DE2929963A1 - Light cladding panel of splittable material - is made by cementing support layer onto block, then removing with split layer - Google Patents

Abstract

Slate, mica, quartzite, or other pref. natural materials which can be split, are used for making a panel or slab for cladding. A carrier layer (1) is cemented onto a cleavage surface of a block of the material. When the adhesive (2) has set hard, a split layer (3) of the material, joined to the carrier layer is raised from the block by the latter. The adhesive may harden under shrinkage. The carrier layer may be made of fibre material, pref. fibreglass, and can be pressed in a warm state with the adhesive onto the block during setting. The split layer is pref. 0.2-0.5mm. thick. Lightweight and easily mounted cladding panels are produced by this simple and inexpensive method.

Description

Process for the production of a cladding

panel made of fissile material and cladding panel made afterwards The invention relates to a method for producing a cladding panel from Fissile material.- Under fissile material are within the scope of the invention to understand all fissile minerals like slate, mica, quartzite etc., preferably in other words, naturally occurring materials that are characterized by the fact that they can be easily split in certain directions. The invention relates to also on comparable synthetic materials.

Cladding panels are, for example, facade panels in the context of the invention or other cover plates that are used to design interior or exterior surfaces Facilities or buildings of various types are used.

Cladding panels made of fissile material are from the practice Form of the widespread slate known, it is made by that the plates are split off from corresponding sugorichtatin blocks. Included however, there are several problems. Conventional slates are proportionate small. That Columns of more extensive areas are found in the Practice as extremely difficult because the fissures are unpredictable and irregular break when splitting and thus become unusable. That can to a certain extent thereby be countered that the strength of the plates to be cleaved is increased. Leading but at the same time to a correspondingly higher dead weight of the plates and accordingly higher cost and also has significant difficulties in assembling such Cladding panels in the Followed.

Incidentally, one knows panels of other types on the base of synthetic resin, asbestos cement, etc., but which are those discussed above Problems do not pose. Furthermore, one knows multilayer panels of other types, where on a carrier (for example a chipboard) a coating film (made of synthetic resin-impregnated paper or the like.) Is glued on. That has to do with development of cladding panels of the type described above and their production also had no influence.

The invention is based on the object of a method of the above Specify the type described, which can be carried out in a simple manner and in a cost-effective way the production of cladding panels from fissile Material enables - which are characterized by low weight and easy assembly. The object of the invention is also to provide a cladding panel made of fissile material indicate with which these requirements can be met.

This object is achieved in procedural terms by the invention solved in that a block of the fissile material means on a gap a carrier layer is glued on an Xleber and after the hardening of the adhesive a gap layer connected to the carrier layer of the fissile Material is lifted off the block by means of the carrier layer.- According to the invention so don't try the cladding panels as a self-supporting structure of more or less large extent from block to columns. Rather, according to the invention provided that the plates through the previously glued backing layer on the one hand are stabilized, and that on the other hand, the lifting by means of the carrier layer he follows. This is because after the adhesive has hardened, the carrier layer of the block taken away, it surprisingly shows that a quasi elementary gap layer (whose thickness is of the order of magnitude in the range of tenths of a millimeter) differs from Block splits off and is carried along with the carrier layer. That can be done too Carry out over large areas flawlessly and without uncontrolled breaks, A fresh surface is formed under each lifted split layer on which the method according to the invention can be carried out again until the block Is worn away layer by layer. The block can be, for example act a plate made of fissile material, in the manner explained above is made by splitting. It depends on the thickness of such a plate not essential, a block in the sense of the invention is any structure made of fissile Material that, due to its thickness or due to one by gluing or on other way attached carrier the rigidity required for manipulation having.

Usually, in the method according to the invention, a cleavage surface is used in the real sense, which has been generated by splitting, assumed. This creates Split layers of optimal uniformity. But it is within the scope of the invention also, to start from a surface generated in another way, which under certain circumstances can also have an inclination towards the "grown" cleavage surfaces. Included cleavage layers arise from lower uniformity, however a clamp that may be desired. or have flake structure.

In any case, the method according to the invention initially leads to a Multi-layer board, which is made up of the carrier layer, the adhesive and the split layer fissile material.

This can be removed in a suitable manner, advantageously however, the bond between the carrier layer and the gap layer is maintained, wherein the carrier layer ensures stability and manipulability. With others In words, the method according to the invention is preferably carried out in such a way that a multilayer The cladding panel is the result of the fissile material on its front side consists.

In many cases, the process according to the invention can be carried out without further ado perform without special requirements must be placed on the adhesive. But if - which can happen especially with panels of great expansion - with Difficulties arise when the gap layer is lifted from the block, so these can after further teaching of the invention can be remedied in that an adhesive is used, which hardens under shrinkage. The shrinkage of the adhesive that occurs when it hardens (due to its adhesive properties on the surface of the gap layer to be lifted off firmly adheres) has the surprising effect that the gap layer automatically from Block takes off. This happens effectively and with the greatest reliability and is made possible an extremely gentle treatment of the material, so that damage to the split off Layers can largely be avoided.

- In the context of the method according to the invention, conventional adhesives be used, for example based on polyester, polyurethane and / or Epoxy resins or the like .. These adhesives can be widely used in terms of their shrinkage For the selection of the carrier layer exist in the frame the invention numerous possibilities. For example, the carrier layer can a more or less rigid plate of the type mentioned above made of plastic, Asbestos cement or the like. Be. Preferably, however, a flexible carrier layer is used worked. Especially when working with an adhesive that shrinks as it hardens it is recommended that the carrier layer is contractible in its plane to the Not to hinder the shrinkage process. In this regard, it turns out to be special advantageous if the carrier layer consists of a mat made of fiber material, preferably made of fiberglass. The mat can be a knitted fabric or a woven fabric act, on the other hand, the fiber material can also be present as a fleece in which the Fibers are only more or less loosely matted together.

The carrier layer can be applied in the previously painted onto the gap area Glue to be embedded. Preferably, however, the carrier layer, in particular if it is in the form of a mat made of fiber material, it is first impregnated with the adhesive and then on the cleavage surface (which in turn may be, but not necessary, coated with glue). It is best to use carrier layer and at least temporarily pressing on glue so that the layers are evenly thick and reproducible properties result.

To accelerate the process sequence, a fast-curing adhesive used. The waiting time for the glue to harden can be further shortened by the fact that the carrier layer and adhesive during hardening of Hot glue pressed onto the block. It is generally sufficient if Carrier layer and adhesive with only one heated press plate, i.e. under one-sided Heating, to be pressed because - in particular due to the layer structure of the used fissile materials - the heat dissipation into the interior of the block is relatively low. There is also the option of placing the block on a to heat substantially constant temperature during the process according to the invention repeats itself.

The invention also relates to a cladding panel made of fissile Material, which is characterized by a structure of a carrier layer, a Adhesive layer and a cleavage layer made of the fissile material. The split layer In an advantageous embodiment, it has a thickness of 0.1 to 1 mm, preferably from 0.2 to 0.5mm.

The advantages achieved by the invention consist essentially in that the possibility is created of cladding panels made of fissile material to produce without undesirable to avoid uncontrolled breaks high panel thicknesses must be machined. According to the invention, the fissile material lies in the form of thin, as it were elementary fissure layers, so that low costs, low weight and correspondingly simple assembly when using such cladding panels result. This is especially true when the composite is with the carrier layer is maintained, the cladding panels in the form of multi-layer panels made of carrier layer, adhesive and gap layer can be used. In any case it is the outer Appearance of the panels exclusively through the Determines the splitting process when lifting off the block, so it corresponds completely to the Appearance of the well-known, as it were massive plates of the initially explained Genus and consequently meets all requirements from an aesthetic point of view.

Finally, the method according to the invention can be simplified Way to perform. The fact that - although the fissile material in extremely thin Layer results - the risk of breakage is very low, resulting in cost Regarding extraordinarily favorable conditions.

The invention is described below with the aid of just one exemplary embodiment Illustrative figure explained in more detail, the basic in a schematic representation Structure of a cladding panel according to the invention shows in cross section.

The carrier layer 1, the adhesive layer 2 and the gap layer can be seen 3. The gap layer 3 may for example consist of slate, its thickness is between 0.2 and 0.5mm.

The top layer 2 consists of a synthetic resin based on polyester resin and is set so that shrinkage has occurred during hardening, so that the gap layer 3 as it were automatically from one when the adhesive hardens Block of fissile material has lifted off. The carrier layer 1 consists essentially from a fleece made of glass fibers 4, which are embedded in adhesive and thus a forms an integral bond with the adhesive layer 2.

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Claims (8)

Claims 9 method for producing a cladding panel made of fissile material, characterized in that a A carrier layer is glued onto blocks of the fissile material by means of an adhesive is, and that after the hardening of the adhesive is connected to the carrier layer Cleavage layer of the fissile material is lifted off the block by means of the carrier layer will. 2. The method according to claim 1, characterized in that the adhesive hardened under shrinkage. 3. The method according to claim 1 or 2, characterized in that the Carrier layer is contractible in its plane. 4. The method according to any one of claims 1 to 3, characterized in that that the carrier layer consists of a mat made of fiber material, preferably made of glass fiber, consists. 5. The method according to any one of claims 1 to 4, characterized in that that the carrier layer and adhesive warm to the block while the adhesive hardens be pressed on. 6. Cladding panel made of fissile material, in particular made according to a method according to any one of claims 1 to 5, characterized by a Structure of a carrier layer (1), an adhesive layer (2) and a chip layer (3) from the fissile material .. 7. cladding panel according to claim 6, characterized in that the gap layer (3) has a thickness of 0.1 to 1 mm, preferably 0.2 to 0.5 mm. 8. Cladding panel according to claim 6 or 7, characterized in that that the adhesive layer (2) consists of an adhesive that shrinks when it hardens.