A seat adjuster in one aspect of the present disclosure comprises a rotating part, a rotational drive, an engagement target member, an engagement member, and a controller. The controller executes a lock transition process in a case where a seatback is pivotally moved to a specified front-tilt position, which is further to a forward direction than an upright position is, while the engagement member is in an unlocked state where the engagement member is not engaged with any one of engagement target portions of the engagement target member. The lock transition process is a process where the controller rotates the rotating part via the rotational drive such that one of the engagement target portions is placed at an engageable position, and engages the engagement member with the one of the engagement target portions.

An end stop assembly includes a pivot bracket, an end stop bracket, a strap, and a pin assembly. The pivot bracket defines a first adjustment slot and a first pivot hole. The end stop bracket defines a second adjustment slot and a second pivot hole. The end stop bracket has a first stop tab positioned about the second pivot hole. The second pivot hole is held concentrically to the first pivot hole. The strap defines an attachment hole. The pin assembly holds the strap and end stop bracket to the pivot bracket. The pin assembly is positioned through the first adjustment slot, the second adjustment slot and the attachment hole such that the pin assembly is movable by along the first adjustment slot and the second adjustment slot from a first position to a second position by pulling the strap.

A seatback drive assembly includes a lower bracket, a seatback pivotally mounted to the lower bracket, and a lock cam pivotally mounted to the seatback. The lock cam holds the seatback in an upright position when the lock cam engages the lower bracket. A biasing spring moves the seatback to a folded position when the lock cam is disengaged from the lower bracket. The seatback drive assembly also includes a gear pivotally mounted to the lower bracket and having a set of gear teeth. A motorized pinion engages the gear and is driven by an electric motor.

A seatback drive assembly includes a lower bracket, a seatback pivotally mounted to the lower bracket, and a lock cam pivotally mounted to the seatback. The lock cam holds the seatback in an upright position when the lock cam engages the lower bracket. A biasing spring moves the seatback to a folded position when the lock cam is disengaged from the lower bracket. The seatback drive assembly also includes a gear pivotally mounted to the lower bracket and having a set of gear teeth. A motorized pinion engages the gear and is driven by an electric motor.

The disclosure relates to a seat trim structure for a vehicle seat with at least a mounting element having a plurality of integrated retaining elements, a number of detachable support members, and a number of detachable trim elements. The support members may be detachably arranged to the mounting element and the integrated retaining elements may be configured to detachably retain the number of trim elements to the mounting element.

The disclosure relates to a seat trim structure for a vehicle seat with at least a mounting element having a plurality of integrated retaining elements, a number of detachable support members, and a number of detachable trim elements. The support members may be detachably arranged to the mounting element and the integrated retaining elements may be configured to detachably retain the number of trim elements to the mounting element.

In a seat reclining device, a seatback frame forming a skeleton of a seatback is coupled to a seat cushion frame to be rotatable about a shaft with respect to the seat cushion frame. One end portion of a first sliding bracket is rotatably coupled to a middle portion of the seatback frame by a driving unit. The other end portion of the first sliding bracket extends toward a vehicle body located behind the seatback. A second sliding bracket is mounted on the vehicle body located behind the seatback and extends toward the first sliding bracket in a front and rear longitudinal direction to be connected to the first sliding bracket. The second sliding bracket is configured to guide a sliding movement of the first sliding bracket while the first sliding bracket is being rotated.

In a seat reclining device, a seatback frame forming a skeleton of a seatback is coupled to a seat cushion frame to be rotatable about a shaft with respect to the seat cushion frame. One end portion of a first sliding bracket is rotatably coupled to a middle portion of the seatback frame by a driving unit. The other end portion of the first sliding bracket extends toward a vehicle body located behind the seatback. A second sliding bracket is mounted on the vehicle body located behind the seatback and extends toward the first sliding bracket in a front and rear longitudinal direction to be connected to the first sliding bracket. The second sliding bracket is configured to guide a sliding movement of the first sliding bracket while the first sliding bracket is being rotated.

A drive system (2) tilt adjusts a back rest (10) of a vehicle seat (1). The back rest (10) is held on a seat base (11) by a fitting (12). An output pinion (24), drivable by a drive motor (20), is provided on the seat back side and interacts with a tooth segment (18) arranged rotationally fixed on the base (11). A pivot movement of the back rest (10) can be carried out by the drive motor (20) while the fitting (12) is unlocked. The output pinion (24) can be uncoupled from the drive motor (20) by a coupling (22). A compensation spring (14) acting between the back rest (10) and the base (11) pre-tensions the back rest (10) in the direction of the non-use position. A vehicle seat (1) with the drive system and a method for operating a drive system (2) are also provided.

A cover material, in particular a seat cover material, having an upper side and a lower side and at least one seam that runs over at least a part of the cover material and that is visible on the upper side. An electrically conductive element that generates an electric field is arranged on the lower side in the region where the seam runs.