The technology provides a seat release blocker that covers a seat release latching mechanism, where the latching mechanism would enable a passenger to fold down one or more seats of a vehicle. This can be particularly beneficial when the vehicle is operating in an autonomous driving mode, because certain areas within the vehicle may be restricted from passenger access. For instance, access to the trunk or cargo area may be limited to authorized service personnel. The seat release blocker includes a cover member that is fixedly secured to a seat such as a middle seat, using one or more fastener members such as a screw. Once the cover is releasably secured to the seat, the side of the cover with the fasteners may be completely or substantially covered by the side of an adjacent seat.

Proposed is a folding seat which can be folded by manipulating a lever at various positions so as to improve the utilization of space around the folding seat. The folding seat includes: a seat frame; a seat back frame located at a rear of the seat frame and coupled rotatably to the seat frame or a vehicle; and a first latch part provided with a side support, a first end of the side support being coupled to the vehicle and a second end of the side support being coupled to the rear of the seat frame through a rotation shaft such that the seat frame is rotatable.

A rotary drive actuation system for actuating a latch including: an output shaft having a member affixed at one end of the output shaft for coupling to a component of the latch; a common drive element affixed to the output shaft at the other end of the output shaft; and a plurality of motors coupled to the common drive element for simultaneously driving the common drive element and the output shaft in a first rotary direction to effect actuation of the latch.

A seating system for a vehicle includes a first sidewall and a second sidewall. A second sidewall opposes the first sidewall. The first sidewall and the second sidewall at least partially define a cargo space. A first seating assembly is coupled to the first sidewall. A second seating assembly is coupled to the first sidewall. A bench seat is configured to be selectively adjustable between an adjacent support position and a cross support position. The bench seat is coupled to the first seating assembly and the second seating assembly when in the adjacent support position. The bench seat is coupled to the first sidewall and the second sidewall in the cross support position.

A seating assembly for a vehicle includes a backrest extending between a first surface and a second surface. The second surface opposes the first surface. A first seat base operably couples with the backrest to form a first seat of the seating assembly. The backrest is pivotable between a first use position and a second use position. A second seat base is operably coupled via a connection interface with the backrest. The second seat base and the backrest form a second seat of the seating assembly in the second use position. The second seat faces away from the first seat in the second use position. A cross-sectional plane intersecting each of the first surface and the second surface defines a cross-sectional area of the backrest that remains constant between the first use position and the second use position of the backrest.

A vehicle seating arrangement includes a first seating assembly, a second seating assembly, and a third seating assembly. The second seating assembly is adjacent to the first seating assembly. Each of the first, second, and third seating assemblies include a seat and a seatback. The seatbacks are pivotably coupled to their respective seats such that the seatbacks are each pivotable between a use position and a forward-dumped position. A remote control is positioned on at least one of the first seating assembly, the second seating assembly, and the third seating assembly. Actuation of the remote control in a first direction transitions the seatback of the first seating assembly toward the forward-dumped position. Actuation of the remote control in a second direction transitions the seatback of at least one of the second and third seating assemblies toward the forward-dumped position.

A vehicle seat assembly including a seat frame assembly including a seat base and a seat back pivotally connected to the seat base. The seat back includes at least one resin fuse arranged in the seat back to indicate structural loading in the vehicle seat assembly above a tolerance loading. The at least one resin fuse includes an aperture extending through the seat back and comprising a flange encircling the aperture and extending generally perpendicular to the seat back, and an indicator bar extending across a diameter of the aperture. The aperture is open on either side of the indicator bar.

A conveyance seat includes: a seat back; a seat cushion which includes a pair of cushion side frames extending in a front to back direction of the seat; a slide rail which slides the seat back and the seat cushion in the front to back direction of the seat; a connecting member connecting the seat cushion and the slide rail; and a first rotation portion which-rotatably connects the connecting member to the slide rail, the seat cushion is movable from a first height position to a second height position below the first height position in an up and down direction of the seat, and when the seat cushion moves to the second height position, the first rotation portion is disposed at the same height position as the slide rail in a side view of the conveyance seat to suppress an increase in size of the seat.

A conveyance seat includes: a seat back; a seat cushion which includes a pair of cushion side frames extending in a front to back direction of the seat; a slide rail which slides the seat back and the seat cushion in the front to back direction of the seat; a connecting member connecting the seat cushion and the slide rail; and a first rotation portion which-rotatably connects the connecting member to the slide rail, the seat cushion is movable from a first height position to a second height position below the first height position in an up and down direction of the seat, and when the seat cushion moves to the second height position, the first rotation portion is disposed at the same height position as the slide rail in a side view of the conveyance seat to suppress an increase in size of the seat.

An armrest serves as an elbow rest of a seat device in a case where the armrest is tilted forward and serves as a backrest of the seat device in a case where the armrest is raised rearward. The armrest includes an armrest pad configured to elastically support a load applied to a backrest surface forming a part of a front surface of the seat device in a case where the armrest serves as the backrest, an armrest cover configured to cover the armrest pad, a protrusion that protrudes from the backrest surface of the armrest cover and abuts against an upper surface of a seat cushion of the seat device in a case where the armrest is tilted forward, and a cutout portion formed in a region that overlaps the protrusion of the armrest cover in a thickness direction of the armrest.