A system of components for forming a skylight which includes a base frame formed from lengths of identical base frame extrusions a glazing frame formed from lengths of identical glazing frame extrusions angular corner pieces for joining the base frame extrusions and the glazing frame extrusions to form a base frame and a glazing frame respectively a glazing panel adapted to be adhered at its edges to said glazing frame and said glazing panel being adapted to be attached to said base frame. The set of component extrusions reduces the cost of making custom measured skylights. Preferably Aluminium extruded frame members are used. The glass sheet is adhered at its edges to the upper edge of a glazing support frame. The glazing support frame extrusions preferably include a protective edge that extends up from the support surface to enclose the edge of the glass sheet.

The present disclosure relates to a vacuum insulated glass (VIG) unit frame assembly (10), wherein said vacuum insulated glass unit frame assembly (10) comprises: a vacuum insulated glass unit (1), anda frame (20) comprising elongated frame profile arrangements (20a-20d) which frames said vacuum insulated glass unit (1) in a frame opening (21). One or more of said frame profile arrangements (20a-20d) comprises a holding part (28), wherein said holding part (28) holds the vacuum insulated glass unit (2) between first and second holding members (22, 23 28a, 28b,) arranged at opposite outwardly facing surfaces (4a, 4b, 15, 35a) of the vacuum insulated glass unit (1), and one or more resilient suspension elements (45a, 45b) is compressed between a first of said holding members (22, 23 28a, 28b) and one of said opposite outwardly facing surfaces (4a, 4b), and wherein one or more resilient suspension elements (45a, 45b) is compressed between a second of said holding members (22, 23 28a, 28b) and the other of said opposite outwardly facing surfaces (4a, 4b). Said compressed, resilient suspension elements (45a, 45b) provides a holding force (F1, F2) towards said opposite outwardly facing surfaces (4a, 4b, 15, 35a) of the vacuum insulated glass unit (1) so as to suspend the vacuum insulated glass unit (1) between said first and second holding members (28a, 28b), and each of said compressed, resilient suspension elements (45a, 45b) are configured to be further compressed or expand in response to a thermal deflection of the edge (8a-8d) of the VIG unit (1) due to a temperature difference (AT=71?72) between the two glass sheets (2a, 2b). The disclosure additionally relates to a vacuum insulated glass unit and a retrofitting frame system.

A glazing system for holding glazing units to a frame member has an aluminum pressure plate and a composite plate co-extruded from a plurality of polymers and having a pair of gaskets and a central isolator. A pair of polymer extrusions extend from the isolator and have ledges at the end that embrace and seal against the metal plate. The metal and composite plates are coupled together by a pair of ribs extending from the composite plate into a pair of slots in the metal plate.

A weather seal that inserts into a gap between glazing panels has an H-shape with a snap-on female receiver at either end for receiving a tongue extending from a structure at one end and a cap tongue in the other. A web extending between a pair of walls provides a weather barrier and allows the walls to flex enabling the snap-on action. A pair of sealing fins and a pair of bulbs extend laterally from the H-shape, bridging the gap to exclude weather infiltration. The second receiver is covered by extensions joined at a slit permitting the weather seal to be used without a cap. Alternatively, the cap may be affixed to the weather seal by pushing a cap tongue through the slit and into engagement with the second receiver.

A door assembly with the dual support connector has a door panel, a glass pane, a dual support connector assembly, a fixed sealing frame for engaging the dual support connector assembly, a seal-less removable frame for attaching to the attachment (dual support connector assembly) on an opposite side of the fixed sealing frame, and a fastener engaging the dual support connector assembly to the fixed sealing frame. The dual support connector assembly has a clip body, a door flange extending from the clip body, a glass flange extending from the clip body in parallel with the door flange.

A bracket for retaining glass used to cover the window of a door of an oven appliance and an oven appliance with such brackets. The bracket supports the glass in position at the window. Embodiments of the bracket may provide features including use on either side of the oven door, use of a shorter length of glass, and other features that can facilitate manufacture.

A bracket for retaining glass used to cover the window of a door of an oven appliance and an oven appliance with such brackets. The bracket supports the glass in position at the window. Embodiments of the bracket may provide features including use on either side of the oven door, use of a shorter length of glass, and other features that can facilitate manufacture.

A method of assembly includes providing a panel. The method also includes providing a locating member with a first portion and a second portion, and securing the first portion to the panel. The second portion is releasably engaged with the first portion. The method additionally includes providing a component with an orifice for receiving a locating member, and disposing the second portion in the orifice to locate the panel in a desired position relative to the component. The method further includes securing the panel to the component, and disengaging the second portion from the first portion.

A door assembly with the dual support connector has a door panel, a glass pane, a dual support connector assembly, a fixed sealing frame for engaging the dual support connector assembly, a seal-less removable frame for attaching to the attachment (dual support connector assembly) on an opposite side of the fixed sealing frame, and a fastener engaging the dual support connector assembly to the fixed sealing frame. The dual support connector assembly has a clip body, a door flange extending from the clip body, a glass flange extending from the clip body in parallel with the door flange.

A vacuum insulated glass (VIG) unit frame assembly (10) is disclosed comprising: a rectangular vacuum insulated glass unit (1) comprising two glass sheets (2a, 2b) separated by a sealed gap (11), wherein a plurality of support structures (12) are distributed in said gap (11), and a frame arrangement (20) comprising elongated frame profile arrangements (20a-20d) which frames said vacuum insulated glass unit (1) in a frame opening (21), and wherein said frame arrangement (20) comprises a fixation system (40, 45a, 45b, 80, 28a, 28b, 22, 23, 40) fixating the vacuum insulated glass unit (1) at the frame arrangement (20), wherein said frame (20) is arranged so as to allow edges (8a-8d) of said vacuum insulated glass unit (1) to thermally deflect (DIS4) in a deflection direction (D1, D2) perpendicular to said frame opening plane (P2) due to a temperature difference (?T=T1?T2) between the two glass sheets (2a, 2b), and to provide a restriction of said thermal deflection (DIS4) of the edges (8a-8d), so as to reduce the magnitude of the thermal deflection compared to an unrestricted thermal deflection of the edges (8a-8d) at said temperature difference (?T=T1?T2).