A window or door element includes a frame and an insulated glazing unit removably disposed in the frame, the insulated glazing unit including at least one first electrical connection pin and the frame including at least one second electrical connection pin, the at least one first electrical connection pin of the insulated glazing unit being in electrical contact with the at least one second electrical connection pin of the frame when the insulated glazing unit is inserted into the frame.

A glass panel unit assembly includes: a pair of glass substrates arranged to face each other; a peripheral wall; a partition; an air passage; and an evacuation port. The peripheral wall has a frame shape and is disposed between the pair of glass substrates. The partition partitions an internal space, surrounded with the pair of glass substrates and the peripheral wall, into a first space and a second space. The air passage connects the first space and the second space together. The evacuation port connects the second space to an external environment. The partition is lower in height than the peripheral wall.

An insulating glazing unit includes a spacer which is shaped around the periphery to form a spacer frame and delimits an inner region, a first glass pane, which is arranged on a pane contact surface of the spacer frame, and a second glass pane, which is arranged on a second pane contact surface of the spacer frame, and the glass panes project beyond the spacer frame and form an outer region, which is filled, at least in sections with a sealing element, wherein an RFID transponder is arranged in the outer region or in the outer edge region of the glass panes, and a strip-shaped coupling element is electromagnetically coupled to the RFID transponder.

An insulated glass unit includes a first pane, a second pane, and a third pane between the first and second panes, and a first sealed gap space between the first pane and the third pane and a second sealed gap space between the second pane and the third pane. The third pane comprises first glass sheet having a coefficient of thermal expansion (CTE) over a temperature range 0 to about 300° C. of less than about 70×10.sup.−7/° C.

Embodiments herein relate to methods for attachment of a retention member to an insulating glazing unit, resulting structures, and systems for the accomplishing the same. In some embodiments, a method of attaching a retention member to an insulating glazing unit can include placing a spacer unit between a first pane of glass and a second pane of glass to form the insulating glazing unit and applying an adhesive composition to at least one of a perimeter of the insulating glazing unit and the retention member. The method can further include mounting the retention member onto perimeter edges of at least one of the first pane and the second pane. Other embodiments are also included herein.

A system for producing multiple-pane insulating glazing units can include a conveyor and a plurality of laterally spaced-apart processing stations that are movable transversely relative to the longitudinally extending conveyor line. Each processing station may assemble glazing panes and a glazing spacer into a partially fabricated glazing unit, deliver insulative gas to a between-pane space between the glazing panes, and press the partially fabricated glazing unit together to seal the insulative gas in the between-pane space and form the multiple-pane insulating glazing unit. In some examples, each processing station moves to an alignment position with the conveyor to load glazing panes and a glazing spacer and then performs individual fabrication steps while offset from the conveyor. During this time, a different processing station can be aligned with the conveyor to unload a fabricated multiple-pane insulating glazing units and/or load unassembled glazing panes and a glazing spacer.

A fenestration unit comprising a frame having a center, a sash coupled to the frame, an interior pane coupled to the sash, a spacer coupled to the interior pane, an exterior pane coupled to the sash and the spacer, the exterior pane including an inward-facing surface, and a peripheral shield disposed on the inward-facing surface of the exterior pane such that, when viewed at direct angle, the peripheral shield hides the spacer, the sash, and at least part of the frame.

A biasing assembly for facilitating raising and lowering a blind assembly within an insulated glass unit may include a housing configured to be fixed in position within the IG unit, and at least one coil spring carried by the housing, the at least one coil spring having one end coupled to the housing or to a component mounted in the housing and an opposite end configured to operatively couple to a follower assembly for raising and lowering the blind assembly, the at least one coil spring responsive to respective forces applied to the opposite end thereof to pay out of, and be taken up in, the housing.

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.

An insulating glazing unit, includes at least two glass panes and a circumferential spacer profile between them near their edges, for use in a window, a door, or a façade glazing, which has in each case an electrically conductive frame surrounding the edges of the insulating glazing, wherein at least one RFID transponder is attached to the insulating glazing unit as an identification element, wherein the at least one transponder is arranged at a corner of the insulating glazing unit.