A transmission comprising a shaft (6) made as a single piece or as at least two shaft sections (6A, 6B) on a common axis, a drive toothed wheel (5) mounted to rotate freely on said shaft (6), and an automatically clutching clutch mechanism (8) arranged between the drive wheel (5) and the shaft (6) or each of the shaft sections (6A, 6B), the or each clutch mechanism (8) comprising: a clutch plate (81) mounted to rotate freely on the associated shaft (6) or shaft section (6A, 6B); a part (82) that is carried by and constrained to rotate with the associated shaft (6) or shaft section (6A, 6B); and a brake of said clutch plate that acts continuously on the angular speed of said plate (81). The brake (83) of the at least one of the clutch plates (81) is threaded on the shaft (6) or the shaft section (6A, 6B) carrying said plate (81).

A transmission comprising a shaft (6) made as a single piece or as at least two shaft sections (6A, 6B) on a common axis, a drive toothed wheel (5) mounted to rotate freely on said shaft (6), and an automatically clutching clutch mechanism (8) arranged between the drive wheel (5) and the shaft (6) or each of the shaft sections (6A, 6B), the or each clutch mechanism (8) comprising: a clutch plate (81) mounted to rotate freely on the associated shaft (6) or shaft section (6A, 6B); a part (82) that is carried by and constrained to rotate with the associated shaft (6) or shaft section (6A, 6B); and a brake of said clutch plate that acts continuously on the angular speed of said plate (81). The brake (83) of the at least one of the clutch plates (81) is threaded on the shaft (6) or the shaft section (6A, 6B) carrying said plate (81).

A dry type of torque converter for an electric vehicle and a control method thereof are disclosed.

The dry type of torque converter for the electric vehicle according to an exemplary embodiment of the present invention includes: a planetary gear including a first element connected to an input shaft, a second element connected to an output shaft, and a third element variably connected to a fixing unit; at least one eddy current torque generation unit provided between the first element and the second element and generating an eddy current to be controlled by a speed of the output shaft; a front cover integrally connected to the input shaft and the first element and incorporating the planetary gear; a one-way clutch interlocking one-direction connection of the third element and the fixing unit and connecting them to each other; a back cover provided at the output shaft side to be coupled with the front cover; and a lock-up mechanism respectively provided on both sides of the second element based on an axis direction and directly connecting the input shaft and the output shaft while being respectively in selective contact with the inner surfaces of the front cover and the back cover by the centrifugal force generated depending on the rotation speed of the output shaft.

A synchronous engagement clutch (SEC) assembly is provided. The SEC assembly includes a starter ball guide and a carrier support. The starter ball guide includes opposed first and second sides and the carrier support includes opposed first and second sides. The first side of the starter ball guide defines an annular groove and the second side of the carrier support defines pockets. The starter ball guide and the carrier support are disposable with the first side of the starter ball guide facing the second side of the carrier support such that engagement balls are retainable in the pockets and the annular groove.

A synchronous engagement clutch (SEC) assembly is provided. The SEC assembly includes a starter ball guide and a carrier support. The starter ball guide includes opposed first and second sides and the carrier support includes opposed first and second sides. The first side of the starter ball guide defines an annular groove and the second side of the carrier support defines pockets. The starter ball guide and the carrier support are disposable with the first side of the starter ball guide facing the second side of the carrier support such that engagement balls are retainable in the pockets and the annular groove.

A centrifugal clutch (1) for a drive train of a motor vehicle, has an input component (2) which serves for the introduction of torque, an output component (3) which serves for the discharge of torque, and a switchable friction unit (4) which is arranged between the input component (2) and the output component (3) and connects the input component (2) to the output component (3) in a torque-transmitting manner by way of a frictionally-locking connection. The clutch includes an engine-side centrifugal mass (5) and a transmission-side centrifugal mass (6) for actuating the friction unit (4), which centrifugal masses (5; 6) are operatively connected to an engine-side and transmission-side bent sheet metal piece (7, 8) in such a way that a radial displacement of at least one of the centrifugal masses (5; 6) forces an axial displacement of the respective bent sheet metal piece (7; 8). At least one of the centrifugal masses (5; 6) has a cut-out (9) which is such that at least one device (10) which is fixed to the input component has an arm (11) which engages into the cut-out (9) in such a way that guidance of the radial displacement of at least one of the centrifugal masses (5; 6) is ensured.

A synchronous engagement clutch (SEC) assembly is provided. The SEC assembly includes a starter ball guide and a carrier support. The starter ball guide includes opposed first and second sides and the carrier support includes opposed first and second sides. The first side of the starter ball guide defines an annular groove and the second side of the carrier support defines pockets. The starter ball guide and the carrier support are disposable with the first side of the starter ball guide facing the second side of the carrier support such that engagement balls are retainable in the pockets and the annular groove.

A centrifugal clutch includes an angle plate, an inner basket, a pre-stressing element, and a coupling pin. The angle plate has an elongated hole and a loading section with a first side. The coupling pin is inserted into the elongated hole. A pre-stressing element stop is attached to the pre-stressing element and a coupling pin stop is attached to the coupling pin. The coupling pin is arranged to at least partially transmit axial movement of the angle plate to the inner basket. In an intermediate operating position, a relative movement between the angle plate and the coupling pin is possible when the inner basket rotates relative to the angle plate, and the coupling pin stop is matched to the pre-stressing element stop and the loading section so that the first side of the loading section has a maximum contact area to transmit a force to the pre-stressing element.

A centrifugal clutch includes an angle plate, an inner basket, a pre-stressing element, and a coupling pin. The angle plate has an elongated hole and a loading section with a first side. The coupling pin is inserted into the elongated hole. A pre-stressing element stop is attached to the pre-stressing element and a coupling pin stop is attached to the coupling pin. The coupling pin is arranged to at least partially transmit axial movement of the angle plate to the inner basket. In an intermediate operating position, a relative movement between the angle plate and the coupling pin is possible when the inner basket rotates relative to the angle plate, and the coupling pin stop is matched to the pre-stressing element stop and the loading section so that the first side of the loading section has a maximum contact area to transmit a force to the pre-stressing element.

A transmission housing (2) of the type including two housing elements (9) that can be positioned to press against each other and that in the assembled-together state define: a cavity (13); a shaft (6) projecting at least in part from the housing (2); a motion transmission mechanism (30) for transmitting motion to said shaft (6), the motion transmission mechanism (30) being housed at least in part inside the cavity (13) of the housing (2); and sealing means (15) arranged in the zone where the housing elements (9) are pressed together and referred to as a join plane (10), the sealing means (15) surrounding said cavity (13).

The housing (2) comprises means (17) for connecting the housing elements (9) together by snap-fastening in order to hold the housing elements (9) pressed against each other and the sealing means (15) comprise adhesive connection means (16) for connecting said housing elements (9) together.