A clutch structure includes a clutch input shaft, a clutch output shaft, a weight member, a one-way clutch, and a bearing. The weight member frictionally contacts a cylindrical portion of the clutch output shaft to transmit a rotational power from the clutch input shaft to the clutch output shaft and separates from the cylindrical portion to disconnect the transmission of the rotational power. When the weight member separates from the cylindrical portion and a rotational frequency of the clutch input shaft falls below a rotational frequency of the clutch output shaft, the one-way clutch links an input shaft portion of the clutch input shaft and an output shaft portion of the clutch output shaft. The one-way clutch and the bearing are located between the input shaft portion and the output shaft portion.

A clutch structure includes a clutch input shaft, a clutch output shaft, a weight member, a one-way clutch, and a bearing. The weight member frictionally contacts a cylindrical portion of the clutch output shaft to transmit a rotational power from the clutch input shaft to the clutch output shaft and separates from the cylindrical portion to disconnect the transmission of the rotational power. When the weight member separates from the cylindrical portion and a rotational frequency of the clutch input shaft falls below a rotational frequency of the clutch output shaft, the one-way clutch links an input shaft portion of the clutch input shaft and an output shaft portion of the clutch output shaft. The one-way clutch and the bearing are located between the input shaft portion and the output shaft portion.

A friction clutch for a drivetrain of a motor vehicle includes an engine-side input part, a transmission-side output part, friction elements, an engine-side actuating device, and a transmission-side actuating device. The engine-side input part is disposed rotatably around an axis of rotation. The friction elements are arranged for frictionally engaging the engine-side input part to the transmission-side output part. The engine-side actuating device is arranged between the engine-side input part and the friction elements. The transmission-side actuating device is arranged between the transmission-side output part and the friction elements. At least one of the engine-side actuating device or the transmission-side actuating device is a centrifugal force controlled actuating device arranged to clamp the friction elements against one another.

The invention relates to a coupling device for a drive train of a motorcycle or other motor vehicle, in particular for suppressing a so-called hopping. According to the invention, the coupling device has an output rotation part, a switchable friction coupling, which has an energy storage device for closing thereof and which is closed in an unactuated state, and at least one freewheel coupling for forming a torque transmission path for torque transmission from the input rotating part to the output rotating part, wherein the freewheel coupling includes the following components: an inner rotating element, the outer circumference of which forms a sawtooth-shaped circumferential structure having a plurality of circumferentially extending ramps; a substantially annular plate structure having an individual plate element or a stack of a plurality of plate elements, the inner circumference of which forms a sawtooth-shaped circumferential structure having a plurality of circumferentially extending counter-ramps to form an interlock and/or a friction lock together with the ramps of the inner rotating element in a rotation direction; and an outer rotating element surrounding the plate structure. The invention further relates to a corresponding drive train having such a coupling device.

The invention relates to a coupling device for a drive train of a motorcycle or other motor vehicle, in particular for suppressing a so-called hopping. According to the invention, the coupling device has an output rotation part, a switchable friction coupling, which has an energy storage device for closing thereof and which is closed in an unactuated state, and at least one freewheel coupling for forming a torque transmission path for torque transmission from the input rotating part to the output rotating part, wherein the freewheel coupling includes the following components: an inner rotating element, the outer circumference of which forms a sawtooth-shaped circumferential structure having a plurality of circumferentially extending ramps; a substantially annular plate structure having an individual plate element or a stack of a plurality of plate elements, the inner circumference of which forms a sawtooth-shaped circumferential structure having a plurality of circumferentially extending counter-ramps to form an interlock and/or a friction lock together with the ramps of the inner rotating element in a rotation direction; and an outer rotating element surrounding the plate structure. The invention further relates to a corresponding drive train having such a coupling device.

An improved adjuster for a clutch containing and expanding friction disk is disclosed. The improved adjuster allows desirable characteristics of a clutch pressure plate to be maintained while allowing an operator to bias the pressure plate into proper position to accommodate the function of the expanding friction disk.

An improved adjuster for a clutch containing and expanding friction disk is disclosed. The improved adjuster allows desirable characteristics of a clutch pressure plate to be maintained while allowing an operator to bias the pressure plate into proper position to accommodate the function of the expanding friction disk.

A blower, a motor assembly and a centrifugal friction clutch thereof are provided. The centrifugal friction clutch includes: a fixing member for being fixed on a rotary shaft and comprising a guiding groove disposed in a radial direction of the fixing member and passing through an outer circumferential surface of the fixing member; a centrifugal block disposed in the guiding groove and slidable in the guiding groove; and a loading wheel having an inner hole in which the fixing member is received. A gap between a wall of the inner hole and the outer circumferential surface of the fixing member is less than a length of the centrifugal block along its sliding direction. The centrifugal friction clutch reduces vibrations at startup of the motor, thereby effectively reducing the vibrational noise. In addition, this also avoids the startup failure of the motor and effectively improves the startup performance of the motor.

A blower, a motor assembly and a centrifugal friction clutch thereof are provided. The centrifugal friction clutch includes: a fixing member for being fixed on a rotary shaft and comprising a guiding groove disposed in a radial direction of the fixing member and passing through an outer circumferential surface of the fixing member; a centrifugal block disposed in the guiding groove and slidable in the guiding groove; and a loading wheel having an inner hole in which the fixing member is received. A gap between a wall of the inner hole and the outer circumferential surface of the fixing member is less than a length of the centrifugal block along its sliding direction. The centrifugal friction clutch reduces vibrations at startup of the motor, thereby effectively reducing the vibrational noise. In addition, this also avoids the startup failure of the motor and effectively improves the startup performance of the motor.

Overrunning clutch units are disclosed. In one example, the overrunning clutch unit may include inner and outer rings that can be rotated relative to each other. Clamping members may transmit a torque between the two rings in one peripheral direction, the clamping members being arranged between the rings. A first bearing device may be configured to support the two rings, wherein the first bearing device is arranged between the rings at a first axial side of the clamping members. A second bearing device may be configured to support the two rings, wherein the second bearing device is arranged at a second, opposing, axial side of the clamping members so that a tilting of the inner ring relative to the outer ring is prevented.