DE1943634B2 - Process for the production of a horizontal floor covering from a mass based on an anhydrite binder - Google Patents

Description

The invention relates to a method for Production of a horizontal floor covering supported on a load-bearing base, the covering from a hardening mass mixed with water on the basis of anhydrite binder with an additive a sulfite- or sulfonic acid-modified resin based on an amino-s-triazine with at least 2 NHi groups is formed.

A method for producing a waterproof screed from anhydrite binder has been proposed, in which in the mortar mass, which is next to the binder. based on the anhydrite, contains 200 to 300 percent by volume of sand, a sulfite- or sulfonic acid-modified resin based on an amino-s-triazine with at least 2 NH2 groups and metal oxides or hydroxides, in particular those of the alkaline earth metals and aluminum, can be incorporated. The screed made from this mortar mass also achieves the minimum bending tensile strength prescribed by DIN 4208 (40 kg / cm ² ) when the screed hardens under the influence of moisture.

In the above-mentioned method, the procedure is to add enough water to the mortar to produce a plastic mass that is distributed as evenly as possible by workers with tools on the supporting base for the screed. Although the compound can be spread, it is so resistant to its spreading on the substrate that laying the screed is often felt to be relatively laborious. In addition, with this method and also with the other known screed laying methods, achieving an exactly flat and horizontal surface of the screed is problematic and ultimately depends on the care of the workers, although the irregularities occurring in the surface formation of the known floor coverings have always been perceived as a disadvantage , this problem has not yet been satisfactorily resolved. These irregularities also appear when floors made of tiles, plastic plates and sheets or similar prefabricated parts are laid on a screed covering. The glossier the surface, the more clearly the aforementioned irregularities become apparent in backlighting. Therefore, before laying such floor coverings, it was often necessary to fill the sub- floor several times. without achieving a technically fully satisfactory solution.

The measures used to date for leveling the surface of a screed covering are therefore inadequate and relatively expensive. Only a very limited person can use a spirit level Surface area can be leveled.

With a hose level, with the larger distance can be bridged, level adjustment points can only be determined at certain points. The leveling of the surface of the pavement between such widely spaced and only point-wise level adjustment points is largely dependent on the craftsman's sense of proportion and skill. Besides, that is all very wage-intensive.

The aforementioned disadvantages also adhere to those screed laying methods in which instead of anhydrite binders another binder building material, such as cement, is used.

Pourable plaster of paris have already become known, but they can be poured on a load-bearing underlay, no floor coverings with an absolutely horizontal surface without the one for stripping Have the necessary manual work done on the surface. One would make the plaster of paris so strong with water dilute that they are on a surface like a Spread the liquid and level it by itself under the influence of gravity, then result after curing strengths that are far below the required minimum values.

The invention is based on the object of providing a method for producing a self-supporting structure To create underlay supporting horizontal flooring from a mineral building material that therefore with a significantly lower amount of work than the known Estricriver laying method can be carried out because for leveling the surface of the mortar must be applied to the substrate manual labor is no longer required; t. In solving this problem, as far as can be seen, not yet It was found that the method mentioned at the beginning, in which a mortar on the base of anhydrite binder with admixture of a sulfite or sulfonic acid-modified resin based on a Amino-s-triazines with at least 2 NH2 groups is processed into one with surprisingly good success Surface casting process can be further developed. The solution to the problem of the invention is that from such a mortar mass initially with the addition of water up to a maximum weight ratio

nis of water to anhydrite binder of 50: 1 QQ, preferably 40: 100 and possibly of sand in the amount of max. 50 percent by volume, based on the anhydrite, when spreading on a base of self-leveling slurry produced and then poured out on the base and under Maintaining the horizontal surface formed by the leveling is brought to solidification.

According to the invention it is possible to produce a mortar composition based on an anhydrite binder, which before hardening in terms of their leveling ability on a supporting base similar to a liquid behaves and, under the influence of gravity, an exactly horizontal surface by itself is awarded, which retains the mass until it hardens. This has a beneficial effect that the The mass hardens with almost no shrinkage, which is a major advantage over such screed mortars, which contain a cement-based binder.

Under "anhydrite" is a mixture to be understood _a o hen from a anhydrite with its hardening, especially its hydration, influencing substance that generally "stimulator" is called. The anhydrite occurs in nature (natural anhydrite); but it can also be obtained chemically in the production of hydrofluoric acid by digesting fluorspar with sulfuric acid (synthetic anhydrite). The properties of the anhydrite used to produce the anhydrite binder and the stimulants to be added to the anhydrite are described in detail in the German standards DIN 4208 and in Ulimann's Encyclopedia of Industrial Chemistry. Volume 8 (1957). P. 107 and 117. Lime or potassium sulfate, for example, are added in small amounts (preferably 0.5 to 2% by weight, based on the anhydrite binder) to the mixing water for the mass to be produced from the anhydrite.

Since the mortar mass processed according to the invention only contains a maximum of 50 percent by volume of sand, based on the Anhydrite, its solids content is significantly lower than in the process mentioned at the beginning Production of a waterproof screed and also a's with the other screed laying methods with anhydrite binder; here, as already mentioned, the sand content is 200 to 300 percent by volume, based on anhydrite. The low solids content affects that The flow behavior of the mortar mass is very favorable, which is why the process according to the invention is preferably also carried out with an unlean anhydrite binder will. With the previously processed mortars based on anhydrite binders, one would consider to achieve a flowability comparable to that of the mortar composition according to the invention, the high one Try to compensate for the solids content by adding a correspondingly high amount of water, then the resulting Screed show completely insufficient strength.

The result achieved with the method according to the invention is surprising in that it is used of gypsum as a binder material in spite of the addition of the resin used according to the invention when used comparable water proportions are not sufficient for the formation of an absolutely horizontal surface Flowability of the mortar mass is obtained.

The Möriel mass used in the process according to the invention can also have other effects their flowability beieeecben beneficial additives be, so z. B. wetting agents or surface-active substances. The proportions of the individual additives and also the proportion of water in the mortar mass are matched to one another in such a way that the respective Requirements, which can be very different, are taken into account. she depend, for example, on the length of the flow paths. In any case, however, one will have to pay attention to that the mortar mass has sufficient flowability so that the object of the invention, namely that the mass can level itself when spreading on the supporting surface, is achieved. Flow velocities of 2 m / min, have proven to be practical. For shorter flow paths, the Mortar mass according to the invention does not necessarily have to be added to a special substance that causes it to settle the solid particles prevented or delayed. However, the use of a sedimentation inhibitor can be useful.

The resin content in the mortar composition according to the invention is generally between 0.5 and 10% by weight, based on the anhydrite binder. If next to the resin metal oxides or hydroxides are also added to the mortar mass, their content generally lies between 1 and 6% by weight, based on the anhydrite binder. Metal oxides or hydroxides are preferably the Alkaline earth metals or aluminum are used. The proportions of the resin and the oxides in the The mass is expediently adjusted to one another so that at least 1 mole of alkaline earth is available per mole of acid group stands.

The invention is explained below on the basis of an exemplary embodiment described:

To produce a screed on a solid concrete ceiling, a mixture was used in the drum mixer made of the following composition:

1695 kg of synthetic anhydrite with a

CaO content of about 1%
25.5 kg stimulator (K2SO4)
0.17 kg of methyl hydroxyethyl cellulose

(low viscosity)

11.00 kg sulfite or sulfonic acid modified
Resin based on a
Amino-s-triazines with at least
2 NH2 groups

1.75 kg of naphthalenesulfonic acid-formaldehyde condensate.

This dry mixture was processed with 427.24 kg of tap water to a readily flowable mass (viscosity: about 5 poise) in a compulsory mixer and with a pump that had a delivery rate of 6.5 liters / min, on 4 approximately evenly over an area of 30 m ² distributed areas applied to a solid concrete ceiling, which was provided with a water-blocking coating (paint). so that the solid ceiling does not remove the water required for hydrating the anhydrite from the mass. However, the bond between the screed and the solid ceiling was not hindered by the water-blocking coating. The mass spread evenly on the solid ceiling within 40 minutes. After 6 hours it had hardened to such an extent that it could be determined with a spirit level that the surface of the mass was exactly horizontal. After a curing time of 3 days, a flexural tensile strength of 105 kg / cm ^{2 was} found. The average thickness of the screed covering was 2.5 cm.

Claims (4)

Patent claims: 1. A method for producing a horizontal floor covering supported on a load-bearing base, the covering being made from a hardening mass based on anhydrite binder mixed with water. is formed with an addition of a sulfite- or sulfonic acid-modified resin based on an amino-s-triazine with at least 2 NHa groups, characterized in that initially with the addition of water up to a maximum weight ratio of water to anhydrite binder of 50: t00 and if necessary, a slurry of sand in the amount of max. 50 percent by volume, based on anhydrite, is produced when spreading on a base, which levels itself out and this is then poured onto the base and solidified while maintaining the horizontal ao surface formed by the leveling. 2. The method according to claim 1, characterized in that that the resin has metal oxides or hydroxides, especially the alkaline earth metals and aluminum. 3. The method according to claim 2, characterized in that that the mass the resin in an amount between 0.5 and 10 wt.% And the oxide in a Amount between 1 and 6% by weight, each based on the anhydrite binder, is added. 4. The method according to one or more of the preceding claims, characterized in, Alkaline earth oxide is added to the resin in an amount is that per mole of acid group at least 1 mole of alkaline earth is available.