초록 ▼

A locking member for controllably transmitting torque between first and second coupling members of a coupling assembly is provided. The locking member includes projecting inner and outer pivots which extend laterally from a main body portion for enabling pivotal motion of the locking member about a

A locking member for controllably transmitting torque between first and second coupling members of a coupling assembly is provided. The locking member includes projecting inner and outer pivots which extend laterally from a main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots. The pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of a pocket to occur near the pivot axis during rotation of the first coupling member and the locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions.

대표청구항 ▼

1. A locking member for controllably transmitting torque between first and second coupling members of a coupling assembly, the first coupling member including a coupling face having a pocket which is sized and shaped to receive and nominally retain the locking member, the locking member comprising:

1. A locking member for controllably transmitting torque between first and second coupling members of a coupling assembly, the first coupling member including a coupling face having a pocket which is sized and shaped to receive and nominally retain the locking member, the locking member comprising: a member-engaging first end surface;a member-engaging second end surface;an elongated main body portion between the end surfaces; andprojecting inner and outer pivots which extend laterally from the main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots, the end surfaces of the locking member being movable between engaged and disengaged positions with respect to the coupling members during the pivotal motion whereby one-way torque transfer may occur between the coupling members and wherein the pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of the pocket to occur near the pivot axis during rotation of the first coupling member and the retained locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions wherein the inner pivot is notched to allow frictional engagement of a side surface of the notched inner pivot with an inner wall of the pocket and to prevent rotation of the locking member in the pocket . 2. The locking member as claimed in claim 1, wherein the overall moment on the locking member is negative during pivotal moment of the locking member from the disengaged position to the engaged position. 3. The locking member as claimed in claim 1, wherein the overall moment on the locking member is positive during pivotal motion of the locking member from the engaged position to the disengaged position. 4. The locking member as claimed in claim 1, wherein center of gravity of the locking member is located within the main body portion and spaced away from the pivot axis. 5. The locking member as claimed in claim 1, wherein the pocket provides sufficient clearance to allow sliding movement of the locking member during movement of the locking member between the engaged and disengaged positions. 6. The locking member as claimed in claim 1, wherein the locking member is a locking strut. 7. The locking member as claimed in claim 1, wherein the locking member is an injection molded locking member. 8. The locking member as claimed in claim 7, wherein the locking member is a metal injection molded locking member. 9. The locking member as claimed in claim 1, wherein the locking member is seesaw-shaped. 10. An engageable coupling assembly comprising: first and second coupling members, the first coupling member having a coupling face with a pocket which is sized and shaped to receive and nominally retain a locking member, the locking member including: a member-engaging first end surface;a member-engaging second end surface;an elongated main body portion between the end surfaces; andprojecting inner and outer pivots which extend laterally from the main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots, the end surfaces of the locking member being movable between engaged and disengaged positions with respect to the coupling members during the pivotal motion whereby one-way torque transfer may occur between the coupling members and wherein the pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of the pocket to occur near the pivot axis during rotation of the first coupling member and the retained locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions wherein the inner pivot is notched to allow frictional engagement of a side surface of the notched inner pivot with an inner wall of the pocket and to prevent rotation of the locking member in the pocket. 11. The assembly as claimed in claim 10, wherein the overall moment on the locking member is negative during pivotal moment of the locking member from the disengaged position to the engaged position. 12. The assembly as claimed in claim 10, wherein the overall moment on the locking member is positive during pivotal motion of the locking member from the engaged position to the disengaged position. 13. The assembly as claimed in claim 10, wherein center of gravity of the locking member is located within the main body portion and spaced away from the pivot axis. 14. The assembly as claimed in claim 10, wherein the pocket provides sufficient clearance to allow sliding movement of the locking member during movement of the locking member between the engaged and disengaged positions. 15. The assembly as claimed in claim 10, wherein the locking member is a locking strut. 16. The assembly as claimed in claim 10, wherein the locking member is an injection molded locking member. 17. The assembly as claimed in claim 16, wherein the locking member is a metal injection molded locking member. 18. The assembly as claimed in claim 10, wherein the locking member is seesaw-shaped. 19. An overrunning coupling and control assembly comprising: first and second coupling members, the first coupling member having a first face with a pocket which is sized and shaped to receive and nominally retain a locking member and a second face having a passage in communication with the pocket to communicate an actuating force to the locking member to actuate the locking member within the pocket so that the locking member moves between the engaged and disengaged positions, the locking member including: a member-engaging first end surface;a member-engaging second end surface;an elongated main body portion between the end surfaces; andprojecting inner and outer pivots which extend laterally from the main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots, the end surfaces of the locking member being movable between engaged and disengaged positions with respect to the coupling members during the pivotal motion whereby one-way torque transfer may occur between the coupling members and wherein the pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of the pocket to occur near the pivot axis during rotation of the first coupling member and the retained locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions wherein the inner pivot is notched to allow frictional engagement of a side surface of the inner pivot with an inner wall of the pocket and to prevent rotation of the locking member in the pocket. 20. The assembly as claimed in claim 19, wherein the overall moment on the locking member is negative during pivotal moment of the locking member from the disengaged position to the engaged position. 21. The assembly as claimed in claim 19, wherein the overall moment on the locking member is positive during pivotal motion of the locking member from the engaged position to the disengaged position. 22. The assembly as claimed in claim 19, wherein center of gravity of the locking member is located within the main body portion and spaced away from the pivot axis. 23. The assembly as claimed in claim 19, wherein the pocket provides sufficient clearance to allow sliding movement of the locking member during movement of the locking member between the engaged and disengaged positions. 24. The assembly as claimed in claim 19, wherein the locking member is a locking strut. 25. The assembly as claimed in claim 19, wherein the locking member is an injection molded locking member. 26. The assembly as claimed in claim 25, wherein the locking member is a metal injection molded locking member. 27. The assembly as claimed in claim 19, wherein the locking member is seesaw-shaped. 28. The assembly as claimed in claim 19, further comprising an actuator received within the passage to provide the actuating force. 29. The assembly as claimed in claim 19, wherein the first coupling member is a pocket plate. 30. The assembly as claimed in claim 19, wherein the first face is an annular coupling face. 31. The assembly as claimed in claim 30, wherein the annular coupling face is oriented to face axially along a rotational axis of the assembly. 32. The assembly as claimed in claim 19, wherein the coupling members are clutch members. 33. The assembly as claimed in claim 19, wherein the pocket has an inner recess for receiving a biasing spring and wherein the pocket is a spring pocket. 34. The assembly as claimed in claim 19, wherein the first and second faces are generally annular and extend generally radially with respect to a rotational axis of the assembly. 35. An overrunning coupling and control assembly comprising: first and second coupling members, the first coupling member having a first face with a pocket which is sized and shaped to receive and nominally retain a locking member and a second face having a passage in communication with the pocket to communicate an actuating force to the locking member to actuate the locking member within the pocket so that the locking member moves between the engaged and disengaged positions, the locking member including: a member-engaging first end surface;a member-engaging second end surface;an elongated main body portion between the end surfaces; andprojecting inner and outer pivots which extend laterally from the main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots, the end surfaces of the locking member being movable between engaged and disengaged positions with respect to the coupling members during the pivotal motion whereby one-way torque transfer may occur between the coupling members and wherein the pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of the pocket to occur near the pivot axis during rotation of the first coupling member and the retained locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions further comprising a biasing member that biases the locking member against pivotal motion of the locking member towards the engaged position wherein the actuating force pivots the locking member against the bias of the biasing member. 36. An overrunning coupling and control assembly comprising: first and second coupling members, the first coupling member having a first face with a pocket which is sized and shaped to receive and nominally retain a locking member and a second face having a passage in communication with the pocket to communicate an actuating force to the locking member to actuate the locking member within the pocket so that the locking member moves between the engaged and disengaged positions, the locking member including: a member-engaging first end surface;a member-engaging second end surface;an elongated main body portion between the end surfaces; andprojecting inner and outer pivots which extend laterally from the main body portion for enabling pivotal motion of the locking member about a pivot axis which intersects the pivots, the end surfaces of the locking member being movable between engaged and disengaged positions with respect to the coupling members during the pivotal motion whereby one-way torque transfer may occur between the coupling members and wherein the pivots are sized, shaped and located with respect to the main body portion to allow frictional engagement of an end surface of the outer pivot with an outer wall of the pocket to occur near the pivot axis during rotation of the first coupling member and the retained locking member above a predetermined RPM thereby reducing overall moment on the locking member about the pivot axis that has to be overcome to move the locking member between the engaged and disengaged positions and wherein the first face has a plurality of pockets and the second face has a plurality of passages in communication with their respective pockets, each passage of the plurality of passages communicating an actuating force to its respective locking member to actuate its respective locking member within its respective pocket wherein the assembly includes a plurality of biasing members that bias their respective locking members against pivotal motion of their locking members towards their engaged positions wherein the actuating forces pivot their respective locking members against the bias of their respective biasing members.