Method and apparatus for minimizing dynamic structural loads of an aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-013/16
G05D-001/00
G05D-001/02
G05D-001/06
출원번호
US-0125031
(2012-05-24)
등록번호
US-9242723
(2016-01-26)
우선권정보
EP-11169531 (2011-06-10)
국제출원번호
PCT/EP2012/059718
(2012-05-24)
§371/§102 date
20140220
(20140220)
국제공개번호
WO2012/168086
(2012-12-13)
발명자
/ 주소
Wildschek, Andreas
출원인 / 주소
EADS DEUTSCHLAND GmbH
대리인 / 주소
Global IP Counselors, LLP
인용정보
피인용 횟수 :
3인용 특허 :
6
초록▼
A method of dynamically alleviating loads generated on an aircraft by a disturbance of gust and/or turbulence. The method comprises monitoring, during flight of the aircraft, to automatically detect a disturbance due to gust and/or turbulence and determining an incidence angle or angle of attack of
A method of dynamically alleviating loads generated on an aircraft by a disturbance of gust and/or turbulence. The method comprises monitoring, during flight of the aircraft, to automatically detect a disturbance due to gust and/or turbulence and determining an incidence angle or angle of attack of the disturbance. When a disturbance due to gust and/or turbulence is detected, automatically generating control commands for deflecting control surfaces dependent on the incidence angle or angle of attack, and applying the control commands to deflect the control surfaces.
대표청구항▼
1. An apparatus for dynamically alleviating loads generated on an aircraft, comprising: a sensor configured to automatically detect a disturbance due to gust and provide a parameter representing the angle of attack of the disturbance;a control command generator configured to automatically generating
1. An apparatus for dynamically alleviating loads generated on an aircraft, comprising: a sensor configured to automatically detect a disturbance due to gust and provide a parameter representing the angle of attack of the disturbance;a control command generator configured to automatically generating control commands for deflecting a control surface dependent on the angle of attack;first actuators configured to activate first control surfaces responsive to the control commands and second actuators configured to deflect second control surfaces, the control command generator being configured to generate first control commands for actuating the first control surfaces and second control commands for deflecting the second control surfaces; anda comparator configured to compare the angle of attack with a predetermined value, the control command generator being configured to generate the first control command when the angle of attack is below or equal to the predetermined value and to generate the second control command when the angle of attack is above the predetermined value. 2. An apparatus for dynamically alleviating loads generated on an aircraft by a disturbance, comprising: a sensor configured to automatically detect a disturbance due to gust and provide a parameter representing the angle of attack of the disturbance; anda controller including a control command generator configured to automatically generating control commands to deflect a control surface dependent on the angle of attack, and control allocation logic to adapt the control commands to the amount of the angle of attack and to a gust length representing a duration of the gust over time. 3. An apparatus according to claim 2, wherein the control allocation logic is configured to adapt at least one of a deflection angle and a deflection hold time for the control surface to the gust length. 4. An apparatus according to claim 2, further comprising a switch configured to switch an input to an activator of the control surface, the switch means being configured to switch between a feed through mode for feeding a control command signal to the activator and a hold value mode for holding a value of the control command signal constant and for feeding this constant value to the activator for a predetermined holding time. 5. An apparatus according to claim 2, wherein the control allocation logic comprises a command difference detector configured to determine a difference between the control command generated by the control command generator and an actual deflection of the control surface, such that the control allocation logic is configured to adapt the control command in response to a difference determined by the command difference detector. 6. An apparatus according to claim 2, further comprising first actuators configured to activate first control surfaces responsive to the control commands and second actuators configured to deflect second control surfaces, the control command generator being configured to generate the control commands to include first control commands for actuating the first control surfaces and second control commands for deflecting said second control surfaces; anda comparator configured to compare the angle of attack with a predetermined value, the control command generator being configured to generate the first control command when the angle of attack is below or equal to the predetermined value and to generate the second control command when the angle of attack is above the predetermined value. 7. An apparatus according to claim 4, wherein the switch is coupled to the command difference detector to switch between the feed-through mode and the hold value mode dependent on the difference determined by the command difference detector. 8. An apparatus according to claim 6, wherein the first control surface actuated in response to the first control command is one of an aileron surface and an elevator control surface, and the second control surface deflected in response to the second control command is one of a spoiler control surface, an upper wing spoiler control surface, a lower wing spoiler control surfaces surface, an aileron control surface, and an elevator control surface. 9. A method of dynamically alleviating loads generated on an aircraft by a disturbance, the method comprising: monitoring, during flight of the aircraft, to automatically detect a disturbance due to at least one of gust and turbulence and determine an angle of attack of the disturbance;when the disturbance is detected, automatically generating control commands to deflect control surfaces dependent on the angle of attack in order to dynamically alleviate loads generated on the aircraft by the disturbance;applying the control commands to deflect the control surfaces accordingly; andadapting the control commands based on an amount of the angle of attack and a gust length representing a duration of the gust over time to adapt the deflection of the control surfaces both to the angle of attack and the gust length. 10. A method according to claim 9, wherein during the adapting at least one of a deflection angle and a deflection hold time for the control surface is adapted to the gust length measured over time. 11. A method according to claim 9, wherein the adapting comprises comparing the control command and an actual deflection of the control surface;detecting when the actual deflection of the control surface matches the control command;checking, after a delay time starting with detection of a match, whether the control command still is present by determining whether the control command exceeds a limit or is still unequal to zero; andholding the control surface constant for a prescribed holding time in case that the control command still is present, and retracting or closing the control surface in case that the control command is not present after the delay time. 12. A method according to claim 9, wherein the adapting comprises: identifying a gradient of the angle of attack;generating the control commands to open the control surface when the angle of attack is increasing; andgenerating the control commands to hold the control surface constant for a prescribed holding time when the angle of attack is decreasing. 13. A method according to claim 9, wherein the adapting comprises: identifying when the angle of attack goes below a certain threshold and, if so, generating the control commands to hold the control surface constant for a prescribed holding time. 14. A method according to claim 9, wherein the adapting comprises: generating a signal indicative of the external excitation, applying the signal to a filter that is responsive to the time length of the signal, and using the filtered signal to generate the control commands adapted to the gust length. 15. A method according to claim 9, wherein the generating of the control commands comprises: generating first control commands for first control surfaces and second control commands for second control surfaces;comparing the angle of attack with a predetermined value;generating the first control commands to activate the first control surface when the angle of attack is below or equal to this predetermined value; andgenerating the second control commands to add a deflection of the second control surfaces when the angle of attack is above the predetermined value. 16. A method according to claim 10, wherein the adapting comprises comparing the control command and an actual deflection of the control surface;detecting when the actual deflection of the control surface matches the control command;checking, after a delay time starting with detection of a match, whether the control command still is present by determining whether the control command exceeds a limit or is still unequal to zero; andholding the control surface constant for a prescribed holding time in case that the control command still is present, and retracting or closing the control surface in case that the control command is not present after the delay time. 17. A method according to claim 10, wherein the adapting comprises: identifying a gradient of the angle of attack;generating the control commands to open the control surface when the angle of attack is increasing; andgenerating the control commands to hold the control surface constant for a prescribed holding time when the angle of attack is decreasing. 18. A method of dynamically alleviating loads generated on an aircraft by a disturbance, the method comprising: monitoring, during flight of the aircraft, to automatically detecting a disturbance due to at least one of gust and turbulence and determine an angle of attack of the disturbance;when the disturbance is detected, automatically generating control commands to deflect control surfaces dependent on the angle of attack in order to dynamically alleviate loads generated on the aircraft by the disturbance, the generating of the control commands comprising generating first control commands for first control surfaces and second control commands for second control surfaces;comparing the angle of attack with a predetermined value;generating the first control commands to activate the first control surface when the angle of attack is below or equal to this predetermined value; andgenerating the second control commands to add a deflection of the second control surfaces when the angle of attack is above the predetermined value; andapplying the control commands to deflect the control surfaces accordingly. 19. A method according to claim 15, wherein the first control commands include at least one of aileron control commands for actuating an aileron control surface and elevator control commands for actuating an elevator control surface; andthe second control commands include spoiler control commands for deflecting spoiler control surfaces arranged on at least one of an upper and lower surface of a wing of the aircraft. 20. A method according to claim 19, the second control commands further include at least one of aileron control commands for deflecting an aileron control surface and elevator control commands for deflecting an elevator control surface.
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이 특허에 인용된 특허 (6)
Bleeg Robert J. (Mercer Island WA), Apparatus and method for reducing aircraft loads resulting from atmospheric turbulence and gusts.
Larramendy Panxika,FRX ; Delgado Daniel,FRX, Method and device for detecting vertical gusts of wind and application thereof to the pitch-attitude control of an airc.
Larramendy Panxika,FRX ; Delgado Daniel,FRX, Method for protecting an aircraft against vertical gusts of wind and pitch-attitude control device employing this method.
Fabre Pierre (Toulouse FRX) Le Tron Xavier (Toulouse FRX) Lacoste Philippe (Toulouse FRX), System for reducing the forces applied to the wings and particularly to the root of the wings of an aircraft in flight.
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