A glass lamination film includes a tinted zone in which one or more colored layers are disposed and a clear zone. The tinted zone includes a colored zone with a fixed color and a color change zone disposed between the colored zone and the clear zone, and a color of the color change zone has a varying density. A fade off zone has relative transmittance (Rt, %) of 30 to 80%. The color change zone includes the fade off zone having a distance of 15 to 25 mm. The colored layer includes a first colored layer and a second colored layer disposed below the first colored layer. An amount of plasticizer in the second colored layer is larger than an amount of the plasticizer in the first colored layer.

A shade system includes a first track and a second track spaced a distance away from the first track, a shade is connected or interconnected to the track to slide along the track, and a cassette positioned at an end of the shade to receive the wound shade therein. The shade system may be configured to cover an area where the distance between the first and second track may varies. The shade may comprise a top section and a bottom section, and a central overlap portion to allow the top and bottom sections to slide with respect to each other. The shade may further include a plurality of adjacent panels configured to slide with respect to each other to provide shade coverage of an area where the first and second tracks are spaced apart at varying distances. The panels may be interconnected by guide wires and top and bottom sections may be supported by telescoping support rods.

A system such as a vehicle may have windows. A window may have a structural window layer such as a structural window layer formed from laminated glass layers. A thin chemically strengthened glass layer may be coupled to an inwardly facing surface of the structural window layer. A guest-host liquid crystal light modulator layer or other electrically adjustable optical component layer may be interposed between the chemically strengthened glass layer and the structural window layer. An infrared light-blocking coating may be formed on an inwardly facing surface of one of the pair of laminated glass layers. The inwardly facing surface of the thin chemically strengthened glass layer may be provided with a coating that includes a low emissivity layer to block heat and that serves as an antireflection coating.

Disclosed is a vehicle having a movable and retractable sun shield. The vehicle comprises a vehicle body and a retractable device, wherein a cavity is arranged at the top of the cab of the vehicle body, an opening is arranged on the front end of the cavity; and the retractable device comprises a sun shield and an actuating device, the sun shield is mounted in the cavity at the top of vehicle body in an extensible and retractable manner, the actuating device is mounted in the cavity at the top of vehicle body and coupled to the sun shield to drive the sun shield to stretch out and draw back, the cavity at the top of vehicle body is provided with a sliding rail, the sun shield is provided with bending rims at two sides thereof, and the bending rims are slidably engaged on the sliding rail.

There is provided an interlayer film for laminated glass with which discoloration in the colored part can be suppressed. An interlayer film (1) for laminated glass according to the present invention has a colored part (X) that is colored in plan view, and a non-colored part (Y) that is not colored in plan view; the interlayer film does not contain or contains a light stabilizer in the colored part; the interlayer film contains a light stabilizer in the non-colored part; and a content of the light stabilizer in the entire non-colored part is larger than a content of the light stabilizer in the entire colored part.

An awning system includes lighting units integrated with support arms thereof. The lighting units are configured to direct light emitted thereby primarily toward a canopy thereof when the canopy is fully deployed.

Improvements in a removable sun visor for car windows is disclosed. The visor uses a rotatable and removable window clip so the user can install and move the visor when needed to block or filter sunlight from entering the vehicle. The clip can also be rotated and locked on an angled side of a window to block or filter light that can enter the vehicle from a far forward edge. The rotating feature has locks or detents to hold the visor at the adjusted angle. The rotatable clip can further be positioned on either side of the visor for positioning on either side of a vehicle. There is also an adjustable tinted window that allows the user to look through the tinted portion. Side portions can be moved in or out of the main housing to block light. Magnets can be used to secure moving members.

A light guide layer for vehicle glass, a vehicle glass and a vehicle interior lighting system are provided. The light guide layer or vehicle glass includes a transparent body or a glass body including a first surface and a second surface arranged opposite to each other, and the transparent body being adapted to be couple to vehicle glass, so as to receive light-source light emitted from a light source arranged at a predetermined position of a vehicle and allow the light-source light to propagate within the transparent body; and a light diffusion part formed in the transparent body or the glass body or on at least one of the first surface and the second surface and configured to diffusely reflect, scatter and/or refract the light-source light propagating to the light diffusion part to a predetermined area of at least one of the first surface and the second surface, so as to emit the light-source light out from the predetermined area.

A light guide layer for vehicle glass, a vehicle glass and a vehicle interior lighting system are provided. The light guide layer or vehicle glass includes a transparent body or a glass body including a first surface and a second surface arranged opposite to each other, and the transparent body being adapted to be couple to vehicle glass, so as to receive light-source light emitted from a light source arranged at a predetermined position of a vehicle and allow the light-source light to propagate within the transparent body; and a light diffusion part formed in the transparent body or the glass body or on at least one of the first surface and the second surface and configured to diffusely reflect, scatter and/or refract the light-source light propagating to the light diffusion part to a predetermined area of at least one of the first surface and the second surface, so as to emit the light-source light out from the predetermined area.

A vehicular laminated glass in which a plurality of glass plates and an intermediate film disposed between the plurality of glass plates are stacked. The vehicular laminated glass includes a first region having a colored layer disposed along an upper edge of the vehicular laminated glass with reference to an orientation of a vehicle to which the vehicular laminated glass is attached, and a second region disposed lower than the first region. The first region includes a region A having a light scattering layer and a region B not having the light scattering layer. In the region A, a visible light transmittance is 0.7% to 32%, a visible light reflectance is 0.5% to 10%, a vehicle-inner side visible light diffuse reflectance is 3% to 45%, and the light scattering layer is arranged at a vehicle-inner side relative to the colored layer.