Aircraft landing gear longitudinal force control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-025/00
B64C-025/40
B60T-008/17
B60T-008/1766
B64C-025/42
출원번호
US-0443282
(2013-11-15)
등록번호
US-9845148
(2017-12-19)
우선권정보
GB-1220616.5 (2012-11-16)
국제출원번호
PCT/GB2013/053012
(2013-11-15)
국제공개번호
WO2014/076485
(2014-05-22)
발명자
/ 주소
Gama-Valdez, Miguel Angel
Romana, Louis-Emmanuel
Damiani, Andrea
출원인 / 주소
Airbus Operations Limited
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
An aircraft landing gear longitudinal force control system for an aircraft having landing gears with braking and/or driving wheel(s). The system includes an error-based force controller having feedback for minimising any error between the demanded force and the actual force achieved by the force con
An aircraft landing gear longitudinal force control system for an aircraft having landing gears with braking and/or driving wheel(s). The system includes an error-based force controller having feedback for minimising any error between the demanded force and the actual force achieved by the force control system. The feedback may be derived from force sensors on the landing gear for direct measurement of the landing gear longitudinal force. The force control system may include an aircraft level landing gear total force controller and/or a landing gear level force controller for each actuated landing gear.
대표청구항▼
1. A landing gear force control system for an aircraft having a longitudinal axis and a plurality of landing gears having one or more braking and/or driving wheels, the force control system is operative at landing gear level and comprises an error-based force control module adapted to: receive an in
1. A landing gear force control system for an aircraft having a longitudinal axis and a plurality of landing gears having one or more braking and/or driving wheels, the force control system is operative at landing gear level and comprises an error-based force control module adapted to: receive an input signal representative of a longitudinal force demand to be achieved by the force control system;receive an input signal representative of an actual measure of all longitudinal force acting upon one or more landing gears;calculate any error between the force demand signal and the actual force signal; andoutput a longitudinal force command for the one or more landing gears so as to minimize any error between the demanded force and the actual force. 2. The force control system according to claim 1, wherein the error- based force control module is further adapted to: estimate the longitudinal force being achieved by the force control system based upon the longitudinal force command and known characteristics of the landing gear braking and/or driving wheel systems; andaugment, or replace, the actual measured longitudinal force with the estimated longitudinal force for use in the error calculation. 3. The force control system according to claim 2, wherein the error calculation based upon the actual measured longitudinal force is amplitude limited. 4. The force control system according to claim 1, wherein the error-based force control module includes a landing gear total force controller associated with all of the landing gears of the aircraft and being configured to: receive an input signal representative of a landing gear total longitudinal force demand to be achieved by the force control system;receive an input signal representative of an actual measured longitudinal force acting upon all of the landing gears;calculate any error between the force demand signal and the actual force signal; andoutput a landing gear total longitudinal force command to be achieved by the force control system so as to minimize any error between the demanded force and the actual force. 5. The force control system according to claim 4, wherein the error-based force control module includes a summation block configured to receive an input signal representative of an actual measured longitudinal force acting upon each of the landing gears, and to output a signal to the total force controller representative of an actual measured longitudinal force being achieved for all of the landing gears. 6. The force control system according to claim 1, wherein the error- based force control module includes one or more landing gear force controllers each associated with a respective one of the landing gears equipped with braking and/or driving wheel(s), each landing gear force controller being configured to: receive an input signal representative of a landing gear longitudinal force demand to be achieved by the force control system for that landing gear;receive an input signal representative of an actual measured landing gear longitudinal force being achieved by the force control system for that landing gear;calculate any error between the force demand signal and the actual force signal; andoutput a landing gear longitudinal force command for that landing gear so as to minimize any error between the demanded force and the actual force. 7. The force control system according to claim 6, wherein each landing gear force controller is further adapted to limit the landing gear longitudinal force demand for its landing gear to within safe structural limits, so as to provide loads limitation for that landing gear. 8. The force control system according to claim 6, wherein each landing gear force controller includes an actuator gain estimator for its landing gear, and wherein the force controller output based upon the actual measured longitudinal force is limited based upon the estimated actuator gain. 9. The force control system according to claim 1, wherein the force control module further comprises a force distributor for dividing a total longitudinal force demand to be achieved by the force control system into a plurality of force components to be achieved by the respective landing gears equipped with braking and/or driving wheels. 10. The force control system according to claim 1, further comprising a configuration manager for providing configuration data to the force control module. 11. The force control system according to claim 10, wherein the configuration manager is arranged to receive one or more signals from effectors and/or sensors, and the configuration manager is adapted to generate the configuration data based upon the signals from the effector(s) and/or sensor(s). 12. The force control system according to claim 10, wherein the configuration manager is arranged to receive one or more signals representative of operational scenario(s) and/or parameter(s) of the aircraft, and the configuration manager is adapted to generate the configuration data based upon the aircraft parameter(s) and/or operational scenario(s). 13. The force control system according to claim 10, wherein the configuration manager is arranged to provide the configuration data to the force control module so as to reconfigure the force control module without disrupting its continuous operation. 14. The force control system according to claim 10, further comprising a fitness evaluation module for evaluating the fitness and/or reliability of one or more signals destined for the configuration manager, and outputting status data for the signal(s) to the configuration manager. 15. An aircraft having a longitudinal axis and a plurality of landing gears having one or more braking and/or driving wheels, and the force control system recited in claim 1. 16. The aircraft according to claim 15, wherein each landing gear includes at least one sensor for measuring force in the aircraft longitudinal direction acting upon the landing gear. 17. A method for directly controlling at a landing gear level a force produced by one or more aircraft landing gears equipped with braking and/or driving wheels, the method comprising: receiving an input signal representative of a longitudinal force demand to be achieved by one or more landing gears;measuring all forces in the aircraft longitudinal direction acting upon one or more landing gears;calculating any error between the demanded force and the actual force; andoutputting a corrected longitudinal force command for the one or more landing gears so as to minimize any error between the demanded force and the actual force. 18. The method according to claim 17, further comprising estimating the longitudinal force based upon the longitudinal force command and known characteristics of the landing gear braking and/or driving wheel systems; and augmenting, or replacing, the actual measured longitudinal force with the estimated longitudinal force for use in the error calculation. 19. The method according to claim 17, further comprising: receiving an input signal representative of a total longitudinal force demand to be achieved by all of the aircraft landing gears;receiving an input signal representative of an actual measured longitudinal force being achieved by all of the aircraft landing gears;calculating any error between the force demand signal and the actual force signal; andoutputting a corrected total longitudinal force command so as to minimise any error between the demanded force and the actual force. 20. The method according to claim 17, further comprising, for each landing gear equipped with braking and/or driving wheels: receiving an input signal representative of a landing gear longitudinal force demand to be achieved by that landing gear;receiving an input signal representative of an actual measured landing gear longitudinal force being achieved by that landing gear;calculating any error between the force demand signal and the actual force signal; andoutputting a corrected landing gear longitudinal force command for that landing gear so as to minimize any error between the demanded force and the actual force. 21. The method according to claim 20, further comprising limiting the landing gear longitudinal force demand for its landing gear to within safe structural limits, so as to provide loads limitation for that landing gear. 22. The method according to claim 17, further comprising distributing a total longitudinal force demand into a plurality of force components to be achieved by the respective landing gears equipped with braking and/or driving wheels. 23. The method according to claim 22, wherein the longitudinal force distribution minimizes undesired yaw moments by balancing the longitudinal forces either side of the aircraft centerline. 24. The method according to a claim 17, further comprising reconfiguring the longitudinal force control without disrupting its continuous operation. 25. The method according to claim 24, wherein the reconfiguring is to account for a change of status of one or more effector(s) and/or sensor(s) and/or operational scenario(s) and/or parameter(s) of the aircraft.
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이 특허에 인용된 특허 (3)
Cook Robert D. (Valencia CA) Salamat Bijan (Santa Clarita CA), Brake energy balancing system for multiple brake units.
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