Provided is an actuator characterized by the use of a shuttle that shifts in response to an overload. The shuttle is movable axially relative to a rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation o
Provided is an actuator characterized by the use of a shuttle that shifts in response to an overload. The shuttle is movable axially relative to a rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation of the rotary input member to a blocking position preventing further rotation of the rotary input member. In this way, the shuttle prevents rotation of a rotary input member during an overload of a control surface.
대표청구항▼
1. An actuator including: a housing;a worm gear mounted in the housing for rotation;a rotary input member mounted in the housing for rotatably driving the worm gear; anda shuttle supported in the housing for movement by loads acting on the actuator from a disengaged position allowing free rotation o
1. An actuator including: a housing;a worm gear mounted in the housing for rotation;a rotary input member mounted in the housing for rotatably driving the worm gear; anda shuttle supported in the housing for movement by loads acting on the actuator from a disengaged position allowing free rotation of the rotary input member to an engaged position engaging the rotary input member, wherein when in the engaged position, the shuttle is configured to be moved axially relative to the rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation of the rotary input member to a blocking position preventing further rotation of the rotary input member,wherein during an overload, the worm gear is configured to displace axially relative to an output member to contact the shuttle, thereby causing the shuttle to engage the rotary input member. 2. An actuator according to claim 1, wherein the shuttle includes at least one tooth disposed on the shuttle that is configured to engage the rotary input member in the engaged position. 3. An actuator according to claim 2, wherein the stop is axially spaced from the at least one tooth. 4. An actuator according to claim 2, wherein the shuttle includes at least one frame supported on the rotary input member for relative movement. 5. An actuator according to claim 4, wherein the at least one frame including a pair of frames respectively assembled at opposite ends of the rotary input member and held together by springs. 6. An actuator according to claim 1, wherein the shuttle is biased towards a central position by springs, thereby preventing the shuttle from vibrating out of position and allowing the shuttle to translate axially along the rotary input member. 7. An actuator according to claim 1, wherein the worm gear includes a pusher integrally formed on each side of the worm gear, wherein the pushers are configured to contact the shuttle during an overload. 8. An actuator according to claim 1, further including first and second spring packs disposed on opposite sides of the worm gear, wherein the spring packs are configured to hold the worm gear in mesh with the rotary input member and to compress during an overload to cause the worm gear to displace. 9. An actuator according to claim 1, further including a nut rotated by the worm gear and the output member restrained by the actuating member. 10. An actuator according to claim 1, wherein the rotary input member includes a thread. 11. An actuator according to claim 1, further comprising at least one pin disposed in a pin housing surrounding an end of the rotary input member, wherein the at least one pin is configured to displace from a recessed position during an overload. 12. An actuator according to claim 11, further comprising at least one second pin disposed in a housing surrounding another end of the rotary member. 13. An actuator including: a housing;a worm gear mounted in the housing for rotation;a rotary input member mounted in the housing for rotatably driving the worm gear; anda shuttle supported in the housing for movement by loads acting on the actuator from disengaged position allowing free rotation of the rotary input member to an engaged position engaging the rotary input member, wherein when in the engaged position, the shuttle is configured to be moved axially relative to the rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation of the rotary input member to a blocking position preventing further rotation of the rotary input member,wherein the shuttle includes at least one tooth disposed on the shuttle that is configured to engage the rotary input member in the engaged position,wherein the shuttle includes at least one frame supported on the rotary input member for relative movement, the at least one frame including a pair of frames respectively assembled at opposite ends of the rotary input member and held together by springs. 14. An actuator including: a housing;a worm gear mounted in the housing for rotation;a rotary input member mounted in the housing for rotatably driving the worm gear; anda shuttle supported in the housing for movement by loads acting on the actuator from a disengaged position allowing free rotation of the rotary input member to an engaged position engaging the rotary input member, wherein when in the engaged position, the shuttle is configured to be moved axially relative to the rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation of the rotary input member to a blocking position preventing further rotation of the rotary input member, andwherein the shuttle includes a base, an arm coupled to the base, and at least one tooth coupled to the arm and configured to engage the rotary input member in respective valleys of a thread of the rotary input member, wherein the arm allows the at least one tooth to move to accommodate a peak of the thread of the rotary input member if aligned therewith at the time of engagement. 15. An actuator according to claim 14, wherein the stop is axially spaced from the arm. 16. An actuator according to claim 14, wherein the arm is a cantilever arm extending in a direction parallel to the rotary input member. 17. An actuator according to claim 16, wherein the base is formed by a wall extending parallel to the cantilever arm, wherein the cantilever arm resides in a plane in the wall in its unflexed position. 18. An actuator including: a housing;a worm gear mounted in the housing for rotation;a rotary input member mounted in the housing for rotatably driving the worm gear, the rotary input member including a thread; anda shuttle supported in the housing for movement by loads acting on the actuator from a disengaged position allowing free rotation of the rotary input member to an engaged position engaging the rotary input member, wherein when in the engaged position, the shuttle is moveable axially relative to the rotary input member by continued rotation of the rotary input member so that a stop on the shuttle moves from an ambush position allowing free rotation of the rotary input member to a blocking position preventing further rotation of the rotary input member,wherein the thread includes at least one stop that is configured to engage the stop on the shuttle when the shuttle is in the blocking position. 19. An actuator according to claim 18, wherein the shuttle includes at least one tooth disposed on the shuttle that is configured to engage the rotary input member in the engaged position. 20. An actuator according to claim 19, wherein the stop is axially spaced from the at least one tooth.
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이 특허에 인용된 특허 (17)
McKay, Ted Alexander, Aircraft flight control actuation system with direct acting, force limiting, actuator.
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