A removable seat of a motor vehicle includes first and second cross brackets laterally spaced apart and arranged perpendicular to first and second upper rails located in a floor of the motor vehicle, the first and second cross brackets being connected to the first and second upper rails, a cover connected to and extending between the first and second cross brackets, a handle extending laterally outward from the cover, a spring-loaded lock that holds the first upper rail in place with one of a first lower rail and second lower rail the floor, and a towel bar that releases the lock, enabling the first and second upper rails to slide within the first and second lower rails.

A rail and carrier system for a removable seat of a motor vehicle includes two lower rails fixedly attached laterally along a floor of the motor vehicle. a first upper rail is nested with and laterally slidable within the first lower rail, and a second upper rail is nested with and laterally slidable within the second lower rail. First and second cross brackets are laterally spaced apart and arranged perpendicular to the first and second upper rails are connected to the first and second upper rails. A cover is connected to and extends between the first and second cross brackets. A spring-loaded lock holds the first upper rail in place with the first lower rail, and a towel bar releases the lock, enabling the first and second upper rails to slide within the first and second lower rails.

A seat for a motor vehicle includes a seatbelt integrated into a seat back of the seat and a seatbelt mechanism for providing access to the seatbelt. The seat further includes an extended base attached to the seat, a raised and curved section of the extended base for transitioning the seatbelt from a vertical orientation inside the seatback to a horizontal orientation for use, an arcuate slot atop the extended base, the seatbelt being threaded through the arcuate slot, the arcuate slot preventing the seatbelt from becoming tangled and misaligned, a garnish for covering the seatbelt mechanism, a fastener, and a cap for covering the fastener. The fastener fastens the garnish and the cap to the extended base.

A rail and carrier system for first and second removable seats for a motor vehicle includes two lower rails fixedly attached to and positioned laterally along a floor of the motor vehicle. Two upper rails are nested with and laterally slidable within each of the first lower rails. Cross brackets are laterally spaced apart and arranged perpendicular to the upper rails. Covers are connected to and extend between the cross brackets. Spacers are located laterally between upper rails within the lower rails. The spacers include a first shoe located in the lower rail, a second shoe located in the lower rail, and a first bracket connecting the first shoe and second shoe. The first and second shoes prevent the upper rails from contacting each other.

A bracket for use in a rail and carrier system for a removable seat for a motor vehicle, the rail and carrier system having first and second lower rails, first and second upper rails nested within the first lower rail, third and fourth upper rails nested within the second lower rail, includes a generally U-shaped end that is substantially similar to a U-shaped cross-sectional profile of the first and second lower rails, the U-shaped end having a center portion and two upper portions, and a generally L-shaped extension extending from a bottom of the center portion, the L-shaped extension having a first portion that is attached to the one of the first and second lower rails and a second portion that extends upward from the first portion. The second portion blocks movement of one of the first, second, third, and fourth upper rails.

A removable seat for a motor vehicle includes two hook fasteners for removably attaching the seat to front strikers that are rotatable about a lateral axis through the front strikers. A bar extends between the first hook fastener and the second hook fastener that is parallel to the lateral axis. The bar contacts the cover to prevent further rotation when the seat is rotated about the lateral axis to prevent over-rotation of the seat.

A passenger compartment has a flat floor, a movable component and a positioning system for positioning the movable component on the floor. The positioning system has a lower rail extending along a first direction attached to the floor, a carriage slidably engaging with the lower rail for sliding along the first direction, and an upper rail extending along a second direction not coinciding with the first direction and slidably engaging with the carriage for sliding along the second direction. An interface member is attached to the upper rail and provided with openings for being removably connected to the movable component and making the movable component integral with the upper rail in a movement along the first and second directions. The lower rail has continuous-track electrical contacts extending along the lower rail. The carriage has sliding electrical contacts arranged in contact with the continuous-track electrical contacts for transmitting electrical signals.

A utility vehicle includes a chassis and a work implement movably coupled to the chassis. An operator support is positioned within an operator cab. The operator support includes a seat and a backrest coupled to the seat. A position of the operator support is selectively adjustable relative to the chassis. The utility vehicle further includes a control system in communication with the operator support. The control system includes a sensor operable to sense a position of the work implement relative to the chassis, and a controller including a processor and a memory. The controller is configured to receive a signal from the sensor representative of the position of the work implement. The controller is further configured to generate a signal to automatically adjust the position of the operator support relative to the chassis based in part on the position of the work implement relative to the chassis.

The time required to complete current-to-target state transitions of a plurality of movable portions constituting a seat is shortened. A seat unit 1 includes an occupant support portion S1, a plurality of movable mechanisms respectively moving a plurality of parts constituting the occupant support portion S1, and an ECU 40 controlling respective operations of the plurality of movable mechanisms. The ECU 40 causes each of the plurality of movable mechanisms to undergo a transition from a current state to a target state and the plurality of movable mechanisms have a first movable mechanism requiring a longest time for the transition. The ECU 40 causes the transitions of the plurality of movable mechanisms other than the first movable mechanism to be completed by completion of the transition of the first movable mechanism from the current state to the target state.

A magnetic seat adjustment system includes a frame structure, a movable adjustment mechanism, and a control system. The frame structure includes a first magnetic portion fixedly coupled to the frame structure and including first magnetic members that independently generate a magnetic field. The movable adjustment mechanism includes a movable base and a second magnetic portion. The second magnetic portion is fixedly coupled to the movable base and includes second magnetic members that independently generate a magnetic field. The control system controls a change in the magnetic field of the second magnetic members and/or the first magnetic members. When the magnetic field of the second magnetic members interacts with the magnetic field of the first magnetic members, the seat is in a magnetic levitation state, so that movement of the movable base drives movement of the seat.