IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0418643
(2003-04-17)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Honeywell International, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
15 인용 특허 :
17 |
초록
▼
A lock assembly for a thrust reverser system that prevents thrust reverser deployment when the thrust reversers are in the stowed position, but does not prevent thrust reverser movement, in either the deploy or stow directions, when the thrust reversers are out of the stowed position and the lock as
A lock assembly for a thrust reverser system that prevents thrust reverser deployment when the thrust reversers are in the stowed position, but does not prevent thrust reverser movement, in either the deploy or stow directions, when the thrust reversers are out of the stowed position and the lock assembly is in the locked position.
대표청구항
▼
1. An aircraft trust reverser control system, comprising:a power drive unit operable to supply a drive force; a drive mechanism coupled to receive the drive force; an actuator assembly coupled to the drive mechanism and operable to move, upon receipt of the drive force, between a stowed position and
1. An aircraft trust reverser control system, comprising:a power drive unit operable to supply a drive force; a drive mechanism coupled to receive the drive force; an actuator assembly coupled to the drive mechanism and operable to move, upon receipt of the drive force, between a stowed position and a deployed position; and a lock assembly coupled to the drive mechanism, the lock assembly including: a rotationally mounted lock shaft having threads on at least a portion of its outer surface and rotational in a deploy direction and a stow direction, a stop collar mounted on the lock shaft and translationally moveable along at least a section thereof, the sop collar having at least a lock nut engagement so and a lock nut mounted on the lock shaft and configured, in response to rotation of the lock shaft alone, to translate along at least a portion thereof, the lock nut having at least (i) a sop collar engagement surface configured to engage the lock nut engagement surface on the stop collar and (ii) threads on at least a portion of its inner surface that mate with the threads on the lock shaft outer surface, whereby the rotation of the lock shaft alone in the deploy diction and the stow direction translation of the lock nut, respectively, between a deploy position and a stow position. 2. The system of claim 1, further comprising:a first spur gear mounted on the lock shaft to rotate therewith, the first spur gear adapted to engage at least one second spur gear. 3. The system of claim 1, further comprising:a release mechanism coupled to the stop collar and operable to slide the stop collar on the lock shaft between at least a locked position and an unlocked position. 4. The system of claim 3, wherein the release mechanism comprises:a yoke arm coupled to the stop collar; and a solenoid coupled to the yoke arm and operable to move been a first position and a second position, whereby the stop collar is moved, reactively, the locked position and the unlocked position. 5. The system of claim 4, further comprising:a spring configured to bias the solenoid toward the first position. 6. The system of claim 1, wherein:the stop collar engagement surface will not contact the lock nut engagement surface when the stop collar is in the unlocked position and the lock nut is in the stowed position; and the stop collar engagement surface will contact lock nut engagement surface when the stop collar is it the locked position and the lock nut is within a predetermined dista of the stowed position. 7. The system of claim 6, wherein the stop collar engagement surface and the lock nut engagement surface each comprise:two or more engagement teeth protruding from the engagement surface, each of the engagement teeth including: a first surface having a top end and a bottom end, the first surface extending, from its bottom end, in a substantially perpendicular manner from the engagement surface, to its top end, and a ramped surface having a first end joined to the first surface top and a second end joined to the engagement surface, the ramped surface sloping substantially downwardly from its first end to its second end. 8. A thrust reverser system lock assembly, comprising:a rotationally mounted lock shaft having threads on at least a portion of its outer surface and rotational in a deploy direction and a stow direction; a stop collar mounted on the lock shaft and translationally moveable along at least a section thereof, the stop collar having at least a lock nut engagement surface; and a lock nut mounted on the lock shaft and configured, in response to rotation of the lock shaft alone, to translate along at least a portion thereof, the lock nut having at least (i) a stop collar engagement surface configured to engage the lock nut engagement surface on the stop collar and (ii) threads on at least a portion of its inner surface that mate with the treads on the lock shaft outer surface, whereby the rotation of the lock shaft alone in the deploy direction and the stow direction causes translation of the lock nut, respectively, between a deploy position and a stow position. 9. The lock assembly of claim 8, further comprising:a first spur gear mounted on the lock shaft to rotate therewith the first spur gear adapted to engage at least one second spur gear. 10. The lock assembly of claim 8, further comprising:a release mechanism coupled to the stop collar and operable to slide the stop collar on the lock shaft between at least a locked position and an unlocked position. 11. The lock assembly of claim 10, wherein the release mechanism comprises:a yoke am coupled to the stop collar; and a solenoid coupled to the yoke arm and operable to move between a first position and a second position, whereby the sp collar is moved, respectively, between the locked position and the unlocked position. 12. Th lock assembly of claim 11, further comprising:a spring configured to bias the solenoid toward the first position. 13. The lock assembly of claim 8, wherein:the stop collar engagement surface will not contact the lock nut engagement surface when the stop collar is in the unlocked position and the lock nut is in the stowed position; and the stop collar engagement surface will contact lock nut engagement surface when the stop collar is in the locked position and the lock nut is within a predetermined distance of the stowed position. 14. The lock assembly of claim 13, wherein the stop collar engagement surface and the lock nut engagement surface each comprise:two or more engagement teeth protruding from the engagement surface, each of the engagement teeth including: a first surface having a top end and a bottom end, the first surface extending, from its bottom end, in a substantially perpendicular manner from the engagement surface, to its top end, and a ramped sac having a first end joined to the first surface top and a second end joined to the engagement surface, the ramped surface sloping substantially downward from its first end to its second end. 15. A trust reverser actuator assembly, comprising:a housing; a dive shaft rotationally mounted in the housing to rotate in a deploy direction and a stow direction; and a lock assembly coupled to the housing, the lock assembly including: a rotationally mounted lock shaft having threads on at least a portion of its outer spice, the lock shaft coupled to the drive shaft and rotational therewith in the deploy and stow directions, a stop collar mounted on the lock shaft and translationally moveable along at least a section thereof, the stop collar having at last a lock nut engagement surface, and a lock nut mounted on the lock shaft and configured, in response to rotation of the lock shaft alone, to translate along at least a portion thereof, the lock nut having at least (i) a stop collar engagement surface configured to engage the lock nut engagement surface on the stop collar and (ii) threads on at least a portion of its inner spice that mate with the threads on the lock shaft outer surface, whereby rotation of the lock shaft alone in the deploy and a stow directions causes translation of the lock nut between a deploy and a stow position, respectively. 16. The actuator assembly of claim 15, further comprising:a first spur gear mounted on the lock shaft to rotate therewith, the first spur gear adapted to engage at least one second spur gear. 17. The actuator assembly of claim 15, further comprising:a release mechanism coupled to the stop collar and operable to slide the stop collar on the lock shaft between at least a locked position and an unlocked position. 18. The actuator assembly of claim 17, wherein the release mechanism comprises:a yoke arm coupled to the stop collar; and a solenoid coupled to the yoke arm and operable to move been a first position and a second position, whereby the stop collar is moved, respectively, between the locked position and the unlocked position. 19. The actuator assembly of claim 18, further coming a spring configured to bias the solenoid toward the first position.20. The actuator assembly of claim 15, wherein:the stop collar engagement surface will not contact the lock nut engagement surface when the stop collar is in the unlocked position and the lock out is in the stowed position; and the stop collar engagement surface will contact lock nut engagement surface when the stop collar is in the locked position and the lock nut is within a predetermined distance of the stowed position. 21. The actuator assembly of claim 20, wherein the stop collar engagement surface and the lock nut engagement surface each comprise:two or more engagement teeth protruding from the engagement surface, each of the engagement teeth including: a first surface having a top end and a bottom end, the first surface extending, from its bottom end, in a substantially perpendicular manner from the engagement surface, to its top end, and a ramped surface having a first end joined to the first surface top and a second end joined to the engagement surface, the ramped surface sloping substantially downwardly from its first end to its second end.
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