A disconnect including: an input hub; an output race including a radially inner surface with ramps; wedge plate segments radially disposed between the input hub and the output race, each segment including a ramp in contact with an outer race ramp; an actuator cage; and an actuator plate. For a connect mode, the input hub, the wedge segments, and the output race transmit torque from an electric motor of an electrically-powered vehicle to a wheel of the vehicle. In a disconnect mode, relative rotation between the input hub and the output race is enabled. To transition from the connect mode to the disconnect mode: the actuator plate is displaced by an actuator; the actuator plate axially displaces the actuator cage; and the actuator cage circumferentially displaces the wedge plate segments to decrease or break frictional contact between the wedge plate segments and the input hub.

A disconnect including: an input hub; an output race including a radially inner surface with ramps; wedge plate segments radially disposed between the input hub and the output race, each segment including a ramp in contact with an outer race ramp; an actuator cage; and an actuator plate. For a connect mode, the input hub, the wedge segments, and the output race transmit torque from an electric motor of an electrically-powered vehicle to a wheel of the vehicle. In a disconnect mode, relative rotation between the input hub and the output race is enabled. To transition from the connect mode to the disconnect mode: the actuator plate is displaced by an actuator; the actuator plate axially displaces the actuator cage; and the actuator cage circumferentially displaces the wedge plate segments to decrease or break frictional contact between the wedge plate segments and the input hub.

This clutch includes an annular clutch housing, a rotationally driven drive-side rotating body, a driven-side rotating body, a rolling body, and a support member. The clutch is configured such that, when the drive-side rotating body starts to rotate when driven, the drive-side rotating body comes into contact with the support member in a rotational direction and presses the rolling body in the rotational direction through the support member, thereby releasing the rolling body from gripping effected by the clutch housing and the driven-side rotating body. The support member includes a load generation section for generating a load which makes it difficult for the support member to rotate about the rotation axis of the drive-side rotating body when at least the drive-side rotating body starts to rotate when driven.

This clutch includes an annular clutch housing, a rotationally driven drive-side rotating body, a driven-side rotating body, a rolling body, and a support member. The clutch is configured such that, when the drive-side rotating body starts to rotate when driven, the drive-side rotating body comes into contact with the support member in a rotational direction and presses the rolling body in the rotational direction through the support member, thereby releasing the rolling body from gripping effected by the clutch housing and the driven-side rotating body. The support member includes a load generation section for generating a load which makes it difficult for the support member to rotate about the rotation axis of the drive-side rotating body when at least the drive-side rotating body starts to rotate when driven.

A self-contained switchable torque limited wedge clutch, consisting of a housing, a space enclosed by the housing, and a clutch assembly including: an input part with a first frusto-conical surface; an outer race in the space and including a second frusto-conical surface in contact with the first frusto-conical surface; an output hub in the space; circumferentially aligned wedge plate segments in the space; and an activation assembly arranged to displace the wedge plate segments to switch the clutch between: a locked mode and an unlocked mode. In the locked mode: for a first magnitude of the rotational torque, the first frusto-conical surface and the second frusto-conical surface are non-rotatably connected; and for a second magnitude of the rotational torque, greater than the first magnitude, the first frusto-conical surface rotates with respect to the second frusto-conical surface to switch the self-contained torque-limiting switchable wedge plate clutch to the unlocked mode.

A self-contained switchable torque limited wedge clutch, consisting of a housing, a space enclosed by the housing, and a clutch assembly including: an input part with a first frusto-conical surface; an outer race in the space and including a second frusto-conical surface in contact with the first frusto-conical surface; an output hub in the space; circumferentially aligned wedge plate segments in the space; and an activation assembly arranged to displace the wedge plate segments to switch the clutch between: a locked mode and an unlocked mode. In the locked mode: for a first magnitude of the rotational torque, the first frusto-conical surface and the second frusto-conical surface are non-rotatably connected; and for a second magnitude of the rotational torque, greater than the first magnitude, the first frusto-conical surface rotates with respect to the second frusto-conical surface to switch the self-contained torque-limiting switchable wedge plate clutch to the unlocked mode.

A pumping device for a seat of a vehicle is proposed. In the pumping device, a plurality of pressure members is provided along an outer circumferential surface of a brake drum, and braking operation is performed through the pressure members moved when the brake drum rotates, so that friction between the brake drum and a housing can be avoided and thus deterioration of operational performance is prevented. In addition, the shape of the brake drum is simplified and the number of components is reduced, so that weight and size of the pumping device, and production cost are reduced, and fuel efficiency increases.

A unitized wedge clutch includes a first race, a second race, a wedge segment, and a first side plate. The first race has a circumferential groove with a first angled surface and a second angled surface. The second race has a first ramp surface extending radially outward in a circumferential direction. The wedge segment is arranged in a radial space between the first race and the second race. The wedge segment has a third angled surface aligned with the first angled surface and a fourth angled surface aligned with the second angled surface, a second ramp surface aligned with the first ramp surface, and a first aperture. The first side plate has a first protrusion extending through the first aperture. The unitized wedge clutch may have a plurality of wedge segments arranged circumferentially in a radial space between the first race and the second race.

A unitized wedge clutch includes a first race, a second race, a wedge segment, and a first side plate. The first race has a circumferential groove with a first angled surface and a second angled surface. The second race has a first ramp surface extending radially outward in a circumferential direction. The wedge segment is arranged in a radial space between the first race and the second race. The wedge segment has a third angled surface aligned with the first angled surface and a fourth angled surface aligned with the second angled surface, a second ramp surface aligned with the first ramp surface, and a first aperture. The first side plate has a first protrusion extending through the first aperture. The unitized wedge clutch may have a plurality of wedge segments arranged circumferentially in a radial space between the first race and the second race.

A disconnect assembly for an input shaft and an output shaft includes a sleeve configured to be disposed about the input shaft and the output shaft. A cam is disposed about the sleeve. A cam follower is configured to contact the cam. An interfacing element is configured to operatively interface the sleeve, the input shaft, and the output shaft. The sleeve, the cam, the cam follower, and the interfacing element are configured to move between a respective connect position and a respective disconnect position.