A decorative member includes a light-transmitting substrate which is made of resin and is formed with a recessed portion on a back surface thereof, a hot stamping foil layer which is formed on the back surface of the light-transmitting substrate except for the recessed portion, and a metal vapor deposition film layer which is laminated on the recessed portion on the back surface of the light-transmitting substrate and the hot stamping foil layer.

A decorative member includes a light-transmitting substrate which is made of resin and is formed with a recessed portion on a back surface thereof, a hot stamping foil layer which is formed on the back surface of the light-transmitting substrate except for the recessed portion, and a metal vapor deposition film layer which is laminated on the recessed portion on the back surface of the light-transmitting substrate and the hot stamping foil layer.

A sliding window assembly, a cable drive system and methods of operating the same, are disclosed. The sliding window assembly includes a guide track and a sliding window movable relative to the guide track. A heating element is coupled to the sliding window for heating the sliding window. A drum of a drive assembly rotates and includes a conductive terminal connected to a power supply of the vehicle. A cable is coupled between the sliding window and heating element and the drum. The drum rotates to mechanically wind or unwind the cable for moving the sliding window. A conductive element is coupled to at least one of the drum and the cable and is electrically connected to the cable and is movable during movement of the sliding window. The conductive element contacts the conductive terminal to provide electrical current to the cable for energizing the heating element.

The invention concerns an automotive glazing comprising (i) at least one glass sheet having an absorption coefficient lower than 5 m.sup.−1 in the wavelength range from 1051 nm to 1650 nm and having an external face and an internal face, and (ii) an infrared filter. According to the present invention, an infrared-based remote sensing device in the wavelength range from 1051nm to 1650 nm, is placed on the internal face of the glass sheet in a zone free of the infrared filter layer.

A vehicle window glass according to the present invention includes a glass plate having a defogger region and an antenna region, a defogger disposed in the defogger region and having a plurality of horizontal heating wires, and an antenna including at least an FM antenna and disposed in the antenna region, the FM antenna including a first power supply part disposed on the glass plate, and an FM antenna body having a first horizontal part, a second horizontal part closer to the defogger than is the first horizontal part and at least one vertical part linking both the horizontal parts, and connected to the first power supply part.

A plastic glazing of a tailgate of a vehicle is provided, the plastic glazing comprising a translucent component, wherein a portion of the translucent component forms a rear window of the vehicle, a colored component molded onto the translucent component in a second shot, wherein the colored component comprises a lens of a light unit, a non-transparent component molded onto the translucent component, wherein an overlapping portion of the translucent component and the non-transparent component forms a blackout region proximate to the rear window, wherein the plastic glazing is of one-piece molded plastic construction, wherein the translucent component comprises a first textured surface in a region adjacent to the blackout region, where the first textured surface is configured to conceal a component of the vehicle.

A plastic glazing of a tailgate of a vehicle is provided, the plastic glazing comprising a translucent component, wherein a portion of the translucent component forms a rear window of the vehicle, a colored component molded onto the translucent component in a second shot, wherein the colored component comprises a lens of a light unit, a non-transparent component molded onto the translucent component, wherein an overlapping portion of the translucent component and the non-transparent component forms a blackout region proximate to the rear window, wherein the plastic glazing is of one-piece molded plastic construction, wherein the translucent component comprises a first textured surface in a region adjacent to the blackout region, where the first textured surface is configured to conceal a component of the vehicle.

Heat-blocking filter is a heat-blocking filter to be installed in a window glass of a vehicle. The heat-blocking filter substantially transmits visible light and infrared light in a first wavelength range, and substantially blocks infrared light outside the first wavelength range.

A vehicular slider window assembly includes a frame portion having an upper rail and a lower rail, a fixed window panel, and a movable window panel that is movable along the rails between an opened position and a closed position. A drive system is operable to move the movable window panel between the opened position and the closed position. The drive system includes a single flexible drive element that, when the drive system is actuated to move the window panel in one direction, the flexible drive element pulls the movable window panel along the rails, and when the drive system is actuated to move the window panel in the opposite direction, the flexible drive element pushes the movable window panel along the rails. The lower rail includes guide structure that limits flexing of the flexible drive element when the flexible drive element pushes the movable window panel along the rails.

A vehicular rear slider window assembly includes a movable window panel that is movable along upper and lower rails of a fixed window panel. A first heater grid is disposed at a first fixed panel, a second heater grid is disposed at a second fixed panel, and a third heater grid disposed at the movable window panel. A jumper electrical connector electrically connects between the first and second fixed panels, and a flexible electrical connector electrically connects between the first or second fixed panel and the movable window panel. The first fixed panel has positive and negative terminals configured to electrically connect to at least one electrical connector of a vehicle wire harness when the vehicular rear slider window assembly is installed at a vehicle. When the positive and negative terminals are electrically powered, electrical current may flow in a single direction across the first and second heater grids.