A method for producing a laminated moulded part comprises a pressure moulding of a blank to form a moulded part in a moulding cavity between a first moulding tool unit and a second moulding tool unit, introducing of a laminating element into the moulding cavity after the pressure moulding of the blank, and a bonding of the moulded part with the laminating element in the moulding cavity.

A method for producing a thermoplastic panel, including the steps of providing a rotary injection tool exhibiting a die cavity and featuring at least one lifter component within the cavity. The tool is positioned to orient the cavity in a first configuration during which a first shot injection molding of a doghouse is conducted onto a receiving location of the lifter component. The cavity is open and the tool rotated to reposition the cavity in a second configuration, following which a second shot injection molding operation is conducted for forming a skin of the panel in communication with the first shot doghouse clip. Following this, the mold is opened and the finished part removed.

A vehicle interior and exterior member comprises a fiber molded body (2) and a synthetic resin member (4) fixed to a surface of the fiber molded body (2). The fiber molded body (2) has a fiber layer including thermoplastic synthetic resin (13) as a base material layer (11). The base material layer (11) has fiber layer surfaces on its both surfaces or, the base material layer (11) has another fiber layer including the other type of thermoplastic synthetic resin on one of the fiber layer surface to form a fiber laminated body. The fiber molded body (2) is formed by molding the fiber laminated body into a three-dimensional face shape. The synthetic resin member (4) has a fixed portion (6) which is fixed to the fiber molded body (2) by solidifying it in a state that molten synthetic resin has seeped into the fiber layer of the fiber laminated body.

Manufacturing methods are described for a goggle having an outrigger system where each outrigger includes a first segment coupled to a second segment at a fixed joint. Portions of the first segment may interlock or join with complementary portions of the second segment, such as through interlocking shapes, a solid friction lock, or via co-molding. The joining portions of the first and second segments may include complementary shapes that interlock together to secure the first and second segments together. The second segment may be molded onto or around at least a portion of the first segment, or vice versa, to secure the first and second segments together.

Device and method for the production of a mold having a fiber-reinforced support and connected therewith at least one add-on piece featuring synthetic material, with the device having at least one first tool component (10) and a second tool component (20), at least one of which is movable relative to the other; in this way, the device can be opened to insert a fiber-reinforced mat (30) between the respective pressing surfaces (11, 21) of the two tool components (10, 20), and closed for pressurizing and molding the mat (30), which produces the fiber-reinforced support, and with the second tool component (20) having at least one nozzle (22) to supply a liquefied synthetic material, and the first tool component (10) having at least one cavity (12) away from the nozzle to form the add-on piece, characterized in that the second tool component (20) has at least one cavity (24) at the nozzle so that the add-on piece can be produced and integrated by introducing synthetic material through the nozzle (22) and through the mat (30) into the cavity (12) away from the nozzle and the cavity (24) at the nozzle and hardening it therein.

A vehicle console includes a housing having an interior volume. A console bin is disposed within the interior volume. The console bin is an injection molded member having a base and a plurality of bin walls coupled to the base at living hinges, wherein the plurality of bin walls form an interior surface that extends orthogonally from the base.

An example method of manufacturing a wing includes providing a wing frame. The wing frame includes a primary spar, a drag spar, a plurality of transverse frame elements having at least one spar joiner, and a plurality of mounting elements. The primary spar is coupled to the drag spar via the at least one spar joiner. The method further includes placing the wing frame into a mold, wherein the mold defines a shape of the wing. The method also includes injecting the mold with an air-filled matrix material, such that the air-filled matrix material substantially encases the wing frame and fills the defined shape of the wing, and such that the plurality of transverse frame elements provide torsional rigidity to the wing.

A method for producing a sealing element for forming a seal on a vehicle body, in particular a vehicle door; in the method, a profiled strip section is subjected to punching, and/or an additional element portion of the sealing element is molded onto a profited strip section. The profiled strip section is provided with a projection that extends transversely to the longitudinal direction of the strip, and the projection is used for positioning the profiled strip section relative to a punching die or injection mold in the longitudinal direction of the strip.

A method and a system for producing a luminescent 3D radar-module cover for a radiator grille of a motor vehicle. A three-dimensional structure including an optical conductor is produced from a light-dispersing first plastic material in separate method steps using a first injection mold. The three-dimensional structure is metallized and metal-coated. A subsequent separation of the gating takes place. A cover element is produced from a second plastic material using a second injection mold, which at least partially covers the metallized three-dimensional structure in a planar manner in a position of use. A contour of the three-dimensional structure is left free. The gating is subsequently severed. The three-dimensional structure is metallized together with the cover element disposed thereon and is embedded in a third plastic material with the aid of a third injection mold while molding a mount for a radar module and fastening points on the molded component.

A method for producing a laminated moulded part comprises a pressure moulding of a blank to form a moulded part in a moulding cavity between a first moulding tool unit and a second moulding tool unit, introducing of a laminating element into the moulding cavity after the pressure moulding of the blank, and a bonding of the moulded part with the laminating element in the moulding cavity.