System and apparatus for determining the center of gravity...

Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Determining balance or center of gravity

Reexamination Certificate

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Details

C701S120000

Reexamination Certificate

active

06353793

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a system and method for determining the center of gravity of an object. More particularly, the invention relates to a system and method for determining the location of the center of gravity of an aircraft in a simple manner. The invention further relates to an apparatus for determining the weight or load on an aircraft nose wheel or point at which the aircraft is lifted.
BACKGROUND OF THE INVENTION
The location of the center of gravity of a loaded aircraft is a critical factor in determining whether the aircraft is safe for flight. Determining the location of the center of gravity (CG) is particularly important for cargo transport aircraft. This is because the loads carried by such aircraft may vary significantly from flight to flight in terms of load weight distribution. The CG for a given aircraft must be maintained within a certain range for a given load as specified by the aircraft manufacturer and/or the Federal Aviation Administration. One method for determining CG manually would be to determine the weight at a series of points along the aircraft's length to calculate the moment developed about a given reference line. These moments are then summed and divided by the total weight of the aircraft and the load to determine the point at which the plane is balanced. This point is the aircraft CG. Aircraft CG is sometimes expressed in terms of percentage mean aerodynamic chord (%MAC).
Because this method, if done manually, would be tedious, time consuming, and expensive, a variety of systems and devices have been devised to determine aircraft CG. Many of these systems use strain gauges mounted in the oleo struts that support the aircraft. The amount of strain in the struts can be related to the force on the struts and therefore aircraft weight. Data concerning the weight at each of the aircraft wheels can be related to aircraft center gravity. Other systems have relied on pressure transducers in fluid communication with landing gear hydraulic systems. One of these requires a separate pump to cycle each oleo strut between a near fully extended position and a near fully retracted position while recording a series of pressure measurements. The pressure measurements are then related to weight on the strut.
These systems have not been without their problems, however. As these struts age due to the wear and tear of daily use, the strain gauge or pressure readings may become unreliable. This stems from friction in the landing gear struts and hydraulic system leaks. Moreover, the strain gauge systems may suffer from a high noise to signal ratio in the information provided by the strain gauges.
There remains a need then for a simple, low cost system for determining aircraft CG. The system should minimize the need for costly electronic components that must stand up to the environmental rigors to which aircraft landing gear are subjected. Desirably, such a system should be separable from but transportable with the aircraft, should not require any type of expensive hydraulic system interface and should be simple to operate.
SUMMARY OF THE INVENTION
The present invention relates to a method, system and apparatus for determining the center of gravity of an aircraft, particularly, smaller aircraft not otherwise provided with equipment for such determination. By determining the load applied to a known point on the longitudinal axis of the aircraft necessary to lift the front or rear end of the aircraft (preferably the nose wheel in a tricycle wheel arrangement), aircraft CG is determined. The invention provides a simple lever apparatus for lifting the nose or tail from the ground and measuring the reactive load thus generated in the lever. By summing the moments about the reactive load point and then about the lever fulcrum, the nose wheel load can be related to aircraft CG. This process must take into account aircraft inclination to provide accurate results.
The present invention further relates to an apparatus for determining the load necessary to lift the aircraft at a selected point on the longitudinal axis. The apparatus includes a frame having a forward end and an aft end, the aft end adapted for detachable engagement with a jack point or wheel. A pivot arm having a first end and a second end is pivotally attached at its first end to the frame at a pivot point located between the forward end and the aft end of the frame. A load cell is positioned on the frame so as to be engaged by the pivot arm as the pivot arm pivots about the pivot point for generating a signal indicative of the force generated on the frame as the aircraft is raised. The lever and frame constitute a lever having a fulcrum point located forward of the selected point. A load processor is provided for receiving the load cell signal and converting the signal to load data. The processor may include a display device for displaying the amount of wheel load. The apparatus may be used as a tow bar when not being used to determine wheel load.
The invention further relates to a method for determining the longitudinal center of gravity of an aircraft having a plurality of landing gear wheels. The method includes determining the load applied to a point on the aircraft so as to raise one of the landing gear wheels from the ground and determining total aircraft weight. This load is then related to the aircraft center of gravity so as to determine the longitudinal position of the aircraft center of gravity.
Assuming the aircraft is substantially level and includes a nose wheel and a laterally spaced apart main landing gear, the load on the nose wheel can be related to the aircraft center of gravity location according to the relationship:
L
m
=L/
(1+(
P
m
/P
n
))
where
L equals the horizontal distance between the nose wheel and the main landing gear;
L
m
equals the horizontal distance between the center of gravity and the main landing gear;
P
m
equals the load on the main landing gear; and
P
n
equals the load on the nose wheel.
However, CG determination must oftentimes be made when an aircraft is not level, but inclined slightly downwardly from the main landing gear forwardly. Where the aircraft is inclined at an angle of inclination and includes a nose wheel and a laterally spaced apart main landing gear, the load on the nose wheel can be related to the aircraft center of gravity location according to the relationship:
L
m
=
P
n

L
(
WT
)

cos
2

θ
+
L
zm

tan



θ
where
WT equals total aircraft weight;
P
n
equals aircraft nose wheel load;
&thgr; equals aircraft inclination;
L equals the horizontal distance between center of nose wheel and landing gear;
L
zm
equals the vertical position of CG above the main landing gear wheel axle; and
L
m
equals the horizontal distance between CG and main landing gear.
The invention further relates to a method for determining the longitudinal center of gravity of an aircraft having a nose wheel and laterally spaced apart main landing gear wheels including measuring the aircraft inclination; determining total aircraft weight; measuring the horizontal distance between the center of the nose wheel and the main landing gear wheels; attaching a lever apparatus to the nose wheel axle; lifting the nose wheel from the ground using the lever apparatus by applying a force to one end of the apparatus; measuring the reactive load at a point along the length of the lever apparatus; relating the measured reactive load to the load on the nose wheel to determine aircraft nose wheel load; and relating the nose wheel load to aircraft center of gravity according to the relationship described above.
The present invention also relates to a system for determining the center of gravity of an aircraft having a plurality of landing gear wheels. The system includes a lever apparatus for determining the load on one of the plurality of aircraft wheels including:
i. a frame having a forward end and an aft end, and adapted for detachable engagement with one of the plurality of aircraft wheels;
ii. a fulcrum

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