The present disclosure relates to an aperture cover (1) such as a window. The aperture cover comprises a vacuum insulated glass unit (3) and a frame (2). The frame (2) comprises a fixation frame (7) and a sash (6) fixed to the vacuum insulated glass unit (3), and wherein the sash (6) is movably connected to the fixation frame (7) by means of a hinge connection (80). The fixation frame (7) comprises elongated frame members (8a-8d) defining a frame opening (2a) and the vacuum insulated unit (3) overlaps a surface (11) of at least one elongated frame member (8a-8d) of the fixation frame (7). The sash (6) comprises a sash profile (13) which is fixed to the vacuum insulated glass unit (3) at a part (21, 22) of the vacuum insulated glass unit that overlaps (21) and/or extends beyond (22) the overlapped elongated frame member (8a-8d). A resilient sealing gasket (10) is arranged between the overlapped elongated frame member (8a-8d) and the vacuum insulated glass unit, and the resilient sealing gasket (10) is configured to abut the interior major surface (S2) of the vacuum insulated glass unit when the sash (6) is in a closed position. The interior major surface (S2) of the vacuum insulated glass unit is configured to compress the resilient sealing gasket (10) when moving the sash (6) from an open to a closed position.

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 rectangular vacuum insulated glass unit (1) comprising two glass sheets (2a, 2b) separated by a gap (11) between said glass sheets (2a, 2b), wherein a plurality of support structures (12) are distributed in said gap (11) and wherein said gap (11) is sealed, and a frame (20) comprising elongated frame profile arrangements (20a-20d, 70) arranged to provide a frame opening (21) extending in a frame opening plane (P2) defined between the elongated frame profile arrangements (20a-20d, 70). A plurality of edges (8a-8d) of said rectangular vacuum insulated glass unit (1) overlaps an elongated frame profile arrangement (20a-20d, 70) of said frame (20), and an inwardly directed, major surface (4a, 4b, 15, 35a) of a glass sheet (2a, 35a,) of the vacuum insulated glass unit (1) is bonded to the overlapped elongated 15 frame profile arrangement (20a-20d, 70) by means of a structural adhesive (45a). Said overlapping edges (8a-8d) of the vacuum insulated glass unit (1) are allowed to thermally deflect (DIS4) relative to said elongated frame profiles (20a-20d, 70) in a deflection direction (D1, D2) perpendicular to said frame opening plane (P2) due to a temperature difference (ΔT=T1−T2) between the two glass sheets (2a, 2b), and wherein said allowed thermal deflection of the overlapping edges (8a-8d) is allowed to have a varying magnitude along the edge (8a-8d) between the corners (9) where the respective edge (8a-8d) terminates. The present disclosure additionally relates to a vacuum insulated glass unit.

Herein is disclosed a vacuum insulated glass (VIG) unit frame assembly (10) comprising: a rectangular vacuum insulated glass unit (1) comprising two glass sheets (2a, 2b) separated by a sealed gap (11) comprising a plurality of support structures (12), and a frame arrangement (20) comprising a fixation system (6, 40) fixating the vacuum insulated glass unit (1) at the frame arrangement (20), wherein said fixation system (6, 40) is arranged so as to allow edges (8a-8d) of said vacuum insulated glass unit (1) to thermally deflect (DIS1, DIS2) in a deflection direction (D1, D2) perpendicular to a frame opening plane (P2) due to a temperature difference (ΔT=T1−T2) between the two glass sheets (2a, 2b), wherein said fixation system (6, 40) is configured so as to allow the magnitude of said thermal deflection (DIS1, DIS2) is configured to vary along the edge (8a-8d) between the corners (9) where the respective edge (8a-8d) terminates.

Herein is disclosed a vacuum insulated glass (VIG) unit frame assembly (10) comprising: a rectangular vacuum insulated glass unit (1) comprising two glass sheets (2a, 2b) separated by a sealed gap (11) comprising a plurality of support structures (12), and a frame arrangement (20) comprising a fixation system (6, 40) fixating the vacuum insulated glass unit (1) at the frame arrangement (20), wherein said fixation system (6, 40) is arranged so as to allow edges (8a-8d) of said vacuum insulated glass unit (1) to thermally deflect (DIS1, DIS2) in a deflection direction (D1, D2) perpendicular to a frame opening plane (P2) due to a temperature difference (ΔT=T1−T2) between the two glass sheets (2a, 2b), wherein said fixation system (6, 40) is configured so as to allow the magnitude of said thermal deflection (DIS1, DIS2) is configured to vary along the edge (8a-8d) between the corners (9) where the respective edge (8a-8d) terminates.

The present disclosure relates to a vacuum insulated glass (VIG) unit frame assembly (10), wherein said vacuum insulated glass unit frame assembly (1) comprises: a vacuum insulated glass unit (1), and a frame (20) comprising elongated frame profile arrangements (20a-20d, 70) which frames said vacuum insulated glass unit (1) in a frame opening (21). The frame further comprises: —holding parts (6) for fixating said vacuum insulated glass unit (1), and—flexible connection arrangements (7) connecting the holding parts (6) to elongated frame profile arrangements (20a-20d). The flexible connection arrangements (7) are configured to flex when said vacuum insulated glass unit (1) exerts a bending moment (M) on the holding parts (6), so that said holding parts (6) will move relative to the elongated frame profile arrangements (20a-20d, 70) to which the individual holding part (6) is connected. The present disclosure moreover relates to a vacuum insulated glass unit and a frame.

The present disclosure relates to a vacuum insulated glass (VIG) unit frame assembly (10), wherein said vacuum insulated glass unit frame assembly (1) comprises: a vacuum insulated glass unit (1), and a frame (20) comprising elongated frame profile arrangements (20a-20d, 70) which frames said vacuum insulated glass unit (1) in a frame opening (21). The frame further comprises: —holding parts (6) for fixating said vacuum insulated glass unit (1), and—flexible connection arrangements (7) connecting the holding parts (6) to elongated frame profile arrangements (20a-20d). The flexible connection arrangements (7) are configured to flex when said vacuum insulated glass unit (1) exerts a bending moment (M) on the holding parts (6), so that said holding parts (6) will move relative to the elongated frame profile arrangements (20a-20d, 70) to which the individual holding part (6) is connected. The present disclosure moreover relates to a vacuum insulated glass unit and a frame.

Fenestration assemblies and methods for making fenestration assemblies are discussed herein. In one aspect the fenestration assembly can include a base frame assembly, a support frame assembly, a clipping assembly and a window pane. The base frame assembly is connected to a plurality of other base frame assembly members which can form a frame. The base frame assembly members each have a clipping assembly which attaches a piece of exterior cladding to the base frame assembly. The cladding member and the clipping member also assist in securing the window pane. In some examples the exterior cladding protects the base frame assembly. Many different styles of exterior cladding can be fitted to the clipping assembly

Fenestration assemblies and methods for making fenestration assemblies are discussed herein. In one aspect the fenestration assembly can include a base frame assembly, a support frame assembly, a clipping assembly and a window pane. The base frame assembly is connected to a plurality of other base frame assembly members which can form a frame. The base frame assembly members each have a clipping assembly which attaches a piece of exterior cladding to the base frame assembly. The cladding member and the clipping member also assist in securing the window pane. In some examples the exterior cladding protects the base frame assembly. Many different styles of exterior cladding can be fitted to the clipping assembly

Embodiments described herein may be directed to the functional application and method of use of the compression gasket for sealing a window installed in a window frame. In accordance with the present disclosure, a compression gasket may comprise soft rubber portion that applies pressure against a window surface. The soft rubber portion may compress, causing a rigid plastic portion that to bow outwardly and engage inner surfaces of the window frame. The bowing out of the rigid plastic portion, which may include a leaf spring, may secure the compression gasket to the window frame. The compression gasket may be designed to stop water leakage that may occur between the window and the window frame.

Embodiments described herein may be directed to the functional application and method of use of the compression gasket for sealing a window installed in a window frame. In accordance with the present disclosure, a compression gasket may comprise soft rubber portion that applies pressure against a window surface. The soft rubber portion may compress, causing a rigid plastic portion that to bow outwardly and engage inner surfaces of the window frame. The bowing out of the rigid plastic portion, which may include a leaf spring, may secure the compression gasket to the window frame. The compression gasket may be designed to stop water leakage that may occur between the window and the window frame.