A door assembly includes a doorframe, an insulated glazing unit (IGU), door skins, and a gas passageway. The IGU includes a substantially sealed IGU cavity and a hole communicating with the IGU cavity. The door skins are secured to opposite sides of the doorframe and have openings between which the IGU is provided. The gas passageway provides gas communication between the IGU cavity and the atmosphere outside of the door assembly. The gas passageway contains a gas passage conduit that includes a first end communicating with the IGU cavity through the hole and a second end communicating with atmosphere outside of the door assembly. The gas passageway may contain a gas passage conduit having a first end communicating with the IGU cavity through the first hole and a second end communicating with an air pocket, and a channel connects the air pocket with atmosphere outside of the door assembly.

A frame system for securing a glazing unit to a window portal includes an elongated primary mount extrusion, an elongated mount stop extrusion, an elongated first gasket, an elongated second gasket and a structural sealant. The primary mount extrusion is secured to the window portal. A mount stop extrusion engages the primary mount extrusion with a pair of ratcheting members. The first gasket and the second gasket define a passage therebetween and the passage has a width so that the glazing unit fits therein. A structural sealant is disposed so as to affix the glazing unit to an inner upper surface of the primary mount extrusion.

A window frame assembly includes a pair of identical half-frames that can be reversed to mate with each other, with glazing trapped between them. The half-frames are unitary plastic moldings. They include respective arrays of securement fittings that include both male and female fittings. The half-frames have a primary mold opening and closing direction. The securement fittings are formed with transversely moving mold inserts that form the interlocking barbed one-way engagement profiles of the securement fittings. The frames include externally facing surfaces that are free of external fastening hardware. The molded half-frames have abutment stops the prevent over-engagement. They also have window bezels that for a flange relative to the external fascia profile. There is a separate internal peripheral wall stem, to which the male and female fittings abut.

A modular paneled partition includes a first pane panel defining a first panel bottom edge, a first panel upper edge, and a first panel thickness; a second pane panel defining a second panel bottom edge, a second panel upper edge, and a second panel thickness; a wall bottom edge structure including a fixed profile and a movable profile supporting the first and second pane panels and engaged with the fixed profile along an adjustment direction, and means for adjusting position of the movable profile, the movable profile defining a first and a second outer longitudinal sides, and a third side between the first and second outer longitudinal sides. The movable profile has a first bottom channel accommodating the first panel bottom edge, and a second bottom channel accommodating the second panel bottom edge. A wall upper edge structure has a first upper channel accommodating the first panel upper edge, and a second upper channel accommodating the second panel upper edge. Sliding means allow adjusting the first and second panel upper edges according to the adjustment direction. A first aluminum gasket profile is interposed between the first bottom channel and the first panel bottom edge. A second aluminum gasket profile is interposed between the second bottom channel and the second panel bottom edge.

A door assembly includes a doorframe, an insulated glazing unit (IGU), door skins, and a gas passageway. The IGU includes a substantially sealed IGU cavity and a hole communicating with the IGU cavity. The door skins are secured to opposite sides of the doorframe and have openings between which the IGU is provided. The gas passageway provides gas communication between the IGU cavity and the atmosphere outside of the door assembly. The gas passageway contains a gas passage conduit that includes a first end communicating with the IGU cavity through the hole and a second end communicating with atmosphere outside of the door assembly. The gas passageway may contain a gas passage conduit having a first end communicating with the IGU cavity through the first hole and a second end communicating with an air pocket, and a channel connects the air pocket with atmosphere outside of the door assembly.

A window system for a building includes a panel and a first element assembly that supports the panel and includes a cross member and a pressure plate laterally offset from the cross member. A glazing pocket is defined between the cross member and the pressure plate, and a thermal separator is positioned within the glazing pocket and extends between the pressure plate and the cross member. The thermal separator includes a tongue extension and a rod gasket seals an interface between the tongue extension and the cross member.

Embodiments herein relate to methods for attachment of a retention member to an insulating glazing unit, resulting structures, and systems for the accomplishing the same. In some embodiments, a method of attaching a retention member to an insulating glazing unit can include placing a spacer unit between a first pane of glass and a second pane of glass to form the insulating glazing unit and applying an adhesive composition to at least one of a perimeter of the insulating glazing unit and the retention member. The method can further include mounting the retention member onto perimeter edges of at least one of the first pane and the second pane. Other embodiments are also included herein.

A frameless window installation assembly is adapted to be mounted on a building wall, and includes a window sheet unit, and inner and outer bar holders. The window sheet unit has opposite inside and outside surfaces. The inner bar holder is made of metal, is disposed around a periphery of the inside surface, and is adapted to be secured to the building wall. The outer bar holder is made of metal, is disposed around a periphery of the outer side surface, is spaced apart from the inner bar holder, and is adapted to be secured to the building wall. The inner bar holder and the outer bar holder are not directly interconnected by a metal structure. The window sheet unit is secured between the outer and inner bar holders.

A door assembly includes a doorframe, an insulated glazing unit (IGU), door skins, and a gas passageway. The IGU includes a substantially sealed IGU cavity and a hole communicating with the IGU cavity. The door skins are secured to opposite sides of the doorframe and have openings between which the IGU is provided. The gas passageway provides gas communication between the IGU cavity and the atmosphere outside of the door assembly. The gas passageway contains a gas passage conduit that includes a first end communicating with the IGU cavity through the hole and a second end communicating with atmosphere outside of the door assembly. The gas passageway may contain a gas passage conduit having a first end communicating with the IGU cavity through the first hole and a second end communicating with an air pocket, and a channel connects the air pocket with atmosphere outside of the door assembly.

A frame system for securing a glazing unit to a window portal includes an elongated primary mount extrusion, an elongated mount stop extrusion, an elongated first gasket, an elongated second gasket and a structural sealant. The primary mount extrusion is secured to the window portal. A mount stop extrusion engages the primary mount extrusion with a pair of ratcheting members. The first gasket and the second gasket define a passage therebetween and the passage has a width so that the glazing unit fits therein. A structural sealant is disposed so as to affix the glazing unit to an inner upper surface of the primary mount extrusion.