DE3801603A1 - Process for producing composites comprising a layer of natural stone and a reinforcing layer - Google Patents

Abstract

The invention relates to a process for producing composites in slab form which comprise a thin layer of natural stone and a reinforcing layer. It is characterised in that a slab of natural stone is provided with the reinforcing layer only on one surface side, that then, for obtaining the composite, the layer of natural stone provided with the reinforcing layer is subsequently detached in a severing cut running parallel to this surface side, and that in every further step of the process the residual natural stone slab remaining from a previous step of the process is once again provided with the reinforcing layer only on one surface side and, for obtaining a further composite, a layer of natural stone provided with the reinforcing layer is subsequently once again detached by a severing cut running parallel to this surface side.

Description

The invention relates to a method for producing plate-shaped composite bodies, each consisting of a Natural stone layer as well as from one on one surface side this natural stone layer applied reinforcement layer consist.

Such plate-shaped composite bodies are known and are used for various purposes to dress up Surfaces used. For the sake of material and To save weight, it is desirable to layer the natural stone in to keep their thickness as small as possible, which however the production of such composite bodies significant problems poses.

The invention has for its object a particular to demonstrate a simple procedure with which it is possible To produce composite body of the type mentioned that the Natural stone layer can have an extremely small thickness.

To solve this problem, a method according to the characterizing part of claim 1 is formed.

The inventive method has the advantage that the reinforcement layer, the tensile and compressive reinforcement and thus the actual load-bearing layer of the manufactured Composite body forms and this also a relatively high Gives elasticity already during production, i.e. at the Cutting the natural stone slab or the one from a process step obtained natural stone slab residue is fully effective so that the natural stone layer when detached of the relevant natural stone slab or of the the rest of the natural stone slab can be kept very thin, without the risk of breaking the natural stone layer exists.  

The method according to the invention also has above all also the advantage that for the manufacture of each Composite body only on one surface side of the natural stone plate or the natural stone slab rest a reinforcement layer must be applied, which causes the manufacturer development process considerably simplified.

In the method according to the invention, the natural stone slab prefers a marble slab. Developments of the invention are the subject of the subclaims.

The invention is illustrated below with the aid of the figures Embodiment explained in more detail. Show it:

Figure 1 in cross section a one-sided coated marble plate before a first separation cut.

Figure 2 also in cross section the marble slab rest coated on one side again in a further process step before the separating cut carried out in this further process step;

Fig. 3 in cross section a composite body produced by the method according to the invention.

The plate-shaped composite body 1 shown in FIG. 3 and produced with the method according to the invention consists of a layer 2 of marble, which for example has a thickness of 2-3 mm or also smaller, and of a reinforcement or reinforcement layer 3 , which with an upper surface side of the layer 2 is connected. This acting as tension and compression reinforcement, preventing the layer 2 from breaking and thus forming the actual load-bearing element of the composite body 1 , reinforcing layer 3 is a fiber-reinforced plastic layer, for example epoxy resin layer, into which at least one fiber layer 4 with intersecting fibers, for example at least one glass fiber mat or a glass fiber fabric is embedded. Be preferred, the reinforcement layer 3 has a plurality of fiber layers th 4 , which are embedded at a mutual distance and parallel to each other and parallel to the layer 2 in the reinforcing layer 3 forming material.

On its side facing away from the layer 2 , the reinforcement layer 3 is formed in such a way that the composite element can be fixed with conventional means (for example with a tile adhesive) on a surface to be clad with this composite element 1 , for example doors, furniture, etc. For this purpose, the reinforcement layer 3 is sanded, for example, on its surface side facing away from the layer 2 or provided with a sand coating 5 .

To manufacture the composite body 1 , which may have an area of up to 2 square meters and through the reinforcement layer 3 has a considerable elasticity without the risk of breaking the layer 2 , a natural marble slab 6 with a thickness that is many times the thickness of the layer 2 of the composite body 1 produced, for example a thickness of the order of 30 mm, is provided with the reinforcing layer 3 forming the compression and tensile reinforcement. This can be done, for example, by applying several epoxy resin layers, also embedding the fiber layer 4 or fiber layers 4 , to the relevant surface side of the marble plate 6 , or by providing the relevant surface side of the marble plate 6 with a layer serving as an adhesive bridge, for example epoxy resin layer which is then applied a fiber-reinforced, that is to say the fiber layer 4 or fiber layers 4 already having, prefabricated plastic material. Other suitable methods for producing the reinforcement layer 3 connected to the one surface side of the marble slab 6 are also conceivable. In the illustration chosen for FIG. 1, the reinforcing layer 3 is brought up to the right surface side of the marble slab 6 there.

After the application of the reinforcing layer 3 is carried out with the aid of a suitable cutting or cutting tool (not shown) (for example a saw), the marble slab 6 is cut in the area of its surface side provided with the reinforcing layer 3 and parallel and at such a distance from this surface side that by means of this separating cut T, the layer 2 of marble connected to the reinforcing layer 3 is separated from the marble plate 6 . The thus obtained, the composite body 1 already corresponding blank is then still in the reinforcing layer 3 remote from the surface of the layer 2 polished to completion of the composite body. 1 After the composite body 1 has been separated from the marble slab 6 , the reinforcement layer 3 can be processed further (for example sanded) on its surface side facing away from the layer 2 . It is advantageous in the described method in any case that the reinforcing layer 3 forming the later tensile and compressive reinforcement of the composite body 1 produced has a reinforcing effect already during manufacture, ie during the cutting of the marble slab 6 , and prevents the separated layer 2 from breaking, so that the latter can be manufactured with an extremely small thickness.

After the completion of a composite body 1 , the remaining marble slab residue 6 'is again provided on one surface side with the reinforcing layer 3 in a further process step, so that through a further separation cut T from the marble slab 6 or from the marble slab remaining from the previous process step tenrest 6 'provided with a layer 3 of the reinforcing layer 2, and thus a composite body 1 can be separated. Depending on the thickness of the original marble slab 6 , this process is then repeated as often as necessary until the original marble slab 6 is separated into a corresponding number of composite bodies 1 .

Preferably, the described method is carried out so that the marble plate 6 provided with the reinforcing layer 3 or the marble plate rest 6 'provided with this reinforcing layer is held during the respective separating cut T in a device which consists of the marble plate 6 or the marble plate rest 6 'And the reinforcing layer 3 existing composite element on both surface sides clamped as far as possible, this device is preferably also designed such that several such composite elements, each consisting of a marble slab 6 or a marble slab residue 6 ' and a reinforcing layer 3 , are arranged side by side, so that several composite bodies 1 can be produced at the same time with a multiple cutting or cutting tool.

The invention has been described above using an exemplary embodiment described. It is understood that changes and Ab Conversions are possible without thereby of the invention underlying inventive concept is left.

Claims (3)

1 Process for the production of plate-shaped Verbundkör cores, which consist of a thin natural stone layer and a reinforcing layer, characterized in that a plate ( 6 ) made of natural stone is provided only on one surface side with the reinforcing layer, that then then in a parallel to this surface side extending cut (T) to obtain the composite body with the reinforcing layer (3) provided with natural stone layer (2) is separated, and that in each further step the remaining from a previous method step natural stone plate rest (6 ') again acts on only one surface side with the reinforcing layer (3) provided, and then again a provided with the reinforcing layer (3) of natural stone layer (2) is separated by a passage extending parallel to this surface side cut (T) to give a further composite body (1). 2. The method according to claim 1, characterized in that a fiber-reinforced plastic layer is applied as a reinforcing layer ( 3 ) before each separating cut ( T) . 3. The method according to claim 1 or 2, characterized in that with a multiple cutting or separating tool in each process step, each with a reinforcing layer ( 3 ) provided natural stone slabs ( 6 ) or natural stone slab remnants ( 6 ') are cut simultaneously.