The invention provides an IG unit that includes two glass sheets and an aerogel sheet located between the two glass sheets. The aerogel sheet is adhered to an interior surface of one of the two glass sheets by an adhesive, such that a face of the aerogel sheet is carried alongside the interior surface and has a portion that is devoid of the adhesive. In some cases, the adhesive is outside a vision area of the unit. In some cases, the adhesive securing the aerogel sheet to the interior surface is in contact with the first face of the aerogel sheet, and the adhesive contacts less than 10% of the first face of the aerogel sheet. Furthermore, some embodiments provide a glazing assembly that includes a frame and an IG unit mounted in the frame such that a vision area of the glazing assembly is located inwardly of the frame.

Pillar delivery films for vacuum insulated glass units are disclosed. The delivery films include a support film or pocket tape, a sacrificial material on the support film, and a plurality of pillars. The pillars are at least partially embedded in the sacrificial material or formed within sacrificial material molds, and the sacrificial material is capable of being removed while leaving the pillars substantially intact. Methods of transferring pillars to a substrate using the pillar delivery films are disclosed. In order to make an insulated glass unit, the delivery films are laminated to a receptor such as a glass pane, and the support film and sacrificial material are removed to leave the pillars remaining on the glass.

Pillar delivery films for vacuum insulated glass units are disclosed. The delivery films include a support film or pocket tape, a sacrificial material on the support film, and a plurality of pillars. The pillars are at least partially embedded in the sacrificial material or formed within sacrificial material molds, and the sacrificial material is capable of being removed while leaving the pillars substantially intact. Methods of transferring pillars to a substrate using the pillar delivery films are disclosed. In order to make an insulated glass unit, the delivery films are laminated to a receptor such as a glass pane, and the support film and sacrificial material are removed to leave the pillars remaining on the glass.

A system and method for reducing bird collisions with glazing utilizes a UV light source and a perforated opaque object. The UV light source is located adjacent an edge of a glass panel and is configured to project UV light rays onto a planar surface of the glass panel. The perforated opaque object is located between the UV light source and the planar surface of the glass panel, such that UV light rays passing through the perforated object cast onto the planar surface of the glass panel a UV shadow visible to birds and substantially invisible to humans.

A thermally insulated door assembly with an operable panel uses a pair of structural panels, a collection of thermally-insulating fasteners, a panel hole and an operable panel. The pair of structural panels are held together by the thermally-insulating fasteners. The thermally-insulating fasteners form a rigid structure that prevents thermal conductivity between the two structural panels that make up the door assembly. This arrangement enables the door assembly to remain a rigid structure while being composed of multiple components. The panel hole traverses through the pair of structural panels to form an opening into which the operable panel is inserted. The operable panel is a panel that replaces a central section of the door assembly. This placement enables the user to remove and replace the operable panel as desired.

A flexible spacer for an insulated translucent panel assembly. The flexible spacer includes a flexible thermoset extrudate formed from a two component flowable polymeric formulation and being a flowable mixture. One component carries a desiccant powder, and the other component is a catalyst for curing the extrudate. The flowable mixture is directly cast on to a vapor barrier web. The vapor barrier web includes a length and a width, the length being greater than the width. The vapor barrier web includes a corrugated sheet of material having a plurality of corrugations oriented generally orthogonal to the length of the vapor barrier web.

A flexible spacer for an insulated translucent panel assembly. The flexible spacer includes a flexible thermoset extrudate formed from a two component flowable polymeric formulation and being a flowable mixture. One component carries a desiccant powder, and the other component is a catalyst for curing the extrudate. The flowable mixture is directly cast on to a vapor barrier web. The vapor barrier web includes a length and a width, the length being greater than the width. The vapor barrier web includes a corrugated sheet of material having a plurality of corrugations oriented generally orthogonal to the length of the vapor barrier web.

An insulating glazing includes a first pane, a second pane, an inner spacer frame arranged between the panes, which, together with the panes, delimits an inner interpane space, a surrounding outer spacer frame arranged between the panes, which is arranged on the outward facing side of the inner spacer frame, wherein the inner spacer frame consists substantially of a first hollow profile spacer and the outer spacer frame consists substantially of a second hollow profile spacer, the inner spacer frame and the outer spacer frame are in each case connected together to the first pane and the second pane via a primary sealant, an outer interpane space between the outer side of the outer spacer frame and the first pane and the second pane is filled with a secondary sealant.

A compressible pillar for the preparation of a vacuum insulated glazing (VIG) unit, having a longitudinal extent in the pre-compressed state and including a deformable part having an open structure, which open structure will at least partially collapse when the pillar is subject to a compression force acting in the longitudinal direction of the pillar, the compression force being of at least one value selected within the range of 60 N to 320 N, the pillar will exhibit a partly irreversible deformation causing a reduction in the longitudinal extent of the pillar when the pillar is subjected to the compression force, so that when the compression force is fully released the pillar will exhibit an expansion in the longitudinal direction of the pillar which is less that the reduction in the longitudinal extent of the pillar. Further is shown a process for manufacturing of a compressible pillar, a method of producing a VIG unit as well as a VIG unit.

Method for the production of a vacuum insulated glazing unit with more than two panes and a vacuum insulated glazing unit with more than two panes. In one example a triple pane vacuum insulated glazing assembly is fused and the cavity is backfilled during cooling whereby the centre pane temperature may be lowered. This has the advantage of keeping the stresses below the failure boundaries and enabling faster production.