A housing for an airbag module for accommodating a folded gas bag. The housing including a base portion and at least one lateral portion projecting from the base portion. At least one of the portions comprises at least two layers of a flexible material, which are arranged one above the other and are cohesively connected with each other.

Side portions of a guide member mounting portion of the instrument panel include a panel side welding guide surface integrally formed therewith. The panel side welding guide surface is spaced apart from the back surface of the instrument panel. Side portions of the guide member include a guide side welding guide surface integrally formed with the guide member. The panel side welding guide surface and the guide side welding guide surface overlap each other. One of the guide side welding guide surface and the panel side welding guide surface includes a position regulating recess. The other of the guide side welding guide surface and the panel side welding guide surface includes a position regulating protrusion that fits into the position regulating recess during vibration welding.

A vehicle interior panel and method of manufacturing a vehicle interior panel for use over an airbag. The vehicle interior panel includes a substrate having an airbag door with one or more t-shaped stiffening ribs embedded in the airbag door. The t-shaped stiffening ribs help increase the rigidity of the airbag door, which can help improve deployment performance of the airbag. The t-shaped stiffening ribs may be co-molded or insert molded with the substrate.

An instrument panel forming method is provided with: a first supply step for supplying a base material 103 that will form the base material part and the different material 303 that will form the different material part into the cavity; and a second supply step for opening, with the pressure applied on the different material 303 maintained to be greater than the pressure applied on the base material 103, the frame-shaped core 215 to bring the base material 103 into contact with the different material 303 and cause the different material 303 to protrude into the base material 103 in the central section of the boundary between the base material 103 and the different material 303 in the thickness direction of the base material 103 and the different material 303 where solidification of the base material 103 and the different material 303 is delayed.

The present invention relates to a flexible molded skin as part of a composite structure for an airbag cover, and to a composition for producing such a skin using slush molding. The composition and flexible molded skin have a thermoplastic plasticized vinyl polymer, and a tear promoting agent selected from the group of one or more particulate blowing agents, inorganic mineral materials, organic filler materials and microspheres or a mixture of two or more of the afore mentioned materials. The particles of the particulate tear promoting agent have an average particle size of between 0.005 and 50 m, preferably between 0.005 and 40 m.

The present invention relates to a flexible molded skin as part of a composite structure for an airbag cover, and to a composition for producing such a skin using slush molding. The composition and flexible molded skin have a thermoplastic plasticized vinyl polymer, and a tear promoting agent selected from the group of one or more particulate blowing agents, inorganic mineral materials, organic filler materials and microspheres or a mixture of two or more of the afore mentioned materials. The particles of the particulate tear promoting agent have an average particle size of between 0.005 and 50 m, preferably between 0.005 and 40 m.

A trim component for a vehicle interior is disclosed. The trim component may provide an opening for airbag deployment and may comprise a substrate; a foam layer and a cover comprising a support layer coupled to a skin layer. The support layer may comprise at least one of polyurethane coating; two-component reactive aliphatic polyurethane; two-component reactive aromatic polyurethane; polyurea; acrylic elastomer; aromatic TPU; aliphatic TPU; TPO. The support layer may comprise a polyurethane coating. The polyurethane coating may be sprayed on the skin layer. The polyurethane coating may comprise a waterborne polyurethane. A thickness of the support layer may be generally less than a thickness of the skin layer. The trim component may comprise first and second features to facilitate deployment of the airbag through the opening. The support layer may limit fragmentation/separation of the skin layer during airbag deployment. The trim component may comprise an instrument panel.

A vehicle interior panel includes a seal between a substrate and an airbag chute and around an opening in the substrate through which the airbag chute is installed. The seal prevents a foam layer from extending into the opening when the foam layer is being molded. The seal is attached to the airbag chute prior to assembly with the substrate and is made from a material that is more flexible than the airbag chute material. The seal can be attached to the airbag chute in a two-shot molding process and spaced from the perimeter of the airbag chute along its back side. During molding of the foam layer, foam expansion pressure acts to improve the function of the seal as a foam barrier.

The present invention relates to a flexible molded skin as part of a composite structure for an airbag cover, and to a composition for producing such a skin using slush molding. The composition and flexible molded skin have a thermoplastic plasticized vinyl polymer, and a tear promoting agent selected from the group of one or more particulate blowing agents, inorganic mineral materials, organic filler materials and microspheres or a mixture of two or more of the afore mentioned materials. The particles of the particulate tear promoting agent have an average particle size of between 0.005 and 50 m, preferably between 0.005 and 40 m.

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.