A seat device for a construction machine comprising a positioning device and a seat console having a seat arranged thereon, wherein the positioning device comprises a first pivot arm and a second pivot arm for guiding the seat console along a curved trajectory, wherein the pivot arms respectively comprise a first end and a second end, wherein the respective first end of the pivot arms is supported on the positioning device via a respective first rotary joint, and the respective second end of the pivot arms is connected to the seat console via a respective second rotary joint in a manner as spaced apart from each other.

Aspects of the present disclosure include a vehicle having a passenger assistance system for facilitating ingress and egress of passengers. The vehicle may include a plurality of wheels. The vehicle may include a body including at least one doorway supported on the plurality of wheels via a suspension. The vehicle may include a door movable between an open position and a closed position covering the at least one doorway. The vehicle may include a first platform movable between a horizontal position beneath a bottom of the doorway and a stowed position parallel to the door. The vehicle may include an occupant compartment within the body. The occupant compartment may include a seat rotatable to face the doorway in an ingress or egress mode. The occupant compartment may include a robotic arm configured to extend along an ingress or egress path through the doorway.

A control method of a vehicle is configured to control an arrangement of seats in the vehicle based on a number of occupants, a number of pieces of baggage and a baggage size, where the vehicle includes: a vehicle seat including at least one of a first seat, a second seat or a rear seat; a communicator configured to receive boarding information including information about at least one of the number of occupants or the number of pieces of baggage from a user terminal; and a controller configured to change at least one of a position and a form of the vehicle seat based on the boarding information.

A construction machine that frequently changes between a forward and reverse direction of movement includes a system and method for operating the machine such that rotation of the operator seat can change the direction and speed of the machine's movement to minimize disorientation by the operator. The machine can be changed from moving in the forward direction to moving in the reverse direction, without changing the position of a propel lever or joystick that is used to control the direction and speed of the machine's movement. Rotation of the seat can be used to proportionally reduce the speed of the machine as the machine nears a threshold for changing direction. The joystick can be a dual axis lever that can move along a longitudinal axis and a lateral axis. The direction of movement and speed of the machine can depend on a combination of the joystick position and seat position.

A seat assembly for a vehicle includes a seatback having a seat frame. The seat assembly includes a panel having an end slidably supported by the seat frame. The panel is bowable outwardly from the seat frame to a deployed position. The seat assembly includes an actuator supported by the seat frame and connected to the end of the panel.

An occupant restraint system (30) comprises a seat (14), at least one airbag integrated in the seat (14) and an airbag control device. The seat (14) is adjustable at least between a first seating position and a second seating position, the seat (14) in the second seating position having an orientation (A) that is rotated vis-à-vis the first seating position about an angle of rotation (α) from 170° to 190°. The airbag has a first inflated state and a second inflated state in which the airbag has an external geometry different from the one in the first inflated state. Accordingly, the airbag control device is arranged so that, in the case of need, the airbag adopts the first inflated state when the seat (14) is in the first seating position, and the airbag adopts the second inflated state when the seat (14) is in the second seating position. Further, a vehicle (10) comprising such an occupant restraint system (30) is provided.

A vehicle seat has a lower seat part and a seat backrest. The seat backrest has a backrest structure, a central backrest section which has at least one backrest cushion and a backrest cover, and a left and a right backrest side wall. The seat backrest is provided with at least one expansion element which has at least one cavity that is enclosed by a membrane and can be filled with an expansion fluid from a fluid source. At least one respective fillable cavity of the at least one expansion element is integrated into the backrest cushion of the central backrest section or is provided between the backrest structure and the backrest cushion of the central backrest section to the left and the right of the backrest longitudinal central plane at a lateral distance thereto.

A vehicle seat is provided including a base section fixed to a floor of a vehicle, a pair of seat sections that are disposed opposing each other as viewed along a seat width direction, that are each supported by the base section so as to be capable of tilting between a horizontal position and an upright position, and that each include plural cushion sections disposed in series and configured to support the body of an occupant, and a hinge mechanism that attaches the pair of seat sections to the base section such that the seat sections are capable of tilting, and that couples the plural cushion sections together such that the cushion sections are capable of swinging about an axis running along the seat width direction.

A removable component system may include a removable component selectively connectable to a mounting surface including a component electrical unit; an antenna; a system controller configured to communicate with the component electrical unit and the antenna; and/or a track assembly configured to be fixed to said mounting surface. The removable component may be selectively connectable to said mounting surface via the track assembly. The removable component may be configured for selective connection with, removal from, and movement along the track assembly. The system controller may be configured to obtain a position of the removable component relative to said mounting surface via the antenna and the component electrical unit (e.g., via a component controller, a sensor, and/or a communication device thereof).

A vehicle includes a bulkhead and a seat rotatable to a vehicle-rearward facing direction. The seat includes a seatback having a first side, a second side spaced from the first side, and a rear side. The rear side faces the bulkhead in the away-facing direction. The vehicle includes an inflatable device that is a thermoplastic elastomer. The inflatable device has a middle chamber, a first side chamber, and a second side chamber. The middle chamber is inflatable away from the bulkhead toward the rear side of the seatback in the away-facing direction. The middle chamber is elongated cross-vehicle between the first side and the second side of the seatback. The first side chamber is inflatable vehicle-rearward from the bulkhead along the first side of the seatback in the away-facing position. The second side chamber is inflatable from the bulkhead along the second side of the seatback in the away-facing position.