Electromechanical actuator including redundant, dissimilar position feedback
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05B-011/18
G05B-011/01
출원번호
UP-0223325
(2005-09-08)
등록번호
US-7560888
(2009-07-27)
발명자
/ 주소
Quitmeyer, James N.
Geck, Kellan P.
Evans, Paul S.
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Ingrassia Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
19
초록▼
A relatively small, lightweight actuator includes a plurality of motors, an actuation element, a translation member, and a plurality of position sensors. The motors each supply a drive force to the actuation member, causing it to rotate. The translation member is configured, upon rotation of the act
A relatively small, lightweight actuator includes a plurality of motors, an actuation element, a translation member, and a plurality of position sensors. The motors each supply a drive force to the actuation member, causing it to rotate. The translation member is configured, upon rotation of the actuator, to translate to a position. The position sensors sense the translational position of the translation member and the rotational position of each motor. The actuator is relatively small, lightweight, and can withstand the relatively severe environmental conditions and relatively significant levels of vibration and shock associated with many aerospace applications.
대표청구항▼
We claim: 1. An actuator assembly, comprising: a plurality of motors, each motor adapted to receive electrical drive power and configured, upon receipt thereof, to supply a drive force; an actuation member coupled to receive the drive force from each of the motors and configured, upon receipt there
We claim: 1. An actuator assembly, comprising: a plurality of motors, each motor adapted to receive electrical drive power and configured, upon receipt thereof, to supply a drive force; an actuation member coupled to receive the drive force from each of the motors and configured, upon receipt thereof, to rotate; a translation member disposed adjacent the actuation member and configured, upon rotation of the actuation member, to translate to a position; a first position sensor mounted within the actuation member and configured to sense the position of the translation member and supply a first position signal representative thereof; a second position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a first one of the plurality of motors and operable, upon receipt thereof, to supply a second position signal, dissimilar from the first position signal, that is representative of the position of the translation member; and a third position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a second one of the plurality of motors and operable, upon receipt thereof, to supply a third position signal, dissimilar from the first position signal, that is representative of the position of the translation member. 2. The actuator assembly of claim 1, wherein: the first position sensor comprises a linear variable differential transformer (LVDT); and the second and third position sensors each comprise a resolver. 3. The actuator assembly of claim 2, wherein: the LVDT includes a differential transformer having primary windings and secondary windings, and a movable slug disposed between the primary and secondary windings; the differential transformer is disposed within the actuation member; and the movable slug is coupled to, and movable with, the translation member. 4. The actuator assembly of claim 1, wherein the translation member further includes a first end and a second end, and wherein the actuator assembly further comprises: a rod end assembly coupled to the translation member second end, the rod end assembly configured to couple the translation member to an aerospace component. 5. The actuator assembly of claim 1, wherein each of the motors is a brushless DC motor. 6. The actuator assembly of claim 1, further comprising: an actuator housing assembly, wherein each of the motors is mounted on the actuator assembly housing. 7. The actuator assembly of claim 1, further comprising: a gear assembly coupled between each of the motors and the actuation member, the gear assembly configured to receive the rotational drive force supplied by each of the motors and transfer the rotational drive force to the actuation member. 8. The actuator assembly of claim 7, wherein the gear assembly is configured as a torque summed gear train. 9. An actuator assembly, comprising: a housing; a plurality of motors mounted on the housing, each motor configured to supply a rotational drive force; a ballscrew rotationally mounted within the housing and including at least an inner surface and an outer surface, the ballscrew inner surface defining a sensor cavity, the ballscrew outer surface having one or more ball grooves formed thereon, the ballscrew adapted to receive the rotational drive force from each of the motors and configured, in response thereto, to rotate; a ballnut disposed at least partially within housing and mounted against rotation, the ballnut disposed at least partially around the ballscrew and including at least an inner surface and an outer surface, the ballnut inner surface having one or more ball grooves formed thereon; a plurality of balls disposed within the one or more ballnut ball grooves and at least selected ones of the one or more ballscrew ball grooves, whereby rotation of the ballscrew causes translation of the ballnut to a position; a first position sensor disposed at least partially within the ballscrew cavity, the first position sensor configured to sense the position of the ballnut and supply a position signal representative thereof; a second position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a first one of the plurality of motors and operable, upon receipt thereof, to supply a second position signal, dissimilar from the first position signal, that is representative of the position of the ballnut; and a third position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a second one of the plurality of motors and operable, upon receipt thereof, to supply a third position signal, dissimilar from the first position signal, that is representative of the position of the ballnut. 10. The actuator assembly of claim 9, wherein: the first position sensor comprises a linear variable differential transformer (LVDT); and the second and third position sensors each comprise a resolver. 11. The actuator assembly of claim 10, wherein: the LVDT includes a differential transformer having primary windings and secondary windings, and a movable slug disposed between the primary and secondary windings; the differential transformer is disposed within the ballscrew; and the movable slug is coupled to, and movable with, the ballnut. 12. The actuator assembly of claim 9, further comprising: a torque summed gear train coupled between each of the motors and the ballscrew, the torque summed gear train configured to receive the rotational drive force supplied by each of the motors and transfer the rotational drive force to the ballscrew. 13. The actuator assembly of claim 9, wherein: the ballscrew rotates about an actuator axis; the ballnut translates along the actuator axis; and each motor rotates about a motor axis that is parallel to, and displaced from, the actuator axis. 14. An actuation control system, comprising: a plurality of motors, each motor coupled to receive actuator position control signals and operable, in response thereto, to supply a drive force; an actuation member coupled to receive the drive force from the motors and configured, upon receipt thereof, to rotate; a translation member disposed adjacent the actuation member and adapted to couple to an aerospace flight control component, the translation member configured, upon rotation of the actuation member, to translate to a position; a first position sensor mounted within the actuation member and configured to sense the position of the translation member and supply a first position feedback signal representative of the position thereof; a second position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a first one of the plurality of motors and operable, upon receipt thereof, to supply a second position feedback signal, dissimilar from the first position signal, that is representative of the position of the translation member; a third position sensor, dissimilar from the first position sensor, coupled to receive the drive force from a second one of the plurality of motors and operable, upon receipt thereof, to supply a third position signal, dissimilar from the first position signal, that is representative of the position of the translation member; and a controller adapted to receive control signals and coupled to receive the first position feedback signal, the second position feedback signal, and the third position feedback signal and configured, in response to the received signals, to supply the actuator position control signals to the plurality of motors. 15. The system of claim 14, wherein the controller is an aircraft flight surface controller. 16. The system of claim 14, wherein the controller is a thrust vector controller.
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