A vehicle with a rear seat storage arrangement includes a floor, a seat including a seat bottom rotatably coupled to a seat back, and an underseat storage system removably coupled to the floor below the seat bottom. The underseat storage system includes a storage bin and a lockable lid defining a storage compartment. The lockable lid includes a latch configured to selectively lock to prevent access to the storage compartment and facilitate preventing access for removably uncoupling the underseat storage system from the floor.

A latching system for securing a door to a panel includes a pawl having a first end that is configured to releasably engage a striker on the panel, and a second end opposite the first end having a connector. A pawl connector is connected to the connector on the second end of the pawl. The pawl connector includes a hollow cylindrical body having a longitudinal axis, a revolved outer side wall extending about the longitudinal axis, an open end through which the connector of the pawl is positioned, an opening defined on the revolved side wall of the cylindrical body, and a deformable portion formed on the revolved outer side wall. The deformable portion extends between the open end and the opening. The deformable portion is configured to elastically deform upon inserting the connector through the open end until the connector is non-removably seated within the opening.

A vehicular storage box that includes a compartment for holding articles, the compartment comprising four sides, a bottom and a top lid. The compartment is fabricated from an engineered plastic or a polymer matrix composite. The box further includes a locking assembly situated within the lid. The locking assembly comprises a central locking wheel connected to a linkage, a plurality of pawls for each of at least three of the sides of the compartment, and a solenoid switch. The locking wheel is movably connected to the plurality of pawls. Further, the solenoid switch is connected to the linkage to move the wheel to drive the plurality of pawls into and out of the at least three of the sides of the compartment into a respective locked position of the lid and an unlocked position of the lid.

A vibration-reducing apparatus for an assembly comprising a first member including a latch and a second member including a striker may include a threaded post having arm members extending outwardly therefrom, the threaded post being rotatably advanceable in discrete increments in a threaded opening extending through the first member such that, in a closed position of the first and second members, a distal portion of the threaded post extending through the first member contacts the second member upon rotational advancement of the threaded post in the threaded opening; and a locking region arranged to interact with at least a portion of the arm members, the rotational advancement of the threaded post in the threaded opening and contact with the second member reducing an engagement distance between the latch and the striker with the first and second members in the closed position, and attenuating vibrations between the latch and the striker.

A turning member includes a pair of projecting shafts projecting coaxially in a shaft wall member formed in both right and left end portions of a shaft member. The turning member further includes a projecting portion projecting on a tip face of the projecting shaft, wherein a diameter is reduced relative to the projecting shaft. Usually, the projecting shaft is received in a bearing hole of a base member, so that the turning member is axially supported on the base member. When an unexpected external force is applied to the turning member, the projecting shaft is disengaged from the bearing hole so as to absorb an impact, thereby preventing damage to members, and the projecting portion engages the bearing hole and is held in a state received in the bearing hole, thereby preventing the turning member from dropping out.

A stopper device includes: a stopper that has an abutting part located at a distal end of a tubular part in the axial direction, and a through-hole penetrating through the abutting part and communicating with the inside of the tubular part; and a screw that has a flange-shaped screw head accommodated in the tubular part, and a shaft projecting toward a proximal end side of the tubular part in the axial direction. The tubular part has a first restricting part that restricts movement of the stopper toward the distal end in the axial direction by being engaged with the screw head. The position of the stopper in the axial direction is changed by inserting a tool in the tubular part through the through-hole and rotating the screw.

A vehicle door lock device includes: a housing having an opening; a coupling member configured to be coupled to an operation mechanism arranged on a door; an operation lever arranged inside the housing and coupled to the coupling member through the opening; and a cover capable of opening and closing the opening and a coupling point between the coupling member and the operation lever. The cover is separate from the housing and assembled to the housing to be mountable on and demountable from the housing and rotatable between opened and closed states. Each of the housing and the cover includes: a temporary retaining mechanism to temporarily retain the cover in the opened state when the cover is assembled to the housing in a rotatable manner; and a full retaining mechanism configured to retain the cover in the closed state when the cover is rotatably assembled to the housing.

An arm cap friction hinge mechanism may include a center link; a first top link, a top friction hinge link, a second top link, and a top pin link coupled to the center link; an upper hinge mount coupled to an arm cap, to the first top link, and to the top friction hinge link via a first friction hinge; an upper pin mount coupled to the arm cap of the aircraft seat, to the second top link, and to the top pin link. The center link may be coupled to at least one hinge mount via at least a second friction hinge. The arm cap may be configured to actuate between a closed position and a first open position around the first friction hinge, and between the first open position and a second open position about an axis through the at least a second friction hinge.

The invention relates to a hinge (10) comprising a swivellable hinge part (12), a stationary hinge part (14) and a tensionable spring element (34), wherein the stationary hinge part (14) is designed with a first bearing (16) as well as a second bearing (18), wherein the bearings (16, 18) have swivel axes (S1, S2) that are offset to one another. According to the invention, the swivellable hinge part (12) is mounted on the stationary hinge part (14) via the first bearing (16) such that it can swivel about a swivel axis (S1), and the tensionable spring element (34) is arranged on the stationary hinge part (14) via the second bearing (18).

A component for a vehicle interior is disclosed. The component may comprise a bin coupled to a base and a seat comprising a tab to retain a shaft in an aperture for rotation of the bin. The tab may contact the shaft along a plane adjacent to the shaft. The tab may retain/apply a force to the shaft at a tangent of the shaft. The tab may contact a protrusion in response to engagement of the shaft and tab. The tab may comprise a set of opposing sides; one side may contact the shaft; the other side may contact the protrusion. The tab may extend from the base in an extended direction; the tab may contact the shaft along a plane aligned with the extended direction; the tab may apply force to the shaft transverse to the extended direction. The tab may rotate when engaged with the shaft.