Jam tolerant electromechanical actuation systems and methods of operation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-013/24
F16H-029/02
출원번호
US-0928508
(2007-10-30)
등록번호
US-8336818
(2012-12-25)
발명자
/ 주소
Flatt, James E.
출원인 / 주소
Parker-Hannifin Corporation
대리인 / 주소
Renner, Otto, Boisselle & Sklar, LLP
인용정보
피인용 횟수 :
15인용 특허 :
22
초록▼
In a vehicle, having a fixed supporting structure and a load movable relative thereto, a jam tolerant actuating system, a method for controlling this system including: Locating a physical coupling/decoupling mechanism between the load and an actuator assembly as close a practicable to the load; cons
In a vehicle, having a fixed supporting structure and a load movable relative thereto, a jam tolerant actuating system, a method for controlling this system including: Locating a physical coupling/decoupling mechanism between the load and an actuator assembly as close a practicable to the load; constructing the coupling/uncoupling mechanism to be reversible, and hence testable; and controlling the connection/disconnection via decision making electronics which will detect any system failure by monitoring, at a minimum: actuator main motor load and speed, and actuator output load. Also set forth are specific embodiments of pivotable rotary geared actuators as well as linear ball screw type actuators embodying the coupling/uncoupling mechanisms of this invention.
대표청구항▼
1. An electromechanical actuator assembly, comprising: an actuator for attachment to a control surface,a load path for transferring control-surface motion to the actuator,a decoupling mechanism including engagable and disengageable members that when engaged to one another control-surface motion is t
1. An electromechanical actuator assembly, comprising: an actuator for attachment to a control surface,a load path for transferring control-surface motion to the actuator,a decoupling mechanism including engagable and disengageable members that when engaged to one another control-surface motion is transferred to the actuator and when disengaged from one another upon detection of a malfunction the load path is severed,a motor providing decoupling motion, anda gear for transferring decoupling motion to the decoupling mechanism wherein, when the gear is rotated in a decoupling direction, the members of the decoupling mechanism are disengaged from one another to sever the load path upon detection of a malfunction. 2. An electromechanical actuator assembly as set forth in claim 1, wherein the load path comprises a ballscrew and a ballnut that moves linearly in response to rotational movement of the ballscrew. 3. An electromechanical actuator assembly as set forth in claim 2, wherein the ballnut is decoupled from an output rod of the actuator by the decoupling mechanism upon detection of the malfunction. 4. An electromechanical actuator assembly as set forth in claim 1, wherein the decoupling mechanism is a coupling/decoupling mechanism that can also couple the load path to transfer control-surface motion to the actuator. 5. An electromechanical actuator assembly as set forth in claim 4, wherein when the gear is rotated in a coupling direction, opposite the decoupling direction, the members of the coupling/decoupling mechanism are engaged to one another to couple the load path. 6. An electromechanical actuator assembly as set forth in claim 5, wherein the load path comprises a ballscrew and a ballnut that moves linearly in response to rotational movement of the ballscrew. 7. An electromechanical actuator assembly as set forth in claim 6, wherein the ballnut is decoupled from the actuator by the decoupling mechanism upon detection of the malfunction. 8. A method of testing the electromechanical actuator assembly set forth in claim 7, said method comprising the steps of rotating the gear in the decoupling direction to confirm decoupling of coupling/decoupling mechanism and thereafter driving the gear in the coupling direction to reestablish the load path for operation. 9. In combination, a control surface and a pair of the electromechanical actuator assemblies set forth in claim 1, wherein both actuators are attached to the control surface whereby, upon decoupling of one load path upon detection of the malfunction, the control-surface motion can still be provided through the other load path. 10. In combination, a controller and the electromechanical actuator assembly set forth in claim 1, wherein the controller controls the rotation of the gear. 11. The combination set forth in claim 10, further comprising a computer, and wherein the controller relays data regarding input-output loads to the computer, and wherein the computer compares this data to detect a malfunction. 12. A vehicle comprising a control surface and the electromechanical actuator assembly set forth in claim 1, wherein the control surface is attached to the actuator and moves in response to control-surface motion transferred through the load path. 13. A vehicle as set forth in claim 12, wherein the vehicle is an aircraft. 14. A vehicle as set forth in claim 13, wherein the control surface is a primary control surface. 15. A vehicle as set forth in claim 13, wherein the control surface is a secondary control surface. 16. A method of testing the electromechanical actuator assembly in the vehicle set forth in claim 13, said method comprising the steps of driving the gear in the decoupling direction to confirm decoupling of the decoupling mechanism and thereafter driving the gear in the opposite direction to reestablish the load path for operation. 17. A method of testing as set forth in claim 16, wherein said steps are performed prior to each flight. 18. An aircraft comprising a control surface and a pair of the electromechanical actuator assemblies set forth in claim 1, wherein the control surface is attached to both actuators, whereby, upon decoupling of one load path upon detection of the malfunction, the control-surface motion can still be provided through the other load path. 19. An electromechanical actuator assembly, comprising: an actuator for attachment to a control surface,a load path for transferring control-surface motion to the actuator,a coupling/decoupling mechanism for severing the load path upon detection of a malfunction and that can also couple the load path to transfer control-surface motion to the actuator,a motor providing decoupling motion, anda gear for transferring decoupling motion to the decoupling mechanism wherein, when the gear is rotated in a decoupling direction, the decoupling mechanism severs the load path upon detection of a malfunction, and wherein, the gear is rotated in a coupling direction, opposite the decoupling direction, to couple the load path. 20. A method of testing an electromechanical actuator assembly in an aircraft having a control surface, the electromechanical actuator assembly including an actuator for attachment to the control surface, a load path for transferring control-surface motion to the actuator wherein the control surface is attached to the actuator and moves in response to control-surface motion transferred through the load path, a decoupling mechanism for severing the load path upon detection of a malfunction, a motor providing decoupling motion, and a gear for transferring decoupling motion to the decoupling mechanism wherein, when the gear is rotated in a decoupling direction, the decoupling mechanism severs the load path upon detection of a malfunction, said method comprising the steps of: driving the gear in the decoupling direction to confirm decoupling of the decoupling mechanism, and thereafterdriving the gear in the opposite direction to reestablish the load path for operation.
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이 특허에 인용된 특허 (22)
Tysver John D. (Rockford IL) Grimm Duane (Rockford IL), Actuator mechanism having adjustable stop.
Degenholtz, Arthur; Mayer, Edward; Vaghela, Naresh P., Arrangement and associated system having an actuator and a tubular flap-drive member about the actuator.
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