A panel frame (10) is provided, comprising a first profile (100) having a first structure (102) to support a first side (52) of an associated panel (50), and a second structure (104) to support an edge (56) of the same panel (50), and a second profile (200) being configured to connect to the first profile (100) and comprising a first structure (202) to support a second side (54) of the panel (50). The first profile (100) comprises at least one magnetic portion (120), such that a magnetic member (300) can be attached to the magnetic portion (120) in order to temporary clamp the panel (50) between the magnetic member (300) and the first structure (102) of the first profile (100).

Self-closing pivot hinges and devices such as doors for closing off an opening between two rooms or in a building fa?ade using such hinges include a spring that extends into a hinge housing along the longitudinal direction of the hinge housing, which lends a self-closing function, and a cam element and a ball that is pressed against the cam element by the spring. The cam element is shaped so that it creates support positions in which the ball rests.

A glass space partitioning system that is capable of supporting heavy and/or operable glass panels in throughout a range of partially-integrated or fully-integrated configurations, and which integrates an LED-strip light assembly for edge-lighting the glass panels. The system generally includes a framing member comprising a U-shaped horizontal profile with side walls, an intermediate profile attached to the U-shaped profile, a glass pane seated edgewise between a side wall of the U-shaped profile and the intermediate profile, a flexible LED strip cut to length and snap-fit in a vertical orientation against the side wall of the U-shaped profile and adjacent the glass pane for edge lighting, and a cover profile attached to the intermediate profile securing the foregoing.

A display case door assembly for a temperature-controlled storage device includes a vacuum panel, a hinge rail, and a lighting element. The vacuum panel includes a first vacuum pane, a second vacuum pane, and an evacuated gap between the first and second vacuum panes. The evacuated gap provides thermal insulation for the vacuum panel. The hinge rail is coupled to an edge of the vacuum panel and configured to rotate along with the vacuum panel between an open position and a closed position. The lighting element is coupled to at least one of the edge rail and the vacuum panel and configured to emit light toward an interior of the temperature-controlled storage device when the hinge rail and vacuum panel are in at least the 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 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 sanitary installation is described that comprises at least one sanitary space, which can be closed, and whose pivot door is configured as a double-leaf angled door having a leaf composed of a material that is preferably transparent over its full area and having a leaf composed of an opaque material.

A sanitary installation is described that comprises at least one sanitary space, which can be closed, and whose pivot door is configured as a double-leaf angled door having a leaf composed of a material that is preferably transparent over its full area and having a leaf composed of an opaque material.

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 structure includes a body element and a surface plate attached to the body element. The surface element includes a substantially transparent material. The surface plate also includes on a portion thereof contacting the body element a colored surface layer.

A structure includes a body element and a surface plate attached to the body element. The surface element includes a substantially transparent material. The surface plate also includes on a portion thereof contacting the body element a colored surface layer.