A high-strength translucent structures that can be used in industrial and civil construction serving as facade or window structures, as well as for filling gaps in ceilings or raised floors with translucent elements, in the structures of separate sections of both walls and zenith skylights of buildings in required spatial altitude. The translucent enclosing structure includes glass units wherein the sheets of glass are hermetically connected to each other and fixed relative to each other by an internal rigid strengthening profile and a spacer frame, and the glass units are additionally provided with an external strengthening profile of Π-shaped cross-section in the form of a pultruded profile made of glass-plastic. There has been created a sufficiently strong and, therefore, reliable, durable, and cheap translucent enclosing structure designed for use in industrial and civil buildings.

A multi-pane glass unit includes a first outer glass pane and a second outer glass pane facing each other, a first inner glass pane between the first outer glass pane and the second outer glass pane, a first spacer located between the first outer glass pane and the first inner glass pane, and a second spacer located between the second outer glass pane and the first inner glass pane.

Provided is an apparatus for manufacturing a multi-pane glass unit. The apparatus includes: a first plate configured to hold a first glass pane; a second plate configured to hold a second glass pane such that the second glass pane faces the first glass pane; and a conveyer including a first portion configured to convey the first glass pane onto the first plate and a second portion configured to convey the second glass onto the second plate.

A spacer includes a polymeric hollow profile, including a first and second side wall, a glazing interior wall connecting the side walls to one another; an outer wall arranged parallel to the glazing interior wall and connects the side walls to one another; a cavity surrounded by the side walls, the glazing interior wall, and the outer wall, a moisture barrier on the first side wall, the outer wall, and the second side wall, wherein the moisture barrier includes a multi-layer system having a barrier function including a polymeric layer and an inorganic barrier layer, a metallic or ceramic outer adhesive layer having a thickness of less than 100 nm, a binding layer between the adhesive layer and the multi-layer system and including a polymer selected from oriented propylene, oriented polyethylene terephthalate, biaxially oriented propylene, and biaxially oriented polyethylene terephthalate. The binding layer is directly adjacent the adhesive layer.

A spacer for insulating glass units, includes a polymeric hollow profile extending in the longitudinal direction and including a first and second side wall, a glazing interior wall connecting connects the side walls to one another; an outer wall arranged substantially parallel to the glazing interior wall and connects the side walls to one another; a cavity surrounded by the side walls, the glazing interior wall, and the outer wall, a moisture barrier on the first side wall, the outer wall, and the second side wall of the polymeric hollow body, wherein the moisture barrier include a multi-layer system having a barrier function including a polymeric layer and an inorganic barrier layer, a metallic or ceramic outer adhesive layer, wherein the adhesive layer has a thickness d of at least 5 nm, the adhesive layer is interrupted in the transverse direction by uncoated regions.

A machine (1000) for the automatic sealing of the perimetric cavity of the insulating glazing unit (1, 1′, 1″, 1′″), the geometry of which is irregular in terms of flatness and shape with respect to the theoretical one, constituted by at least two glass panes (2, 2′, 2″, 2′″, etc.) having a rectangular or other than rectangular shape and at least one spacer frame (3, 3′, 3″, etc., 5, 5′, 5″, etc.) located proximate to the perimeter at a finite distance from the margin of the glass panes or of the smaller glass pane, the glass panes being optionally aligned or offset along one or more or all the perimetric sides and the thickness both of each glass pane (2, 2′, 2″, 2″, etc.) and of each spacer frame (3, 3′, 3″, etc., 5, 5′, 5″, etc.) and therefore the total thickness of the insulating glazing unit (1) being variable from one insulating glazing unit to another, constituted by: at least one synchronous conveyor (100) having the function of support and displacement [together with the synchronous suction cup carriage (100′)] of the insulating glazing unit (1) along the horizontal axis H during the sealing cycle; at least one synchronous carriage (200) which runs along vertical guides along the vertical axis V and is provided with the sealing head (300), the head having a synchronous rotary motion θ so that the sealing nozzle (301) is oriented so as to be tangent to the perimeter of the insulating glazing unit (1), or in any case the relative movement between the insulating glazing unit (1) and the sealing nozzle (301) being able to occur by means of different mechanisms and the arrangement of the insulating glazing unit (1) being any, and fed by one or more, in case of a plurality of types of sealants, synchronous volumetric units for the dosage of bi-component (400) or mono-component (450) sealant, each assembly being constituted, for the two-component case, by a dosage unit for the base product and by a dosage unit for the catalyst product, the flow rates of which are adjusted: as a function of the stoichiometric dosage ratio, for the bi-component case, and of the dimensions of the cavity of the perimetric edge comprised between the glass panes (2, 2′, 2″, 2′″, etc.) and the outside curve of the spacer frame (3, 3′, 3″, etc., 5, 5′, 5″, etc.) and of the relative speed between the nozzle (301) and the perimeter of the insulating glazing unit (1), so as to fill the cavity up to the extreme margin of the smaller glass pane or o

The present invention relates to a system for the production of a sealant composite made of a primary sealing material and a curable secondary sealing material, the use of the system for the production of insulating glass or solar modules, an edge seal for the production of double-pane or multi-pane insulating glass or solar modules comprising the sealant composite and an insulating glass unit comprising at least two glass panes and the edge seal.

An integrated glazing unit (IGU) includes a first pane, an electronic laminate that includes an electronic device provided between first and second substrates, a plurality of terminals coupled to the electronic device, and the first substrate being attached to the first pane. The IGU also includes a second pane coupled to the electronic laminated assembly by a spacer, the spacer being recessed with respect to the laminate edge and the second pane edge, forming an interpane volume, R, between the first and second panes. The IGU further includes a gutter having an open face and giving access to an inner volume, Vi. The gutter is positioned within the interpane volume, R, with the open face being recessed from, flush with or extending by less than 10 mm from the second pane edge. The gutter is suitable for receiving the male and/or female electric connector of a cable harness in the inner volume, Vi.

A machine for the automatic sealing of the peripheral cavity of the insulating glass, which geometry is irregular for the planarity with regard to the theoretical one, comprising at least two glass panes having rectangular or other than rectangular shape and at least one spacer frame located in proximity of the perimeter at a finite distance from the boundary of the same glass panes or of the smaller glass pane, the glass panes being aligned or stepped along one or more or all peripheral sides and the thickness both of each glass pane, and of each spacer frame and consequently the total thickness of the insulating glass being mutable from insulating glass to insulating glass

A composite glass pane having a first glass pane, a second glass pane, and an intermediate layer arranged between the first and second glass panes is described. The intermediate layer includes one cover layer based on a thermoplastic polymer, and a border seal. The first glass pane is arranged with an offset relative to the second glass pane, the intermediate layer is cut back along at least one edge of the composite glass pane by a border distance, and the border seal is arranged in a border gap delimited by the first glass pane, the second glass pane and the intermediate layer. The border seal contains a polymer fusible with a polymer of the cover layers.