Abstract: The present disclosure relates to a rotor carrier for an electric machine provided for the drive of a motor vehicle, which has, on the circumference, a rotor carrier connecting portion, which extends in a radial direction of the rotor carrier for connecting to a disk carrier connecting portion of a disk carrier of a multi-disk clutch. The present disclosure furthermore relates to a disk carrier for a multi-disk clutch for decoupling an electric machine provided for the drive of a motor vehicle from an internal combustion engine, which has, on the outer circumference, a disk carrier connecting portion for connecting to a rotor carrier connecting portion of a rotor carrier of the electric machine. The present disclosure furthermore relates to a system having a rotor carrier and a disk carrier as well as a method for producing such a system.

Abstract: A pressure plate assembly for a motor vehicle with a wear compensation mechanism which comprises a sensor element for sensing wear, wherein the sensor element has an angle lever or is constructed as an angle lever; and a motor vehicle, including such wear compensation mechanism.

Abstract: A pressure plate assembly for a motor vehicle with a wear compensation mechanism which comprises a sensor element for sensing wear, wherein the sensor element has an angle lever or is constructed as an angle lever; and a motor vehicle, including such wear compensation mechanism.

Abstract: A clutch assembly, particularly for a friction clutch of a motor vehicle, with at least one clutch housing in which is arranged a diaphragm spring that acts on a pressure plate and is secured to the clutch housing by a holding ring with retaining tabs distributed over a circumference at a distance axially from the holding ring. The retaining tabs define an axial stop. A spring element is arranged between two adjacent structural component parts of the clutch assembly that are arranged between the holding ring and the axial stop of the retaining tabs that exerts an axial spring force on the adjacent structural component parts. The spring element is arranged on at least one retaining tab and has at least two edge-side support regions that extend in direction of the adjacent retaining tabs and at least partially contact one structural component part and at least one axial raised portion arranged between the support regions that at least partially contacts the other structural component part.

Abstract: A clutch assembly, particularly for a friction clutch of a motor vehicle, with at least one clutch housing in which is arranged a diaphragm spring that acts on a pressure plate and is secured to the clutch housing by a holding ring with retaining tabs distributed over a circumference at a distance axially from the holding ring. The retaining tabs define an axial stop. A spring element is arranged between two adjacent structural component parts of the clutch assembly that are arranged between the holding ring and the axial stop of the retaining tabs that exerts an axial spring force on the adjacent structural component parts. The spring element is arranged on at least one retaining tab and has at least two edge-side support regions that extend in direction of the adjacent retaining tabs and at least partially contact one structural component part and at least one axial raised portion arranged between the support regions that at least partially contacts the other structural component part.