The invention provides an IG unit comprising two panes and a between-pane space located between the two panes. A desired surface of a selected one of the two panes bears a coating comprising both a transparent conductive oxide film, and an overcoat film located over the transparent conductive oxide film. The IG unit further comprises a bus bar and a transparent conductor bridge each located over the desired surface. The bus bar is spaced apart from the coating and is connected electrically to the transparent conductive oxide film by virtue of the transparent conductor bridge extending from the bus bar to a top surface of the overcoat film. In some embodiments, the IG unit further comprises a frit located over the desired surface and extending around a perimeter thereof. The bus bar is located over the frit. Certain embodiments provide a refrigerator having a door comprising such an IG unit.

The invention provides an IG unit comprising two panes and a between-pane space located between the two panes. A desired surface of a selected one of the two panes bears a coating comprising both a transparent conductive oxide film, and an overcoat film located over the transparent conductive oxide film. The IG unit further comprises a bus bar and a transparent conductor bridge each located over the desired surface. The bus bar is spaced apart from the coating and is connected electrically to the transparent conductive oxide film by virtue of the transparent conductor bridge extending from the bus bar to a top surface of the overcoat film. In some embodiments, the IG unit further comprises a frit located over the desired surface and extending around a perimeter thereof. The bus bar is located over the frit. Certain embodiments provide a refrigerator having a door comprising such an IG unit.

A patch fitting for a fire-retardant glass door is disclosed herein. The patch fitting comprises a support sandwiched between a first layer of fire retardant material on a first side of the support and a second layer of fire retardant material on an opposing second side of the support. The support comprises a first attachment means for attaching to a first pane of glass of the fire-retardant glass door on the first side of the support, and a second attachment means for attaching to a second pane of glass of the first-retardant glass door on the opposing second side of the support. The patch fitting is configured, in use, to be at least partially sandwiched between the two layers of glass of the firm-retardant glass door.

A stile system to support a door or other types of panels is provided. The doors and/or panels may include frameless glass panes. The stile system may include a longitudinal channel into which the side of the door may be received and secured. The system may include a clamping assembly that may provide clamping forces onto the opposing lateral surfaces of the door within the longitudinal channel to secure it therein. The clamping assembly may be controlled by a controlling assembly in combination with the housing to provide inward forces to the clamping members to secure the panel. The stile system also includes a unitizing gasket configured to hold the elements of the clamping assembly in place during the system's assembly and use.

A stile system to support a door or other types of panels is provided. The doors and/or panels may include frameless glass panes. The stile system may include a longitudinal channel into which the side of the door may be received and secured. The system may include a clamping assembly that may provide clamping forces onto the opposing lateral surfaces of the door within the longitudinal channel to secure it therein. The clamping assembly may be controlled by a controlling assembly in combination with the housing to provide inward forces to the clamping members to secure the panel. The stile system also includes a unitizing gasket configured to hold the elements of the clamping assembly in place during the system's assembly and use.

Provided are a glass panel unit and a method for manufacturing the glass panel unit, both of which are designed to overcome the problem of poor handleability of known glass panel units with no through holes. A glass panel unit includes a first panel, a second panel, a seal, and a boundary wall. The seal has a frame shape and hermetically bonds respective peripheral edge portions of the first panel and the second panel. The boundary wall partitions an internal space into a first space as a hermetically sealed evacuated space and a second space spatially separated from the first space. The first panel has a first through hole provided through a portion, corresponding to the second space, of the first panel. The second panel has a second through hole provided through a portion, corresponding to the second space and facing the first through hole, of the second panel.

A modular glass door assembly includes a door, an inner frame, and an outer frame. The door has a glass door leaf and a doorframe mounted to the outer periphery of the glass door leaf. The inner frame is attached to the outer periphery of the doorframe and connected to the doorframe by two hinges up and down. The outer frame has four frame strips arranged around the outer periphery of the inner frame and each provided with a concave portion engaged with one respective convex portion of the inner frame. By this way, the inner frame and the outer frame can be directly assembled with each other or a fixed window panel can be added between the inner frame and the outer frame. Thus, the modular glass door assembly of the present invention has advantages of easy assembly and high scalability.

A modular glass door assembly includes a door, an inner frame, and an outer frame. The door has a glass door leaf and a doorframe mounted to the outer periphery of the glass door leaf. The inner frame is attached to the outer periphery of the doorframe and connected to the doorframe by two hinges up and down. The outer frame has four frame strips arranged around the outer periphery of the inner frame and each provided with a concave portion engaged with one respective convex portion of the inner frame. By this way, the inner frame and the outer frame can be directly assembled with each other or a fixed window panel can be added between the inner frame and the outer frame. Thus, the modular glass door assembly of the present invention has advantages of easy assembly and high scalability.

The present disclosure relates to a roof window (1) with a vacuum insulated glass unit (3). The roof window (1) comprises a VIG unit (3) and a frame arrangement (2). The frame arrangement 2 comprises a fixation frame (7) and a sash (6) fixed to the a VIG unit (3), and the sash (6) is movably connected to the fixation frame (7) by means of a hinge connection (80) so that a top end part (16a) of the sash (6) is configured to move inwards and a bottom end part (16b) of the sash is configured to move outwards when opening the sash (6) from a closed position. The bottom end part (16b) of the sash (6) comprises an elongated, structural bottom member (6c) having an inner surface (41) facing towards the top end part (16a) of the sash, and an opposite exterior surface (42) facing away from the top end part (16a). The VIG unit (3) comprises an overlapping part (9b) where the evacuated gap (4) overlaps the elongated, structural bottom member (6c) of the sash (6). The overlapping part (9b) of the VIG unit moreover overlaps at least a part of an elongated bottom frame member (7c) of the fixation frame 7.

A switching device includes at least one (a first) sheet of glazing material having a first major surface and an opposing second major surface, a switch attached to the first major surface of the first sheet of glazing material, and a sensor assembly facing the second major surface of the first sheet of glazing material. The switch includes a movable portion operatively coupled with the sensor assembly such that upon operation of the switch, the movable portion moves from a first position to a second position and the movement of the movable portion from the first position to the second position is detectable by the sensor assembly. The switching device may be part of a window or door for a building or a vehicle.