A vehicle steering device includes a positioning clip configured to align a pinion shaft with a joint portion of a steering shaft, wherein the pinion shaft includes a torsion bar and a tubular member having the torsion bar inserted thereinto, an upper end of the torsion bar is axially further away from the joint portion than an upper end of the tubular member, the positioning clip includes an inserted portion to be inserted into the tubular member, and a gap between the inserted portion and the tubular member is sealed.

A torque-transmitting apparatus for a drive assembly includes: a first coupling device for transmitting torque and compensating a shaft offset, and a second coupling device for transmitting and limiting torque, the first and second coupling devices being connected in series. The second coupling device includes an inner hollow part and an outer hollow part. The inner hollow part radially outwardly includes a first frictional surface and the outer hollow part radially inwardly includes a second frictional surface, which is connected to the first frictional surface and interacts therewith. The inner hollow part includes a fillable pressure chamber.

A torque-transmitting apparatus for a drive assembly includes: a first coupling device for transmitting torque and compensating a shaft offset, and a second coupling device for transmitting and limiting torque, the first and second coupling devices being connected in series. The second coupling device includes an inner hollow part and an outer hollow part. The inner hollow part radially outwardly includes a first frictional surface and the outer hollow part radially inwardly includes a second frictional surface, which is connected to the first frictional surface and interacts therewith. The inner hollow part includes a fillable pressure chamber.

Clutch element (1) for the axial transmission of torque, having at least a first (10) and a second (20) connector element for connecting rotatable machine parts, for example passive and active drive shafts or connector elements of further dutch elements, and an elastomeric multiple disc affangement (30) which is ananged axially in between and is connected via a plurality of fastening anangements (2) altemately to the first and second connector element, with the result that the connector elements are connected to one another in a torsionally rigid but axially and angularly movable manner. Moreover, a multiple disc arrangement (30) for a dutch element of this type and a dutch arrangement comprising at least two dutch elements of this type are disclosed.

Clutch element (1) for the axial transmission of torque, having at least a first (10) and a second (20) connector element for connecting rotatable machine parts, for example passive and active drive shafts or connector elements of further dutch elements, and an elastomeric multiple disc affangement (30) which is ananged axially in between and is connected via a plurality of fastening anangements (2) altemately to the first and second connector element, with the result that the connector elements are connected to one another in a torsionally rigid but axially and angularly movable manner. Moreover, a multiple disc arrangement (30) for a dutch element of this type and a dutch arrangement comprising at least two dutch elements of this type are disclosed.

A power transmission shaft which alleviates phenomenon in which stress is concentrated on a specific portion of a diaphragm to improve fatigue life span. The power transmission shaft connects a power apparatus and includes a flexible coupling, which is configured by a hub unit positioned inside in a radial direction. A rim unit is positioned outside in a radial direction of the hub unit. A flexible diaphragm unit is positioned between the hub unit and the rim unit. The thickness in the axial direction of the flexible diaphragm unit, from the hub unit toward the rim unit, becomes thinner then thicker to have a minimum thickness interval. The flexible diaphragm unit has a contoured first side on one side in the axial direction and a contoured second side on the other side. The first side has a first inflection point and the second side has a second inflection point.

A power transmission shaft which alleviates phenomenon in which stress is concentrated on a specific portion of a diaphragm to improve fatigue life span. The power transmission shaft connects a power apparatus and includes a flexible coupling, which is configured by a hub unit positioned inside in a radial direction. A rim unit is positioned outside in a radial direction of the hub unit. A flexible diaphragm unit is positioned between the hub unit and the rim unit. The thickness in the axial direction of the flexible diaphragm unit, from the hub unit toward the rim unit, becomes thinner then thicker to have a minimum thickness interval. The flexible diaphragm unit has a contoured first side on one side in the axial direction and a contoured second side on the other side. The first side has a first inflection point and the second side has a second inflection point.

A torque disc comprising a fixing surface and at least one restraining element. The fixing surface defines an area of the torque disc for attachment to a fastener in use, and the at least one restraining element extends from the fixing surface so as to engage in use with at least one portion of the fastener to restrain rotational movement of the fastener during attachment to or detachment from the torque disc.

A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger can include a first coupling, a second coupling, a central hub and a plurality of coupler pins. The first coupling can be mounted for concurrent rotation with the input shaft. The second coupling can be mounted for concurrent rotation with the rotor shaft. The central hub can be disposed intermediate the first and second couplings. The central hub defines central hub bores therein. A plurality of coupler pins can be received in the central hub bores. A first plurality of elastomeric inserts can receive first portions of the plurality of coupler pins. A second plurality of elastomeric inserts can receive second portions of the plurality of coupler pins. The first and second elastomeric inserts can provide dampening between (i) the first coupling and the central hub and (ii) the second coupling and the central hub.

A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger can include a first coupling, a second coupling, a central hub and a plurality of coupler pins. The first coupling can be mounted for concurrent rotation with the input shaft. The second coupling can be mounted for concurrent rotation with the rotor shaft. The central hub can be disposed intermediate the first and second couplings. The central hub defines central hub bores therein. A plurality of coupler pins can be received in the central hub bores. A first plurality of elastomeric inserts can receive first portions of the plurality of coupler pins. A second plurality of elastomeric inserts can receive second portions of the plurality of coupler pins. The first and second elastomeric inserts can provide dampening between (i) the first coupling and the central hub and (ii) the second coupling and the central hub.