A seat cushion part includes a base fabric extending between and looped around a front edge frame and a rear edge frame, and having an upper layer part and a lower layer part which are provided apart from each other in an up-down direction. Wire members of metal are provided respectively on side edge portions of the base fabric, and coil springs are spring members each extending between an end portion of the wire member and the front edge frame or the rear edge frame. A load further applied due to vibration, impact, and so on causes the upper layer part to come into contact with the lower layer part to also displace the lower layer part in the up-down direction. Consequently, the coil springs connected through the wire members extend/contract, and their elastic force acts.

A vehicle seat includes a seat pad; a backboard disposed on a back side of the seat pad; and a seat cover covering the seat pad and the backboard. The seat cover includes a pair of covering pieces adjacent to each other on the backboard-side, and a slide fastener that connects the covering pieces. When the slide fastener is closed with use of a slider, an end portion of the slide fastener is projected from an edge end of the seat cover in a state where the slider is disposed in the end portion of the slide fastener. The backboard is provided with an insertion portion. When the end portion of the closed slide fastener is disposed on a reverse side of the seat cover, the end portion of the slide fastener and the slider are inserted in and locked to the insertion portion.

A vehicle seat assembly includes a seatback rotationally coupled to a base at a first pivot. A securing pin is coupled with the seatback. An inertial latch is operable about a second pivot to define an idle position defined by the inertial latch biased distal from the securing pin. A deployed position is defined by an opposing directional force biasing the inertial latch into selective engagement with the securing pin wherein the seatback is maintained in a predetermined rotational position.

A lock for a pivoting member in a vehicle comprising: a button having a depressed position and an undepressed position; a cam abutting the button having a rotated position and an un-rotated position; and a rod operably connected to the cam having an extended position and a retracted position; wherein, when the button is in the depressed position, the cam is in the rotated position, and the rod is in the retracted position. The pivoting member can be an armrest or a seatback, among other things. The rod includes a first grooved section. The cam includes a first finger adjacent to the first grooved section. As the cam transitions from the un-rotated position to the rotated position, the first finger of the cam interacts with the first grooved section of the rod to cause the rod to transition from the extended position to the retracted position.

A seatback frame for vehicles is disclosed. The seatback frame for vehicles has a simple structure without bracket structures used to install a conventional seatback frame and thus achieves cost reduction and weight reduction. In particular, the seatback frame is segmented into several parts having different rigidities so that only a part, on which load is concentrated, is set to have high strength and thus avoids overdesign for excessively high strength of an unnecessary part.

The present disclosure provides a multi-joint seat back for a vehicle, which may include a plurality of partitioned seat back components provided to have a structure in which a seat pad is inserted into a front portion of a skeletal frame and configured to be hinged to one another in a manner of rotating angularly in a forward or backward direction; elastic wires, each of which is connected between two partitioned seat back components selected from the plurality of partitioned seat back components; pulling wires bound to predetermined positions of the elastic wires respectively; and a drive unit connected to the pulling wires such that it winds the pulling wires to pull the elastic wires or otherwise releases the pulling wires to restore the elastic wires.

A frame structure (5) for a vehicle seat backrest (3), said frame structure (5) comprising a centre frame (18) and a side frame (14), said centre frame (18) and said side frame (14) extending in a longitudinal (x), transversal (y) and vertical (z) direction, respectively, said longitudinal (x), transversal (y) and vertical (z) directions being perpendicular to each other and corresponding to a longitudinal, transversal and vertical direction, respectively, of a vehicle. Said frame structure (5) further comprises a lower connection (7) which is adapted to interconnect said centre frame (18) and said side frame (14) and which is located at or adjacent to a lower end of said frame structure (5) in said vertical direction (z).

A vehicle seat is thinned in a seat front to back direction. In the vehicle seat, a center seat has a seat back frame, a headrest which is provided above the seat back frame, a pillar which supports the headrest, and brackets which mount the pillar to the seat back frame. The pillar is arranged between the brackets and the seat back frame, the brackets have a weld bead which holds the pillar and a portion where a welding trace to be mounted to the seat back frame is formed, and the weld bead and the portion where the welding trace is formed are arranged at different positions in a direction which intersects a front to back direction of the center seat.

The present invention provides a vehicle body structure comprising a left suspension and a right suspension each including an arm member provided under a floor portion of a vehicle body; a left attachment portion configured to attach a vehicle body side end portion of the arm member of the left suspension to the floor portion; a right attachment portion configured to attach a vehicle body side end portion of the arm member of the right suspension to the floor portion; and a seat fixing portion configured to fix, to the floor portion, a seat provided on the floor portion, wherein the seat fixing portion is located between the left attachment portion and the right attachment portion in a vehicle width direction.

A vehicle seat is provided with a plate member attached to the back of the seat back. The plate member is configured by a core plate and a cover that covers the core plate, the plate member is sewed together with a cover of the back of the seat back, and a sewed part of the cover of the plate member and the cover of the seat back functions as a turning axis of the plate member. The plate member is turned an unfolded state covering concave clearance formed between the back directed upward of the seat back and a floor surface on the back side by pushing down the seat back forward, and the plate member is turned a housed state in which the plate member is piled on the back of the seat back by raising the seat back backward.