An airbag device includes an airbag, an airbag cover which covers the airbag, and a holder which holds the airbag and the airbag cover. The airbag cover includes a door portion which is pushed by the inflating airbag and opened with a hinge portion around a rotation center. A functional component is provided on the door portion and connected to and held by a deformable holding member. The holding member includes a distal side connecting portion connected to the functional component, a proximal side connecting portion connected to a part which can ensure an attachment strength, and a deformation portion which is provided between the distal and proximal side connecting portions and deformed to maintain a connection and holding state of the distal side connecting portion with the functional component and reduce a centrifugal force of the functional component acting on the hinge portion when the airbag is inflated.

A device to attach to a housing of an airbag is disclosed herein. The device includes a flap connected to an opening of the housing, wherein the flap comprises a rigid structure; and a hinge to connect the flap with the housing. The rigid structure comprises a zone of weakness that ruptures in response to an impact.

An airbag door for a vehicle including: a suit case installed in an instrument panel; a door panel coupled to the suit case so as to cover an opening of the suit case; and a scrim member coupled to the door panel so as to support the door panel deployed from the suit case, and fixed to the suit case.

A module for a vehicle including a roof and a cabin includes a housing defining a chamber and having an opening in fluid communication with the chamber. The housing is configured for placement in the roof. An airbag is provided in the chamber and is inflatable to a deployed condition extending through the opening into the cabin. A door pivotably connected to the housing closes the opening. The door is pivotable away from the roof in response to deployment of the airbag to provide a reaction surface for the deploying airbag. The door has a first length while closing the opening and a second length greater than the first length when pivoted away from the roof.

A method of manufacturing a chute panel of an airbag assembly. The method comprises forming a substrate from a material with the substrate comprising a plurality of projections projecting from a first surface of the substrate. A living hinge including a plurality of apertures is secured to the substrate with at least portion of the apertures mating with a portion of the projections of the substrate to secure the hinge to the substrate. A chute door is formed onto the substrate and onto the hinge secured to the substrate. A chute is formed onto the substrate with a portion of the chute interacting with a portion of the plurality of projections of the substrate, thereby forming a chute panel of an airbag assembly.

Disclosed herein is a passenger airbag chute that includes a chute frame, a door plate disposed in an opening of the chute frame, a hinge allowing the door plate to be rotatably connected to the chute frame, and a screen including a frame coupling part coupled to the chute frame, a door coupling part coupled to the door plate, and a hinge coupling part formed between the frame coupling part and the door coupling part and coupled to the hinge.

A vehicle apparatus comprises an airbag secured to a roof rail of a vehicle and a trim cover. The trim cover has a base member fastened to the roof rail, a flap member, and a living hinge integrally molded between the base and flap members. The flap member rotates on the hinge when the airbag deploys. The flap member also, in a covering position, has a distal edge fastenerlessly clipped to the vehicle.

A knee airbag device including an airbag cushion, a storage case in which is formed a horizontally long opening part where the expanded and deployed airbag cushion pops outs, a first flap for covering the airbag cushion exposed through the opening part such that the airbag cushion is retained in the storage case, and having a first weak part that breaks when pressed by the airbag cushion during expansion and deployment and a second flap, which is a component with a larger dimension in a length direction than the first flap and for covering an outer surface of the first flap so as to transverse in a short direction of the opening part a center part of the airbag cushion in a lateral direction, the second flap having a second weak part that breaks when pressed by the airbag cushion after rupture of the first weak part.

A component for a vehicle interior may comprise a composite structure comprising a fiber panel and a cover. The fiber panel may comprise a conductor. The conductor may provide a functional circuit for the composite structure. The conductor may comprise a pattern of electrically conductive threads. Conductive thread may be within the fiber panel. Conductive thread may be stitched into/onto the fiber panel. The conductor may comprise a stitch pattern comprising conductive thread comprising the functional circuit. The functional circuit may comprise a user interface, an input device, an output device, and/or a circuit element. The composite structure may comprise a resin structure for the fiber panel adjacent to the functional circuit. The component may comprise a trim panel, instrument panel, door panel, overhead panel, console, overhead console, floor console, interior trim component, pillar trim, operator control, steering control/wheel, etc.

An assembly includes a dash and a deployable panel. The deployable panel has a proximal end rotatably connected to the dash. The deployable panel is rotatable about the proximal end from an undeployed position to a deployed position. The proximal end is engaged with the dash in the deployed position and the deployable panel has a distal end spaced above the dash in the deployed position. A member is supported by the dash and translatable upwardly from an undeployed position to a deployed position. The deployable panel abuts the member in the deployed position. The member is rigid relative to the panel in the deployed position. An airbag is supported by the dash and is inflatable to an inflated position. The airbag abuts the panel in the inflated position. The deployable panel is between the airbag and the member.