Patent application number | Description | Published |
20140361568 | END CAP DOOR ASSEMBLY - A cover assembly for a panel end cap includes a housing having an aperture, wherein the aperture opens into a storage compartment which laterally extends into an instrument panel of a vehicle. A cover is pivotally coupled to the housing for covering the housing aperture in a closed position and allowing access to the storage compartment in an open position. A biasing mechanism is coupled to the housing and the cover to bias the cover to the closed position. | 12-11-2014 |
20150197075 | POLYMERIC ARTICLE FORMED BY INJECTION COMPRESSION MOLDING - According to one or more embodiments, a polymeric article includes a first polymeric layer defining a first portion and a second portion, the first portion having a first side and a second side opposing the first side, the first side being exposed to atmospheric air, and an ink layer and a second polymeric layer, the ink layer being positioned between the second polymeric layer and the second portion of the first polymeric layer. | 07-16-2015 |
20150321397 | HYBRID COMPOSITE UTILIZING INJECTION-EXPANSION MOLDING - A vehicular instrument panel including a substrate having a first plurality of chopped carbon fibers within a first nylon resin and an expanded reinforcement coupled to the substrate having a second plurality of chopped carbon fibers within a second nylon resin. The first plurality of chopped carbon fibers and the first plurality of glass fibers in the substrate are segregated such that the carbon fibers and the glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the substrate. An expanded, structural duct has a second plurality of chopped glass fibers within a third nylon resin. The duct, reinforcement and substrate are coupled to form a hollow tube. | 11-12-2015 |
20150321398 | METHOD OF MAKING A HYBRID COMPOSITE INSTRUMENT PANEL - A method of forming a vehicular instrument panel includes the steps: melting a first composite comprising carbon fibers and nylon resin; melting a second composite comprising glass fibers and nylon resin; injecting the melted composites into an instrument panel mold such that the carbon and glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the mold; and cooling the melted composites to form an instrument panel. The method may also include the step: forming a boundary region between the first and second melted composites in the mold such that the carbon and glass fibers in the mold are substantially mixed within the boundary region. | 11-12-2015 |
20150321561 | FIBER COMPOSITE SUPPORT FOR VEHICULAR COMPONENTS - A vehicular instrument panel having a reinforcement that includes a plurality of chopped carbon fibers within a nylon resin, a substrate coupled to the reinforcement comprising a plurality of chopped carbon and chopped glass fibers within a nylon resin, and a steering column bracket defined from the substrate comprising a plurality of chopped carbon fibers within a nylon resin. The bracket engages a steering column such that the substrate and bracket support the steering column. The plurality of chopped carbon and glass fibers in the substrate can be segregated such that the carbon fibers and the glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the substrate. | 11-12-2015 |
20150321703 | MODULAR COMPOSITE INTRUMENT PANEL - A vehicular instrument panel, including a substrate comprising a plurality of chopped carbon and chopped glass fibers within a nylon resin, the substrate defines an airbag canister. The plurality of chopped carbon and chopped glass fibers are segregated such that the chopped carbon fibers are substantially concentrated within a driver-side portion of the substrate and the airbag canister, and the chopped glass fibers are substantially concentrated within a passenger-side portion of the substrate. The substrate can also include a boundary region such that the plurality of chopped carbon and glass fibers in the substrate are substantially mixed in the boundary region. | 11-12-2015 |
20150321704 | HYBRID COMPOSITE UTILIZING GAS-ASSISTED MOLDING GEOMETRIES - A vehicular instrument panel includes a substrate having a first plurality of chopped carbon fibers and a first plurality of chopped glass fibers within a first nylon resin. The first plurality of chopped carbon fibers and the first plurality of glass fibers in the substrate are segregated such that the carbon fibers and the glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the substrate. A reinforcement includes a second plurality of chopped carbon fibers within a second nylon resin. A reinforcement rib is integrally defined by the reinforcement. The reinforcement rib is substantially hollow and positioned on a driver-side portion of the reinforcement. A substrate rib is integrally defined by the substrate. The substrate rib is substantially hollow and positioned on the driver-side portion of the substrate. The substrate rib and the reinforcement rib are bonded to one another. | 11-12-2015 |
20160001819 | FIBER COMPOSITE SUPPORT FOR VEHICULAR COMPONENTS - A vehicular instrument panel having a reinforcement that includes a plurality of chopped carbon fibers within a nylon resin, a substrate coupled to the reinforcement comprising a plurality of chopped carbon and chopped glass fibers within a nylon resin, and a steering column bracket defined from the substrate comprising a plurality of chopped carbon fibers within a nylon resin. The bracket engages a steering column such that the substrate and bracket support the steering column. The plurality of chopped carbon and glass fibers in the substrate can be segregated such that the carbon fibers and the glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the substrate. | 01-07-2016 |
20160001823 | VEHICULAR COMPOSITE INSTRUMENT PANEL AND COMPONENT - A vehicular instrument panel, including a substrate comprising a plurality of chopped carbon and chopped glass fibers within a nylon resin, the substrate defines an airbag canister. The plurality of chopped carbon and chopped glass fibers are segregated such that the chopped carbon fibers are substantially concentrated within a driver-side portion of the substrate and the airbag canister, and the chopped glass fibers are substantially concentrated within a passenger-side portion of the substrate. The substrate can also include a boundary region such that the plurality of chopped carbon and glass fibers in the substrate are substantially mixed in the boundary region. | 01-07-2016 |