In order to prevent distortion of slide rails caused by an urging force generated by an urging member in a vehicle tumble seat, a vehicle seat is capable of taking a stowed position in which a seat back 6L is folded onto a seat cushion 5L and the seat cushion 5L together with the folded seat back 6L is rotatably lifted away from a floor 3, and the vehicle seat is configured to include: a support member 31 coupled to the floor; a rotating member 33L rotatably supported by the support member via a support shaft extending in a right-left direction; a lower rail 41 extending in a front-rear direction and coupled at an end to the rotating member so as to be extend literally offset relative to the support shaft; an upper rail 42 slidably supported by the lower rail and coupled to the seat cushion; a coupling device 51 provided at a second end of the lower rail on a side toward the support shaft and capable of selectably connecting to the floor; and an urging device 60 extending the front-rear direction and having one end coupled to the support member and a second end coupled to the lower rail on the side toward the support shaft side, wherein the urging device is configured to be expandable and contractible in a longitudinal direction thereof so as to urge the seat cushion in such a direction as to rotate about the support shaft away from the floor.

In order to prevent distortion of slide rails caused by an urging force generated by an urging member in a vehicle tumble seat, a vehicle seat is capable of taking a stowed position in which a seat back 6L is folded onto a seat cushion 5L and the seat cushion 5L together with the folded seat back 6L is rotatably lifted away from a floor 3, and the vehicle seat is configured to include: a support member 31 coupled to the floor; a rotating member 33L rotatably supported by the support member via a support shaft extending in a right-left direction; a lower rail 41 extending in a front-rear direction and coupled at an end to the rotating member so as to be extend literally offset relative to the support shaft; an upper rail 42 slidably supported by the lower rail and coupled to the seat cushion; a coupling device 51 provided at a second end of the lower rail on a side toward the support shaft and capable of selectably connecting to the floor; and an urging device 60 extending the front-rear direction and having one end coupled to the support member and a second end coupled to the lower rail on the side toward the support shaft side, wherein the urging device is configured to be expandable and contractible in a longitudinal direction thereof so as to urge the seat cushion in such a direction as to rotate about the support shaft away from the floor.

A passenger transport vehicle includes a system configured to vary the number of available seating places in accordance with the level of passenger traffic to be transported. The system has a mechanical support structure having a fixed part and a movable part movable between a first position in which the mechanical support structure forms a seating place, and a second position in which the seating place is unavailable for seating. The mechanical support structure includes a covering surface connected to and disposed around a portion of the movable part. The covering surface includes two rigid portions and a deformable portion. One rigid portion forms a seating surface when the movable part is in the first position, while both rigid portions and the deformable portion form an ischiatic support surface when the movable part is in the second position.

A passenger transport vehicle includes a system configured to vary the number of available seating places in accordance with the level of passenger traffic to be transported. The system has a mechanical support structure having a fixed part and a movable part movable between a first position in which the mechanical support structure forms a seating place, and a second position in which the seating place is unavailable for seating. The mechanical support structure includes a covering surface connected to and disposed around a portion of the movable part. The covering surface includes two rigid portions and a deformable portion. One rigid portion forms a seating surface when the movable part is in the first position, while both rigid portions and the deformable portion form an ischiatic support surface when the movable part is in the second position.

A vehicle includes a cabin interior, a floor, and a deployable seat assembly. The deployable seat assembly includes a pair of deployable seat support assemblies, each having first and second pivot bars pivotally supported on the floor, a first rail coupled to the first and second pivot bars, wherein the first rail is raised and lowered as the first and second pivot bars rotate between first and second bar positions, and a second rail slidingly extendable from the first rail. The seat assembly has a seat supported by the second rail, wherein the seat faces rearward and extends rearward on the second rail as the second rail slides away from the first rail.

Disclosed herein is a walk-in device for a seat. The walk-in device includes: a rotor configured to operate in conjunction with a recliner during a walk-in operation; a puller configured to operate in conjunction with the rotor during the walk-in operation, and to operate only in conjunction with the recliner without operating in conjunction with the rotor during a folding operation; a rotor spring configured to provide an elastic force to the rotor in a return direction; a puller spring configured to provide an elastic force to the puller in a return direction; and a base plate configured to rotatably install the rotor and the puller on a cushion frame of the seat, wherein the rotor and the puller are configured to set up a single rotation point with respect to the base plate via a hinge shaft.

A vehicle includes a cabin interior, a floor, and a tailgate at the rear end of the cabin interior, wherein at least a portion of the tailgate pivots between a vertical closed position and a horizontal open position. The vehicle has a first seat track assembly is supported on the floor in the cabin interior, a second seat track assembly supported on the tailgate, and a seat assembly. The seat assembly including a first seat panel, a second seat panel, a bracket that allows the first seat panel and the second seat panel to pivot between a forward facing position and a rearward facing position, and a guide supporting the bracket on one of the first and second seat track assemblies, wherein the seat assembly may slide rearward along the first seat track assembly onto the second seat track assembly when the tailgate is in the open position.

A seat for a vehicle having a fold-and-dive function is proposed. When a seatback is rotated forwards and folded, a seat cushion is moved down, so the fold-and-dive function of the seat is realized. When a full-flat mode is realized by the reclining operation of the seatback, a rear end of the seat cushion is moved up, so a step between the seat cushion and the seatback can be significantly reduced or eliminated. Furthermore, a front link connecting a back cushion interlocking frame and a cushion fixing bracket to perform the fold-and-dive function is installed to have directivity where it is inclined rearwards, thus preventing a submarine phenomenon of the seat in the event of a forward collision.

A vehicle seat having an adaptable lateral support and method of adapting lateral support are provided. The seat has a seat frame on which a seat cushion and/or a backrest cushion and at least one actuator is retained, wherein the seat cushion and/or the backrest cushion has at least one laterally arranged, resiliently deformable side wall cushion for the lateral support of a person sitting on the vehicle seat and the actuator is operationally connected to the side wall cushion and configured to apply a deformation force for the resilient deformation of the side wall cushion. The vehicle seat has a cable element which connects the side wall cushion to the actuator in a force-transmitting manner so that the actuator introduces the deformation force by tensioning the cable element directly from the cable element into the side wall cushion to deform the side wall cushion to change the lateral support.

A device for folding a seat may include: a lower arm stopper fixed to a predetermined radial position with respect to a reclining hinge shaft of a seatback as a center; a lock plate configured to rotate about a rotation shaft as a center while being hooked to the lower arm stopper in a process of reclining forward together with the seatback with respect to the reclining hinge shaft as the center; and a folding link limited to rotate by being hooked to the lock plate and configured to make folding rotation together with the seatback with respect to a folding hinge shaft, as a center, located at a part above the reclining hinge shaft, by being released from being hooked to the lock plate according to the rotation of the lock plate.