What You Should Know About Variable Choke Carburetor
Fixed choke carburetors require many different jets and circuits in order to maintain a fuel supply that is in step with the constantly changing vacuum in the venture.
Variable choke carburetor avoids this by altering the size of the airflow.Â
This results in a constant vacuum in the venture and it is only necessary to have one fuel jet, the size of which varied to provide the correct mixture for all operating conditions.
The Designs of Variable Choke Carburetor
Variable choke carburetor is usually of horizontal design. They have a conventional float chamber, but the single outlet from this leads to a jet mounted in the lower part of the carburetor barrel, in the center of a raised section which partially obstructs the airway.
The upper part of the carburetor has an enclosed housing or suction chamber containing a two-diameter piston or air valve.
In its lowest position, when the engine is stationary, the narrow base of the piston rests on the raised section in the highest position, it unblocks the carburetor barrel completely, allowing unobstructed airflow.
The piston is hollow and small drilling in its base on the engine side permit air to enter and leave the suction chamber above its large upper diameter.
When the engine is started, the obstruction of the piston creates a vacuum in the engine side of the carburetor barrel.
The holes in the piston transmit this vacuum to the suction chamber above the larger diameter of the piston, which causes the piston to rise.
The amount of piston lift depends on airflow, and the vacuum acting on the jet which always remains constant.
How To Economize Fuel Using The Variable Choke Carburetor Principle
To vary the amount of fuel flowing into the carburetor barrel, there is a tapered needle, attached to the base of the piston and moving vertically in a petrol jet.
At low engine speeds, when the piston practically blocks the carburetor barrel, only a small quantity of fuel emerged to mix with the proportionally small airflow.
As engine speed increases, however, and the piston rises, the obstruction in the jet becomes progressively less and more fuel flows out to mix with the extra air.
The taper of the needle is designed so that the ideal mixture can be supplied at all speeds. This type of carburetor does not need a separate idling circuit, but provision for cold starting is provided by the linkage which lowers the jet from the needle, thus giving a mixture.
As with a fixed choke carburetor, the variable choke design needs enrichment for acceleration and this is provided by a hydraulic damper which resists sudden upward movement of the piston when the throttle is opened.Â
This brief delay allows extra vacuum to act on the jet and draw out a richer mixture.
There are two basic types of variable choke carburetor commonly in use. The main difference between them is in the way in which an air seal is provided around the piston rim.
One has a piston which is a very close fit within the suction chamber, whereas the other uses a flexible diaphragm clamped around the piston top and the rim of the suction chamber.
The Economic Circuit
A cruising engine can accept a weaker mixture than an engine running under heavy load. To exploit this, economic devices are used. A common layout is a spring-loaded diaphragm which obstructs a channel leading to the main jet circuit.
The space above the diaphragm is connected by a drilling to the carburetor barrel below the throttle.
When the engine is cruising, the increased vacuum below the throttle lifts the diaphragm against spring pressure, unblocking the channel and bleeding extra air into the main jet circuit to weaken the mixture.
If the throttle is opened for additional power, the vacuum below the throttle falls, the diaphragm again blocks the channel and the main jet supplies a richer mixture.
An alternative way is to use the diaphragm to open and close an additional fuel supply running to the main outlet.
The principle is similar, the diaphragm being operated by manifold vacuum, but the supply is obstructed by cruising and extra fuel is allowed to flow to enrich the mixture on wide throttle openings.
Conclusion
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