A vehicle seat includes a seat base operably coupled with a seatback and having a seat pan. An upper connector is positioned on the seat pan. A lift assembly is operably coupled with the seat pan and includes a bracket defining a bracket slot. An outer link has a first end rotatably coupled with the seat pan and a second end that includes a lower connector. The lower connector is slidably received by the bracket slot. An inner link has a first end rotatably coupled with the bracket and a second end that defines a link slot. The link slot is configured to receive the upper connector. A sector gear is configured to facilitate vertical translation of the seat base.

A suspension seat, including: a lower side member that forms a vehicle lower side of a suspension; an upper side member that forms a vehicle upper side of the suspension, and that is configured to support a vehicle seat body from the vehicle lower side; a suspension link mechanism that includes a vehicle lower side portion coupled to the lower side member and a vehicle upper side portion coupled to the upper side member, and that undergoes displacement so as to displace the upper side member along a vehicle vertical direction; a linear displacement section that is provided at the suspension link mechanism and is configured to undergo linear displacement in conjunction with displacement of the suspension link mechanism; and a locking mechanism that immobilizes the linear displacement section so as to immobilize displacement of the suspension link mechanism.

A vehicle seat having a vehicle seat underbody, comprising: a base plate; a side horizontal suspension; a rolling suspension comprising a rod element rotatably mounted with respect to the side horizontal suspension; a scissors-type frame having a first swing and a second swing, wherein the first swing is connected by a first slide element to the rod element and the second swing is connected by a second slide element to the rod element and the first swing is connected to the first slide element and the second swing is connected to the second slide element; a first element carrier; a lengthwise horizontal suspension; and a first spring element, which is connected on the one hand to the first element carrier and on the other hand to the base plate or one of the swings.

The invention relates to a vehicle seat with an upper part which is height-adjustably mounted with respect to a lower part by means of at least one scissor frame, wherein the scissor frame comprises a first scissor arm member and a second scissor arm member which are pivotally mounted about a common axis, wherein the first scissor arm member comprises a first, a second and a third lever member which are series-connected, wherein the first lever member is pivotally mounted with respect to the upper part about a third axis, and wherein the third lever member is pivotally mounted with respect to the lower part about a fourth axis, wherein the second lever member is pivotally mounted about the common axis and is rotationally connected to the first lever member by means of a fifth axis and rotationally connected to the third lever member by means of a sixth axis.

A vehicle seat structural component for a vehicle seat includes a structural element, a transverse tube and an intermediate body. The structural element includes an opening. The transverse tube includes an outwardly extending first protrusion. The transverse tube extends through the opening. The intermediate body connects the structural element and the transverse tube. The intermediate body includes a transverse tube supporting section including an inwardly extending first recess. The transverse tube supporting section is supported at the transverse tube such that the first protrusion extends into the first recess and the transverse tube supporting section surrounds the first protrusion.

A seat assembly includes a mounting plate and a base frame rotatable mounted on the mounting plate by a swivel mechanism for swiveling the seat assembly between forward-facing and rearward-facing configurations. A seat portion is operably coupled to the base frame and includes a front edge. The seat portion can be pivoted between use and upright non-use positions. The seat assembly includes a first rotational footprint when the seat portion is in the use position and a second rotational footprint that is less than the first rotational footprint when the seat portion is in the upright non-use position. The second rotational footprint is intended to accommodate swiveling of the seat assembly between the forward-facing and rearward-facing configurations within a vehicle interior.

A seat assembly includes a base frame supporting a lift mechanism. A seatback is operably coupled to a seat portion. The seatback and the seat portion are vertically adjustable as powered by the lift mechanism. The seat portion is pivotally coupled to the seatback by a support bracket for rotational movement between first and second positions. A seat frame of the seat portion is vertically juxtaposed over the lift mechanism when the seat portion is in the second position.

A mobility carrier provided with a vehicle seat and a vehicle provided with the mobility carrier. The mobility carrier includes a carrier body, a seat, an operating portion configured of allowing a user accommodated on the seat to control the mobility carrier or the vehicle, and a carrier controller. The carrier controller communicates with a vehicle controller of the vehicle from outside of the vehicle. If verified through communications with the vehicle controller, the carrier controller controls the carrier wheels so that the carrier body enters a cabin of the vehicle. The carrier controller communicates with the vehicle controller to control a driving unit of the vehicle via the operating portion.

An active suspension system comprises at least one biasing device configured to support a body from a structure, and at least one motor. A magnetorheological (MR) fluid clutch apparatus(es) is coupled to the at least one motor to receive torque from the motor, the MR fluid clutch apparatus controllable to transmit a variable amount of torque. A mechanism is between the at least one MR fluid clutch apparatus and the body to convert the torque received from the at least one MR fluid clutch apparatus into a force on the body. Sensor(s) provide information indicative of a state of the body or structure. A controller receives the information indicative of the state of the body or structure and for outputting a signal to control the at least one MR fluid clutch apparatus in exerting a desired force on the body to control movement of the body according to a desired movement behavior.

An active suspension system comprises at least one biasing device configured to support a body from a structure, and at least one motor. A magnetorheological (MR) fluid clutch apparatus(es) is coupled to the at least one motor to receive torque from the motor, the MR fluid clutch apparatus controllable to transmit a variable amount of torque. A mechanism is between the at least one MR fluid clutch apparatus and the body to convert the torque received from the at least one MR fluid clutch apparatus into a force on the body. Sensor(s) provide information indicative of a state of the body or structure. A controller receives the information indicative of the state of the body or structure and for outputting a signal to control the at least one MR fluid clutch apparatus in exerting a desired force on the body to control movement of the body according to a desired movement behavior.