A projection arrangement includes a composite pane including transparent outer and inner panes, a thermoplastic intermediate layer, and a reflection layer, the outer pane having an outer side facing away from the thermoplastic intermediate layer and an inner side facing the thermoplastic intermediate layer and the inner pane has an outer side facing the thermoplastic intermediate layer and an inner side facing away from the thermoplastic intermediate layer, the reflection layer being arranged between the outer and inner panes and reflecting p-polarized light, the reflection layer being opaque or arranged spatially in front of an opaque background when viewed through the composite pane, and an image display device directed at the reflection layer and irradiates it with p-polarized light through the inner pane, wherein the reflection layer reflects the p-polarized light.

Provided is a laminated glass set of a plurality of laminated glasses having excellent appearance designability. A laminated glass set according to the present invention is a set of a plurality of laminated glasses, each laminated glass includes an interlayer film part having a colored part, the colored part has a specific gradation part, the gradation part forms a tip of the colored part on the other end side of the interlayer film part, and when distance X from one end of the interlayer film part to a tip of the colored part on the other end side of the interlayer film part is measured in each of the plurality of laminated glasses, the laminated glass set satisfies (|X.sub.max?X.sub.min|)/X.sub.ave?0.1, or when distance Y of the colored part in the direction connecting one end and the other end of the interlayer film part is measured in each of the plurality of laminated glasses, the laminated glass set satisfies (|Y.sub.max?Y.sub.min|)/Y.sub.ave?0.1.

A laminated vehicle glazing is disclosed, the glazing comprising a first glass ply coated with an electrically conductive coating, a second glass ply, an interlayer ply comprising polyvinyl butyral, and a first busbar comprising a conductive foil, wherein the electrically conductive coating comprises a pyrolytically deposited transparent conductive oxide layer and in that the first busbar is in direct contact with both the electrically conductive coating and the interlayer ply. Preferably the pyrolytically deposited transparent oxide layer comprises doped tin oxide and is the outermost layer of the electrically conductive coating. Also disclosed are a vehicle windshield and a train having a power supply at 25 V to 250 V, comprising a laminated vehicle glazing. A method for manufacturing a laminated vehicle glazing is also disclosed.

A laminated glazing including a first glass sheet and a second glass sheet laminated via at least one thermoplastic interlayer, and an optical sensor arranged on the inner face of the laminated glazing. The thermoplastic interlayer includes a zone that is opaque to visible wavelengths and that extends at least in the zone surrounding the optical sensor.

Provided is an interlayer film for laminated glass capable of enhancing the heat shielding property, suppressing multiple images, and satisfactorily displaying an image. An interlayer film for laminated glass according to the present invention is an interlayer film for laminated glass for use in a laminated glass serving as a head-up display, the interlayer film has a region for display corresponding to a display region of the head-up display, the interlayer film includes an infrared reflective layer, a first resin layer containing a thermoplastic resin, and a second resin layer containing a thermoplastic resin, the first resin layer is arranged on a first surface side of the infrared reflective layer, the second resin layer is arranged on a second surface side opposite to the first surface of the infrared reflective layer, at least one of the first resin layer and the second resin layer has a wedge angle of 0.1 mrad or more, and at least one of the first resin layer and the second resin layer contains a coloring agent in the region for display.

The invention relates to laminated glass comprising first (11) and second (12) sheets of glass laminated using at least one thermoplastic interlayer (20). According to the invention, such glass comprises at least one thermoplastic interlayer (20) including a zone that is opaque at visible wavelengths (21).

Laminated glass contains two glass sheets interlayered with at least one polymer film C which is provided with a coating A comprising a polyvinyl acetal PA and optionally at least one plasticiser WA, and at least one film B containing a polyvinyl acetal PB and at least one plasticiser WB wherein coating A comprises less than 16% by weight of plasticiser, film B comprises at least 16% by weight of plasticiser, and film C comprises polyamide, polyethylene terephthalate, polybutylene terephthalate, polyvinyl alcohol, poly lactic acid, polyethylen furanoate cellulose acetate, polymethyl methacrylates, polyethylene naphthalate, ionomers, or combinations thereof, wherein film C is located between coating A and film B.

The present invention aims to provide an interlayer film for a laminated glass, which includes two or more stacked resin layers including a colored layer, exhibits excellent deaeration properties in a production process of a laminated glass, and is capable of preventing poor appearance of a colored portion, and a laminated glass including the interlayer film for a laminated glass. The present invention relates to an interlayer film for a laminated glass, having a laminated structure including two or more layers, at least including: an outer layer disposed on the outermost surface of the interlayer film for a laminated glass and having a large number of recesses on one surface; and a colored layer containing a colorant, a minimum distance between an outer layer side surface of the colored layer and the surface having a large number of recesses of the outer layer being 150 m or longer.

A laminated pane includes an outer and inner panes and a thermoplastic intermediate layer arranged between the outer and inner panes, wherein the outer and inner panes each have an outer and an inner side, and the inner side of the outer pane and the outer side of the inner pane face one another, and the thermoplastic intermediate layer contains at least one masking layer, and the masking layer is opaque at least in one region, a heating element which is arranged within the opaque region of the masking layer, and a reflective layer adapted to reflect visible light, wherein the reflective layer is arranged spatially in front of the at least one masking layer in the viewing direction from the inner pane to the outer pane and overlaps at least partially with the opaque region of the masking layer.

A vehicle glazing includes a first pane and a second pane which are connected to one another via a thermoplastic intermediate layer which is sectionally colored, a metal-based functional layer which is deposited on an inner surface of the first pane facing the thermoplastic intermediate layer, on the inner surface of the first pane, a coating-free edge region which is free of metal-based functional layer and extends from a side edge of the first pane over at least 5 mm to at most 25 mm on the inner surface, wherein the thermoplastic intermediate layer includes a transparent region and a colored region, the colored region being arranged at least in the entire coating-free edge region.