DE2713090C3 - Concrete stone, process for its manufacture and its use - Google Patents

Description

The invention relates to a cement-bonded cast stone, a method for its production and its use.

There are cement-bound cast stone raw blocks known, which after sufficient setting and Hardening is intended to be used with diamond saw frames to form plates with a thickness of, for example, 2 to 20 cm to be sawn open, which can be used as such or from which in a further operation Steps, window sills, floor coverings, facade cladding panels etc. cut out and manufactured can be.

Since at the time of the production of the ingots it is not yet clear which molded parts and how Stair treads, etc., the blocks or the slabs are to be divided, received these raw concrete blocks so far no rebar reinforcement; because this reinforcing steel could be lacking in the manufacture of the raw blocks Knowledge of the final formats to be produced from it are not inserted, as the steel rods otherwise during the Sawing the raw blocks or cutting through the sawed-on panels is always visible at the front edges cause difficulties during processing and rust on the surface.

It was therefore not possible to use the well-known unreinforced cast stone for the production of z. B. cantilevered steps and other statically strong ^ stressed concrete molded parts.

There are also cement-bonded concrete structures are known that with by artificial resin alkali-resistant glass fiber mats are reinforced with multiple layers (DD-PS 41 435). These concrete structures are not divided afterwards, so that the multilayer reinforcement apparently only under Strength aspects takes place, whereby the synthetic resin-soaked fiberglass nets according to the Inserting can still be shaped in a suitable manner. Certain synthetic resins or their coloring are in not disclosed in this context It is only a matter of glass fiber strands or rods so prepare and connect with concrete that the influences attacking the fiberglass are eliminated and it can be used with a suitable preload.

On the other hand, an artificial stone is known (DE-GM 18 09 732), which consists of cement mixed with one another and filler consists essentially of plastic chips and / or plastic fibers as well as for smaller part of preferably powdery admixtures, z. B. stone, quartz or plastic flour, composed and a colored plastic additive to achieve a marble-like or with any Patterned surface can contain. To increase the strength can be used in the artificial stone Plastic rods or a plastic mesh can be inserted as reinforcement.

The invention is based on the object of a cement-bonded cast stone, which with Synthetic resin impregnation alkali-resistant glass fiber mats are reinforced with multiple layers, and a method for this To improve production so that it can be used for the production of z. B. cantilevered stairs and other static stressed molded concrete parts by sawing the raw blocks into panels and cutting out the Molded parts from the panels is suitable and the glass fiber mat reinforcement even after cutting the concrete stone by severing the glass fiber mats at the cut edges is not visible.

This object is achieved in that the glass fiber mats with epoxy resin with a the cast stone material is colored, soaked and that the fiberglass mats in Distances corresponding to the thickness of raw panels to be sawed from the raw block are arranged.

By impregnating the glass fiber mats with the color matched to the cast stone material Epoxy resin ensures that the alkali-resistant reinforcement is cut through at the front edges is practically invisible, and arranging the fiberglass mats in the thickness of from the ingot too Sawing raw panels with appropriate distances ensures sufficient strength of each raw panel and every one of these, cut out by cutting through the reinforcement layer, subjected to high static loads Molded part, e.g. B. a cantilevered step or the like.

Thanks to this new type of concrete reinforcement made of glass fiber mats, the raw blocks produced with it can after hardening, easily with the usual diamond saw frames to raw panels from 2 to 20 cm Thickness, for example 7 cm thick, can be sawn, and the raw panels can also be cantilevered stairs or other statically heavily stressed molded parts with the usual diamond cutting discs can be cut to size without additional difficulties due to the embedded glass fiber mat reinforcement arise during processing and without

There is a risk of rusting the reinforcement.

The weight proportion of the glass fiber mat reinforcement is relatively very low and can easily be below 1%, z. B. be V3% of the total weight.

The invention also relates to a method for producing a cement-bonded cast stone by laying in several layers of alkali-resistant glass fiber mats due to synthetic resin impregnation into a concrete starting mix in a block form, setting and hardening of the concrete starting mix, with the indicator that in the concrete starting mixture with epoxy resin, that with one of the cast stone material adapted color is dyed, soaked glass fiber mats are inserted at intervals that correspond to the thickness of raw panels to be sawed from the raw block.

This makes it possible to manufacture raw panels, each with a glass fiber mat reinforcement in the Midway between the top and bottom of the plate

The fiberglass mats can also be inserted at different distances if from the raw block several panels of different thicknesses are to be sawn. The insertion takes place after a certain Depending on the panels to be produced, plan in such a way that each panel that is sawn out afterwards has about reinforcement half height. Appropriately, after the ingot has set, the levels are visibly marked on the outside, on which the fiberglass mats are inserted.

For particularly stressed molded parts, several glass fiber mats can be inserted per panel.

Finally, the subject matter of the invention is the use of an unfinished concrete block according to the invention for the production of reinforced raw slabs by sawing out the raw block and of the same area reinforced molded parts, such as self-supporting steps, window sills, floor coverings, facade cladding panels, by cutting out of the raw panels.

Incidentally, these can of course be novel cement-bound cast stone blocks with the reinforcement made of alkali-resistant and color-matched Glass fiber mats can also be used directly without having to saw them into sheets and smaller molded parts will.

The invention is explained in more detail using an exemplary embodiment illustrated in the drawing; in it shows

Fig. 1 is a perspective view of a cast stone block with glass fiber mat reinforcement,

Fig. 2 is a perspective view of one from the block according to FIG. 1 raw panel sawn out.

A cementitious concrete starting mix was poured into a block mold and in the process pre-selected intervals of 7 with glass fiber mats colored to match the concrete 2 inserted as reinforcements, the first of which approx. 3.5 cm above the bottom of the mold. After the ingot has hardened 1

ίο this was sawn into 7 stepped raw claws 3 with about 7 cm thickness of the bottom plate in such a way that the glass fiber mat reinforcement was in each case halfway between the top and the bottom of the raw plate 3. It can be seen in FIG. 1 the position of the glass fiber mats 2 and the intended cutting lines S ₁ .

The raw concrete slabs 3 sawed out of the raw block 1 had a format of 1.35m-2.45m, ie 3.3m ² . From this, according to FIG. 2, parts were sawn out in step form in any direction according to the cutting lines S ₂ , which can also be used for supporting staircases due to the glass fiber mat reinforcement. Stairway windows and other molded parts were cut from the raw panels 3 using conventional diamond cutting disks, the glass fiber mesh reinforcement 2 not causing any difficulties. At the cut edges, the glass fiber mat interfaces were hardly visible or not at all visible, since the color of the glass fiber mats 2 practically matched that of the concrete.

A raw panel 3 sawn from the raw block 1 and having the thickness of 7 cm mentioned had a weight of 175 kg / m ² ; the weight of the glass fiber mat reinforcement was 0.6 kg / m ² , ie only about 1/3% of the plate.

Compressive strength measurements gave a mean value of 9807 N / cm ^: -, flexural strength measurements a mean value of 932 to 981 N / cm ² .

These values are considerably higher than the values required by DIN standard 18 500.

A stair step approx. 37 cm wide cut from such a raw slab 3 showed a tear load of approx. 9807 N and a breaking load of 14 710 N.

The embedded fiberglass armoring 2 prevents broken off by any causes Step pieces can fall off.

Just like the steps explained above, other steps can also be achieved using this method manufacture reinforced concrete components such as balcony parapet panels, etc.

1 sheet of drawings

Claims (4)

Patent claims: 1. Cement-bonded artificial stone, which is reinforced with alkali-resistant glass fiber mats by synthetic resin impregnation, characterized in that the glass fiber mats (2) are impregnated with Epodix resin, which is colored with a color matched to the artificial stone material, and that the glass fiber mats at intervals equal to the thickness of from the raw block to be sawed _{) 0} raw panels are arranged. 2. Concrete stone according to claim i, characterized in that the weight fraction of the glass fiber mat reinforcement (2) is less than 1%, preferably about 1/3%. 3. A method for producing a cement-bound cast stone according to claim 1 or 2, by laying in several layers of * synthetic resin impregnated alkali-resistant glass fiber mats in a starting concrete mix in a block form, setting and hardening of the starting concrete mix, characterized in that in the initial concrete mixture with epoxy resin, which with a Colored to match the cast stone material, soaked fiberglass mats at intervals are inserted, which correspond to the thickness of the raw panels to be sawed from the raw block. 4. Use of an artificial stone raw block according to claim 1 or 2 for the production of Reinforced raw slabs by sawing out the raw block and molded parts with the same area of reinforcement, such as cantilevered steps, window sills, floor coverings, facade cladding panels Cutting out of the raw panels. 35