A component of a vehicle structure is obtained by a hot forming operation on a hybrid panel having a sheet element of light alloy and a sheet of plastic material. The hybrid panel is hot formed by pressing it against a forming surface of a mould element by a pressurized gas or by a second mould element. Following this operation, the hybrid panel assumes a configuration corresponding to the forming surface, whereas the light alloy sheet element and the plastic material sheet constituting the hybrid panel adhere to each other following softening by heat of the plastic material. Before the hot forming step, a surface of said light alloy sheet element which must contact the plastic material sheet is subjected to a roughening treatment, thereby defining surface asperities between which the plastic material of the plastic material sheet is inserted when it is softened by heat.

The present invention relates to a module for doors, tailgates or similar, to be installed in vehicles for the insulation of the wet areas from the dry areas of the structures of said doors, tailgates or similar, executed by means of a process of bi-injection or multiple injection, in which a monoblock module with regard to the support panel and the seal is formed, its configuration including a sealing gasket with at least two sealing lips inclined towards the inside of the support panel with respect to the assembly direction, one of them being configured to not overlap with the other lip.

A trim element for a vehicle element, where the trim element comprises a shell with an inner surface intended to be oriented towards the interior of the vehicle element and an outer surface intended to form a rear surface of the vehicle element, and a pocket fixed to the outer surface of the shell, where the pocket comprises a panel which has a lower and lateral edges and at least one stiffening element arranged in the lower and lateral edges. The shell further comprises at least one groove in which are housed at least one from the lateral edges and/or the lower edge of the panel for assembly of the panel with the shell.

The shape-forming packaging material is a shape-forming packaging material including a heat resistant resin layer as an outer layer, a heat fusible resin layer as an inner layer, and a metal foil layer disposed between both the layers, and is configured such that a print improving resin layer is laminated on a further outer side of the heat resistant resin layer.

Methods of forming an article from a molten plastic composition comprising a polymer and a blowing agent. The methods include injecting the molten plastic composition into a mould, allowing the plastic composition to form a first solid skin adjacent to an in contact with a first cavity-forming surface of the mould and a second solid skin adjacent to and in contact with a second cavity-forming surface of the mould, and then opening the mould before the molten plastic composition between the first and second solid skins in at least one portion of the circumference of a region of the mould cavity defining an annular cross-section of the cavity has solidified.

A vehicle tailgate is made of a plastic material and includes: an inner panel, an outer panel and a first glue bead applied between the inner panel and the outer panel, such that the inner panel and the outer panel are assembled via the glue bead and an inner space is disposed between the inner panel and the outer panel. The outer panel includes: a skin with an appearance surface; a housing configured to receive an optical unit, delimited by a peripheral wall joined to the skin; and a cavity delimited by the skin, at least a portion of the peripheral wall of the housing, and walls projecting from the housing towards an inner face of the skin. At least one of the walls projecting from the housing towards the inner face of the skin does not touch the inner face of the skin, such that there is a gap between the at least one wall and the inner face of the skin. The gap is sealed by a second glue bead.

First, a composite preform 70 including a preform 10a and a plastic member 40a in close contact with the outer surface of the preform 10a is made by preparing the preform 10a made of plastic material and arranging the plastic member 40a to surround the outer surface of the preform 10a. Subsequently, the composite preform 70 is heated and inserted in a blow molding die 50 and undergoes blow molding in the blow molding die 50, by which the preform 10a and the plastic member 40a of the composite preform 70 are inflated integrally and a composite container 10A is obtained.

A getter assembly is provided and includes a first canister, an internal can including getter, and a second canister. The internal can is disposable in the first canister to occupy a first position at which the getter is hermetically sealable and second positions at which the getter is exposed to an exterior environment. The second canister is engageable with the first canister to drive movements of the internal can between the first position and the second positions following activation and hermetic sealing of the getter.

The subject of the invention is a support panel with cellular core structure and the manufacturing process for the support panel with cellular core structure which solve the technical problems of: facilitating the manufacture of the product, ensuring compactness of individual panels and manufacturing support panels with cellular structure (1) in a single step. The support plate with cellular structure (1) comprises at least the upper solid surface (2), the lower solid surface (3) and the cellular structure (4), whereby all of these components are made of any thermoplastic material; however, all of the components are made of the same material. The cellular structure (4) is constructed with energy directors (5) to prevent spacing between the cellular structure (4), the upper solid surface (2) and the lower solid surface (3). The pre-formed cellular core (4) is placed on the levelled thermoplastic material used to form the lower solid surface, after which the material is applied over the cellular core (4) up to the depth required to form the lateral surfaces and the upper solid surface (2). After heating and pressing the material, the support panel with cellular structure (1) is cooled under pressure, and then it is removed from the press mould.

A composite preform including a preform and a plastic member in close contact with the outer surface of the preform is made by preparing the preform made of plastic material and arranging the plastic member to surround the outer surface of the preform. Subsequently, the composite preform is heated and inserted in a blow molding die and undergoes blow molding in the blow molding die, by which the preform and the plastic member of the composite preform are inflated integrally and a composite container is obtained.