A seat assembly includes a seat, one or more sensor assemblies, and/or an electronic control unit that may be connected to the one or more sensor assemblies. The one or more sensor assemblies may provide information about a first position of the seat to the electronic control unit. The electronic control unit may be configured to receive a second position of the seat, and/or the electronic control unit may be configured to automatically move the seat to the second position without contacting other objects. The electronic control unit may include a second seat, and/or the electronic control unit may be configured to automatically move the second seat from a first second seat position to a second second seat position. The electronic control unit may be configured to determine a movement path of the seat according to information from the one or more sensor assemblies.

Disclosed is a system and method for controlling a moving console. When a seat of a vehicle is moved forwards or rearwards, a console is automatically moved to a usable position adjacent to the seat, whereby it is possible for a passenger on the seat to conveniently use the console. In addition, when the seat is swiveled, the console is automatically moved to a position at which interference between the console and the seat is avoidable, whereby the seat is swiveled smoothly.

A seating assembly comprises: a head restraint that can be both separated from a seatback to a separated position, and remotely actuated via a user-accessible manipulable device located away from the head restraint to move the head restraint to a folded position when coupled to the seatback in an extending position. A cable of the seatback is not operably coupled with the head restraint when the user-accessible manipulable device is not manipulated but becomes operably coupled with the head restraint, when the user-accessible manipulable device is manipulated and the head restraint is in the extending position, to cause the head restraint to move from an upright position to the folded position. The cable of the seatback extends into a post receiver and operably couples with the head restraint within the post receiver when the head restraint is in the extending position and the user-accessible manipulable device is manipulated.

Provided are a vehicle electric seat (10) adjustment method, apparatus, and system, and a vehicle. The method includes: obtaining, in response to a position adjustment instruction for an electric seat (10), an image of a seat at a direct rear side of the electric seat (10) that is currently captured by a camera system (12) disposed on the electric seat (10); analyzing, whether the seat at the direct rear side is occupied by a passenger; when the seat at the direct rear side is occupied by the passenger, calculating, based on the image, a current distance of the electric seat (10) relative to the passenger on the seat at the direct rear side, and obtaining a predetermined seat adjustment safety distance; calculating a position adjustment parameter of the electric seat (10); and adjusting a position of the electric seat (10) based on the position adjustment parameter, to a target position.

The application provides a seat control method, a seat controller and a product, which are applicable to the technical field of automobiles. In the application, after driving of a seat motor is stabilized and during operation of the seat motor, for each of cycles, present driving current is compared with a temporary current value corresponding to a previous cycle to determine a difference, and current change trend of each of the cycles is determined. In a case where the current change trend of the present cycle is the same as the current change trend of the previous cycle, an increment of a current locking accumulative count value is increased. A locking flag for indicating stopping of the seat motor can be determined more quickly so as to realize an anti-pinch function, and thus an anti-pinch event can be detected quickly and accurately.

A vehicle seat including, a seat cushion including: a pair of left and right base members; a seat cushion movable portion attached in a manner that enables tip-up around a rotation shaft disposed between the base members; and a seat cushion fixed portion fixed in a manner that an upper surface portion of at least one of the base members is partially overlapped with the seat cushion fixed portion, and a distance between the base members is smaller than a sum of widths of a rear end portion of the seat cushion movable portion and a rear end portion of the seat cushion fixed portion, and the seat cushion movable portion selectively adopts a normal state where the seat cushion movable portion forms a seating surface together with the seat cushion fixed portion, and a tip-up state without interfering with the seat cushion fixed portion.

An apparatus includes a mode switching unit configured to switch a driving mode of a vehicle from a first driving mode to a second driving mode different from the first driving mode, or from the second driving mode to the first driving mode; and a changing unit configured to (i) change a position of a first seat of the vehicle, in a case in which the first driving mode is switched to the second driving mode by the mode switching unit, and (ii) change the position of the first seat to a position which is occupied by a second seat different from the first seat during the second driving mode, in a case in which the second driving mode is switched to the first driving mode by the mode switching unit.

An operator station includes a base frame; a chair is configured to swivel in first and second clock directions; and first and second chair arms. The first chair arm includes a first chair arm body disposed proximate and repositionable with respect to a first lateral side of the chair; and a first chair arm adjustment mechanism coupled to the base frame and the first chair arm body and configured to permit the first chair arm to rotate in a first lateral plane relative to the chair in the first clock direction when the chair rotates in the second clock direction relative to the base frame and to rotate in the first lateral plane relative to the chair frame in the second clock direction when the chair rotates in the first clock direction relative to the base frame.

A vehicle includes a front seating assembly and a rear seating assembly. An occupant sensor senses occupancy of the front seating assembly. A proximity sensor senses an object in a footwell behind the front seating assembly. A rear door sensor senses the opening of a rear door. A controller activates an actuator to move the front seating assembly forward based on the sensed occupancy, a sensed object, and sensed door opening. A method of controlling a vehicle seating assembly includes the steps of: sensing the front seating assembly is unoccupied with the occupant sensor; detecting in the footwell behind the front seating assembly with the proximity sensor; sensing a rear door position with the door sensor; and moving the front seating assembly forward when the front seating assembly is unoccupied, an object is in the footwell, and the rear door is in an open position.

A seat support mechanism including a leg pedestal (11), which is fixedly provided on a floor in the vicinity of a side wall (A), a moving pedestal (20), which is disposed under a top face part (12) of the leg pedestal (11) and is capable of being advanced/retracted in a direction orthogonal to the side wall A; an underframe (30) of the seat, which is disposed above the top face part (12) of the leg pedestal (11), and is turnably supported by a turning shaft (41) in the moving pedestal (20), the turning shaft (41) avoiding an interference with the top face part (12), and an interlocking mechanism (50), which interlocks turning and advancing/retracting of the underframe (30), in which, when the seat is turned together with the underframe (30), the interlocking mechanism (50) converts the turning motion of the underframe (30) into a linear motion and, through the turning shaft (41), transmits it to the moving pedestal (20), thereby causing the moving pedestal (20) and the underframe (30) to be advanced/retracted in a direction orthogonal to the side wall (A).