CS234809B1 - Method of clinkerless floor covering laying from plastics and plastic concretes - Google Patents

Abstract

The way we lay the crackless flooring made of plastics and plastic concrete in which a base layer cleaned on the base floors spread out and leveled with plastic concrete ridge flooring 2 to 3 cm created] from a mixture consisting of 3 to 3.5 weight parts of stone crumb with diameter 4 to 8 mm, one weight part of cement, 0.4 to 0.5 weight percent parts of latex, such as butadiene-styrene, styrene-acrylate, vinyl acetate-acrylate and 0.8 to 2 parts by weight of water, to which, after hardening and drying Apply tread layer by wiping 1 to 10 mm thick screed made of unsaturated silica-filled polyester resin by blinking in weight ratio 1: 2 to 1: 5 with 2.5% catalyst addition and 0.3% cobalt accelerator; \ tor. \ t of silica-filled epoxy resin sand in a weight ratio of 1: 2 and 7 weight parts of hardener.

Description

The present invention relates to a method for laying plastic and plastics floor coverings, such that the top tread layer of plastics, for example unsaturated polyester or epoxy resins, is applied to a prepared porous layer of a substrate formed from crushed stone coated with a cementitious butadiene-styrene binder. or another latex such as e.g. styrene acrylate, vinyl acetate acrylate and the like. and water.

The underlying porous layer of the required depth, typically 2 to 3 cm, is spread over an existing substrate, which may be concrete, wood, metal or other material.

The top tread layer is prepared as needed with a thickness of 1 to 10 mm, which is substantially smaller than with conventional plastics concrete flooring. In addition, larger floor surfaces without expansion joints and visible joints can be laid in this way. This effect is achieved at a lower consumption of materials, in particular plastics per surface unit, while reducing the stress compared to the prior art mixing and laying of such flooring made in a traditional way.

Up to now, plastic concrete floors have been produced in the Czech Republic and abroad by mixing the filler, usually silica sand, with an epoxy resin of unsaturated polyesters or acrylates. The producers try to mix as much filler as possible into the mixture, ie sand. This is done from two main reasons, both to reduce the cost of flooring and to avoid the contraction of resins, which are up to 9% for polyester.

Mixing sand with resins is laborious and often imperfect. As a result of that part of the floor on which such a low-resin inhomogeneous mixture has been applied, it will fall out of the floor and vice versa where the resin content is higher and the filler content smaller, these parts of the floor will crack due to contraction. In this way of laying flooring, the concrete is applied only in one layer, but since such a mixture is very dense, while keeping the optimum representation of the individual components, its application is also strenuous.

All these drawbacks are overcome by the proposed method for the preparation and laying of plastics according to the invention, which, although biphasic, is substantially faster and less laborious in mixing and also in laying the floor covering. The consumption of plastic at the same floor thickness is lower because the entire layer is made of plastic concrete in which the lower part is more filled with grit and other greedy ingredients and because the aggregate-resin mixture is even more homogeneous and therefore of better quality. With the rapid application of the tread layer, the floor is smaller, without visible joints in color and height of the covering tread.

SUMMARY OF THE INVENTION is that a dry, porous and even backing layer made of crushed stone, cement, latex and water represented by a weight ratio of (3 to 3.5): 1: 0.4: (1 to 2) is applied on top a tread layer of plastics, for example of polyester resin or epoxy resin, wherein a porous backing layer of 2 to 3 cm thick is prepared such that the sharp grains of stone crumb are only coated with a cement, latex and water binder before laying and that the topsheet of plastics is applied to the porous substrate in a viscous state so that it is firmly bonded to the substrate and cures to a solid and continuous layer after the chemical reaction.

The topsheet of plastics is formed from a 1: 2 to 1: 5 weight ratio of unsaturated polyester resin filled with quartz sand and with the addition of 2.5% catalyst and 0.3% cobalt accelerator, or an epoxy resin filled with quartz sand in mass. ratio 1: 2 with 7 wt. hardeners (calculated on the resin).

Example 1

A porous plastic concrete layer consisting of a sharp stone crumb encased in a binder made of cement, butadiene-styrene latex and water was applied to the swept concrete substrate. The weight ratio of the individual components was as follows: crushed stone 3.5 kg, cement 1 kg, latex 0.4 kg, and water 0.8 liters.

After this layer had dried, an unsaturated polyester resin filled with quartz sand in a ratio of 1: 2 to 1: 5 by weight was applied to its surface with a PVC squeegee, a catalyst of 2.5% and a cobalt accelerator of 0.3%.

Example 2

A porous plastic concrete layer was applied to the swept old poured asphalt floor as in example no. 1. After drying, a mixture of epoxy resin and quartz sand in a 1: 2 weight ratio and 7% hardener was applied to the surface.

Claims (1)

SUBJECT A method for laying seamless flooring of plastics and plastics, characterized by spreading and leveling a layer of plastics concrete flooring with a depth of 2 to 3 cm formed of a mixture consisting of 3 to 3.5 parts by weight of stone crumb with a particle diameter of 4 to 3 8 mm, one part by weight of cement, 0.4 to 0.5 parts by weight of latex, for example butadiene-styrene, styrene-acrylate, vinyl acetate-vinyl acetate -acrylate and 0.8 to 2 parts by weight of water, after hardening and drying, a 1 to 10 mm thick screed layer of 1: 2 to 1: 5 sec. by adding 2.5% ^O / ^O catalyst and 0.3% cobalt accelerator or epoxy resin filled with quartz sand in a 1: 2 weight ratio and 7 parts by weight hardener.