Zenith Model A Carburetor
I have found no explanation simple and complete enough for me to understand as to how a Zenith carburetor actually works. I have the Pargeter, Moller, and Biggar booklets. My explanation is refined from the Pargeter explanation with pictures from the Pargeter book. The object of a good carburetor is to maintain the same air/fuel mixture ratio over the expected range of rpm the motor is operated at.
This is the simple carburetor. As engine rpm goes up, the main jet sucks out more fuel to the engine. However, as the rpm increases the air/fuel ratio decreases providing a richer mixture.
I have found no explanation simple and complete enough for me to understand as to how a Zenith carburetor actually works. I have the Pargeter, Moller, and Biggar booklets. My explanation is refined from the Pargeter explanation with pictures from the Pargeter book. The object of a good carburetor is to maintain the same air/fuel mixture ratio over the expected range of rpm the motor is operated at.
This is the simple carburetor. As engine rpm goes up, the main jet sucks out more fuel to the engine. However, as the rpm increases the air/fuel ratio decreases providing a richer mixture.
The unique feature of the Zenith carburetor is the addition of a secondary well open to the atmosphere to the simple carburetor. This was the basis for the 1905 US patent by Francois Baverey of the French Carburateurs Zenith Co.
The secondary well is open to the atmosphere allowing air as well as fuel to be sucked into the intake thru the cap jet. As the rpm increases the air/fuel ratio increases providing a leaner mixture.
The secondary well increases air/fuel ratio(leaner) as rpm increases counteracting the simple carburetor decrease in air/fuel ratio(richer). The combined result is a more constant air/fuel ratio over all rpms.
Another feature of the secondary well is that it fills at idle and when the throttle is opened, it empties and acts like an accelerator pump.
The secondary well is open to the atmosphere allowing air as well as fuel to be sucked into the intake thru the cap jet. As the rpm increases the air/fuel ratio increases providing a leaner mixture.
The secondary well increases air/fuel ratio(leaner) as rpm increases counteracting the simple carburetor decrease in air/fuel ratio(richer). The combined result is a more constant air/fuel ratio over all rpms.
Another feature of the secondary well is that it fills at idle and when the throttle is opened, it empties and acts like an accelerator pump.
The 3rd feature is the idle circuit. At idle the throttle plate(butterfly) is closed with all the fuel thru the idle circuit thru a hole in the carburetor throat. The idle jet meters the idle fuel and the air adjusting screw(incorrectly called the idle screw) meters the air(air/fuel ratio.)
However when the throttle is opened, the secondary well is emptied. Then no fuel goes thru the idle circuit, only air. This explains why the air adjusting screw has no impact after the throttle is opened.
GAV is adjusted manually by turning the choke rod. It adds an adjustable amount of fuel thru the cap jet.
However when the throttle is opened, the secondary well is emptied. Then no fuel goes thru the idle circuit, only air. This explains why the air adjusting screw has no impact after the throttle is opened.
GAV is adjusted manually by turning the choke rod. It adds an adjustable amount of fuel thru the cap jet.