A rotary device assembly is provided and includes an input shaft coupled to a torque generating device, an output shaft and a rotary device disposed to transmit first torque from the input shaft to the output shaft and configured with no-back capability to prevent second torque applied to the output
A rotary device assembly is provided and includes an input shaft coupled to a torque generating device, an output shaft and a rotary device disposed to transmit first torque from the input shaft to the output shaft and configured with no-back capability to prevent second torque applied to the output shaft from being transmitted to the input shaft in an event the second torque deceeds a torque-limiting threshold and the no-back capability and torsional lock-up capability to prevent an overload of the torque generating device in an event the second torque exceeds the torque-limiting threshold.
대표청구항▼
1. A rotary device assembly, comprising: an input shaft coupled to a torque generating device;an output shaft; anda rotary device comprising:an output portion with a skewed roller assembly loaded by pre-load springs and a ball ramp assembly such that the skewed roller assembly provides variable drag
1. A rotary device assembly, comprising: an input shaft coupled to a torque generating device;an output shaft; anda rotary device comprising:an output portion with a skewed roller assembly loaded by pre-load springs and a ball ramp assembly such that the skewed roller assembly provides variable drag torques which are variable based on the loads of the pre-load springs and the ball ramp assembly; and an input portion comprising a thrust plate rotatable with the input shaft and having a dimple defining first axial surface, an output cone shaft rotatable with the output shaft and having a ramp defining second axial surface complementary to the first axial surface and spherical balls disposable in the dimples and the ramps by which the first torque is transmittable from the input shaft to the output shaft,the spherical balls being drivable out of the ramps in the event the second torque exceeds a torque-limiting threshold, andthe rotary device being disposed to transmit first torque from the input shaft to the output shaft and configured with:no-back capability to prevent second torque applied to the output shaft from being transmitted to the input shaft in an event the second torque deceeds the torque-limiting threshold, andthe no-back capability and torsional lock-up capability to prevent an overload of the torque generating device in an event the second torque exceeds the torque-limiting threshold, the rotary device further comprising an elastic element by which the output cone shaft is coupled to the output shaft, the elastic element being pre-loaded to prevent engagement of the torsional lock-up capability in the event the second torque deceeds the torque-limiting threshold. 2. The rotary device assembly according to claim 1, wherein the torque generating device comprises a flight control actuation system. 3. The rotary device assembly according to claim 1, further comprising: a first support housing;bearing elements by which the input shaft is rotatably disposed in the support housing; anda second support housing to which the rotary device is anchored. 4. A rotary device assembly, comprising: an input shaft coupled to a torque generating device;an output shaft; anda rotary device comprising:an output portion with a skewed roller assembly loaded by pre-load springs and a ball ramp assembly such that the skewed roller assembly provides variable drag torques which are variable based on the loads of the pre-load springs and the ball ramp assembly; and an input portion comprising a thrust plate rotatable with the input shaft and having a dimple defining first axial surface, an output cone shaft rotatable with the output shaft and having a ramp defining second axial surface complementary to the first axial surface and spherical balls disposable in the dimples and the ramps by which the first torque is transmittable from the input shaft to the output shaft, the spherical balls being drivable out of the ramps in the event the second torque exceeds a torque-limiting threshold, the rotary device being disposed to transmit first torque from the input shaft to the output shaft and configured with:no-back capability to prevent second torque applied to the output shaft from being transmitted to the input shaft in an event the second torque deceeds the torque-limiting threshold, andthe no-back capability and torsional lock-up capability to prevent an overload of the torque generating device in an event the second torque exceeds the torque-limiting threshold, wherein the output cone shaft comprises a dynamic cone portion and the rotary device comprises an output portion comprising:a first torque pathway, which is activated in the event the second torque deceeds the torque-limiting threshold, by which the second torque is directed away from the input shaft; anda second torque pathway including a static cone portion, which is activated in the event the second torque exceeds the torque-limiting threshold, by which the second torque is directed away from the input shaft and added to a torque gain generated by engagement between the dynamic cone portion and the static cone portion. 5. A rotary device assembly, comprising: an input shaft coupled to a torque generating device;an output shaft; anda rotary device disposed to transmit first torque from the input shaft to the output shaft, the rotary device comprising an input portion comprising a thrust plate rotatable with the input shaft and having a dimple defining first axial surface, an output cone shaft rotatable with the output shaft and having a ramp defining second axial surface complementary to the first axial surface and spherical balls disposable in the dimples and the ramps by which the first torque is transmittable from the input shaft to the output shaft, the spherical balls being drivable out of the ramps in the event the second torque exceeds a torque-limiting threshold,wherein the output cone shaft comprises a dynamic cone portion and the rotary device comprises an output portion comprising a first torque pathway, which is activated in the event the second torque deceeds the torque-limiting threshold, by which the second torque is directed away from the input shaft and a second torque pathway including a static cone portion, which is activated in the event the second torque exceeds the torque-limiting threshold, by which the second torque is directed away from the input shaft and added to a torque gain generated by engagement between the dynamic cone portion and the static cone portion,the rotary device being configured with:no-back capability to prevent second torque applied to the output shaft from being transmitted to the input shaft in an event the second torque deceeds a torque-limiting threshold, andthe no-back capability and torsional lock-up capability to prevent an overload of the torque generating device in an event the second torque exceeds the torque-limiting threshold,wherein the output portion further comprises:a skewed roller assembly operably disposed between the thrust plate and a support housing; anda pre-loaded skewed roller assembly operably disposed between the static cone portion and the thrust plate such that the skewed roller assembly is loaded by two independent means, one by the pre-load springs and the other by the ball ramp assembly such that the skewed roller assembly can provide drag torques that are variable based on the loads created by the pre-load springs and the ball ramp assembly. 6. The rotary device assembly according to claim 1, wherein the no-back capability is independently pre-loaded. 7. A flight control actuation system, comprising: a static surface;a dynamic surface, which is pivotable relative to the static surface; anda rotary device assembly comprising an output portion with a skewed roller assembly loaded by pre-load springs and a ball ramp assembly such that the skewed roller assembly provides variable drag torques which are variable based on the loads of the pre-load springs and the ball ramp assembly,the rotary device assembly being operably coupled to the static and dynamic surfaces and configured to transmit first torque from an input shaft to an output shaft to control a pivoting of the dynamic surface with:an independently pre-loaded no-back capability to prevent second torque applied to the output shaft from being transmitted to the input shaft in an event the second torque deceeds a torque-limiting threshold, andthe no-back capability and torsional lock-up capability to prevent an overload of a torque generating device to which the input shaft is coupled in an event the second torque exceeds the torque-limiting threshold,wherein the rotary device assembly comprises a ball-ramp assembly and the rotary device assembly further comprises a high gain cone brake assembly. 8. The flight control actuation system according to claim 7, wherein the static surface comprises a wing and the dynamic surface comprises a flap or a slat. 9. The flight control actuation system according to claim 7, wherein the second torque is applied to the output shaft via the dynamic surface. 10. The flight control actuation system according to claim 7, wherein the torque generating device comprises a flight control actuation system motor. 11. The flight control actuation system according to claim 7, wherein the rotary device assembly comprises: an input torque pathway; andfirst and second torque pathways disposed in a reverse orientation relative to the input torque pathway.
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Alfred K. Tengan ; Da-Yu Hsu, Aircraft control surface drive apparatus.
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