The disclosure relates to a steering apparatus for a vehicle having an impact absorption device for absorbing an impact force introduced via a steering wheel. The steering apparatus has a fastening device for fastening to a vehicle carrier or a vehicle body. The fastening device has a bracket for holding a steering column. The bracket has at least one connecting portion for connecting to the fastening device by a fastening element. At least one target breaking portion is designed to break starting from a predetermined impact force. In order to simplify the construction and/or to be able to realize production more economically, the bracket has and/or forms the target breaking portion, with the connecting portion being separated from the bracket after breaking the target breaking portion and remaining on the fastening device.

An absorber of steering column shock energy includes a plastically deformable part forming a loop, a breakaway link closing this loop on itself, and a first attachment interface and a second attachment interface separate from the breakaway link and arranged on either side of the loop. The part and the fusible link are arranged so that the exertion of forces in opposite directions on the first attachment interface and on the second attachment interface respectively, causes a stress leading to a deformation of the loop, breaking of the breakaway link and further deformation of the loop after this break.

A steering system includes a fastening mechanism that makes an upper jacket fastened to be held by a lower jacket. In a fastened state of the fastening mechanism, a first tooth member on the upper jacket side is meshed with a second tooth member on the lower jacket side. The second tooth member is connected to the lower jacket via a guide shaft (connecting member) that is fracturable during a secondary collision. During the secondary collision in an unfastened state of the fastening mechanism, a second engagement portion (driving member) that moves in a column axial direction integrally with the upper jacket abuts on the second tooth member in an unmeshed state to fracture the guide shaft, and deforms an impact absorbing member via the second tooth member to absorb an impact.

A steering column assembly includes a lower jacket, an upper jacket in telescoping engagement with the lower jacket, and a telescope actuator assembly. The telescope actuator assembly includes a jackscrew nut translatable along a lead screw. The telescope actuator assembly includes a telescope drive bracket having a base portion and a pair of arms extending from the base portion, the pair of arms each defining a slot with a respective slot surface, wherein the jackscrew nut is disposed within the slots. The telescope actuator assembly includes a first nut capture plug coupled to one of the pair of arms, the first nut capture plug having at least one tooth disposed within a cavity on a first side of the jackscrew nut to prevent relative rotation between the jackscrew nut and the telescope drive bracket.

A steering column assembly includes a lower jacket. The steering column assembly also includes an upper jacket in telescoping engagement with the lower jacket. The steering column assembly further includes an energy absorbing strap assembly operatively coupled to the upper jacket. The energy absorbing strap assembly includes an energy absorbing strap having a first leg portion, a second leg portion and a curved portion connecting the first leg portion and the second leg portion, the first leg portion coupled to the upper jacket. The energy absorbing strap also includes a control bracket defining a slot sized to receive the curved portion of the energy absorbing strap.

A steering column that is adjustable by a motor may include a supporting unit that is attachable to a vehicle body, an actuating unit held by the supporting unit, a steering spindle mounted in the actuating unit rotatably about a longitudinal axis, an adjusting drive for adjusting the actuating unit relative to the supporting unit via a threaded spindle and spindle nut, and a drive unit by which the threaded spindle can be driven rotationally relative to the spindle nut. To improve compactness and greater structural freedom, the drive unit may be connected via a flexible drive connection to a gear unit that can be moved spatially relative to the drive unit.

A dynamic vibration absorber for reducing steering wheel vibration. The vibration absorber includes a resilient member that includes a resilient member inner surface that defines a center cavity that is configured to receive a steering column of a vehicle that generates vibration that is transferred to a steering wheel via the steering column, the center cavity being substantially coaxial with the steering column when attached thereto. The resilient member includes at least one resilient member outer surface that defines a resilient member outer diameter. The vibration absorber includes a rigid body that engages and is supported by the resilient member and that includes six degrees of freedom of movement relative to the steering column, the rigid body including a rigid body inner surface that defines a rigid body center cavity.

An article for a steering column assembly (10) including a connection member (60) having a base portion (62) adapted to be attached to a column tube (30) of the steering column assembly (10) and opposing side walls (64) extending from the base portion (62). The article further includes an energy absorption member (80) having a first generally flat segment (82), a second generally flat segment (84) generally parallel to the first generally flat segment (82), and a curved portion (86) therebetween. The energy absorption member (80) extends from the base of the connection member (60). The present teachings also envision a telescoping adjustment subassembly and a steering column assembly (10) employing the article.

An X-axis steering column includes a cap, a U-shaped tab attached to the cap, and an upper tube that slides relative to a lower tube. An attachment for attaching the cap to the U-shaped tab includes two screws and at least one stop in contact with at least one lateral groove. The at least one stop is configured to absorb lateral loads without any longitudinal movement of the steering column being impeded, including during adjustment of the steering column or during an impact due to a collision.

Methods, apparatus, systems, and computer-readable media are provided for providing context specific schema files that allow an automated assistant to broker human-to-computer dialogs between a user and an application that is separate from the automated assistant. The context specific schema file can provide the automated assistant with sufficient data to be responsive to user queries without necessarily communicating with a remote device, such as a server. Multiple different context specific schema files can be made available to the automated assistant according to a context in which a user is interacting with the automated assistant. In this way, latency otherwise exhibited by the automated assistant can be mitigated by providing the automated assistant with the information needed to respond to a user without continually retrieving the information over a network.