There is provided a vehicle crash pad coupled to a passenger airbag door having a passenger airbag installed in a passenger seat direction, the vehicle crash pad including a base forming a frame, a scrim coupled to an inside of the base of the passenger airbag door in an insert-injection method, a skin disposed above the base portion and having a surface exposed to an outside, a foam disposed between the base and the skin, and X shaped incision grooves formed in a rear surface of the base in an area of the passenger airbag door.

A support element fastens an interior lining part to a structural part of a vehicle, wherein the interior lining part is fastenable to the structural part via the support element. The support element has at least one deformation region which is of meandering design in at least one plane and is deformable under the application of a force.

A support element fastens an interior lining part to a structural part of a vehicle, wherein the interior lining part is fastenable to the structural part via the support element. The support element has at least one deformation region which is of meandering design in at least one plane and is deformable under the application of a force.

A vehicle door interior trim assembly includes a trim panel and an armrest supported by the trim panel. The armrest includes an energy absorbing device. The energy absorbing device includes an inboard panel and an outboard panel. The outboard panel is between the inboard panel and the trim panel. The energy absorbing device has a variable crush resistance based on a temperature of the energy absorbing device. A heater is operatively coupled to the energy absorbing device.

The present invention relates to an automotive trim device and a process for making the same. The automotive trim device comprises a foam body with a cavity, into which a mechanism comprising both functionality-conferring elements and a frame element can be inserted. The foam body is manufactured from liquid foam and uses tooling for the inner core. After the foam body has formed, the tooling is removed and the mechanism can be inserted into the foam body, thereby preventing the mechanism from being exposed to liquid foam. An advantage of the present invention is that the automotive trim device can be used with electrical and/or mechanical devices containing components sensitive to the intrusion and curing of liquid foamable materials. The process may also provide mass and cost savings due to reductions in scrap and material, as compared to other known methods of manufacture.

[Object] To make it possible to make impact absorption at the time of a collision even when there is no sufficient space. [Solution] An impact absorption member according to the present invention includes: a member that is placed adjacent to an exterior material 110 of an automobile and in which a height in a direction orthogonal to the exterior material is larger than a width in a direction along the exterior material in a cross section orthogonal to an extending direction of the member. By this configuration, a first member 122 and a second member 124 are arranged so as to extend in different directions and be adjacent to the exterior material 110 of an automobile, and therefore impact absorption at the time of a collision can be made even when there is no sufficient space.

[Object] To make it possible to make impact absorption at the time of a collision even when there is no sufficient space. [Solution] An impact absorption member according to the present invention includes: a member that is placed adjacent to an exterior material 110 of an automobile and in which a height in a direction orthogonal to the exterior material is larger than a width in a direction along the exterior material in a cross section orthogonal to an extending direction of the member. By this configuration, a first member 122 and a second member 124 are arranged so as to extend in different directions and be adjacent to the exterior material 110 of an automobile, and therefore impact absorption at the time of a collision can be made even when there is no sufficient space.

The invention describes a vehicle occupant restraint system (2) comprising a control unit and at least two restraint elements (8, 10) for the protection of lower extremities (6, 6′, 7, 7′) in the area of a footwell (4) of a vehicle of a vehicle occupant seated in a particular vehicle seat of the vehicle, wherein a first restraint element (8) is configured as a knee airbag module (12), wherein a second restraint element (10) is provided for mounting into the footwell (4) of the vehicle, especially in an area of the footwell (4) of the vehicle arranged in the vehicle longitudinal direction (x) ahead of the knee airbag module (12), wherein, in a situation of restraint, the control unit can differentiate between different situations, wherein the control unit, in the situation of restraint, activates at least the first restraint element (8) and, depending on the given situation, additionally activates the second restraint element (10) and/or a partial element of the first restraint element (8) and/or a partial element of the second restraint element (10).

The invention relates to a crash structure for a motor vehicle, comprising a carrier body, from the carrier surface of which at least one deformation unit formed integrally with the carrier body protrudes, which deformation unit is formed by at least two deformation elements arranged one over the other and connected to each other and by an impact surface, wherein: a longitudinal section of each deformation element has two longitudinal section surfaces lying opposite each other and following respective non-straight curves; the impact surface is spaced apart from the carrier surface by the deformation elements.

A door service hole cover includes a cover component that is configured to cover a service hole, and a shock absorption component that is integral to the cover component. The shock absorption component includes a cabin inner component, at least a portion of which projects from the cover component toward the inside of the cabin and which is hollow and open toward the outside of the cabin; and a fragile portion formed on a side surface of the cabin inner component and configured to allow the cabin inner component to crush and deform upon application of a force acting in the direction of projection of the cabin inner component. Upon application of a force acting in the direction of projection, the cabin inner component crushes inwardly and deforms while being twisted.