A track assembly includes a track, a support member, a lever, and a slider. The support member may be configured for selective connection with the track. The lever may be connected to the support member, and the slider may be connected to the support member. The lever may be configured to limit movement of the slider and to limit movement of the support member. The slider may be configured to move longitudinally along the support member. The slider may be connected at a top of the support member. The lever may be configured to rotate about an axis that may be parallel to the track. The lever may include a top portion. The lever may include a first position and/or a second position. The slider may be configured to selectively contact the top portion of the lever when in a first position.

A support assembly includes a support member, a side member, and a resilient member. The support member may be configured to engage a track. The resilient member may be connected to the support member, and/or the support member may be connected to the side member. The resilient member may be configured to compensate for different orientations of the side member. The resilient member may be configured to maintain a position of the side member relative to the track. The resilient member may be configured to compensate for different lateral positions of the side member relative to the track. The resilient member may be connected to a lateral side of the support member. The resilient member may be disposed proximate a first end of the support member, and/or a second resilient member may be disposed proximate a second end of the support member.

A cam assembly includes a pin, a first cam, a second cam, and/or a bearing. The first cam may be connected to the pin, and/or the second cam may be connected to the pin. A bearing may be configured to rotatable support the pin. The second cam may include a first portion and/or a second portion. The first portion of the second cam may be configured to contact a track in a first vertical position of the pin. The second portion of the second cam may be configured to contact said track in a second vertical position of the pin. The first portion may be vertically offset from the second portion. The first position of the pin may correspond to an unloaded state. The second vertical position of the pin may correspond to a loaded state.

A safety seat (100) includes a seat body (10) and a set of caster wheels (11). The safety seat can ride on the caster wheels (11). The safety seat can also include a handle (12) for easy manipulation and a footrest (13) for the child to rest the feet. The caster wheels (11), the handle (12) and the footrest (13) can be retracted when they are not used and extended out when needed.

The disclosure concerns a motor vehicle with a mobile vehicle seat. The seat includes a frame that forms a seating surface and a backrest. An energy source is arranged in the frame. A drive motor is arranged in the frame and connected to the energy source. At least one wheel is arranged on the frame and in drive connection with the drive motor. A control device controls the drive motor, and a first coupling is arranged on the frame to releasably fix the frame to the motor vehicle. A second coupling corresponding to the first coupling of the vehicle seat is arranged on an inside of a vehicle door, which is mounted pivotably on a vehicle superstructure. The second coupling can be brought into releasable engagement with the first coupling of the vehicle seat.

A long rail assembly for repositioning a seat assembly in a vehicle comprising an inboard lower channel, an inboard manual drive assembly, an outboard lower channel, an outboard manual drive assembly, a central lower channel, and a power drive assembly. The inboard lower channel is adapted to extend longitudinally along a floor of the vehicle. The inboard manual drive assembly is coupled to the seat assembly and slidably coupled to the inboard lower channel. The outboard lower channel is adapted to extend longitudinally along the floor of the vehicle. The outboard manual drive assembly is coupled to the seat assembly and slidably coupled to the outboard lower channel. The central lower channel is adapted to extend longitudinally along the floor of the vehicle. The power C drive assembly is coupled to the seat assembly and slidably coupled to the central lower channel. The power drive assembly power drives the seat assembly along the central lower channel.

There is provided a system comprising a plurality of movable seats arranged in a seating area, a detection device, a non-transitory memory storing an executable code, a hardware processor executing the executable code to receive a first input from the detection device indicating an individual is present in the seating area, determine a first position of the individual in the seating area at a first time based on the first input, and arrange the plurality of seats in a first configuration based on the first position of the individual, wherein arranging the plurality of seats includes moving at least one of the plurality of seats to a new position.

A lightweight, attachable and detachable vehicle seat removal, transport, and reinstallation apparatus is disclosed, including a chassis, casters mounted to the chassis, a seat rear support pin coupled to the chassis for engaging a seat rear attachment of the vehicle seat, and a locking forward pin attached to the chassis for engaging a forward seat attachment of the vehicle seat. A method of vehicle seat removal is disclosed, including positioning one or more seat skates behind a seat such that the seat skates are aligned with vehicle seat attachment means, rotating the vehicle seat upward, rolling the one or more seat skates forward such that the one or more seat skates straddle respective vehicle seat attachment means, rotating the one or more seat skates upward, latching rear seat attachments of the vehicle seat to seat rear support pins of the seat skates, and lowering the vehicle seat for transport.

The disclosure concerns a motor vehicle with a mobile vehicle seat. The seat includes a frame that forms a seating surface and a backrest. An energy source is arranged in the frame. A drive motor is arranged in the frame and connected to the energy source. At least one wheel is arranged on the frame and in drive connection with the drive motor. A control device controls the drive motor, and a first coupling is arranged on the frame to releasably fix the frame to the motor vehicle. A second coupling corresponding to the first coupling of the vehicle seat is arranged on an inside of a vehicle door, which is mounted pivotably on a vehicle superstructure. The second coupling can be brought into releasable engagement with the first coupling of the vehicle seat.

A seat assembly for a transport vehicle includes a seat base assembly configured to being coupled to a floor of the transport vehicle. The seat base assembly includes a seat and a cable system having a cable and an actuating mechanism operably coupled to the cable. A clamping arm is operatively coupled to the seat base assembly and the cable system. The actuating mechanism operably actuates the cable to move the clamping arm between an unlatched position and a latched position with respect to the floor. In the latched position, the seat base assembly is coupled to the floor, and in the unlatched position, the seat base assembly is decoupled from the floor.