A hybrid module is compact and easy to construct, with components for transmitting torque to at least one transmission input shaft. The disclosed hybrid module includes a counterplate, or at least one counterplate in the case of multiple counterplates, of a clutch device is connected to a rotor element. The connection may be a direct connection, or a connection without intermediate elements, in which no intermediate element is provided for bridging an axial spacing between the rotor and the counterplate. Thus, coupling of an electric machine of the hybrid module and of the clutch device is realized with a minimal structural space requirement. By means of this measure, the clutch device can project into a stator of the electric machine.

A multi-plate clutch for coupling a drive shaft of a motor vehicle engine in a drive train having at least one transmission input shaft. The clutch includes a counter plate for introducing torque from the drive shaft and a clutch plate for conveying the torque to the transmission input shaft and having a first lining ring for torque transmission and a second lining ring that is movable axially relative to the first lining ring for torque transmission. A separator plate is movable axially relative to the counter plate and is positioned between the lining rings. A contact plate is movable axially relative to the counter plate by an actuating element to frictionally compress the clutch plate. The first lining ring is positioned between the contact plate and the separator plate in the axial direction, and the second lining ring is positioned between the separator plate and the counter plate.

A compact hybrid module includes a separating clutch with a reliably controlled actuation pressure. The hybrid module is provided with a disengagement device having a pressure pot for the transmission of force from a disengagement bearing to a pressure plate of the separating clutch or K0 separating clutch. The separating clutch itself can be actuated via the pressure pot without an additional lever ratio. Owing to a low level of hysteresis as a result of the direct actuation, the clutch can then be precisely regulated in terms of pressure.

A roller (20) for a pendulum mass (4, 5, 6) of a centrifugal force pendulum (1), including a rolling section (42), a first maintaining section (26) and a second maintaining section (27). The maintaining sections have a larger diameter than the rolling section, and the roller (20) has a width (44) which is smaller or the same size as the first depth (9) of the centrifugal force pendulum. Due to roller (20), a centrifugal force pendulum can be constructed for particularly flat couplings. In particular, the total weight of the friction clutch is reduced and the mounting is simplified.

A double clutch assembly has a diaphragm spring aligned and maintained to prevent uneven wear of a disc. A diaphragm spring is deformable in an axis direction with respect to a cover casing which receives a driving force from an engine. A center plate is connected to the cover casing and an auxiliary cover casing is coupled to the center plate to form a support point. The pressure plate is selectively connected to a center plate disc when the diaphragm spring contracts. An auxiliary pressure plate is coupled to the center plate. A disc installed between the center plate and the pressure plate provides the driving force transmitted through the pressure plate to the transmission. An auxiliary disc installed between the center plate and the auxiliary pressure plate provides the driving force through the auxiliary pressure plate to the transmission.

A method and a system for improving operation of a hybrid vehicle are presented. In one example, a clutch is operated while a vehicle is stopped and while a vehicle brake is applied to determine a clutch torque transfer function. The approach may improve vehicle launch after an engine stop.

A dual clutch transmission for motor vehicles, has two transmission sections, a dry dual clutch (1), which transmits the torque from the engine selectively to one of the two transmission sections, and a cooling system having a fan impeller system for active air cooling of the dual clutch (1). To optimize the individual functional parts of the cooling system and to reduce the clutch masses, it is proposed that the central disk (3) and/or at least one contact pressure plate (4, 5) is/are designed as a fan impeller of the fan impeller system (21). The central disk (3) and/or at least one of the contact pressure plates (4, 5) has/have passages which extend radially or have a radial component.

A gear mechanism for motor vehicles includes a double clutch gear mechanism with two part gear mechanisms and a double clutch which transmits torque from the engine optionally to one of the two part gear mechanisms, with a central disk connected to a drive disk, two outer pressure application plates which are also connected to the drive disk and are moveable in the axial direction relative to the central disk, and friction disks arranged between the central disk and the pressure application plates, wherein the friction disks consist of two support carrier disks arranged parallel to each other and moveably in relation to each other, between which leaf-like spring segments are provided. To eliminate vibration problems which can occur on start-up from standstill, on load-change processes and during the gear change, the leaf-like spring segments have different spring characteristic curves with which a multistage spring characteristic is achieved.

The invention relates to a clutch for a motor vehicle, having a pressure plate which is set up to clamp a torque transmission member, such as a disk or friction disk, together with a counterpressure plate, wherein a force transmission path is provided between an actuating unit via a pressure transmission member, wherein the pressure transmission member is configured as an integral part of the pressure plate. The invention also relates to a method for producing a pressure plate for a clutch, wherein the pressure plate is formed with an integrated pressure transmission member from a sheet metal plate via a chipless forming process.

The invention relates to a duplex clutch for coupling a drive shaft of a motor vehicle engine to a first transmission input shaft and/or a second transmission input shaft of a motor vehicle transmission, including a first partial clutch for coupling the drive shaft to the first transmission input shaft, with the first partial clutch comprising a first counter plate, at least one first intermediate plate that can be axially displaced in reference to the first counter plate, and a first compression plate that can be axially displaced in reference to a first counter plate, and to a first intermediate plate for compressing first friction linings of a first clutch disk between the first counter plate and the first intermediate plate and between the first intermediate plate and the first compression plate, a second partial clutch for coupling the drive shaft to the second transmission input shaft, with the second partial clutch comprising a second counter plate, at least one second intermediate plate that can be axially displaced in reference to the second counter plate, and a second compression plate that can be axially displaced in reference to the second counter plate, and to the second intermediate plate for compressing second friction linings of a second clutch disk between the second counter plate and the second intermediate plate as well as between the second intermediate plate and the second compression plate, a first actuating cup embodied stiffly for the displacement of the first compression plate and a second actuating cup embodied stiffly for the displacement of the second compression plate.