Provided is a soft upper trim of a vehicle door, in which an upper substrate, foam, and a transparent skin are laminated, and particularly, to a soft upper trim for switch assembly of a vehicle door, in which a switch, which is configured to preserve continuity of a transparent skin and display lock and unlock symbols on the transparent skin, is easily assembled to an upper substrate, and a method of manufacturing the same.

Embodiments of this disclosure pertain to a vehicle interior system comprising a base having a base surface; and a glass article coupled to the surface, wherein the glass article comprises a first portion comprising a first elastically deformed surface forming a first concave shape with a first radius of curvature from about 20 mm to about 2000 mm, and a second elastically deformed surface directly opposite the first elastically deformed surface that forms a second convex shape, wherein the second elastically deformed surface has a surface compressive stress that is less than a compressive stress at the first elastically deformed surface, and a second portion adjacent the first portion, wherein the second portion is substantially planar portion or curved.

A vehicle interior component is disclosed. The component may comprise a composite structure comprising a substrate and light guide and surface/cover with holes/pattern of apertures configured for illumination (by a light source/module) to provide an interface/display (with decorative and/or instrumentation region). The light guide may comprise a resin material formed as the set of projections in the pattern of apertures. The cover may comprise a decorative layer with backing configured to provide a visual/surface effect (e.g. natural material, wood veneer, etc.); the display may present a visual/decorative effect when illuminated at the pattern of apertures/light guide. The interface/display at the surface (by illuminated light guide/pattern of holes) may present indicia for a vehicle system and/or decorative effect. The component may comprise a trim/trim panel, instrument panel/dashboard, door panel/armrest, console, overhead trim/headliner, pillar/structure, seat, etc.

Disclosed herein are a film and a hidden switch structure having the same. The film includes a base layer made of a transparent material, a first adhesive layer laminated on the base layer, a shield layer laminated and bonded on the first adhesive layer and having a symbol laser-machined after an opaque paint is applied to the shield layer, a second adhesive layer laminated on the shield layer, and a sheet layer laminated on the second adhesive layer and made of thin real wood, thereby enhancing visibility. The hidden switch structure includes a first substrate having LEDs, a second substrate spaced apart from the first substrate and having a touch sensor, a molded article having a built-in prism and laminated on the second substrate, and the film, thereby increasing a degree of freedom of design and enhancing aesthetics.

A functional vehicle component and related methods include a functional leather assembly fixed over a vehicle component. The functional leather assembly includes a leather sheet, a flexible electronic circuit arranged on a first surface of the leather sheet that faces away from the vehicle component to thereby define an outermost surface of the leather sheet, and including a receiver coil inductively coupled to a transmitter coil on the vehicle component for wirelessly transferring power to the functional leather assembly. Power from a vehicle power source can be wirelessly transferred between the transmitter coil and the receiver coil to power electronic elements of the electronic circuit.

A vehicle interior component includes an interior component body arranged along a vehicle body member with a face thereof exposed to a vehicle room and a display unit arranged at the interior component body to perform displaying for a passenger. The display unit includes a light source to radiate light to the interior component body from a back face side thereof, a transmissive section to perform displaying to be visible from a front face side of the interior component body by being transmissively illuminated with light from the light source as being formed by thinning a region of the interior component body, and a reinforcing member arranged on the back face side of the interior component body to reinforce the transmissive section.

The present invention relates to a transparent member for an automotive interior part. In one embodiment, the transparent member for the automotive interior part includes: a light source; an optical pattern layer formed over the light source; and a first light-transmitting skin layer formed on the optical pattern layer and including about 1 part by weight to about 25 parts of a first inorganic filler dispersed in 100 parts by weight of a first transparent resin matrix, wherein the first inorganic filler includes spherical calcium carbonate (CaCO.sub.3).

A vehicle media hub assembly includes a housing having a display surface with an aperture, and a port disposed at least partially within the housing and extending into the aperture, the port configured to provide electrical and/or signal communication between two electrical devices. A lighting device is disposed within the aperture at least partially around the port. A door is coupled to the housing and movable between an open position providing access to the display surface, and a closed position covering the display surface. The door includes a window and a translucent cover at least partially covering the window. The window is configured to be disposed proximate the lighting device when the door is in the closed position such that light from the lighting device is configured to pass through the window and the translucent cover to illuminate at least a portion of the translucent cover.

A molded part comprises a decorative layer having a visible front side, a rear side, and a backing that is situated on the rear side of the decorative layer. The decorative layer comprises a decorative ply having a front side, a rear side that faces the backing, a light-conducting optical layer, situated between the front side of the decorative ply and the front side of the decorative layer, having a first refractive index. Situated in at least one symbol area of the decorative layer, between the decorative ply and the optical layer, is a transparent or translucent effect layer for displaying one or more symbols, and that has a second refractive index that is different from the first refractive index. The molded part includes a first light system for scattering light internally about the symbol, and a second light system for illuminating a front side of the symbol externally.

A visible component for a motor vehicle includes a fiber-reinforced plastics component having a multi-layer fiber reinforcement which is integrated in an at least largely transparent plastics matrix. The fiber reinforcement is formed by a visible layer in the form of a metallized glass fiber layer and at least one largely transparent structural layer. A touch display is also provided on a rear face of the fiber-reinforced plastics component facing the visible layer.