Disclosed are integrated sliding glass panel bumper assemblies, frameless sliding glass panel systems that include one or more of the integrated sliding glass panel bumper assemblies, methods for installing the integrated sliding glass panel bumper assemblies, and methods for retrofitting a frameless sliding glass panel system with one or more of the integrated sliding glass panel bumper assemblies.

Disclosed are integrated sliding glass panel bumper assemblies, frameless sliding glass panel systems that include one or more of the integrated sliding glass panel bumper assemblies, methods for installing the integrated sliding glass panel bumper assemblies, and methods for retrofitting a frameless sliding glass panel system with one or more of the integrated sliding glass panel bumper assemblies.

A sliding panel system is disclosed. The system includes a fitting assembly designed to fixedly secure a first panel to an elongate rail member, and a carrier assembly designed to moveably secure a second panel to the elongate rail member. The system facilitates the lateral movement of the second panel with respect to the first panel. The carrier assembly includes at least one carrier unit including a housing with an inner volume, at least one roller unit configured in an upper portion of the inner volume, at least one guide member configured in the inner volume, and an opening extending across the front of the housing and adapted to receive a longitudinal portion of the rail member. The at least one roller unit and the at least one guide member are concealed within the housing when the housing is viewed from a perspective perpendicular to the front of the housing.

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 (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 (20) comprises a fixation system (45a, 45b, 28a, 28b, 80, 22, 23) fixating the vacuum insulated glass unit (1) at the frame (20), wherein said fixation system (45a, 45b, 28a, 28b, 80, 22, 23) 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 due to a temperature difference (ΔT=T1−T2) between the two glass sheets (2a, 2b), wherein said fixation system (45a, 45b, 28a, 28b, 80, 22, 23) is configured to allow the magnitude of said thermal deflection (DIS4) to vary along the edge (8a-8d) between the corners (9) where the respective edge (8a-8d) terminates, wherein said fixation system (45a, 45b, 28a, 28b, 80, 22, 23) is arranged to provide a resistance against said thermal deflection (DIS4) of at least two opposing edges (8a-8d) of said vacuum insulated glass unit (1), said resistance being substantially lower at corner parts of the edges (8a-8d) than at centre parts of the edges (8a-8d), and wherein said centre parts of said at least two opposing, parallel edges (8a-8d) constitute at least a third, such as half of the extend of the edge (8a-8d) between said corners (9).

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 method of installing a window and composite window bracket comprises a first member and a second member, and an at least one accessory member to couple the composite window bracket to at least one accessory bracket. The first member includes a first surface extending from a first end of the first member to a second end of the first member, and a second surface extending from the first end first member to the second end first member, the first surface of the first member to be coupled to a support beam. The second member supports a window disposed on the first surface of the second member.

A reinforced structure at a bottom of a glass door is provided. The bottom of the glass door is assembled with a reinforced structure comprising a reset device assembled on a side thereof; two cushioning materials connected and fixed on one side of the reset device respectively, wherein the two cushioning materials are respectively provided with a locking portion on one side opposite to the direction of the reset device; and two outer protective covers sleeved on outer surfaces of the reset device and the two cushioning materials respectively. The bottom of the glass door is protected, reinforced and cushioned by the reinforced structure from kicking by user's foot when walking or moving objects or colliding by the wheelchair to break the glass of the glass door or cause an easy bend by wind, and the reinforced structure can be applied to a wider glass door.

A reinforced structure at a bottom of a glass door is provided. The bottom of the glass door is assembled with a reinforced structure comprising a reset device assembled on a side thereof; two cushioning materials connected and fixed on one side of the reset device respectively, wherein the two cushioning materials are respectively provided with a locking portion on one side opposite to the direction of the reset device; and two outer protective covers sleeved on outer surfaces of the reset device and the two cushioning materials respectively. The bottom of the glass door is protected, reinforced and cushioned by the reinforced structure from kicking by user's foot when walking or moving objects or colliding by the wheelchair to break the glass of the glass door or cause an easy bend by wind, and the reinforced structure can be applied to a wider glass door.

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.