DE2403537A1 - PLATE-SHAPED AGAINST THE EFFECT OF HEAT RESISTANT COMPONENT ENCLOSING THE ROOM - Google Patents

Description

VE Brüstungselemente GmbH, 5000 Cologne 41

Plate-shapeda resistant to the effects of heat space-enclosing component

The invention relates to a plate-shaped, against the action of heat Resistant, space-enclosing component made of a pane of toughened glass, a core layer made of heat-insulating material, and a further rigid plate arranged on the other side of the core layer, these Layers are bonded together with a heat-resistant adhesive.

A construction or parapet element of this type with increased fire-retardant Effect is described in DT-PS 1,288,285, for example. The side with the toughened glass plate is placed on the side from which the fire is to be expected.

If the heat is very strong, it can happen that the glass layer facing the fire softens and melts. The molten glass then drips down, causing the surface the heat-insulating core layer is more or less exposed

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is placed. As a result, the component loses its mechanical properties Strength on this side, because the heat-insulating core layer itself usually consists of loose material, such as mineral or glass wool.

The invention is based on the object of a parapet element of the aforementioned type to the effect that, in an emergency, the dripping of molten glass made difficult or prevented, and also an increased mechanical strength of the component is achieved.

According to the invention, this object is achieved in that in which the toughened glass pane with the heat insulating A metal wire net2 is arranged connecting the core layer.

It has been shown that the mesh of the metal wire net hold the molten glass largely so that it is not or not in the case of the known construction occurring dimensions drips down. The metal wire mesh is, so to speak, wetted by the molten glass and so with it provided with a glass coating. This leads to the fact that after the action of heat, when the glass has solidified again, the The parapet element on this side has sufficient mechanical strength, for example that of the Employing a ladder allowed. - The ones through the metal wire mesh caused increase in the strength of the component also has the advantage that the component does not penetrate from inside the building, even during or after a fire can be. This reduces the risk that people, for example in a hasty escape, the weakened Puncturing components and causing injuries or even falling through the wall.

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JBs is already known for a parapet element consisting of two panels and an insulating layer in between for one or both panels of wired glass panels to be used (DT-GM 1-793 o94-). Wired glass plates, i. Glass plates with a wire mesh inlaid in the glass mass, but can because of the great differences in the coefficient of thermal expansion glass and metal are not toughened. The use of non-toughened glass panes in the case of parapet elements, however, is because of the lack of mechanical strength of the glass pane and because of the inadequate Thermal shock resistance disadvantageous, so that nowadays parapet elements are without exception pre-tensioned '' Glass panes are used.

It has been shown, surprisingly, that the aforementioned beneficial effect of the metal wire network, namely the softened and To hold molten glass firmly is achieved even if the wire mesh, as provided in the invention, behind the glass pane is arranged. The cohesion of the glass fragments when "breaking the glass pane, for the one normal wire glass pane the embedded wire mesh ensures, is in the component according to the invention by mediation of the inorganic glue that causes the broken glass firmly connects to the wire mesh.

In a zv / corner development of the invention is in the connecting the heat-insulating core layer to the rear panel Adhesive layer also arranged a metal wire mesh.

If necessary, the strength of the component according to the invention can be increased even further by the fact that the Core layer consists of several layers of a heat-insulating material, between which one or more metal

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wire networks are arranged '.

The rear panel can be plasterboard or fire-resistant asbestos-cement board. If necessary, can the back plate can also be a toughened sheet of glass. Such a component, each with a pre-stressed glass pane as an outer plate is suitable, for. B. particularly good for partition walls within buildings.

A further expedient embodiment of the invention is that the metal wire mesh or the metal wire mesh in anchored in the insulating core layer. To this For this purpose, the meshes of the wire netting can be partially cut open, the wire ends of the cut meshes bent over, and the bent ends are inserted into the core layer of heat insulating material.

If the component is enclosed with a metallic frame, the strength can be further improved achieve that at least some wires of the metal wire mesh or the metal wire mesh between the layers led out and connected to the frame enclosing the component.

As a heat-resistant inorganic adhesive, it is advantageous an adhesive based on water glass is used.

In the following, a preferred embodiment of the component according to the invention is shown on the basis of the single figure described in more detail:

The insulating core layer 1 of the component is made from an approximately three centimeter thick sheet of rock wool or glass wool. On one side of this core layer

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an adhesive layer 2 made of a heat-resistant adhesive is applied. An adhesive based on water glass from the Promat company for modern materials has been used for this purpose. This adhesive is commercially available under the name PROMAT PGS 32. A wire mesh 3 is placed on this adhesive layer 2 and pressed in. At certain intervals, some meshes of the wire netting were previously cut open and the wire ends 4 were bent in a direction perpendicular to the plane of the wire netting. These bent wire ends 4 - are pressed in when the wire mesh 3 i & d ± ^e core layer 1 is applied. They serve to anchor the wire mesh 3 in the core layer. The prestressed glass pane 5 is then placed on the wire mesh 3. The prestressed glass pane 5 is usually provided with an opaque colored enamel layer so that the wire mesh cannot be seen through the glass pane 5. ..,

On the back of the core layer 1 is again first an adhesive layer 6, also based on water glass, is applied, and a wire mesh 7 is arranged thereon. The wire mesh 7 is anchored in the same way in the core layer as the wire mesh 3 by at certain intervals cut a few stitches, bent the wire ends,. and the bent wire ends 8 are pressed into the core layer. On the wire mesh 7 is then about 10 mm thick cover plate 9 made of plasterboard is placed. The entire plate can then in a known manner with a Frame to be bordered.

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Claims (9)

- 6 - YE 254 Claims M.yPlate-shaped, resistant to the effects of heat Room-enclosing component made of a pane of toughened glass, a core layer of heat-insulating Material, and a further rigid plate arranged on the other side of the core layer, v / o " these layers are connected to one another with a heat-resistant adhesive, characterized that in which the toughened glass pane (5) mit.der the heat-insulating core layer (1) connecting Adhesive layer (2) a metal wire mesh (3) is arranged. 2. Component according to claim 1, characterized in that in the adhesive layer (6) connecting the heat-insulating core layer (1) to the rear panel (9) also a metal wire mesh (7) is arranged. 3. Component according to claim 1 or 2, characterized in that that the core layer consists of several layers of a heat insulating material, between which also one or more metal wire nets are arranged. 4. The component according to one or more of claims 1 to 3, characterized in that the rear plate is made of fire-resistant asbestos cement. 5. Component according to one or more of claims 1 to 3, characterized in that the rear plate is flat. if made of toughened glass. 509832/0038 - 7 - ■ - 7 - ve 254 6. Component according to one or more of .Ansprüche 1 "to 5, characterized in that the metal wire net (3) and possibly the remaining metal wire nets (7) in the thermally insulating Core layer is (are) anchored. 7. Component according to claim 6, characterized in that the meshes of the wire nets (3.7) partially cut open, the wire ends of the cut mesh are bent over, and the bent ends (4-, 8) for "anchoring" are inserted into the core layer (1) made of heat-insulating material. 8. The component according to one or more of claims 1 to 7> characterized in that at least some wires of the metal wire network (3) or the remaining metal wire networks out of the layer structure and with the that Component enclosing frame are connected. 9. The component according to one or more of claims 1 to 8, characterized in that the adhesive layer (2,6) forming heat-resistant adhesive is a water-glass-based adhesive. 509832/0038 Blank page