To reduce the weight of a cross member bridged between right and left sides of a seat frame. A seat frame includes an upper frame forming an upper portion of a seat back frame, and a cross member bridged at the upper frame. The cross member includes right and left end portions in a seat width direction, the right and left end portions being fixed to the upper frame; and a first recessed portion that is recessed upward or downward and provided between the right and left end portions. The first recessed portion is provided at a center portion of the cross member in the seat width direction.

A vehicle seat comprises: a pair of opposed frames disposed opposite to and separately from each other; a pair of connecting frames disposed separately from each other in a perpendicular direction perpendicular to an opposing direction of the pair of opposed frames, the connecting frames being configured to connect the pair of opposed frames; a bridging wire disposed to bridge the pair of connecting frames; a reinforcing wire disposed to cross the bridging wire as viewed from an occupant side; and a plate-shaped plastic member configured to cover the bridging wire and the reinforcing wire at least at their crossover such that the bridging wire and the reinforcing wire are arranged to be spaced apart from and thus kept out of contact with each other, the bridging wire and the reinforcing wire being connected with the plate-shaped plastic member.

A seat pad 1 is a seat pad including a resin foamed body 50, and a sheet member 70 buried in the resin foamed body, and when a direction orthogonal to a right-left direction and a thickness direction of the seat pad is referred to as an extending direction of the seat pad, at least a central part of the sheet member is curved in a convex shape on a back surface side of the seat pad in the extending direction.

A structural component may have a flexible structure with at least one adjusting mechanism, which may be formed at least from a plurality of folded elements or lever elements and spacing elements that are coupled to one another in such a way that their upper surfaces are connected to one another by an upper flat element and their lower surfaces are connected to one another by a lower flat element. The upper flat element and the lower flat element may be configured to be moved in a defined manner in the event of a tilting movement of the flexible structure.

A vehicle seating assembly includes a seat and a seatback. The seatback includes a frame that has opposing first and second frame members and first and second displaceable panels that are pivotably coupled to the first and second frame members. The first and second displaceable panels are movable between stored positions and deployed positions in response to a force exerted on the seatback.

A passenger seat, for instance an aircraft passenger seat, including a seat pan, a backrest frame coupled to the seat pan, a backrest supported by the backrest frame, and an adjustment mechanism coupling the backrest to the backrest frame, the adjustment mechanism operable to translate the backrest forward or aft relative to the backrest frame to change a position of the backrest relative to the seat pan. In use, translation motion of the backrest is independent of pivoting motion of the backrest frame and the backrest position is adjustable relative to the seat pan to provide seat ergonomics commensurate with the stature of the seat occupant. In embodiments, the adjustment mechanism is manual and accessible from above the backrest.

A seating assembly includes a seatback frame movable between a reclined position, an upright position, and a folded position and having opposing sides defining a central space. Each opposing side includes a non-linear front edge and a non-linear rear edge. A pivot assembly includes a first plate pivotally coupled with the seatback frame. The first plate includes a forward stop. A second plate is pivotally coupled with the first plate and is fixedly coupled with a seat base frame. The second plate includes a post configured to selectively contact the forward stop. A panel is configured to be coupled with the seatback frame to cover the central space and form a planar surface along the seatback frame. The panel includes upper retention hooks and side retention hooks configured to be engaged with the seatback frame.

A vehicle seat including a pivot bracket, a back frame, a linear adjustment mechanism, a striker, and a latch. The back frame is pivotally connected to the pivot bracket and configured to pivot about a pivot axis. The back frame includes a first end spaced apart from the and disposed below the pivot axis. The latch is configured to selectively attach the linear adjustment mechanism to the first end of the back frame so that as the first linear adjustment mechanism translates, the back frame pivots from a first use position and a second use position, and selectively detach the linear adjustment mechanism from the first end of the back frame so that the back frame is pivotable to a non-use position.

The present disclosure is directed to a modular autonomous-vehicle interior. In particular, an autonomous vehicle can comprise an interior comprising a plurality of different and distinct regions. Each of the regions can comprise one or more mechanical interfaces associated therewith. The autonomous vehicle can also include, for each of one or more of the regions, at least one modular interior unit comprising an interior element and a base mechanically interfaced with the interior via the mechanical interface(s) associated with the region.

The present disclosure is directed to a seat back frame that has a composite body. The composite body includes a first side member and a second side member positioned on opposite sides of the composite body. The first and second side members include a recliner assembly at a lower end of each member. Each recliner assembly includes a first bracket, a second bracket, and a recliner sub-assembly. Each recliner assembly is welded or otherwise coupled to an extension that extends away from the recliner assembly along a respective side of the composite body. The extension may be stamped steel having a first end that is closer to the recliner assembly and a second end that is spaced from the recliner assembly. The first end of the extension has a width that is greater than a width of the second end.