EP1919678A1 - Method for producing thin stone slabs - Google Patents

Abstract

Thin natural stone slabs (1), which are glued to a support (2, 3), can be produced by sawing thick natural stone slabs with the aid of a splitting machine (4).

Description

 Process for the production of thin-stone plates

The invention relates to a method for the production of thin natural stone slabs which are glued on a support.

Natural stones in the context of the present invention may in principle be all types of natural stones used for technical and decorative purposes. Preferred natural stones in the context of the present invention are granite and marble.

Thin natural stone slabs glued to a support are already known. They are made by thicker natural stone slabs, which are glued on a support, material-consuming and costly removed with a router.

From WO 87/00882 marble panels are known. The marble slabs are fixed on bars, which are mounted on a metallic support. The individual panels are connected with the help of clips.

From EP 0 255 795 A1, thin marble slabs are known whose rear walls are reinforced by glass fiber plates. The disadvantage here is that the glass fiber plates break easily and are heavy.

In DE 100 36 198 A1 dimensionally stable plate-shaped composite elements are described with a core of a specific light and a specially shaped honeycomb carrier material, said core with a wear layer material, for. B. a natural or artificial stone, is covered. The carrier material has tetrahedral truncated honeycombs which have circular or ellipsoidal, square or rectangular cutouts (col. 2, lines 26 to 44). As materials for the support material, polyethylenes, polypropylenes and polystyrenes are generally called (page 3, lines 4 to 8). As the examples show, commercially available polyurethane mounting foam was used. The anchoring to the ground is done with screws.

In DE 295 08 697 U1 large-area thin slate lightweight panels are described in which lightweight panels are glued against the slate to reduce the fragility. The lightweight carrier material can be made of aluminum or plastic (polystyrene or polyurethane) and is reinforced by glass fibers.

In DE 195 19 116 A1 a method for the production of natural stone lightweight panels is described in which the natural stone is glued with an adhesive film on the lightweight board. The lightweight carrier material can also be made of aluminum or plastic (polystyrene or polyurethane).

In DE 41 04 556 A1 plate-shaped natural stone composite elements are described, which have on the, the cover plate opposite side, a leveling layer or equalization zone. The compensation layer or compensation zone should consist of a material that is easily removable in contrast to the plate material (column 2, line 65 to column 3, line 8).

EP 1 298 262 A1 describes the production of thin natural stone slabs. On both sides of the natural stone plate carrier plates z. B. attached with a two-component epoxy adhesive. The separation of the plate is then done with the aid of a gang saw.

In other cases, thick natural stone slabs are glued to both sides with a carrier and then sawed through in the middle with a rope or gang saw. The quality of the natural stone surface in these sawing processes is unsatisfactory.

Thus, it is understood that thin-walled slabs having a thickness of less than 6.25 mm are fixed on a support for a wide commercial use, e.g. In the Building area (floors, walls or facades) are not offered, since the production methods described above for mass production are too expensive.

The cut surfaces obtained by the known separation processes are uneven and must be smoothed accordingly consuming. These processes are time consuming and expensive, so that a continuous industrial production is not possible. In the case of soft marble so-called horizontal working splitting machines with two parallel rows consisting of 2 to 3 successive circular saws in the market to split thicker marble slabs to marble slabs with a thickness of 10 to 15 mm.

For sawing (splitting) of the much harder granite these machines are not useful.

For sawing natural stone, a splitting machine for natural stone is known, in which a plurality of serially arranged diamond-covered saw blades rising saw blade diameter are arranged on a drive axle. According to the manufacturer, thin natural stone slabs in the range of 6.25 to 8 mm thickness can be produced with this machine. The production of thinner plates is practically impossible because of the high mechanical load and the loss due to plate breakage.

Object of the present invention is to provide a method for producing very thin natural stone slabs.

It was a process for the production of thin natural stone slabs on a support by sawing thicker natural stone slabs, which are glued on both sides each with a carrier found, which is characterized in that the thicker bonded to the carrier on both sides of natural stone slabs using a splitting machine for natural stone with several consecutively rising, with diamond-occupied saw blades rising Saw blade diameter, which are arranged on a drive axle, to be separated.

Thin natural stone slabs in the context of the present invention are slabs with a thickness of the stone in the range of about 0.3 to about 6 mm. In the context of the present invention may preferably plates having a thickness in

Range of 1 to 6 mm, more preferably in the range of 1, 5 to 5.5 mm, and more preferably in the range of 2 to 5 mm are produced.

Of course, it is also possible by the method according to the invention glued to support natural stone slabs with a thickness of greater than

6 mm.

The thicker plates to be cut generally have about twice the thickness of the thin plates to be produced according to the invention.

The use of a splitting machine for natural stone with several serially connected, diamond-tipped saw blades rising saw blade diameter, which are arranged on a drive axle for sawing thicker natural stone slabs, which are glued on both sides with a carrier is new and allows surprisingly the production of very thin Natural stone slabs on a support whose production in high quality was previously not possible.

It was unlikely that the use of a splitting machine for natural stone with several consecutively set, with diamonds occupied

Saw blades rising saw blade diameter, which are arranged on a drive axle for sawing thicker natural stone slabs, which are glued on both sides on support, was possible because a .: the adhesion between the natural stone slabs and the support plates by the inevitably intense action of Schlemm and cooling water would attack the adhesive destroying, b.: Under the high mechanical load at cutting thicknesses below 6 mm the

Occurrence of cracks in natural stone the specialist unavoidable appears and c: bends the plate system more or less some time after the bonding of natural stones on a support (especially for carriers with a thickness of less than 20 mm based on wood, recycled materials or plastic).

The splitting machine for natural stones for the method according to the invention is known per se.

The splitting machine for natural stones generally consists of successively connected saw blades (diamond-set) with increasing saw blade diameter, which are arranged in series on a drive axle. In series more than 20 saw blades can be arranged.

Each saw blade cuts one piece deeper into the stone. For example, in granite, the first saw blade cuts approximately 15 to 20 mm deep, the next saw blade cuts another 15 to 20 mm deep, etc. ₍

The saw blades can be arranged horizontally or at an angle of inclination. The water supply for cooling and slurrying the sawdust is continuously ensured by the arrangement of the saw blades.

In order to produce wider plates of thin stone on support plates, a machine type is useful, which consists of two parallel, but staggered rows of saw blades. Each row of saw blades consists of several consecutively arranged with diamond-covered saw blades rising blade diameter. The stone is sawn on both sides at the same time.

In the case of the single-row natural stone splitting machine, doubling of the slab width can be achieved by first cutting the stone halfway through and then turning it off from the other side in the second sawing step. The achievable width of the thin stone slabs is currently technically limited by the diameter of the saw blades, which still allows a vibration-free sawing process.

According to the present invention, the separation of a thicker natural stone slab with the natural stone splitting machine may be carried out centrally but also elsewhere to produce two different thicknesses of thin natural stone slabs, each on a support.

It is noteworthy that with a splitting machine for natural stones according to the invention can be easily prepared up to 1500 m ² / day of granite / support plates. The cut is completely flat after appropriate machine adjustment, so that hardly needs to be recalibrated. Due to this method, plate systems made in this way can be widely used. Material loss is minimized and natural resources are spared accordingly.

According to the present invention, a carrier is glued on both sides of the thicker natural stone slab.

For the process according to the invention, adhesives which are largely water-resistant and elastic due to the selected molecular structure are preferred. It is preferred to use adhesives based on silicone, polyurethane or epoxy (single or two-component adhesive).

It has been found that the systems of natural stones on supports are particularly resistant to detachment, bending or cracking when the natural stone is provided with a thin layer of glass fiber or plastic before being fixed to a support. Here, the fiber is also applied with the epoxy, PU adhesive or a similar adhesive. For the process according to the invention can be used as a carrier commercially available

Construction materials are used

Preferred supports may be, for example: HDF boards, MDF boards, screen printing plates,

Carriers made of recycled material z. B.: Phonothermic plates,

Support made of rigid foam or compact plastic z. B: polyacrylic, HPS

(polystyrene), polycarbonate, polyester, polyetherimide, polypropylene, polyethylene,

Polyamide carrier made of plastic honeycomb (honeycomb systems) z. B: polyacrylic,

Polystyrene, polypropylene, polyethylene, polyester, polyetherimide, polyamide,

Aramid, wherein the interior of the plastics each have a honeycomb structure.

Carrier made of light metals such as aluminum or titanium. Between two metal plates can honeycomb plastic inserts z. B. from: polyacrylic, polystyrene, polyamide, polyetherimide, polyamide, aramid.

Support made of glass foam.

In some cases (eg with hard foam or HDF supports) it may be advantageous to use the supports used in the process on the top and / or bottom

To coat underside, z. With:

a melamine or phenolic resin

- a carbon fiber or glass fiber.

In the context of the process according to the invention, the supports may preferably be 0.5 mm to 100 mm, in particular preferably 7 mm to 30 mm thick.

The process according to the invention can be carried out, for example, as follows:

A thick natural stone slab is glued on both sides with a carrier to form a sandwich. The two carriers may be the same or different. With the described splitting machine for natural stones becomes the natural stone is sawn through. This gives two plates consisting of natural stone each glued to a support.

The achievable width of the thin slabs is technically limited by the diameter of the saw blades, which still allows a vibration-free sawing process. The progressive development in the field of natural stone saw blades using new alloys enables the production of thin stone slabs with a width of more than 60 cm.

To increase the flexibility and stability of the natural stones may be covered with a glass fiber or carbon fiber fabric on the underside.

In a particular embodiment of the method according to the invention, the carriers can be coated on the top and bottom with a melamine or phenolic resin and with a carbon fiber or glass fiber.

The present invention may be illustrated by FIGS. 1 and 2:

Figure 1 shows a splitting machine for natural stones (4) with a series of saw blades, which are driven by the drive axle (5).

The natural stone slab (1) is glued between the supports (2 and 3).

Figure 2 is a splitting machine for natural stones (4) with two rows of saw blades, which are driven via the drive axle (5).

The natural stone slab (1) is glued between the supports (2 and 3).

The produced by the novel process natural stone slabs on carrier are economically extremely interesting, as in relation to the massive natural stone a significant reduction in weight is achieved, resulting in a wide range of applications, inter alia, in the fields of construction (floors, walls, ceilings, facades), furniture, kitchen panels , Aviation, Caravan, yacht or railway construction opens up. When using support materials such. As HDF, or recycled materials can be laid in the private sector floors and walls much easier with natural stones, as if heavyweight massive natural stone slabs must be laid. If the wearer is equipped with a NuW spring system or a click system, the layman will also be able to lay the thin-stone slabs "do it your self", especially as it is possible to cut the thin slabs even with simple cutters from DIY stores Dry laying can be done without manual skills by the layman.

Examples;

Example 1 :

Production of plates consisting of 3 mm thick granite slabs glued on 8 mm thick HDF carriers.

A 10 mm thick granite slab of Blue Pearl with the dimensions: 61 cm long and 30.5 cm wide is provided by means of an elastic PU adhesive with a thin glass fiber and then with the same adhesive on both sides in each case with an 8 mm thick, 61 cm long and 30.5 cm wide HOF plate stuck. The carrier plates are plastic-coated on the top and bottom.

With a special sawing machine, the granite plate is cut through in the middle.

This machine consists of a series of 20 consecutive saw blades rising saw blade diameter, the saw blades are all arranged at the same height. The saw blades are diamond-studded.

The sandwich is now divided into two identical plates each consisting of a carrier plate glued with a granite layer only 3 mm thick (from the granite plate used 3 to 4 mm in the form of sawdust lost). The preserved natural stone slabs are calibrated, chamfered and polished.

Example 2:

Production of slabs consisting of 3 mm thick marble slabs glued on 8 mm thick HDF supports and on slabs of 30 mm thick lightweight construction slabs with a 2 mm thick marble layer.

On a plate consisting of a 30 mm thick lightweight carrier with a length of 61 cm and a width of 30.5 cm glued to an 8 mm thick plate of Estremoz marble with the dimensions: 61 cm long and 30.5 cm wide glued with an epoxy adhesive, an 8 mm thick, 61 cm long and 30.5 cm wide HDF plate. The HDF carrier plate is coated on the top and bottom with plastic.

With a sawing machine, the marble slab is cut horizontally. The machine consists of two parallel rows of 3 saw blades each. The respective offset opposite leaves have the same diameter. Within the rows the saw blade diameter increases. The saw blades are diamond-studded.

It remains a plate consisting of the lightweight carrier and an approximately 3 mm thick marble layer, and a plate of the HDF carrier and a 2 mm thick marble layer.

The preserved natural stone slabs are calibrated, chamfered and polished.

LIST OF REFERENCE NUMBERS

1. Natural stone plate

2nd first carrier 3rd second carrier

4. Splitting machine for natural stones with several serially connected, covered with diamonds saw blades rising saw blade diameter

5th drive axle

Claims

1. A process for the production of thin natural stone slabs on a support by sawing thicker natural stone slabs, which are glued on both sides with a carrier, characterized in that the thicker bonded to the carrier on both sides natural stone slabs using a splitting machine for natural stones with several series connected, with Diamonds occupied saw blades rising saw blade diameter, which are arranged on a drive axle, to be separated.

2. The method according to claim 1, characterized in that the thin natural stone slabs have a thickness in the range of about 0.3 to about 6 mm.

3. The method according to any one of claims 1 or 2, characterized in that the glued natural stone panels made of marble or granite and on the bottom with a glass fiber or

Carbon fiber fabric are coated.

4. The method according to any one of claims 1 to 3, characterized in that a thick natural stone slab glued on the underside and on the top, each with a carrier and with the help of a

Sawing machine is cut centrally, the machine is equipped with more than 20 successively connected, covered with diamonds saw blades of increasing size.

5. The method according to any one of claims 1 to 4, characterized in that the carriers have a thickness of 0.5 mm to 100 mm.

6. The method according to any one of claims 1 to 5, characterized in that the carriers have a thickness of 7 mm to 30 mm

7. The method according to any one of claims 1 to 6, characterized in that the carrier based on wood, plastic, hard foam, glass foam,

Metal, or recycled material are constructed.

8. The method according to any one of claims 1 to 8, characterized in that the carriers are coated on the top and bottom with a melamine or phenolic resin and with a carbon fiber or glass fiber.