DE4134296C1 - Composite stone slab - comprises concrete base of natural stone aggregate and upper layer of the natural stone itself - Google Patents

Abstract

Composite stone slab consists of a layer of concrete over which is an upper layer of natural stone, pref. of granite. The coarse aggregate of the concrete layer is formed by angular chips of the same natural stone material as the upper layer. An intermediate layer of bonding material can increase adhesion between layers. ADVANTAGE - Prevents stresses between layers.

Description

The invention relates to a composite stone slab at least two in the installed state one above the other arranged, essentially over the entire area connected layers, with the upper layer of one Natural stone and the bottom layer of a concrete layer is formed.

Such composite stone slabs are known from EP 01 76 471 A2 known and allow the use of, for example for optical reasons preferred natural stones as Flooring, with a high load capacity of the panels at the same time reduced material requirements Natural stones is reached.

However, difficulties remain here desired permanent connection of the two layers, especially since they are usually laid outdoors  Composite stone slabs not only have a high thermal Alternating load, but also the moisture are exposed. Tensions between the two layers can therefore lead to fine cracks through which Moisture can penetrate under the influence of Frost destruction or at least damage to the Composite stone slab can cause.

The invention has for its object a To create composite stone slabs of the type mentioned at the beginning, in which the appearance of tension between the upper Layer of natural stone and the lower one of concrete existing layer is reduced.

This object is achieved according to the invention in that the coarse aggregates of the concrete layer through angular shaped chippings from the same natural stone material as the top layer are formed.

The progress achieved by the invention is based on essential that the angularly shaped split a higher proportion of these aggregates compared to gravel in Concrete is reached so that the proportion of cement can be reduced. This occurs when the Concrete a significantly lower shrinkage, which also possible tensions can be kept lower.

Another favorable property can be seen in the fact that the aggregates consisting of grit, which from the same material as the top layer, have the same thermal expansion properties, so that also to the extent that the occurrence of tensions is avoided.  

Another advantage of the invention is that the aggregates consisting of grit by a Crushing and painting system from existing natural stone waste can be made so that there is a disposal this waste material is unnecessary.

In a preferred embodiment of the invention, the upper one Layer formed by a granite slab.

Furthermore, in an expedient embodiment of the invention be provided that the upper and lower layers over an agent that increases the adhesiveness Interlayer are interconnected. These Intermediate layer is advantageously from one Cement, quartz sand and plastic material existing Binder formed. For example, this is from the company Polychemie in Augsburg under the Trade name Repahaft offered binders suitable.

Particularly good material properties of the concrete reached when the consisting of grit Aggregates are formed from grains, their ratio from length to thickness is not greater than 3: 1.

It has also proven to be advantageous if the aggregates consisting of grit consist of a weight fraction of 15 to 25% of the grain group 2 to 8 mm, from 35 to 45% of the grain group 8 to 16 mm and from 35 to 45% of the grain group 16 assemble up to 22 mm. These individual grain groups are fractionated by sieves, so that the size dimensions given relate to the thickness of the grains.

In a preferred mixing ratio, the aggregates consisting of grit are composed of a weight fraction of 23% of the grain group 2 to 8 mm, of 38.5% of the grain group 8 to 16 mm and of 38.5% of the grain group 16 to 22 mm.

Furthermore, it has proven to be favorable if the Concrete composition for the concrete layer about 53% Existing aggregates, about 28% sand, about 14% cement and about 5% water. It can the proportion of sand from natural sand or from Natural stone material existing crushed sand.

Finally, the invention provides that the top layer of natural stone is 2 to 4 cm thick and the lower layer formed as a concrete layer Has a thickness of 8 to 12 cm.

In the following the invention on one in the drawing illustrated embodiment explained in more detail; it demonstrate:

Fig. 1 is a perspective view of the composite slab,

Fig. 2 is a vertical section through the object of FIG. 1 in only a partial representation.

The composite stone slab shown in the drawing consists of two layers 1 , 2 arranged one above the other in the installed state and connected to one another over the entire surface. The upper layer 1 consists of a natural stone, while the lower layer 2 is formed by a concrete layer.

The concrete layer contains aggregates of angularly shaped granite chippings in a manner not shown in the drawing. The angular design of these additives means that smaller spaces are achieved compared to the use of gravel, which means that the required amount of cement and sand-like additives can be significantly reduced. As a result, when the concrete sets, less shrinkage and therefore lower stresses are achieved on the finished composite stone slab. Since the aggregates consisting of chippings and the upper layer 1 are made of the same material, largely identical expansions occur here under a thermal alternating load, as a result of which a further reduction in possible stress can be expected.

In a preferred embodiment, the upper layer 1 is formed by a granite slab.

As indicated in FIG. 2, the upper layer 1 and the lower layer 2 are connected to one another via an intermediate layer 3 which enhances the adhesiveness. This intermediate layer 3 can be formed by a binder consisting of cement, quartz sand and plastic material, as is available on the market under the trade name Repahaft from the company Polychemie, Augsburg. The aggregates consisting of chippings are formed by grains, which should meet the requirements for fine chippings. According to this, the ratio of length to thickness (not width) should not be greater than 3: 1. In any case, the proportion of such grains that do not comply with these regulations should not exceed 20 percent by weight.

The aggregates consisting of grit can be composed of a weight fraction of 15 to 25% of the grain group 2 to 8 mm, from 35 to 45% of the grain group 8 to 16 mm and from 35 to 45% of the grain group 16 to 22 mm. The individual grain groups are obtained by fractionation using sieves, so that the dimensions given relate to the thickness of the grains. A particularly favorable mixture ratio has been found to be 23% by weight of the grain group 2 to 8 mm and 38.5% of the grain groups 8 to 16 mm and 16 to 22 mm.

The concrete composition for the concrete layer shows approximately 53% aggregates consisting of grit, about 28% Sand content, about 14% cement and about 5% water. The The proportion of sand can either come from natural sand or from crushed sand made of natural stone material be.

It finally turned out to be cheap if the top layer of natural stone has a thickness of 2 to 4 cm and the lower layer designed as a concrete layer has a thickness of 8 to 12 cm.

Claims (10)

1. A composite stone slab composed of at least two layers ( 1 , 2 ) arranged one above the other in the installed state and essentially connected over the entire surface, the upper layer ( 1 ) being formed by a natural stone and the lower layer ( 2 ) being formed by a concrete layer, characterized in that that the coarse aggregates of the concrete layer are formed by angularly shaped chippings from the same natural stone material as the upper layer ( 1 ). 2. composite stone slab according to claim 1, characterized in that the upper layer ( 1 ) is formed by a granite slab. 3. Composite stone slab according to claim 1 or 2, characterized in that the upper and lower layers ( 1 , 2 ) are connected to one another via an intermediate layer ( 3 ) which increases the adhesiveness. 4. A composite stone slab according to claim 3, characterized in that the intermediate layer ( 3 ) is formed by a binder consisting of cement, quartz sand and plastic material. 5. composite stone slab according to one of claims 1 to 4, characterized in that the consisting of grit Aggregates are formed by grains, the Length to thickness ratio not greater than 3: 1 is.   6. composite stone slab according to one of claims 1 to 5, characterized in that the consisting of grit Aggregates from a weight percentage of 15-25% the grain group 2-8 mm, from 35-45% of the Grain group 8-16 mm and from 35-45% of the Assemble the grain group 16-22 mm. 7. composite stone slab according to one of claims 1 to 6, characterized in that the consisting of grit Aggregates from a weight percentage of 23% the grain group 2-8 mm, from 38.5% of the grain group 8-16 mm and from 38.5% of the grain group 16-22 mm put together. 8. composite stone slab according to one of claims 1 to 7, characterized in that the concrete composition for the concrete layer about 53% consisting of grit Aggregates, about 28% sand, about 14% cement and has about 5% water. 9. composite stone slab according to claim 8, characterized characterized in that the sand portion of natural sand or of crushed sand made from natural stone material is formed. 10. Composite stone slab according to one of claims 1 to 9, characterized in that the upper layer ( 1 ) made of natural stone has a thickness of 2 to 4 cm and the lower layer ( 2 ) formed as a concrete layer has a thickness of 8 to 12 cm.