Abstract: A torsional vibration damper having a driving part coupled to an output shaft of an internal combustion engine and a driven part coupled to an input shaft of a transmission device. The damper is arranged coaxially with respect to the driving part and can be relatively rotated to a limited extent with respect to the driven part. A guide ring is fastened to the driving part, on which guide ring several compression springs are movably supported. The driving part has at least one driving abutment which rests against a rear one of the springs in direction of rotation, and the driven part has a driven abutment which rests against a front one of the springs in direction of rotation.

Abstract: A torsion attenuator for boat transmissions including a primary part coupled with the flywheel of a motor, a secondary part coupled with the input shaft of a reversing gear, which secondary part can be rotated relative to the primary part, plural elastic elements acting in a direction opposite the direction of the relative rotation and arranged symmetrically with respect to the axis of rotation between the primary part and the secondary part. At least one friction element is also provided for inhibiting the relative rotation and arranged between the primary part and the secondary part. In order to make possible a large relative rotation between the primary and secondary parts and with the elastic elements being of a specific given length, it is provided that the elastic elements on the primary part and/or on the secondary part and the structure associated therewith are supported on a sloped plane active in peripheral direction.

Abstract: A spur gear transmission for a drive unit of an industrial truck having an integrated wet running disk brake. A first disk carrier is arranged on one of the spur gears. First braking disks are mounted on the disk carrier. A second disk carrier is fastened in the transmission housing, second braking disks being mounted on the second disk carrier, such that the first and the second braking disks are arranged alternately and cooperate. The spur gear having the first disk carrier is axially movable against the force of a spring by a pressure pin extending through the transmission housing and operable from outside, with the braking disks being pressed against one another between the spur gear and a bearing surface in the transmission housing. A two-arm lever is provided, one lever arm of which can be operated by the driver and the other lever arm of which lever rests on the pressure pin.

Abstract: A spur gear transmission for a drive unit of an industrial truck having an integrated wet running disk brake. A first disk carrier is arranged on one of the spur gears. First braking disks are mounted on the disk carrier. A second disk carrier is fastened in the transmission housing, second braking disks being mounted on the second disk carrier, such that the first and the second braking disks are arranged alternately and cooperate. The spur gear having the first disk carrier is axially movable against the force of a spring by a pressure pin extending through the transmission housing and operable from outside, with the braking disks being pressed against one another between the spur gear and a bearing surface in the transmission housing. A two-arm lever is provided, one lever arm of which can be operated by the driver and the other lever arm of which lever rests on the pressure pin.