A motor vehicle comprises two front seats aligned in a transverse direction, and at least one rear seat. Said at least one rear seat comprises a seating portion with a seating portion frame, a backrest with a backrest frame. The backrest frame is pivotable relative to the seating portion frame about a first transverse axis, between at least one deployed position for receiving an occupant of the seat and a folded position in which the backrest frame is folded down to face the seating portion frame. Said at least one rear seat is adapted to have a configuration in which said at least one rear seat is in said folded position and the backrest of said at least one rear seat extends at least partly between the two front seats.

A vehicle seat includes a seat base and a seat back which together define a first outboard seating section, a second outboard seating section, and a center seating section. A center seat back of the center seating section is defined by a service door and a removable panel provided beneath the service door in a height direction of the vehicle seat. The service door is connected to one of the seat base and the seat back at a first hinged connection. The center seat back is configured to have a fold down, service position where the service door pivoted at the first hinged connection is located above the seat base to provide access to an area rearward the seat back in a front-rear direction of the vehicle seat. The service door is prevented from moving to the fold down, service position with the panel located beneath the service door.

A backboard assembly for a vehicular rear seat is disclosed. The backboard assembly includes an upper part and a lower part, which are made of a hard plastic material. The backboard assembly prevents the formation of a gap between the lower part and a luggage board, regardless of the operational mode of the rear seat. When a seat back is folded, the upper part, the lower part, and the luggage board are aligned in a horizontal direction, thereby allowing the space for passengers in the rear seat to be completely integrated with a luggage compartment.

A seating assembly is provided that includes a seating assembly frame that includes a seatback frame, and a seat frame. The seating assembly further includes a seatback panel coupled to an upper portion of the seatback frame and movable between a stored position relative to the seatback frame and an extended position relative to the seatback frame, and an adjustment mechanism coupled to the seatback panel and the seating assembly frame and movable between a first position and a second position in response to an actuating force.

A vehicle seat assembly, comprising a first seat component and a second seat component, is provided. The second seat component is adjustable relative to the first seat component—preferably about a pivot axis—and a resetting device is provided, by means of which a resetting force is exerted on the second seat component in direction of a neutral position, when the second seat component is adjusted with respect to the neutral position. The resetting device at least includes the following:—a spring element in which a portion is rotated about an axis of rotation, when the second seat component is adjusted with respect to its neutral position, and the spring element thereby is tensioned, so that via the tensioned spring element at least a part of the resetting force is provided, and—a force transmission element.

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.

A seat assembly is provided and may include a base assembly, a first arm, a seat bottom assembly, a second arm, and an adjustment arm. The base assembly may be mounted to a vehicle. The first arm may be rotatably coupled to the base assembly and may be operable to rotate relative to the base assembly about a first axis of rotation. The seat bottom assembly may be rotatably coupled to the first arm and may be operable to rotate relative to the first arm about a second axis of rotation. The second arm may be rotatably coupled to the seat bottom assembly and may be operable to rotate relative to the seat bottom assembly about a third axis of rotation. The adjustment arm may include an adjustment mechanism, and may be rotatably coupled to the second arm and rotatably coupled to the base assembly. The adjustment mechanism may be operable to rotate the adjustment arm relative to the base assembly about a fourth axis of rotation.

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 seating arrangement for a vehicle is shown to include a plurality of seats, including at least two front seats, at least two rear seats, and a rear jump seat positioned intermediate the two rear seats. The jump seat comprises a seat back which is positioned rearwardly of the rear seats, and the rear seats are movable laterally between a first position where the rear seats are proximate to each other and generally covering the seat back of the jump seat, and a second position where the rear seats are spaced apart from each other and the seat back of the jump seat is exposed. The arrangement may also include rear seats which are rotatable relative to the seat backs to provide a storage surface.

In order to improve ease of maintenance of an aircraft passenger seat, the aircraft passenger seat 100 is adapted to be changeable between an upright position and a bed mode position at which the backrest is folded forward. A mechanism for locking the seat at each of the positions is provided with lock pins 350 provided on both sides of the backrest, a handle unit 200 mounted to a rear face of the backrest, and two wires 300 for connecting the handle unit 200 and the lock pins 350. A structure for connecting the wires 300 to the handle unit 200 is improved to facilitate the maintenance of the wires and to make the handle unit lightweight.