An automobile interior trim includes an interior trim body including a designed surface and a back surface thereof and attached to a vehicle body panel, a strap attached to the back surface of the interior trim body, a metal clip attached to the distal end of the strap, and a rib in a form of standing up from the back surface of the interior trim body. A part included in the metal clip and positioned on the distal end side of the metal clip is formed as pinching portions capable of being opened and closed. The rib functions so as to temporarily hold the metal clip by being pinched by the pinching portions of the metal clip.

An automobile interior trim includes an interior trim body including a designed surface and a back surface thereof and attached to a vehicle body panel, a strap attached to the back surface of the interior trim body, a metal clip attached to the distal end of the strap, and a rib in a form of standing up from the back surface of the interior trim body. A part included in the metal clip and positioned on the distal end side of the metal clip is formed as pinching portions capable of being opened and closed. The rib functions so as to temporarily hold the metal clip by being pinched by the pinching portions of the metal clip.

To reduce an amount of rear protrusion of a vehicle seat equipped with an airbag module configured to deploy rearward, in a vehicle seat provided with a seat cushion and a seat back, the seat back includes a seat back frame including a pair of left and right side frames extending in a vertical direction and an upper frame connecting upper ends of the side frames to each other; an airbag module supported by an upper half of the seat back frame via a bracket; and a skin member covering the seat back frame, the bracket, and the airbag module from a rear side thereof, wherein a part of the skin member corresponding to the airbag module is provided with a frangible portion configured to open upon inflation of an airbag.

The configuration of an airbag module according to the present invention includes an airbag cushion, an inflator equipped in this airbag cushion, and housing for stowing this airbag cushion, wherein the housing has a convex polygonal shape in cross-section and has an opening on the upper side, and when the airbag cushion expands and deploys, a first pair of mutually opposed side surfaces expand separating from each other, the airbag module further comprises a cover covering the opening and side surfaces of the housing, and of the cover, the upper surface portion that covers the opening of the housing is formed with a first weak portion that extends in the longitudinal direction of the upper surface portion, is weaker than the area surrounding thereof, and is cleaved by the separation of the first pair of side surfaces.

An apparatus for helping to protect occupants of a vehicle in the event of a collision includes a deployable restraint having a stored, predeployment condition in a vehicle floor. The restraint is deployable from the floor to restrain the feet and/or lower legs of an occupant from swinging forward and upward in response to a vehicle collision. In one configuration, the deployable restraint can include a module comprising an airbag and an inflator for inflating and deploying the airbag. The module can include a door that opens in response to deployment of the airbag and that serves as a reaction surface for the airbag. In another configuration, the deployable restraint can include a restraining panel configured to move to a deployed position extending above the vehicle floor adjacent the occupants lower leg and feet.

An apparatus for helping to protect occupants of a vehicle in the event of a collision includes a deployable restraint having a stored, predeployment condition in a vehicle floor. The restraint is deployable from the floor to restrain the feet and/or lower legs of an occupant from swinging forward and upward in response to a vehicle collision. In one configuration, the deployable restraint can include a module comprising an airbag and an inflator for inflating and deploying the airbag. The module can include a door that opens in response to deployment of the airbag and that serves as a reaction surface for the airbag. In another configuration, the deployable restraint can include a restraining panel configured to move to a deployed position extending above the vehicle floor adjacent the occupants lower leg and feet.

A method for manufacturing a one-piece woven (OPW) air bag includes method for manufacturing an OPW airbag. The method includes providing yarns, warping the yarns on at least one beam of a loom, and simultaneously weaving yarns into a fabric air bag structure having two layer portions defining an inflatable volume and single layer portions forming seams delimiting the inflatable volume. A plurality of the yarns overlay one another to form nonwoven alignment elements in at least one of the single layer portions. The air bag structure is cut to define the OPW air bag. The alignment elements are aligned with alignment elements on a panel. The air bag structure is sewn to the panel with the alignment elements aligned with one another.

A method for manufacturing a one-piece woven (OPW) air bag includes method for manufacturing an OPW airbag. The method includes providing yarns, warping the yarns on at least one beam of a loom, and simultaneously weaving yarns into a fabric air bag structure having two layer portions defining an inflatable volume and single layer portions forming seams delimiting the inflatable volume. A plurality of the yarns overlay one another to form nonwoven alignment elements in at least one of the single layer portions. The air bag structure is cut to define the OPW air bag. The alignment elements are aligned with alignment elements on a panel. The air bag structure is sewn to the panel with the alignment elements aligned with one another.

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. An airbag is supported by the dash and is inflatable to an inflated position. The airbag has a back panel abutting the deployable panel in the inflated position and an impact panel opposite the back panel. A tether is connected to the deployable panel and the impact panel. The tether extends through the back panel from the deployable panel to the impact panel.

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. An airbag is supported by the dash and is inflatable to an inflated position. The airbag has a back panel abutting the deployable panel in the inflated position and an impact panel opposite the back panel. A tether is connected to the deployable panel and the impact panel. The tether extends through the back panel from the deployable panel to the impact panel.