BASIC CARBURETOR FUNCTION
IN THIS SECTION, YOU WILL FIND THE FOLLOWING SUBSECTIONS:
THE CARBURETORCARBURETORSCONSTRUCTION OF A CARBURETOR MODELTHE
VENTURI AND THE THROTTLE PLATEMAINTAINING A FUEL SUPPLYCIRCULATING
THE FUEL SUPPLY
THE CARBURETOR
The carburetor is the small engine component that mixes liquid
fuel with air. When liquid gasoline is mixed with enough air to
form a fine spray, thefuel becomes explosive and very easy to burn.
The ideal mix of fuel and air for use in an engine is approximately
one part gasoline to fifteen parts air.An air and fuel mixture that
contains more fuel than this ideal amount is called rich, and an
air and fuel mixture that has less fuel than the ideal iscalled
lean.
A gravity feed carburetor. The term gravity feed indicates the
way this carburetor draws fuel from the fuel tank. The fuel tank is
positioned above thecarburetor, and the force of gravity draws the
fuel down through the fuel line into the carburetors float bowl.
The fuel level in the bowl is controlledby a float thats connected
to a needle valve. As fuel enters the bowl, it causes the float to
rise, closing the needle valve. When the needle valvecloses, it
cuts off the flow of fuel into the float bowl. When the float
drops, the valve opens and allows more fuel into the bowl.
Fuel is drawn up out of the float bowl through the main fuel
jet. The fuel jet is like a straw that sucks the fuel up out of the
bowl. To explain how thefuel jet works, consider the example of a
straw. Suppose you place a straw into a glass of water. If you blow
air across the top end of the straw, thewater level will rise
inside the straw. This happened because as you blew across the
straw, you created an area of low pressure on the column of airin
the straw. Since the pressure in the straw was lower than the
atmospheric pressure on the water in the glass, atmospheric
pressure pushed thewater up the straw.
If you were able to blow hard enough across the top of the
straw, you could decrease the air pressure so much that the water
would actually rise upto the top of the straw. A carburetor uses
this principle to draw fuel up out of the float bowl.
The straw in the carburetor is the fuel jet. One end of the jet
is in the fuel bowl and the other end of the jet is in the air
passageway that leads tothe engines intake. As air rushes over the
jet, it creates a low pressure area that pulls fuel up the jet.
However, in order to pull the fuel all the wayup the jet, a device
called a venture is used to speed up the air flow.
A closer view of the air flow through a carburetor. When a
piston moves downward during the intake stage, the vacuum created
in the cylinder sucksfuel and air into the cylinder through the
intake manifold. The intake manifold is a metal pipe that leads
from the carburetor to the engine cylinder.The central passage of
the carburetor is called the throat. There is a rush of air as air
flows through the carburetor throat.
The venture is the center area of the carburetors air passage
thats shaped like the center of an hourglass. As air rushes into
the carburetor, itspeeds up when it reaches the narrow venture. The
end of the fuel jet is positioned in the venture area so that the
high speed air passes right over it.The high speed air creates a
low pressure area over the fuel jet, and gasoline is sucked up
through the fuel jet. The air rushing past the fuel jetbreaks the
gasoline up into a fine misty spray. This spray of fuel is then
drawn into the cylinder for burning.
The throttle is a round metal disc thats positioned inside the
intake manifold to control the flow of fuel and air to the
cylinder. When you open thethrottle, you let more fuel and air get
to the cylinder, so the engine runs faster. When you close the
throttle, you restrict the amount of fuel and airthat gets to the
cylinder, and the engine runs slower.
The choke plate is a device thats placed in the carburetor
throat to restrict the amount of air that flows through. When an
engine is first started, itneeds a rich mixture of fuel to get
running. By closing the choke plate, less air flows through the
carburetor, but the air flows faster. The faster airflow causes
more gasoline to be sucked up through the fuel jet. Note that the
choke plate doesnt cut off the flow of air completely. The choke
platehas a notch in it that allows some air to flow through it.
Some carburetors contain a rubber primer bulb in addition to a
choke plate. Before the engine is started, the primer bulb is
pressed with the fingersto pump gasoline into the cylinder through
the carburetor. This action makes the engine start easier, usually
on the first try. When no primer bulb ispresent, several pulls on
the starter rope may be needed to start the engine.
CARBURETORS
Carburetor used to mix precise quantity fuel with incoming air.
Carburetor constructed to maintain ideal ratio of about 14 to 1
(ideal ratio often listedas 14.7 parts air to 1 part fuel). Ideal
ratio should be maintained from idle through maximum rpm.
CONSTRUCTION OF A CARBURETOR MODEL
Consider how model of carburetor can be built. Begin with 2 inch
square block aluminum and aluminum cup 1 inches in diameter by 1
inch high.Block will be drilled to form passageways, cup will be
used to hold fuel.
THE VENTURI AND THE THROTTLE PLATE
Begin by machining passageways in block. First drill hole
horizontally through block to serve as main carburetor passageway
through which air willflow.
The venturinext use specially shaped drill to increase size
inlet and outlet areas. This makes passage hourglass shaped. Just
created a venturi.Purpose hourglass shape to increase velocity of
air as it passes through center of carburetor. Increased velocity
causes air pressure to drop at centerof hourglass. This lower
pressure will cause fuel to be drawn from bowl into carburetor.
Can visualize action venture by using glass water and drinking
straw. Place straw in water and blow across top of straw, will
duplicate conditions inventure. Within narrow confines of straw,
air pressure will drop. Atmospheric pressure on water outside straw
higher than pressure inside straw, sowater will push up into straw.
If you stop blowing across top of straw, pressure will equalize,
and water levels in straw and glass will even out.
The throttle plateneed method controlling air that flows through
carburetor. Function provided by throttle plate. Drill hole through
aluminum blockperpendicular to air passage which crosses midpoint
of venturi. Into this hole place piece copper or brass bar with two
holes drilled into it to hold adisk of metal which when bar turned
to move it across venturi, can block movement of air through
passage.
MAINTAINING A FUEL SUPPLY
MAINTAINING A FUEL SUPPLY
The fuel bowllower section carburetor needs to house fuel.
Aluminum cup can be attached to aluminum block. To cup need to add
fuel line made ofplastic or rubber and two copper elbows which
connect fuel line to inside of fuel bowl.
Another passageway also added in aluminum block to inside of
venture. This the fuel bowl vent, necessary for two reasons. One so
empty bowl canfill with fuel. If fuel enters bowl, bowl will not
fill unless air present inside can be allowed to escape. Vent
provides path through which air can leavebowl. Air and fuel vapors
from bowl vented into carburetor so can be used by engine. Second
reason for fuel bowl vent to allow atmospheric pressureto be
exerted on surface of fuel in bowl. With carburetor, atmospheric
pressure needed to force fuel up into venture.
The float and valve arrangementto control level fuel in bowl,
need valve system. Need float made of plastic, copper, or brass.
Float will float on topof fuel in bowl. As fuel level drops, float
will drop. Connected to float is needle valve (sometimes simply
called needle). As float moves up and down,so does needle. Needle
fits into machined area called seat. When float presses needle up
into seat, fuel flow will be stopped. Once fuel in bowldropped to
certain level, needle released from seat and fuel will again flow.
Float will rise once more to point where needle will stop flow.
CIRCULATING THE FUEL SUPPLY
The idle circuitbegin with idling. Idling refers to engine
operating at lowest speed with no load. During idling, throttle
plate normally in closedposition, preventing large amounts of air
from passing through venturi. If very little air flowing through
venturi, how can enough air and fuel mixturebe drawn into engine to
make it operate? Answer is separate circuit built into carburetor
to provide small amount fuel and air when engine idling.
Thiscircuit called the idle circuit.
Idle circuit is way for air to bypass closed throttle plates,
mix with fuel from bowl, and enter engine. Idle circuit consists of
several passagewaysdrilled into carburetor. Idle air bleed extends
from outside carburetor body to inside of throttle plate. It allows
air to be brought into circuit. Anotherpassage, called fuel feed
tube or idle pickup, extends from inside float bowl to idle air
bleed passage. Fuel feed tube allows small amounts fuel to bemixed
with air being drawn into central passage of carburetor. Is an idle
mixture screw which can inhibit amount of air being drawn into idle
air bleed.This can control the relative amounts of fuel in the
idles air fuel mix. Idle mixture screw can function in two ways,
depending on design of carburetor.In some cases, screw used to
control the amount of air flowing in idle circuit; on other
carburetors, screw may be used to control amount of fuelmixed with
incoming air.
Once air mixed with fuel, its discharged out into engine through
small hole or slot located near edge of throttle plate. Idle
discharge hole or slotlocated on engine side of throttle plate. In
order for engine to receive flow, has to be some force that will
pull air and fuel through idle circuit. Force isvacuum, area of low
pressure created by engine.
As engine operates, air pulled into engine during intake stroke.
As piston moves down on intake stroke, air drawn from carburetor
into engine. Ifthrottle plate opened wide, air drawn into engine
with relative ease. When engine at idle, throttle plate closed,
blocking airflow. Since airflow blocked,vacuum will form between
engine and throttle plate. Because vacuum created on engine side of
throttle plate, idle discharge hole must be located onsame side of
plate to operate properly. As long as throttle plate closed with
engine running, air and fuel mixture pulled through idle circuit.
Ratio ofair to fuel can be controlled by idle mixture screw.
The intermediate circuitlook at what happens when throttle opens
slightly. More air allowed to enter engine, therefore more fuel
will be needed tomix with the air. Throttle not open enough to
allow large amount of air to flow through venturi, so need another
way to add fuel to mixture. Solutionis to branch one or more
passages off idle circuit. These additional passageways referred to
as intermediate circuit.
Intermediate circuit consists of several discharge holes similar
to idle discharge hole. However discharge holes for intermediate
circuit located justbehind throttle plate on air cleaner side of
carburetor central passage. Some manufacturers may use slot rather
than discharge holes. Sincedischarge holes of intermediate circuit
arent located on engine side of throttle plate, no fuel mixture
drawn through them when throttle plate closedor in idle position.
As throttle plated opened slightly, these holes uncovered and
exposed to engine vacuum. Once exposed, air and fuel will be
drawnthrough them as well as through idle discharge hole.
Additional fuel through intermediate circuit will maintain proper
ratio in air fuel mixture.
The high speed circuitairflow through venturi restricted as long
as throttle plate partially closed. As a result, suction or vacuum
created on engineside throttle plate. Vacuum a factor in operation
idle and intermediate circuits. As throttle plate opens more,
airflow less restricted. Without throttleplate blocking airflow
through carburetor, air can flow easily into engine. Vacuum created
by engine will actually decrease. When throttle plate wideopen, is
little or no vacuum created by engine. Therefore, idle and
intermediate circuits provide no fuel. Additional circuit needed to
supply fuel toengine, is referred to as the high speed circuit.
High speed circuit supplies fuel when throttle plate opened more
than of way. High speed circuit operates on principal of venturi.
The venturi areduction in size of air inlet, which speeds up
airflow and creates low pressure area at smallest point. Most
venturi have hourglass shape which allowsfor smooth airflow.
Typical carburetor will have passageway leads from fuel bowl up to
venturi. This passageway referred to as fuel pickup tube ormain
fuel feed tube.
As air flows through venturi, air speed will increase and
pressure decrease. Low pressure area in venturi creates suction
effect that will draw fuel uppickup tube. Fuel leaves tube to mix
with stream of air entering engine. The more air that flows through
venturi, the more suction developed.
Exact amount fuel drawn out of pickup tube dependent on amount
of air entering engine. This keeps consistent air fuel mixture. As
throttle openswider, more air allowed to enter engine. Because more
air entering engine, need more fuel to maintain ideal ratio. As
more air passes through venturion way to engine, more fuel drawn up
pickup tube. Action of venturi maintains consistent ratio of fuel
to air. As throttle is closed and less air allowedto pass through
venturi, less fuel drawn from tube.
As airflow changes under operating conditions, venturi keeps air
and fuel consistent. Must be some way to establish within high
speed circuitappropriate amount of fuel for typical mixture used in
high speed circuit application. This usually accomplished by
restricting size of inlet on fuel feedtube. This restriction that
will control flow of fuel into tube commonly known as carburetors
main jet. Small main jet allows only small amount of fuelto enter
pickup tube while larger jet will allow more fuel to pass into
engine. Sometimes carburetor will have adjustable main jet by which
techniciancan adjust amount of fuel picked up. These types
carburetors rarely used today. Modern carburetor typically has
nonadjustable main jet, referred toas a fixed jet. Fixed jet
restricts pickup tubes inlet to an ideal size determined by
manufacturer and isnt adjustable.
High speed circuit will normally contain an air bleed
passageway. Air bleed allows small amount air to mix with fuel in
pickup tube. Small amount ofadditional air allows fuel to flow more
easily out of venturi. Additional air also helps to vaporize fuel
into mist that will burn better in engine thandroplets raw
gasoline. Inlet to air bleed passageway normally of fixed size to
prevent excessive amount of air from mixing with fuel in pickup
tube.
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