An electro-mechanical clutch apparatus includes a stationary member (22,122) having a center portion extending along an axis A and a stationary coil assembly (34,134) fixed about the center portion. A rotatable member (46,146) extends along the axis A and includes an annular projection (52,152) radially spaced from the coil assembly. A ratchet surface (29,129) presents a plurality of teeth disposed in axially aligned and radially spaced relationship with the annular projection. The rotatable member includes a magnetic pole piece (62,162) disposed in radially spaced and concentrically aligned relationship with said coil assembly. The rotatable member includes a locking member (58,158) pivotably attached to the annular projection and pivotable between an engaged position in engagement with one of the teeth in response to the coil assembly being de-energized and a released position displaced from engagement with the teeth and attracted towards the magnetic pole piece in response to the coil assembly being energized.

An electronic automatically decoupling hub assembly is disclosed herein. The decoupling hub assembly has an axle and a hub shell rotationally positioned about the axle. A controller provides automatic activation/deactivation signals to an inductor. The decoupling hub assembly has a bearing rotationally positioned about the axle and a cassette body assembly, having a plurality of teeth, rotationally positioned about the bearing. One or more pawls are provided to engage with at least some of the teeth of the cassette body assembly and a seal is used to contain the pawls within the decoupling hub assembly. A cassette body assembly is coupled with the ratchet ring and an end cap is used to prevent a contaminant from entering into the decoupling hub assembly.

An electronic automatically decoupling hub assembly is disclosed herein. The decoupling hub assembly has an axle and a hub shell rotationally positioned about the axle. A controller provides automatic activation/deactivation signals to an inductor. The decoupling hub assembly has a bearing rotationally positioned about the axle and a cassette body assembly, having a plurality of teeth, rotationally positioned about the bearing. One or more pawls are provided to engage with at least some of the teeth of the cassette body assembly and a seal is used to contain the pawls within the decoupling hub assembly. A cassette body assembly is coupled with the ratchet ring and an end cap is used to prevent a contaminant from entering into the decoupling hub assembly.

A interior clutch-used control mechanism comprises a first control unit for controlling the fixedness of a sun gear; a second control unit for controlling engagements of inner gears at two sides and a planet frame; a third control unit for controlling the sun gear or the inner gears and the planet frame; and wherein power for control units are from rotary dynamic components, by displacements of driving rods for controlling operations of a cam or cam-like component; by using the cam or cam-like unit to function clutch or by using the cam or cam-like unit to drive a driven device to rotate or displace for operation of the clutch. By power rotating components of the internal clutch and cam or cam-like component, clutching components are controlled.

A bicycle ratchet hub assembly includes a ratchet unit and a damping unit located between the hub and the socket unit. The ratchet unit has a ratchet ring in the hub. Multiple recesses are defined in the seat and each have a pawl pivotably located therein. The damping unit is located between the axle and the hub, and includes a damping member which has slots defined therein. A pin protrudes from each of the pawls and movably extends through the corresponding slot. By the damping feature of the damping member, the damping member delays a period of time to begin to rotate, and the pins of the pawls move in the slots and the pawls are pivoted outward to be engaged with the ratchet teeth of the ratchet unit without using any resilient part. A magnetic driving device located in the hub to attract the pawls to be pivoted outward.

A bicycle drive unit is basically provided with an input rotational shaft, an output part, a transmission mechanism, an assist motor and a switching mechanism. The transmission mechanism has at least two shift stages, and is configured to change a speed of a rotational input that is input from the input rotational shaft and output this rotational input to the output part. The assist motor is coupled to a power transmission path from the input rotational shaft to the output part, and is driven according to a manual drive force. The switching mechanism is configured to switch a gear changing state of the transmission mechanism by using a rotational force of the assist motor.

An interior clutch-used control mechanism comprises a driving rod being installed on a center shaft of an internal clutch; a control claw actuating seat and a rotation ring being installed at an outer side of the center shaft; the control claw actuating seat being positioned at a center of the rotation ring; an inner side of the rotation ring being installed with a plurality of upper planet power ratchet claws and lower planet power ratchet claws; a ratchet claw control panel being installed at an inner side of the upper and lower planet power ratchet claws; the ratchet claw control panel being installed with a plurality of left control claws and right control claws; and the left and right control claws being installed on the ratchet claw control panel and being driven by the ratchet claw control panel to rotate.

An interior clutch-used control mechanism comprises a driving rod being installed on a center shaft of an internal clutch; a control claw actuating seat and a rotation ring being installed at an outer side of the center shaft; the control claw actuating seat being positioned at a center of the rotation ring; an inner side of the rotation ring being installed with a plurality of upper planet power ratchet claws and lower planet power ratchet claws; a ratchet claw control panel being installed at an inner side of the upper and lower planet power ratchet claws; the ratchet claw control panel being installed with a plurality of left control claws and right control claws; and the left and right control claws being installed on the ratchet claw control panel and being driven by the ratchet claw control panel to rotate.

A clutch system for a torque transmission. The clutch system includes a first rotatable unit connectable to an input, including at least one first abutment surface and a second rotatable unit connectable to an output, including at least one second abutment surface arranged for selectively engaging the first abutment surface. The first and second abutment surfaces being adapted to each other so as to allow disengaging under load. The system includes a third rotatable unit arranged for selectively being in a first position or a second position relative to the second rotatable unit, wherein at least one retaining member of the third rotatable unit selectively locks the at least one second abutment surface in engagement with the at least one first abutment surface for selectively rotationally coupling the second rotatable unit to the first rotatable unit.

A clutch system for a torque transmission. The clutch system includes a first rotatable unit connectable to an input, including at least one first abutment surface and a second rotatable unit connectable to an output, including at least one second abutment surface arranged for selectively engaging the first abutment surface. The first and second abutment surfaces being adapted to each other so as to allow disengaging under load. The system includes a third rotatable unit arranged for selectively being in a first position or a second position relative to the second rotatable unit, wherein at least one retaining member of the third rotatable unit selectively locks the at least one second abutment surface in engagement with the at least one first abutment surface for selectively rotationally coupling the second rotatable unit to the first rotatable unit.