Agricultural equipment In agricultural equipment an
overrunning clutch is typically used on
hay balers and other equipment with a high
inertial load, particularly when used in conjunction with a
tractor without a live
power take-off (PTO). Without a live PTO, a high inertial load can cause the tractor to continue to move forward even when the foot clutch is depressed, creating an unsafe condition. By disconnecting the load from the PTO under these conditions, the overrunning clutch improves safety. Similarly, many unpowered 'push'
cylinder lawnmowers use a freewheel to drive the blades: these are geared or chain-driven to rotate at high speed and the freewheel prevents their
momentum being transferred in the reverse direction through the drive when the machine is halted.
Engine starters A freewheel assembly is also used on engine starters.
Starter motors usually need to spin at 3,000 RPM to get the engine to turn over. When the key is held in the start position for any amount of time after the engine has started, the starter can not spin fast enough to keep up with the flywheel. Because of the extreme
gear ratio between starter gear and flywheel (about 15 or 20:1) it would spin the starter armature at dangerously high speeds, causing an explosion when the
centripetal force acting on the copper coils wound in the armature can no longer resist the
outward force acting on them. In starters without the freewheel or overrun clutch or other disengagement device this would be a major problem because, with the flywheel spinning at about 1,000 RPM at idle, the starter, if engaged with the
flywheel, would be forced to spin between 15,000 and 20,000 RPM. Once the engine has turned over and is running, the overrun clutch releases the starter from the flywheel and prevents the gears from re-meshing (as in an accidental turning of the ignition key) while the engine is running. A freewheel clutch is now used in many motorcycles with an electric starter motor. It is used on many combustion-engined mowers. It is used as a replacement for the
Starter solenoid (or the older
Bendix drive) used on most car starters because it reduces the electrical needs of the starting system and gives reduced complexity.
Vehicle transmissions Pure freewheeling in an automobile is pushing the clutch in and releasing the throttle, disengaging the connection between the engine and transmission and allowing the engine to idle while the wheels turn at whatever pace gravity and momentum propel them. A condition opposite to that of freewheeling exists in an
automobile with a
manual transmission going downhill, or any situation where the driver takes their foot off the
gas pedal (closing the
throttle) but the clutch is left out (and the transmission remains engaged). Instead of the engine driving the wheels (through the transmission), the wheels will drive the engine, possibly at a higher RPM. In a
two-stroke engine, this can be catastrophic—as many two stroke engines depend on a
fuel/
oil mixture for
lubrication, a shortage of fuel to the engine starves oil from the
cylinders, and the
pistons can soon seize, causing extensive damage.
Saab used a freewheel system in their
two-stroke models for this reason and maintained it in the
Saab 96 V4 and early
Saab 99 for better
fuel efficiency. Historically, freewheels were used in some luxury or up-market conventional cars (such as
Packard,
Rover and
Cord) from the 1930s into the 1960s. Some engines of the period also tended to pass oil past the
piston rings under conditions with a closed throttle and high engine speed, when the slight vacuum in the combustion chamber combined with high oil pressure and a high degree of
splash lubrication from the fast-turning crankshaft would lead to oil getting in the combustion chamber. The freewheel meant that the engine returned to its idle speed on the overrun, thus greatly reducing noise from both the engine and gearbox and reducing oil consumption. The mechanism could usually be locked to provide
engine braking if needed. A freewheel was also used in the original
Land Rover vehicle from 1948 to 1951. The freewheel controlled drive from the gearbox to the front
axle, which disengaged on the overrun. This allowed the vehicle to have a permanent
4 wheel drive system by avoiding 'wind-up' forces in the transmission. This system worked, but produced unpredictable handling, especially in slippery conditions or when towing, and was replaced by a conventional selectable 4WD system. During the Second World War, the military Volkswagen vehicles produced by
KdF (
Kübelwagen,
Schwimmwagen) were fitted with a
ZF limited-slip differential system composed of two freewheels, which sent the whole of the engine power to the slower-turning of the two wheels. Other car makers fitted a freewheel between engine and gearbox as a form of automatic
clutch. Once the driver released the throttle and the vehicle was on the overrun, the freewheel disengaged and the driver could change gears without using the clutch pedal. This feature appeared mainly on large, luxury cars with heavy clutches and gearboxes without
synchromesh, as the freewheel permitted a smoother and quieter change.
Citroën combined a freewheel and a
centrifugal clutch to make the so-called 'TraffiClutch', which let the driver start, stop, and change the lower gears without using the clutch. This was an option on
Citroën 2CVs and its derivatives and, as the name implied, was marketed as a benefit for driving in congested urban areas. Similarly, the
Saab 93 was available with an optional
Saxomat clutch. A common use of freewheeling mechanisms is in automatic transmissions. For instance traditional, hydraulic General Motors transmissions such as the
Turbo-Hydramatic 400 provide freewheeling in all gears lower than the selected gear. E.g., if the gear selector on a three-speed transmission is labelled 'drive'(3)-'super'(2)-'low'(1) and the driver has selected 'super', the transmission freewheels if first gear is engaged, but not in second or third gears; if in 'drive' it freewheels in first or second; finally, if in low, it does not freewheel in any gear. This lets the driver select a lower range to provide engine braking at various speeds, for instance when descending a steep hill.
Overdrive units manufactured by
Laycock de Normanville used a freewheel to facilitate a smooth gear change between locked mode (1:1) and overdrive mode without use of the conventional
clutch pedal. The freewheel would lock the outgoing axle to the outgoing axle in the brief transition period between the
conical clutch for locked mode disengaging and the clutch for overdrive mode engaging.
Bicycles Apart from the usual use of a freewheel where there is a single sprocket at the wheel, and the older style of
derailleur gears where the freewheel mechanism is included in the gear/sprocket assembly and the system is called a
freewheel, the newer style in which the freewheel mechanism is in the hub is called a
freehub.
Helicopters Freewheels are also used in
rotorcraft. Just as a bicycle's wheels must be able to rotate faster than the pedals, a rotorcraft's blades must be able to spin faster than its drive engines. This is especially important in the event of an engine failure where a freewheel in the main transmission lets the main and tail rotor systems continue to spin independent of the drive system. This provides for continued flight control and an
autorotation landing. == History ==