A stabilizer actuator has a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer. The actuator includes a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmit
A stabilizer actuator has a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer. The actuator includes a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft support structure upon failure of the primary load path. The secondary load path includes a tie rod extending along a longitudinal axis, a load path locking mechanism coupled to the tie rod, a lock housing having a central bore for receiving the locking mechanism, and at least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement.
대표청구항▼
1. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for t
1. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft su ort structure u on failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement,wherein an inner surface defining the central bore includes the at least one protrusion extending radially inward from the inner surface,wherein the locking mechanism includes the at least one segment, and the at least one segment is configured to move radially outward from a standby position to a failsafe position to prevent relative movement of the tie rod with respect to the lock housing by interacting with the at least one protrusion, andwherein the at least one protrusion comprises at least one inwardly extending circumferential rib and wherein the at least one segment comprises a latch segment having an outward extending circumferential flange configured to prevent relative axial movement between the tie rod and the lock housing by interacting with the at least one rib. 2. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft support structure upon failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement,wherein an inner surface defining the central bore includes the at least one protrusion extending radially inward from the inner surface,wherein the locking mechanism includes the at least one segment, and the at least one segment is configured to move radially outward from a standby position to a failsafe position to prevent relative movement of the tie rod with respect to the lock housing by interacting with the at least one protrusion, andwherein the at least one protrusion comprises at least one inwardly extending axial ridge and wherein the at least one segment comprises a lock segment having an outward extending axial flange configured to prevent relative radial movement between the tie rod and the lock housing by interacting with the at least one ridge. 3. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft su ort structure u on failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radian movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement,wherein the locking mechanism further comprises a spring pack for radially moving the segment outward from the standby position to the failsafe position, andwherein the spring pack includes an inner spring having a first twist direction and a coaxial outer spring having a second twist direction opposite the first twist direction. 4. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft support structure upon failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement,wherein the locking mechanism further comprises a trigger mechanism configured to trigger movement of the segment to the failsafe position when the a load path fails, andwherein the trigger mechanism is axially slidable with respect to the segment. 5. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft support structure upon failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod at an end of the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement. 6. The stabilizer actuator of claim 5, further comprising a threaded retainer between the locking mechanism and the tie rod for adjustably retaining the locking mechanism in the lock housing. 7. The stabilizer actuator of claim 5, wherein the tie rod is rigidly coupled to a ballscrew of the primary load path. 8. The stabilizer actuator of claim 5, further comprising at least one protrusion having at least one inwardly extending circumferential rib and wherein the segment comprises a latch segment having an outwardly extending circumferential flange configured to prevent relative axial movement between the tie rod and the lock housing by interacting with the at least one rib, and wherein the at least one protrusion comprises an axial slot through the at least one rib forming at least one inwardly extending axial ridge and wherein the at least one segment comprises a lock segment having an outward extending axial flange configured to prevent relative radial movement between the tie rod and the lock housing by interacting with the at least one ridge. 9. A method of testing the stabilizer actuator of claim 5, said method comprising: removing a lower primary load path gimbal pin to simulate a primary load path failure;applying a first load to the primary load path; andoperating the actuator. 10. The stabilizer actuator of claim 5, wherein an inner surface defining the central bore includes the at least one protrusion extending radially inward from the inner surface, wherein the locking mechanism includes the at least one segment, and the at least one segment is configured to move radially outward from a standby position to a failsafe position to prevent relative movement of the tie rod with respect to the lock housing by interacting with the at least one protrusion. 11. The stabilizer actuator of claim 10, wherein the at least one protrusion comprises at least one inwardly extending circumferential rib and wherein the at least one segment comprises a latch segment having an outward extending circumferential flange configured to prevent relative axial movement between the tie rod and the lock housing by interacting with the at least one rib. 12. The stabilizer actuator of claim 10, wherein the at least one protrusion comprises at least one inwardly extending axial ridge and wherein the at least one segment comprises a lock segment having an outward extending axial flange configured to prevent relative radial movement between the tie rod and the lock housing by interacting with the at least one ridge. 13. The stabilizer actuator of claim 10, wherein the lock housing further comprises one or more radial ports adjacent to the protrusion thereby allowing access to reset the locking mechanism from the failsafe position to the standby position. 14. The stabilizer actuator of claim 5, wherein the locking mechanism further comprises a spring pack for radially moving the segment outward from the standby position to the failsafe position. 15. The stabilizer actuator of claim 14, wherein the spring pack includes an inner spring having a first twist direction and a coaxial outer spring having a second twist direction opposite the first twist direction. 16. The stabilizer actuator of claim 5, wherein the locking mechanism further comprises a trigger mechanism configured to trigger movement of the segment to the failsafe position when the primary load path fails. 17. The stabilizer actuator of claim 16, wherein the trigger mechanism comprises at least one centering spring configured to bias the trigger mechanism towards a reset position. 18. The stabilizer actuator of claim 17, wherein the segment comprises a hook and the trigger mechanism comprises at least one trigger latch configured to latch with the hook when the trigger mechanism is in the reset position and the segment is in the standby position, thereby retaining the segment in the standby position. 19. The stabilizer actuator of claim 16, wherein the trigger mechanism is axially slidable with respect to the segment. 20. A stabilizer actuator having a first end for connecting to an aircraft support structure and a second end for connecting to a stabilizer, the actuator including a primary load path for transmittal of loads acting on the stabilizer to the aircraft support structure, and a secondary load path for transmittal of loads acting on the stabilizer to the aircraft support structure upon failure of the primary load path, the secondary load path comprising: a tie rod extending along a longitudinal axis;a load path locking mechanism coupled to the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon failure of the primary load path, moves radially to lock the tie rod to the lock housing against axial and/or radial movement,wherein an inner surface defining the central bore includes the at least one protrusion extending radially inward from the inner surface,wherein the locking mechanism includes the at least one segment, and the at least one segment is configured to move radially outward from a standby position to a failsafe position to prevent relative movement of the tie rod with respect to the lock housing by interacting with the at least one protrusion, andwherein the lock housing further comprises one or more radial ports adjacent to the protrusion thereby allowing access to reset the locking mechanism from the failsafe position to the standby position. 21. A method of resetting the stabilizer actuator of claim 20, said method comprising: removing a plug from the one or more ports of the lock housing; andinserting a reset tool into the one or more ports of the lock housing to push the segment out of engagement with the protrusion. 22. The method of claim 21, wherein the inserting includes threading the tool into the lock housing for increased leverage and control. 23. The method of claim 21, further comprising: applying a load opposite from the load causing engagement of the locking mechanism;removing the reset tool from the lock housing; andreinstalling the plug. 24. An actuator comprising: a drive motor and gear assembly;a ballscrew driven by the motor;a support gimbal for coupling the ballscrew to a support structure;a ball nut driven by the ballscrew;a tie rod extending along a longitudinal axis and rigidly coupled to the ballscrew;a locking mechanism coupled to the tie rod at an end of the tie rod;a lock housing having a central bore for receiving the locking mechanism; andat least one radially movable segment that, upon structural failure of the drive motor and gear assembly, the ballscrew, and/or the support gimbal, moves radially to lock the tie rod to the lock housing against axial and/or radial movement. 25. The actuator of claim 24, wherein an inner surface defining the central bore includes at least one protrusion extending radially inward from the inner surface, wherein the locking mechanism includes the at least one segment, and the at least one segment is configured to move radially outward from a standby position to a failsafe position to prevent relative movement of the tie rod with respect to the lock housing by interacting with the at least one protrusion.
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이 특허에 인용된 특허 (9)
Shaheen, Milad A.; Landas, Teodoro J., Actuator assembly for stabilizers.
Charafeddine, Abbas M.; Chapman, Douglas M.; Barlow, Robert S.; Duplain, Guy J., Method and system for minimizing axial backlash in a dual load path fail-safe aircraft actuator system.
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