DE3040344C2 - - Google Patents

Description

The invention relates to a method for producing a building Perlite-based granules for use as a Troc fill on untreated floors, which are provided with a covering, to compensate for an uneven surface.

Perlite are certain forms of liparite and quartz porphyry many small water inclusions. This water-containing raw pearl is heated and expanded to bloated perlite with ten- up to twenty times the volume. This rock foam is called dry pouring its lightness and low mechanical stability activity because of itself is hardly usable. With a known (DE-OS 27 39 375) The method of the type mentioned is Sprayed perlite with a liquid to remove dust the, however, whereby the lightness and low mechanical sta bility cannot be eliminated.

It is known (DE-PS 19 29 828), Perlite grains before Verar processing to be provided with a plastic coating in order to Processing this granulate with anhydrite will increase water absorption ability to reduce mortar production and thereby shorten drying times. For a dry fill in the building industry is a building material granulate with a plastic coating Flammability of the plastic not applicable due to Also points the plastic coating for a dry fill does not require firmness.

It is also known (DE-OS 16 71 182), expanded rock granules after its completion with a jacket made of hydraulic  To provide binders, the type of application of the binding means on the expanded stone grains is not specified. However is the production of a construction suitable for dry fill Granules of material then costly to dry if Perlite grains in an emulsion of hydraulic binder be immersed, with the emulsion also in the outer cavities the pearlite grains penetrate.

The object of the invention is therefore a method of the beginning to create the type mentioned, which results in a building material granulate at which the strength of the perlite grains through a coating he is incombustible, the outer cavities of the perlite Grain covers, binds an increased proportion of the mixing water and is easier to manufacture. The invention solves this problem by a method of the type mentioned, which ge features is that grains of the inflated perlite with a Coat of sulfate binder can be provided by the Perlite grains with mixing first with water or an aq sprayed saline solution and then evenly with the binder be sprinkled.

The granules produced according to the invention have the Un flammability and the increased strength of the coating still white Other important properties for dry fill. The Perlite Grains have a spherical, uniform shape, so that an equal moderate coating is easy to achieve. Have pearlite grains a coarse grain size suitable for dry filling. The inventor The coating provided according to the invention hardens with the binding of water very quickly after its manufacture, so that the invention produced granules shortly after production has a very low percentage of free moisture, which position and the use as dry fill is crucial.

The properties of the pearlite grain are important for the invention tig. The expanded perlite grain has a hollow structure and is a sufficiently coarse grain, d. H. Perlite is not powdery, like that that the coating of the grains is easier to carry out  leaves. The cavities of the inflated perlite are covered by the mantle not filled in, but covered. The jacket material adheres very well to the surface of the pearlite grain. After The casing usually contains spherical particles with good stability in front.

Although in the granules produced according to the invention the bulk weight is significantly increased by the coating, the Granu lat can still be called a lightweight material. Because the coat off sulfate binder is formed, the proportion of benet tongue water, which is bound as crystal water, large. At The setting reaction runs faster with sulfate binders or in the same time more completely than with conventional silicate materials. The method according to the invention is based on of spraying and sprinkling is simple and time-saving and provides sure that every pearlite grain is complete from the binder is encased. The pearlite grain is made according to the invention provided sheathing made heavy and stable, so that a usable, sufficiently heavy granules are present. In which Granules preferably have a perlite core in each granule, which is surrounded by the coat, or it is very fine-grained bloated te Perlite with the coating material to coarser particles gathered together.

The building material granulate produced according to the invention is used, for. B. is used as a dry fill on bare floors that are provided with a dry sub-floor (dry screed) to compensate for an uneven surface and for thermal insulation. Non-combustibility and dryness are particularly important for this application. The granulate is relatively light and does not need to be dried as a bed before it is brought in. The compressibility of a 5 cm high bed is approximately 0.3 cm when loaded with 0.25 N / mm ² in one embodiment of the invention. The thermal insulation is improved compared to other fill materials because they have higher densities.

It is crucial that the granules produced according to the invention for fillings, e.g. B. under a dry screed a very large Has shear strength. The strength should be the shear strength of the fill against stress that are not understood vertically but at an angle on the floor. For example, a person who enters a room practices on it Soil from the first step a shear stress where due to a bed with insufficient shear strength in itself is moved. A bed of manufactured according to the invention Granules have one against such a load sufficient high shear strength. An additional tie This fill is therefore not necessary. The invention Granules produced are particularly useful in the renovation of old buildings advantageously applicable.

It can be stated that with sulfate binders Anhydrite a more uniform, stable coat around the perlite Grains are plastered as a hemihydrate. However, the binding is reaction with anhydrite is a relatively slow reaction, while in the case of coating with hemihydrate gypsum, the setting process completed within a few minutes.

For example, an aqueous solution of iron potassium sulfate in the required amount is sprayed onto an amount of expanded perlite granules which is continuously stirred. Immediately afterwards, the required amount of anhydrite (CaSO ₄ ) is powdered over it. The amounts depend on the fact that a jacket with a sufficient content of dihydrate is formed, which gives the jacket the required strength.

It is particularly useful and advantageous if after loading sprinkle with binder while mixing again with Was it is sprayed. Through the water sprayed on first adhesion of the binder powder to the pearlite grains is achieved. The second spray of water takes place to the extent that the scattered binder should finally be set.  

The amount of binder per unit weight of Perlite depends primarily on how heavy the granules ultimately are should be. It is particularly useful and advantageous if that Perlite: sheath binder weight ratio of 1: 2 to 1: 6 and preferably about 1: 4. Here is the granu lat sufficiently heavy and the thickness of the casing such that the strength of the granules is particularly favorable. The coat with a granulate that can be used in practice, 0.5 mm to 2 mm, preferably about 1 mm.

For the use of the building material grap produced according to the invention nulates as a dry bed, it is particularly advantageous and useful if at least 65%, preferably at least 70% the granules have a grain size larger than 1.25 mm.  

Exemplary production of a building material according to the invention granules using hemihydrate gypsum:

40 l (3.2 kg) expanded perlite with a grain size of 0-4 mm and Bulk weight 80 g / l are in a rotating granulator Drum sprayed with 180-360 ml of water. The water is in sprayed fine droplets. After that, be prepared moist, rotating perlite mass 6-12 kg hemihydrate gypsum sprinkled evenly.

After completely sprinkling the hemihydrate plaster another 900-1800 ml of water for setting the piece Plaster sprayed onto the granules that have already formed. A solid, dry, only slightly dusting plaster is obtained coated perlite granules with a bulk density of approx. 250-400 g / l. If complete freedom from dust is desired you put some glycerin or water in the sprayed water another dust-binding substance, such as e.g. B. carboxymethyl cellulose too.  

So much hemihydrate gypsum is used that the perlite Grain completely covered by the plaster and the desired Bulk density is reached. There is also a surplus to avoid sprayed water, which would otherwise be caused by drying would have to be removed again. It has proven to be beneficial instructed to work with a water-gypsum ratio of 0.18 where z. B. 18 l of water can be processed on 100 kg of plaster.

Exemplary production of a building material according to the invention granules using finely divided anhydrite:

40 l (3.2 kg) of blown perlite with a grain size of 0-4 mm are in a rotating granulating drum with 250-350 ml one 15 percent aqueous solution of iron potassium sulfate sprayed. On the pre-moistened rotating perlite mass, 12-18 kg of anhydrite sprinkled evenly. After about ¼ of the An hydrits is added, with further sprinkling of Anhydrit 2000-3000 ml of the excitation solution sprayed on.

A pourable granulate is obtained. After a few days Storage, the anhydrite has set sufficiently, the granules then contains only a little free moisture, which after another few days through progressive hydration of the Anhydrite decreases to below 1%. The material then has a Bulk weight of approx. 400-550 g / l and is in use able state. If complete freedom from dust is desired you put a little glycerin or some in the excitation solution  other dust-binding material, such as. B. carboxymethyl cellulose to or spray such dust-binding substances in dissolved form on the perlite granules.

Claims (4)

1. A method for producing a building material granulate on a perlite basis, for use as a dry bed on raw soils which are provided with a covering, to compensate for an uneven surface, characterized in that grains of the expanded perlite are provided with a coat of sulfate binder by the pearlite grains are first mixed with water or an aqueous salt solution and then sprinkled evenly with the binder. 2. The method according to claim 1, characterized in that after sprinkling with binder with further mixing again is sprayed with water or an aqueous salt solution. 3. The method according to claim 1 or 2, characterized in that the weight ratio of perlite: coat binder from 1: 2 to 1: 6 and preferably about 1: 4. 4. The method according to claim 1, 2 or 3, characterized in that at least 65%, preferably at least 70% of the granules have a grain size <1.25 mm.