A torsional vibration damper (10) with a torque limiter includes an input part (14), an output part (18), and at least two torque-transmitting intermediate elements (20) arranged between the input part (14) and the output part (18) so as to move radially by cam mechanisms (22) in the case of a relative rotation of the input part (14) and the output part (18). In the case of a relative rotation between the input part and the output part, a torsional characteristic curve (32) of a drive torque over the rotary angle has a damper stage (34) and an end stage (36) which adjoins the damper stage (34), he damper stage (34) specifies a damper capacity of the drive torque over the rotary angle, and the end stage (36) includes a torque limitation of the drive torque over the rotary angle.

In one embodiment, an engine damper and a pulley mounted to the engine damper, the pulley comprising a hub portion and an outer circumferential portion joined to the hub portion by plural spaced apart vanes, wherein each space between adjacent vanes enables exposure of air flow to the engine damper.

A centrifugal pendulum device for use in a drive train of a vehicle powered by an internal combustion engine includes at least one support flange rotatable about an axis of rotation to which pendulum masses are mounted thereon in a circumferential direction via a bifilar pendulum suspension. The pendulum masses are configured to perform a relative movement with respect to the support flange when a rotational irregularity occurs in the drivetrain under effects of centrifugal force in conjunction with cylindrical rollers which are guided in roller tracks of the support flange. The pendulum masses run in opposite directions to one another and thereby absorb vibrations. The support flange includes roller tracks which are open in a direction of the axis of rotation and all the cylindrical rollers are acted upon by force by a prestressing element radially in the direction of the roller tracks.

The disclosed invention is a novel method for constructing an Arcuate Common Vertex Spring Damper System, that can either be used as a single spring for a torsional vibration application or be used in pairs as a Dual Arcuate Common Vertex Spring Dampers System. Both these constructions yield significant improvements over the conventional Common Vertex and Dual Common Vertex seen in prior art, such as promoting a radially tighter packaging envelop, allowing the resulting device to be tuned across a greater torsional frequency range, and improving the modal decoupling response of the resulting device.

A crank cap assembly provided with a crank cap rotatably supporting a crankshaft includes a mass portion, two cap bolts fixing the crank cap to an engine body, and an elastic supporter disposed between the two cap bolts. The elastic supporter elastically supports the mass portion with respect to the crank cap in an axial direction of the crankshaft.

The disclosed invention is a novel method for constructing an Arcuate Common Vertex Spring Damper System, that can either be used as a single spring for a torsional vibration application or be used in pairs as a Dual Arcuate Common Vertex Spring Dampers System. Both these constructions yield significant improvements over the conventional Common Vertex and Dual Common Vertex seen in prior art, such as promoting a radially tighter packaging envelop, allowing the resulting device to be tuned across a greater torsional frequency range, and improving the modal decoupling response of the resulting device.

A damped propshaft assembly with a hollow shaft and a tuned damper, which is received in the hollow shaft and includes a liner and a damping member. The liner's mass and stiffness are tuned to attenuate one or more of a bending mode vibration and a torsion mode vibration that occurs at a first predetermined frequency. The liner is not configured to substantially damp shell mode vibration that occurs at a frequency that is not equal to the first predetermined frequency. The damping member is coupled to the liner and is configured to primarily attenuate shell mode vibration in the hollow shaft at one or more desired frequencies. The tuned damper attenuates the at least one of the bending moment vibration and the torsion mode vibration at the first predetermined frequency and also attenuates shell mode vibration. A method for forming a damped propshaft assembly is also provided.

A torsional vibration damper (10) with a torque limiter, in particular for a clutch plate within a drive train of a motor vehicle, includes an input part (14) which is mounted such that it can be rotated about a rotational axis (12), an output part (18) which is arranged such that it can be rotated counter to the action of a spring device (16) to a limited extent about the rotational axis (12) with respect to the input part (14), and at least two torque-transmitting intermediate elements (20) arranged between the input part (14) and the output part (18) so as to move radially by cam mechanisms (22) in the case of a relative rotation of the input part (14) and the output part (18). In the case of a relative rotation between the input part and the output part, a torsional characteristic curve (32) of a drive torque over the rotary angle is configured by way of the configuration of the cam mechanisms (22) and/or a configuration of the spring device (16), so the torsional characteristic curve (32) has a damper stage (34) and an end stage (36) which adjoins the damper stage (34), he damper stage (34) specifies a damper capacity of the drive torque over the rotary angle, and the end stage (36) includes a torque limitation of the drive torque over the rotary angle.

A torsion absorber is provided for attachment to a cylindrical section of a shaft. The torsion absorber includes a flywheel and at least one tensioner. The at least one tensioner is configured to brace a first segment and a second segment of the flywheel against the cylindrical section of the shaft.

A bearing arrangement includes; a carrier supported by a support structure and a rotatable element having a support surface and being rotatably mounted by means of a bearing, the bearing having a component providing a bearing surface for the rotatable element, wherein a gap between the bearing surface and a surface of the rotatable element is filled with a fluid; wherein an elastic element arrangement with at least one deformable elastic element is provided so as to elastically act on the component of the bearing and a component of the carrier, wherein the rotatable element is supported via its support surface against the support structure with a support stiffness, and wherein the elastic element arrangement has a stiffness that is smaller than the support stiffness.