Abstract: A sleeve has splines formed with a groove, a high-speed-stage slanting surface and a turn-off slanting surface. A synchronizer ring has splines and first projecting portions. Lever members are arranged among the sleeve, the hub and the synchronizer ring to transmit pushing force from the sleeve to the synchronizer ring. The synchronizer ring is pushed against a speed gear to generate frictional torque, being pushed by the lever members pressed by a high-speed-stage slanting surface. The lever members turn over and transmit pushing force applied from a turn-over slanting surface to the synchronizer ring so as to press a frictional surface against a cone surface to synchronize them when the sleeve moves in a direction opposite to the speed gear. A diameter of the first inner diameter portion is set larger than that of the second inner diameter portion.

Abstract: A synchronizer device includes a first rotating member provided at a shaft, a second rotating member rotatably provided at the shaft and including a conical body on which an outer conical surface is formed, a synchronizer ring having an inner conical surface contacting the outer conical surface, and arranged between the first and the second rotating members, the synchronizer ring being movable in an axial direction of the first rotating member and integrally rotated with the first rotating member, a sleeve provided at an outer circumference of the first rotating member, and the sleeve being slidable in the axial direction of the first rotating member, a lever provided at an inner circumference of the sleeve and arranged between the first rotating member and the synchronizer ring, and a retracting member including an outwardly biasing portion and a retracting biasing portion for biasing the lever away from the synchronizer ring.

Abstract: A clutch assembly for connecting a shaft to a rotary member mounted on said shaft in a rotationally fixed manner comprises: a sliding sleeve which is rotationally fixed to the shaft, is axially slidably mounted on said shaft and is provided with a first gearing, A clutch body which is rotationally fixed to the rotary member and provided with a second gearing which can mesh with the first gearing to connect the shaft and the rotary member in a rotationally fixed manner. And, a locking synchronisation unit having a synchroniser ring with a friction surface the ring permitting the speeds of the shaft and the rotary member to be synchronised before the meshing of the first and second gearings. The locking synchronisation unit further comprises a locking member which is coupled to the sliding sleeve by a detent groove and to the synchroniser ring in the rotational direction (D) by a pair of locking surfaces.

Abstract: An overrunning clutch assembly includes a first ring having pockets spaced mutually about an axis, rockers each located in a pocket, springs each urging a rocker to pivot in a respective pocket, and first notches arranged around the axis. A second ring includes second pockets spaced mutually about the axis, second rockers each located in a second pocket such that at least one second rocker is engageable with a notch, second springs each urging a second rocker toward engagement with a notch, and second notches around the axis, at least one rocker being engageable with at least one second notch. A control member moves about the axis alternately to prevent the first rockers from engaging the second notches and to permit the first rockers to engage the second notches.