Abstract: An adjustment mechanism for a clutch is positioned between the diaphragm spring and the pressure plate, the adjustment mechanism including: a first cam ring rotatably fixed with respect to the pressure plate, a second cam ring rotatable relative to the first cam ring and both cam rings having a plurality of cam surfaces configured such that rotation of the second cam ring relative to the first cam ring varies a height of the adjustment mechanism, and a torsion spring including a longitudinal axis. The torsion spring is disposed in the annular groove. The torsion spring includes a helical round cylindrical body that extends to a first end connected to the first cam ring and the torsion spring has a second end connected to the pressure plate. The torsion spring applies a biasing force to the second cam ring promoting rotation of the second cam ring relative to the first cam ring. The pressure plate includes a locking slot formed therein partially through the pressure plate and through the opposing surface.

Abstract: Disclosed herein is a dual clutch actuator including: a housing; a stroke controller disposed in the housing, and configured to actuate a clutch by linearly moving a pushrod; a power generation unit configured to generate driving power to operate the stroke controller; and a stroke return unit disposed between the housing and the stroke controller so as to elastically support the stroke controller, and configured to return the linearly moved pushrod to the original position, when the operation of the clutch is released. According to this structure, the dual clutch actuator can return the pushrod to the original position without an operation of a separate actuator, when removing a clutch connection.

Abstract: A clutch control assembly for a transmission, including a piston plate including a first side having a first circumferentially aligned and axially extending ramp, and a second side. The assembly includes an adjustment ring in contact with the first ramp, and at least one rotary piston with a first end fixed to the adjustment ring. In response to a first force applied to the second radially disposed side and the at least one rotary piston, the at least one rotary piston is displaceable to urge the adjustment ring in a first circumferential direction along the first ramp such that the adjustment rings displaces in a first axial direction away from the piston plate.

Abstract: A clutch unit which has a friction clutch, that includes a pressure plate, which is rotationally fixed to the housing, yet displaceable to a limited extent in the axial direction. The housing can be connected to a counter-pressure disk, and lever elements which are positioned in an annular arrangement and which are disposed between the housing and the pressure plate. The elements are supported on a rolling support carried by the housing and to which pressure can be applied at the radially inner lever tips thereof in order to close the friction clutch.

Abstract: A friction clutch having a wear adjuster that compensates for wear in the form of an incorrect spacing between the pressure plate and the pressing plate as a result of an abrasion of the clutch friction linings. The incorrect spacing between the disk spring and the pressing plate is compensated by a ramp device. The ramp device and the pressing plate are coupled to one another by a positive connection, which, in order to compensate for the incorrect spacing, is temporarily suspended only when the incorrect spacing has been detected by a position sensor.

Abstract: A wear compensating device, including: at a first axial end, an annularly-shaped base element; an index trigger element connected to the base element; a first annularly-shaped element, at least partially rotatable with respect to the base element, engaged with the index trigger element, and at least partially rotatable with respect to the index trigger element; and at a second axial end, opposite the first axial end, a second annularly-shaped element with a first ramp, the second annularly-shaped element engaged with the first annularly-shaped element and rotatable with respect to the first annularly-shaped element. In response to a specified amount of displacement by a portion of the index trigger element, the first and second annularly-shaped elements are rotatable to change a circumferential position of the first ramp.

Abstract: In a torque coupling having an input flange, an input shaft, an actuator, and a multiple clutch pack, and a driving mechanism, the present invention broadly comprises an actuator for transferring the input toque to the output shaft. The actuator comprises an actuator plate which is limited to only rotational movement, a pressure plate which is limited to only axial movement, and a plurality of actuator pins. The driving mechanism rotates the actuator plate through a gear set and forces the actuator pins to move vertically. The vertical movement of the actuator pins forces the pressure plate in an axial direction. In a torque coupling, the actuator is used to transfer the input torque to the output shaft through compression of the multiple clutch pack by the actuator.

Abstract: A torque transmitting apparatus includes a cover portion generally defined by a first axis. The cover portion includes a plurality of adjustment apertures. The apparatus also includes a flywheel coupled to the cover portion for rotation therewith, wherein the flywheel is restrained from axial movement relative to the cover portion. The apparatus also includes a pressure plate coupled to the cover portion for rotation therewith. The pressure plate is axially moveable relative to the cover portion. The apparatus also includes a clutch disk at least partially interposed between the flywheel and the pressure plate. The apparatus also includes a plurality of first members extending between the pressure plate and the cover. Each first member exerts a biasing outward radial force on the adjustment aperture to resist axial movement therebetween. A portion of the first member exerts a biasing axial force on the pressure plate thereby biasing the pressure plate toward the flywheel.