DE202010003596U1 - Blast resistant glass facade - Google Patents

Abstract

Explosion-resistant glazing, consisting of at least two adjacent insulating glass panes (1) with at least two sides in the edge seal (3) glued retaining profiles (2), the glass panes (1) on a frame (5) and by clamping strips (4) on this are fastened, characterized in that the holding profiles (2) are provided with a profiling (6) on which connecting elements (10) can be positively secured and thus connect the two insulating glass panes (1) non-positively with each other.

Description

Description of the invention

The invention relates to the execution of glass panes and their attachment for a blast resistant glass facade or glass roof. In the case of glass panes, two different systems are used to record the energy released during explosions. In the first embodiment, the glass panes and fasteners are made so solid and solid that the acting energy is absorbed mainly by the high strength of the individual components. Although the components may show damage and cracks after the explosion has occurred, their overall appearance is rather low. In the second embodiment, special emphasis is placed on the energy absorption takes place by the possibility of large movements and deformations. This type of execution is particularly suitable for glass, as this can reduce the glass thicknesses. The main component of such a blast-resistant glass pane is a laminated glass pane. Laminated glass panes consist of at least two individual panes and a connecting foil arranged between them and adhesively bonded to them. Depending on the application, the laminated glass pane can also be combined with other panes to form an insulating glass pane. The edges of the glass are clamped circumferentially in a clamping profile and additionally glued to this. In the case of an explosion, the glass sheet is deformed so much that break the individual glass panes. Due to the existing composite foil, the glass does not break apart but deforms like a membrane. By gluing in the edge area, the glass pane is retained on the substructure and ensures that the glass pane is not torn out. For the fortifications of the edge areas previously more or less complex bonds are used. To simplify this, the following solution is proposed:
The invention relates to a glass facade or a glass roof, consisting of at least two glass panes lying side by side, each glass pane consisting of at least two individual panes and a connecting foil arranged between them and glued to them. At the glass edges of these laminated glass panes holding profiles are glued around. It makes sense that these profiles are already applied at the factory. The retaining profiles can be glued on one side or on both sides of the edges. In a further embodiment, the holding profiles can also be located between two glass panes, in particular between two laminated glass panes. In this case, an insulating glass pane is then used. The holding profiles ( 2 ) are provided with profiles or bolts to which fasteners can be attached. The basic attachment of the glass panes ( 1 ) takes place primarily by means of conventional terminal strips ( 4 ). To the glass panes ( 1 ) to prevent it from loading it from the clamping ( 4 ), the edges of adjacent glass sheets ( 1 ) by means of connecting straps ( 9 ) connected with each other. The connecting straps ( 9 ) consist of a flexible and durable material and have on both sides devices ( 8th ) with which they on the retaining strips ( 2 ) of the glass sheets ( 1 ) can be hung. The connecting straps ( 9 ) may be present in sections, but they may also be continuous. For continuous connecting straps ( 9 ) These recesses or openings thus have the fastening screws of the terminal strips ( 4 ) on the frame ( 5 ) can be screwed. In a preferred embodiment, the retaining strips ( 2 ) with an outwardly open U-channel ( 6 ) Mistake. At the entrance of the U-channel ( 6 ) are two bevels with barbs ( 7 ) appropriate. The suspension devices ( 8th ) of the connecting strap ( 9 ) are also provided with bevels and barbs ( 7 ) Mistake. For frictional connection of the adjacent glass sheets ( 1 ) the suspension devices ( 8th ) of the connecting straps ( 9 ) in the U-channel ( 6 ) of the retaining strips ( 2 ). When pressing in the suspension device ( 8th ), the two webs are elastically compressed by the bevels, and then pushed so far inward until the webs of suspension device ( 8th ) and retaining strip ( 2 ). In this position are retaining strip ( 2 ) and suspension device ( 8th ) positively connected with each other.

By this type of connection can quickly and safely form a frictional Connection achieved between the adjacent glass panes become. There are no time-consuming gluing work necessary on the construction site.

By changing the material and length of the connecting strap ( 9 ), the deformation function of the blast resistant glass can be adjusted. If a very highly elastic and low-modulus material for the connecting strap ( 9 ) is used in the action of energy a very strong deformation of the discs ( 1 ) one. When using high-modulus material, however, the deformation is very limited.

The attachment of the connecting strap ( 9 ) with the retaining strip ( 2 ) can also be made in the form of clasps. In this case, the retaining profiles ( 2 ) fastened at a suitable distance bolts. The suspension device ( 8th ) at the connection tab ( 9 ) is then provided with oblong holes on one side have an opening. For connecting the connecting strap ( 8th ) with the retaining strip ( 2 ) the opening of the elongated hole is pushed over the bolt and then moved in the longitudinal axis. In this position, the connection tab ( 9 ) in turn positively with the retaining strip ( 2 ) connected.

Claims (5)

Explosion-resistant glazing, consisting of at least two adjacent insulating glass panes ( 1 ) with at least two sides in the edge bond ( 3 ) glued retaining profiles ( 2 ), whereby the glass sheets ( 1 ) on a frame ( 5 ) and by terminal strips ( 4 ) are attached to this, characterized in that the holding profiles ( 2 ) with a profiling ( 6 ) are provided on which connecting elements ( 10 ) can be fixed positively and thus the two insulating glass panes ( 1 ) non-positively connect with each other. Explosion-resistant glazing according to claim 1, characterized in that the profiling ( 6 ) as a groove with at least one barb ( 7 ) is executed. Explosion-resistant glazing according to claim 1 and 2, characterized in that the connecting strap ( 9 ) on both sides with a thickening or profiling ( 8th ) is provided when inserted into the holding profile with the barb ( 7 ) of the holding profile ( 2 ) interlocked form-fitting. Explosion-resistant glazing according to one or more of the preceding claims, characterized in that the connecting strap ( 9 ) on both sides with a suspension device ( 8th ) is provided with at least one barbs and which when inserted into the holding profile ( 2 ) interlocked form-fitting. Explosion-resistant glazing according to one or more of the preceding claims, characterized in that the retaining strip ( 2 ) are provided with bolts and the at the connecting tabs ( 9 ) on both sides fastening strips are arranged with slots which each have an opening on one side, and that the slots can be pushed over the bolts so that they connect positively to each other perpendicular to the edge of the window.