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Fan Clutch |
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The fan clutch is a small fluid coupling with a thermostatic device and
controls a variable-speed fan. It ensures that the fan will rotate at just the
right speed to keep the engine from overheating, and reduces drive to the fan
when it is no longer needed. The fan clutch has a fluid coupling partly filled
with silicone oil designed for just that purpose. When the temperature of the
air passing through the radiator rises, the heat alerts a bimetal coil spring
to "uncoil" or expand. When it expands, it allows just a little more oil to
enter the fluid coupling, so the fluid coupling starts to rotate the fan. If
the air coming through the radiator is cool, the opposite happens; the coil
spring contracts, the oil leaves the fluid coupling and the fan slows. Slowing
the fan when it is not needed reduces fuel consumption, makes less noise and
saves engine power. Sometimes a flat bimetal strip spring is used instead of a
coil spring; it bows out and in when the temperature rises and drops, letting
oil in and out of the fluid coupling.
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Filler Cap (Brake Fluid Reservoir Cover) |
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The cap on the brake fluid reservoir has a hole for air, or is vented, to allow
the fluid to expand and contract without creating a vacuum or causing pressure.
A rubber diaphragm goes up and down with the fluid level's pressure, and keeps
out any dust or moisture. |
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Flywheel |
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The large wheel connected to the crankshaft provides the momentum to keep the
crankshaft turning without the application of power, through the energy
generated during the power stroke. This energy is also used to drive the
crankshaft, connecting rods and pistons during the three idle strokes of the
4-stroke cycle. This makes for a smooth engine speed. The flywheel forms one
surface of the clutch and is the base for the ring gear. |
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Frame (Chassis) |
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The basic structure of the vehicle is the frame and it provides a good anchor
point for the suspension system. There are two types of frames; integral
frames, or ‘unibody’, and conventional frames. A conventional frame is
basically a ‘one-piece’ frame; or two ‘one-piece’ frames fastened together.
These frames are extremely rigid to keep all the parts of the car in perfect
alignment, which are attached to it. It is constructed of heavy steel and
welded or cold riveted together. Cold riveting keeps the rivets from shrinking
after they cool off. The integral, or unibody, frame is just the opposite. With
this type of frame, the body parts are used to structurally strengthen the
entire car, and all of the sections are welded into one piece. Sometimes the
parts of the body and the suspension system are attached and reinforced. Also,
some unibody frames have partial front and rear frames for attaching the engine
and suspension members. |
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Fuel Pump |
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The fuel pump has three functions: to deliver enough fuel to supply the
requirements of an engine under all operating conditions, to maintain enough
pressure in the line between the carburetor and the pump to keep the fuel from
boiling, and to prevent vapor lock. Excessive pressure causes the carburetor
float needle off its seat its seat resulting in high fuel level in the float
chamber, leading to high fuel consumption. Highest pressure occurs at idling
speed and the lowest at top speed. |
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Fuel Tank |
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The fuel tank stores the excess fuel until it is needed for operation of the
vehicle. The fuel tank has an inlet pipe and an outlet pipe. The outlet pipe
has a fitting for fuel line connection and may be located in the top or in the
side of the tank. The lower end is about one-half inch above the bottom of the
tank so that collected sediment will not be flushed out into the carburetor.
The bottom of the tank contains a drain plug so that tank may be drained and
cleaned. |
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