A composite pane for a motor vehicle, includes an outer pane and an inner pane, which are joined to one another via a thermoplastic intermediate layer, and a display device for displaying optical status information with at least one light source, which emits light for generating optical status information, wherein the composite pane is connected to a receiver unit for wirelessly receiving status information of a control system, the light source is provided for reproducing the status information of the control system and is arranged in the composite pane in the intermediate layer between the outer pane and the inner pane.

A laminated vehicle glazing includes an AMOLED screen between the internal faces of the glazings and which is located in a visual comfort zone, and is alone or adjacent with another or several other flexible AMOLED screens also clustered in the visual comfort zone.

A pane arrangement includes a first and second pane joined by an intermediate layer, an electro-optical functional element including a first surface electrode, an electro-optical functional layer, and a second surface electrode, wherein the functional element is arranged between the first and second panes, and the first and second surface electrodes face, respectively, the first and second panes, a sensor electrode arranged between the first surface electrode and the first pane and the sensor electrode is capacitively coupled to the first surface electrode, and a capacitive electronic sensor system electrically connected to the sensor electrode. The sensitivity of the electronic sensor system is selected such that when the outer surface of the first pane is touched above the first surface electrode by a human body part or the human body part approaches the outer surface of the first pane above the first surface electrode, a switching signal is emitted.

A vehicle glazing (10) wherein a light guide stack (22) is located between a portion of the inner transparency (26) and the outer transparency (28). The light guide stack includes a polycarbonate film (32) that is bonded to the transparencies by layers of PET (38, 40) that are secured to the polycarbonate film on one side by silicone (34, 36) and that are secured to the transparencies on the other side by PVB (42, 44). The terminal end of an extending tab of the polycarbonate film forms an edge that is connected to a light bar (14) that such visible light propagates through the light bar and into the polycarbonate film through the edge. Visible light propagates through etchings in the smooth surface of the polycarbonate film to form an image. An extension of one of the transparencies protects the polycarbonate tab and supports the light bar during installation of the glazing into the vehicle portal.

A glazing includes at least one first pane having a first primary surface and a second primary surface, at least one light source, at least one transparent light coupling system, wherein the light source is connected to the first primary surface of the first pane via the light coupling system such that light from the light source can be coupled into the first pane, and at least one light outcoupling system for outcoupling light from the first pane via at least one of the primary surfaces.

The outer glass sheet includes a first surface and a second surface on a vehicle inner side of the first surface. The inner glass sheet includes a third surface and a fourth surface on the vehicle inner side of the third surface. The interlayer film is disposed between the outer glass sheet and the inner glass sheet and joins together the second surface and the third surface. The electrical element and the power supply point are disposed on the second surface or inside the interlayer film at or near a peripheral edge portion of the second surface. The wiring is connected to the power supply point, is run out from the power supply point, is run out from the power supply point toward the third surface, and extends through the interlayer film.

A laminated glazing comprising first and second panes of glazing material, first and second plies of adhesive interlayer material and an electrical device therebetween is described. The electrical device comprises a substrate having a first major surface and a second opposing major surface wherein on the first major surface of the substrate are one or more electrically conductive pathways in electrical communication with at least one electrically operable light source mounted on the substrate and on at least a portion of the second major surface of the substrate is an infrared radiation reflecting film for reducing the amount of infrared radiation that passes from the second major surface of the substrate to the first major surface of the substrate. An electrical device for use in such a laminated glazing is also described.

A laminated curved article [102] comprising a first substrate [102a] consisting an outer face and a ceramic masked [104] inner face along the periphery, one or more interlayers [102c] disposed on the inner face of the first substrate [102a], a second substrate [102b] disposed on the interlayer [102c] and one or more electroluminescent devices [116] connected to connector element [126] and provided in the ceramic masked [104] inner face of the first substrate [102a] and the second substrate [102b]. The one or more electroluminescent devices [116] comprising a dielectric layer [116a] disposed on a luminescence layer [116b], wherein both the dielectric layer [116a] and luminescence layer [116b] are sandwiched together by a multilayer consisting of a conductive layer [116c], an insulating layer [116d] and a protective layer [116e].

A coating solution for blocking ultraviolet (UV) and blue light includes a silica sol and a chelating agent. The silica sol includes silicate, a first solvent, a first coupling agent, a first catalyst, and deionized water. The chelating agent includes a UV absorber, a blue-light absorber, a second solvent, a second catalyst, and a second coupling agent. A glass sheet for blocking UV and blue light includes a bent glass panel (1) and a coating (2) for blocking UV and blue light. A laminated glass for blocking UV and blue light includes a glass sheet for blocking UV and blue light, an intermediate adhesive layer, and a second glass panel.

A glass fastening system includes a glass portion, a support structure defining a recess, a first adhesive layer disposed on an exterior surface of the glass portion facing the recess in the support structure, a second adhesive layer disposed within the recess of the support structure, and a fastener having a first portion secured to the first adhesive layer and a second portion extending away from the first portion and into the second adhesive layer to secure the glass portion to the support structure.