTIONS
DESCRIPTION
The Zenith 87-Series is a horizontal carburetor with a con-
centric fuel bowl It is a ~balanced ~ carburetor, because
all air for fuel chamber and metering well ventilation and
idling must come through the air cleaner. Air cleaner
restrictions have a minimum influence on the fuel-air ratio
when a carburetor is thus =balanced
~.
The main jet and discharge jet are centrally located. The
metering well which completely surrounds the discharge
jet is in the center of the fuel bowl assembly. This con-
struction permits extremely high angle operation in any
direction.
The venturi, which is part of the throttle body casting,
measures the volume of air that passes through the car-
buretor. In selecting the venturi size, the smallest size
that will permit full power development should be used.
PITOT TUBE
BOWL VENT
PASSAG E
FUEL
LVE
SEAT
FUEL
VALVE
NEEDLE
FUEL
LOAT
INLET
Fig,
1 FUEL SUPPLY SYSTEM
OPERATION
FUEL SUPPLY SYSTEM (Fig.
1)
Fuel
under normat pressure
entering
the float
chamber
through the fuel valve seat is controlled
by the twin float
which, moving on its axle, closes the needle valve when
the fuel reaches the proper level in the bowl
IDLE SYSTEM (Fig,
2)
At idling
speeds the throttle
plate is almost closed, thus a
very high suction exists at the edge of the throttle plate
where the idle discharge holes are located. A11 fuel for
idling and part throttle operation is supplied through the
IDLE AIR
IDLE AIR
¯ :
LE DISCHARGE
"'
' "~ ~'~I~I~'~
~////////-~
IDLE ADJUSTING
~ MAIN
JET
Fig. 2 IDLE SYSTEM
main jet.
Fuel from t~e float
chamber flows through
the
main jet into
the metering
well.
Fuel for idling
is drawn
from this
well through the calibration,
or metering orifice,
in the center
of the idling
jet.
As the fuel
reaches
the
idling
channel
it
is mixed with air
whicl~ is admitted
through a calibrated
orifice
in the channel from the inside
of the air
intake
to form an emulsion.
This emulsion
is
discharged into the air stream, to form the idling
mixture,
through two holes one of which is controlled
by the idle
adjusting
needle.
Turning the adjusting
needle
counter-
clockwise
(out)
permits more of the emulsion to reach the
air stream and make the idling
mixture richer while turning
the needle in (clockwise)
cuts off the amount of the emul-
sion reaching
the air stream and makes the mixture leaner.
HIGH SPEED SYSTEM (Fig.
3)
As the throttle
is opened, the suction on the idling
system
diminishes,
but the increased
volume of air
entering
the
engine
through
the venturi
creates
sufficient
vacuttm
(suction)
on the discharge
jet to draw an emulsion of fuel
and air from the metering well which receives
its
fuel from
the main jet
and its
air
from the well vent.
The flow
characteristics
of the discharge
jet
are influenced
by the
size,
location,
and number of holes in the sides
of that
part of the jet which is in the metering well, as well as by
VENTURI
WELL
MAI
N~
METERING
W ELL
Fig. 3 HIGH SPEED SYSTEM
the sizes
of the discharge jet orifice,
the size of the maim
jet,
and the size of the well vent. The well vent is located
in the air
intake
and permits
air to enter the top of the
metering well around the outside
of the discharge
jet.
The
flow of fuel through the main jet is controlled
by the size
of main jet opening.
CHOKE SYSTEM (Fig.
4)
Starting a cold engine requires
a much richer mixture of
fuel and air. Moving the choke lever to close the choke
plate restricts the air entering the carburetor (except at the
pitot tube, Fig. 1, to the bow1 vent) and increases the
suction on the idling system which makes the mixture
richer.
STARTING THE ENGINE
Before cranking the engine,
the carburetor
throttle
should
be opened a little
to expose both idle
discharge
holes to
suction.
The choke should be fully
closed until
the engine
starts,
then opened a little
to prevent stalling
from being
over-choked,
then when the engine
is fully
warmed up the
choke
can be returned
to wide open position
and the
throttle
closed to the idling position.
ADJUSTMENTS
Adjust the throttle
stop screw to obtain the desired
idling
speed by turning
screw in (clockwise)
to increase
speed
and out (counter-clockwise)
to decrease
engine speed.
- Quick Links:
- Distributor - Battery Ignition
- Firing Order
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