Definition
The landing
gear is that portion of the aircraft that supports the weight of the aircraft
while it is on the ground. The landing gear contains components that are
necessary for taking off and landing the aircraft safely. Some of these
components are landing gear struts that absorb landing and taxiing shocks;
brakes that are used to stop and, in some cases, steer the aircraft; nose wheel
steering for steering the aircraft; and in some cases, nose catapult Components
that provide the aircraft with carrier deck takeoff capabilities. The landing
gear is the principle support of the airplane when parked, taxiing, taking off,
or when landing. The most common type of landing gear consists of wheels, but
airplane0s can also be equipped with floats for water operations, or skis for
landing on snow. The landing gear consists of three wheels—two main wheels and
a third wheel positioned either at the front or rear of the airplane. Landing
gear employing a rear mounted wheel is called conventional landing gear.
Airplanes with conventional landing gear are sometimes referred to as tail
wheel airplanes.
When the
third wheel is located on the nose, it is called a nose wheel, and the design
is referred to as a tricycle gear. A steerable nose wheel or tail wheel permits
the airplane to be controlled throughout all operations while on the ground.
The landing gear is the structure that supports an aircraft on the ground and
allows it to taxi, take-off, and land.
The primary
functions of a landing gear are as follows:
1. To keep
the aircraft stable on the ground and during loading, unloading, and taxi
2. To allow
the aircraft to freely move and maneuver during taxing
3. To
provide a safe distance between other aircraft components such as wing and
fuselage while the aircraft is on the ground position to prevent any damage by
the ground contact
4. To
absorb the landing shocks during landing operation
5. To
facilitate take-off by allowing aircraft acceleration and rotation with the
lowest friction.
Introduction:
In order to allow for a landing
gear to function effectively, the following design requirements are
established:
1. Ground clearance requirement
2. Steering requirement
3. Take-off rotation requirement
4. Tip back prevention requirement
5. Overturn prevention requirement
6. Touch-down requirement
7. Landing requirement
8. Static and dynamic load requirement
9. Aircraft structural integrity
10. Ground lateral stability
11. Low cost
12. Low weight
13. Maintainability
14. Manufacturability
2. Steering requirement
3. Take-off rotation requirement
4. Tip back prevention requirement
5. Overturn prevention requirement
6. Touch-down requirement
7. Landing requirement
8. Static and dynamic load requirement
9. Aircraft structural integrity
10. Ground lateral stability
11. Low cost
12. Low weight
13. Maintainability
14. Manufacturability
The first job of an aircraft designer
in the landing gear design process is to select the landing gear configuration.
Landing gear functions may be performed through the application of various
landing gear types and configurations. Landing gear design requirements are
parts of the aircraft general design requirements including cost, aircraft
performance, aircraft stability, aircraft control, maintainability,
producibility and operational considerations.
Single Main
The simplest configuration of
landing gear is the single main (see Fig. 1). It includes one large main gear
that carries a large portion of the aircraft weight and load; plus a very small
gear under the nose. In terms of size, the main gear is much larger (both strut
and wheel) than the secondary one. Both of these gears are in the aircraft
symmetrical plane. The main gear is close to the aircraft cg, while the other
gear is far from it. In majority of cases, the main gear is located in front of
the aircraft cg and the other one is behind cg (under the tail section). In
case, where the main gear is aft of aircraft cg, the secondary gear is usually
converted to a skid under the fuselage nose. Majority of sailplanes are
employing single main landing gear because of its simplicity. The single main
landing gear is not usually retracted, so it is very short in height.
An aircraft with a single main
landing gear is not stable on the ground, so the aircraft will tip over one
side (usually on wing tips) while staying on the ground. In such landing gear
configuration, an operator must hold the wing level when an aircraft is
stationary and prior to take-off. To prevent a sideway tipping, some aircraft
are equipped with two auxiliary small gears under two wing sections. In an
aircraft without auxiliary wheels, the wing tips must be repaired in a regular
basis, since the wing tips are damaged during each tipping. Two advantages of
this arrangement are the simplicity and the low weight of the landing gear. On
the other hand, beside the ground instability, a disadvantage of this
configuration is the longer take-off run, since the take-off rotation is
limited.
The single main landing gear
is not usually retracted, so it is very short in height. An aircraft with a
single main landing gear is not stable on the ground, so the aircraft will tip
over one side (usually on wing tips) while staying on the ground. In such
landing gear configuration, an operator must hold the wing level when an
aircraft is stationary and prior to take-off. To prevent a sideway tipping,
some aircraft are equipped with two auxiliary small gears under two wing
sections. In an aircraft without auxiliary wheels, the wing tips must be
repaired in a regular basis, since the wing tips are damaged during each
tipping. Two advantages of this arrangement are the simplicity and the low
weight of the landing gear. On the other hand, beside the ground instability, a
disadvantage of this configuration is the longer take-off run, since the
take-off rotation is limited.
Tail Gear
Tail-gear landing gear has two
main wheels forward of the aircraft cg and a small wheel under the tail. Figure
5 illustrates the side and top views of the gear in a typical aircraft. The
wheels in front of the aircraft cg is very close to it (compared with aft
wheel) and carries much of the aircraft weight and load; thus is referred to as
the main wheel. Two main gears are in the same distance from the cg in the
x-axis and the same distance in y-axis (in fact left and right sides); thus
both are carrying the same load. The aft wheel is far from cg (compared with
main gear); hence it carries much smaller load and then is called an auxiliary
gear.
The share of the main gear
from the total load is about 80 to 90 percent of the total load, so the tail
gear is carrying about 10 to 20 percent. This configuration of landing gear is
referred to as a conventional landing gear, since it was the primary landing
gear during the first 50 years of aviation history. But currently, only about
10 percent of the aircraft produced are employing tail-gear. In order to reduce
drag, in some aircraft, a skid (vertical flat plate) is used instead of the
tail wheel. Such landing gear is referred to as the tail-dragger. Most
agricultural some GA aircraft are equipped with tail gear.
Conclusion
Different systems of landing
gears are present out of which few are obsolete now. In the early age landing
gear development went on from two wheels only which later on scattered to
various wheels arrangement. For General Aviation industries now a day’s only
following system are in use:
1. Tail-gear
2. Tricycle or nose-gear
3. Quadricycle
4. Multi-bogey 99% of the
aircraft are using the same system which is shown above.
Out of the above shown list
Nose gear arrangement is more popular due to its added advantage as compared to
other systems. Off course here comes the weight parameter also so depending on
the weight of the aircraft and the available space system the arrangement can
shift to Multi bogey system as well.
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