A door includes a door frame, first and second door skins having rectangular outer peripheries and inner openings, and a frameless glazed unit received at the openings. The door skins include exterior surfaces facing away from the door frame and opposite interior surfaces facing and secured to opposite sides of the door frame. The exterior and interior surfaces of the first and second door skins establish integral lips and grooves of the first and second door skins. Opposite sides of the frameless glazed unit directly contact and are sealed by the integral lips and sealant and/or adhesive contained in the grooves of the first and second door skins.

A laminated vacuum insulating assembly extending along a plane, P, defined by a longitudinal axis, X, and a vertical axis, Z, including: a first glass pane with thickness Z1, an inner pane face and an outer pane face and a second glass pane with thickness, Z2, an inner pane face and an outer pane face; wherein the thicknesses are measured in the direction normal to the plane, with a set of discrete spacers positioned between the first and second glass panes, a hermetically bonding seal sealing the distance between the first and second glass panes over a perimeter thereof; and an internal volume, V, defined by the first and second glass panes and the set of discrete spacers and closed by the hermetically bonding seal and where there is an absolute vacuum of pressure of less than 0.1 mbar; and where the inner pane faces face the internal volume, V.

An insulating glass pane arrangement includes at least one first pane having a first surface and a second surface, wherein the first pane is designed as an inner pane, at least one second pane having a first surface and a second surface, wherein the second pane is designed as an outer pane, at least one first cavity that is arranged between the first pane and the second pane, at least one component arranged in the first cavity including a data memory, a read-out device with an active transmitting device, and an energy harvesting element, wherein the read-out device and the energy harvesting element are designed for read-out and energy harvesting through the first pane.

An insulated glazing unit includes a first laminated pane including two glass sheets, each no more than 2 mm thick, that are bonded to one another by an intermediate adhesive layer, a second structural laminated pane providing the mechanical strength required for the flight conditions of an airplane, in particular resistance to bird strike and control of glazing unit deformation under pressure difference conditions during a flight on either side of the insulated glazing unit, and a gas gap between the first and second laminated panes, the first laminated pane being provided with a heating system.

This disclosure provides connectors for smart windows. A smart window may incorporate an optically switchable pane. In one aspect, a window unit includes an insulated glass unit including an optically switchable pane. A wire assembly may be attached to the edge of the insulated glass unit and may include wires in electrical communication with electrodes of the optically switchable pane. A floating connector may be attached to a distal end of the wire assembly. The floating connector may include a flange and a nose, with two holes in the flange for affixing the floating connector to a first frame. The nose may include a terminal face that present two exposed contacts of opposite polarity. Pre-wired spacers improve fabrication efficiency and seal integrity of insulated glass units. Electrical connection systems include those embedded in the secondary seal of the insulated glass unit.

This disclosure provides connectors for smart windows. A smart window may incorporate an optically switchable pane. In one aspect, a window unit includes an insulated glass unit including an optically switchable pane. A wire assembly may be attached to the edge of the insulated glass unit and may include wires in electrical communication with electrodes of the optically switchable pane. A floating connector may be attached to a distal end of the wire assembly. The floating connector may include a flange and a nose, with two holes in the flange for affixing the floating connector to a first frame. The nose may include a terminal face that present two exposed contacts of opposite polarity. Pre-wired spacers improve fabrication efficiency and seal integrity of insulated glass units. Electrical connection systems include those embedded in the secondary seal of the insulated glass unit.

A light-weight unitary window assembly for recreational vehicles and trailers. The window assembly uses a two piece design that seats within the wall or door opening and incorporates a fixed window pane integrally molded into one of the polymer frame halves. The window assembly also uses a plurality of weep holes that extend through the frame halves to vacate water from the window assembly to the exterior of the vehicle or trailer wall. In an exemplary embodiment, the window assembly also includes a sliding window pane that slides along a peripheral track and securely seats in a closed position using a plurality of contact pads to prevent window “chatter.” The window assembly also includes an integrated latch mechanism to secure the sliding pane.

A light-weight unitary window assembly for recreational vehicles and trailers. The window assembly uses a two piece design that seats within the wall or door opening and incorporates a fixed window pane integrally molded into one of the polymer frame halves. The window assembly also uses a plurality of weep holes that extend through the frame halves to vacate water from the window assembly to the exterior of the vehicle or trailer wall. In an exemplary embodiment, the window assembly also includes a sliding window pane that slides along a peripheral track and securely seats in a closed position using a plurality of contact pads to prevent window “chatter.” The window assembly also includes an integrated latch mechanism to secure the sliding pane.

A glazing includes a frame made of a metallic first frame element, a metallic second frame element, and a polymeric third frame element connecting the frame elements at least in some sections, a glazing unit arranged in the frame, and a RFID transponder having a dipole antenna or a slot antenna and an operating frequency f, wherein the frame surrounds the end faces of the glazing unit and, at the same time, covers the RFID transponder in the viewing direction through the glazing unit, a distance D between the center of the dipole antenna or the center of the slot antenna and the nearest adjacent corner of the glazing unit is from 40% to 100% of a vacuum wavelength lambda corresponding to the operating frequency f, and the RFID transponder is arranged on an interior-side surface of the frame.

A glazing includes a frame made of a metallic first frame element, a metallic second frame element, and a polymeric third frame element connecting the frame elements at least in some sections, a glazing unit arranged in the frame, and a RFID transponder having a dipole antenna or a slot antenna and an operating frequency f, wherein the frame surrounds the end faces of the glazing unit and, at the same time, covers the RFID transponder in the viewing direction through the glazing unit, a distance D between the center of the dipole antenna or the center of the slot antenna and the nearest adjacent corner of the glazing unit is from 40% to 100% of a vacuum wavelength lambda corresponding to the operating frequency f, and the RFID transponder is arranged on an interior-side surface of the frame.