There is included an intermediate element including one or more, but not necessarily limited to, an L-shaped profiled portion configured to receive a part of a panel of a door or window, a pad configured to be fit into at least one frame part and comprising a support strip groove, and an intermediate element extended from the L-shaped portion to the pad.

A retention system may comprise a bracket, a bar system, a seal and a bonded washer. The bracket may have a first portion and a second portion. The first portion and the second portion may be operatively coupled together at an angle θ. The bracket may also have a texture. The bracket may define a mounting surface. The bar system may comprise a bar installable in the bracket. The seal may be installable in the bracket and disposed beneath the mounting surface. The bonded washer may be installable on and compressible against the mounting surface.

A vacuum glazing includes a vacuum layer formed between a first glazing and a second glazing, a spacer provided in the vacuum layer, a frame provided at edge portions of the first and second glazings, and a sealant interposed between the frame and surfaces of the first and second glazings to perform sealing of the vacuum layer. The insulating performance of the vacuum glazing is improved.

A system, device and method of framing an opening, such as a window, in a clad façade 12 structure to align the window units 22 to be positioned adjustably so that the exterior sight lines align the windows without custom fabrication of the clad façade. This allows irregular variations in the original building structure to be eliminated by a perfectly aligned façade. A frame 20 has wide flanges 40 to allow the defined inner box frame area 34 to be positioned and then the frame can be shimmed to that position. Sections of frame 20 are joined by an angled member 54 with flat portion which are received in slots 56 in frame sections at their edges.

A system for mounting an accessory structure to another structure includes: an anchor baseplate assembly, an object-mounting assembly, and an object-mounting fastener. The anchor baseplate assembly includes a baseplate and holes passing through the baseplate. The object-mounting assembly includes an opening passing through the object-mounting assembly, as well as a smooth-walled port passing through the object-mounting assembly. The object-mounting fastener is positioned in the opening of the object-mounting assembly and is fixated to the anchor baseplate assembly. The object-mounting assembly is attached to the anchor baseplate assembly by the object-mounting fastener. The smooth-walled port in the object-mounting assembly is in registry with one of the holes in the anchor baseplate assembly.

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 window or door element includes a frame and an insulated glazing unit removably disposed in the frame, the insulated glazing unit including at least one first electrical connection pin and the frame including at least one second electrical connection pin, the at least one first electrical connection pin of the insulated glazing unit being in electrical contact with the at least one second electrical connection pin of the frame when the insulated glazing unit is inserted into the frame.

A gasket for use in holding side members in proper position during assembly and use is provided. The gasket may be used with frameless door rail systems such as those used to secure heavy glass doors in residential and commercial buildings. The gasket holds the door rail clamping members in proper position during insertion into the door rail system, and in proper position during the insertion of the door or panel to be held therebetween. The gasket also provides a cushioned interface and a weather seal between the clamping members and the associated door or panel and eliminates the need for bonding of the gasket to the clamping mechanism(s).

An improved door rail system for holding a panel, such as a glass panel, is presented. The door rail system includes a core rail and clamping rails having a wedging geometry so that when the clamping rails are actuated with respect to the core rail, clamping force is applied to the glass panel to secure the panel within the core rail. The improved door rail system accommodates panels of varying thickness, features the use of modular side covers and incorporates a door to door jamb adjustment device allowing for angular adjustments.

The application describes a frame assembly. The frame assembly comprises: first and second glass panels substantially parallel to each other; and an intermediate ballistic panel positioned between the first and second glass panels. A spacer element is positioned between the first and second glass panels and adapted to receive the intermediate ballistic panel. The spacer element comprises a recess adapted to receive the intermediate ballistic panel therein. The recess is larger than the intermediate ballistic panel in at least one dimension by a tolerance value to accommodate thermal expansion of the intermediate ballistic panel.