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 device for a vehicle includes: a support member detachably attached to a floor of the vehicle; an occupant seat movably supported by the support member and provided with an electrical component; and a wireless power supply mechanism configured to supply electric power to the electrical component. The wireless power supply mechanism includes a power transmitting unit attached to the floor, and a power receiving unit attached to the support member so as to face the power transmitting unit and configured to receive the electric power wirelessly from the power transmitting unit.

A vehicle proposed herein includes a swivel, a lock mechanism selectively locking and unlocking the swivel, a seat mounted on the swivel, a plurality of surface pressure sensors each disposed along an outer surface of the seat and detecting a pressure distribution within a predetermined area of the outer surface, and a controller configured to cause the lock mechanism to be unlocked based on a change in pressure distribution or a surface pressure that is detected by any of the plurality of surface pressure sensors.

A vehicle proposed herein includes a swivel, a lock mechanism selectively locking and unlocking the swivel, a seat mounted on the swivel, a plurality of surface pressure sensors each disposed along an outer surface of the seat and detecting a pressure distribution within a predetermined area of the outer surface, and a controller configured to cause the lock mechanism to be unlocked based on a change in pressure distribution or a surface pressure that is detected by any of the plurality of surface pressure sensors.

A seat for a motor vehicle includes a basic shell and a seat surface. The seat surface includes a vacuum layer and an air cushion layer; and the air cushion layer is arranged between the vacuum layer and the basic shell. Also disclosed is a motor vehicle having such a seat.

Disclosed herein is a power driving module for a swivel seat. The power driving module rotatably drives a rotating frame with respect to a fixed frame. The power driving module includes: a driving motor installed on the fixed frame; a deceleration unit configured to decelerate and transmit a provided driving force in conjunction with the driving motor; and a ring gear configured to rotate the rotating frame in a forward or reverse direction in conjunction with the deceleration unit; wherein the driving motor includes a hollow output member disposed coaxially with the rotation center of the rotating frame, the ring gear is disposed concentrically with the rotation center of the rotating frame, and the deceleration unit is disposed in a radial structure around the output member of the driving motor.

Disclosed herein is a power driving module for a swivel seat. The power driving module rotatably drives a rotating frame with respect to a fixed frame. The power driving module includes: a driving motor installed on the fixed frame; a deceleration unit configured to decelerate and transmit a provided driving force in conjunction with the driving motor; and a ring gear configured to rotate the rotating frame in a forward or reverse direction in conjunction with the deceleration unit; wherein the driving motor includes a hollow output member disposed coaxially with the rotation center of the rotating frame, the ring gear is disposed concentrically with the rotation center of the rotating frame, and the deceleration unit is disposed in a radial structure around the output member of the driving motor.

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.

Systems, methods, and other embodiments described herein relate to keeping a vehicle within a safety envelope. In one embodiment, a method includes determining a safety envelope having a boundary, determining a risk level for an environment surrounding the vehicle, and associating an index value with a location within the safety envelope based on at least one of the risk level and a relationship between the location and the boundary. The method includes, in response to a vehicle being located at the location, tilting a vehicle seat to a tilt angle relative to a floor of the vehicle. The tilt angle can be based on the index value associated with the location.

A forklift includes a cabin and a seat for use by a driver arranged in the cabin. The cabin has a lateral opening to enter and exit the cabin, and the seat is mounted rotatably relative to the cabin. There is a safety bracket for preventing the driver from involuntarily exiting the cabin through the lateral opening, and for providing lateral impact protection. The safety bracket is mechanically connected to the seat to be rotatable together with the seat.