RU59051U1 - PAINTWORK - Google Patents

Abstract

The utility model relates to paints and varnishes. To achieve a technical result - increasing fire resistance in a paint coating, consisting of a primer, a layer of scaly pigment, laid with mutual overlapping of the scales, and a coating layer, stone flakes are used as a scaly pigment.

Description

The utility model relates to the field of construction, in particular to paints and varnishes.

Widely known paint coatings are known under the name oil and enamel paints, representing a uniform suspension of a powdery pigment in drying oil or varnish. Varnishes are solutions of synthetic or natural resins in pure form or mixed with natural oils in organic solvents. (V.G. Mikulsky et al. Building Materials, Moscow, publishing house of the Association of Building Higher Education Institutions, 2000, p. 441, 442).

The disadvantage of these coatings is flammability. Binders in said coatings representing cured drying oils or resins. They are organic combustible materials. Powdered pigment evenly distributed in the binder with gaps between the particles does not prevent the burnout of the organic binder.

The closest prototype is a paint coating, in which the pigment is a layer of flat particles of scaly aluminum, located between the primer and the optically transparent coating layer. According to the technical solution, aluminum flakes are located with mutual overlap and form a continuous non-combustible layer, which in a fire is able to delay the spread of flame. Especially in the initial period of a fire after ignition. (Patent for invention №2130041, published on 05/10/99, Bull. No. 13, “Paintwork”, authors: Golubev MN and others).

The disadvantage of this technical solution is the limited temperature range for protecting the structure from the effects of flame, since aluminum melts at a temperature of 658 ° C.

The objective of the utility model is to increase the protective properties of the coating during flame propagation in a fire, i.e. increase fire resistance of the coating.

The solution to this problem is achieved when applied to a paint and varnish coating, consisting of a primer, a layer of scaly pigment, laid with mutual overlapping of the scales, and a coating layer, using stone scales as a scaly pigment.

The paintwork in an enlarged view is schematically shown in the drawing of figure 1.

On the material to be painted, a primer layer of FIG. 2, a layer of stone flakes of FIG. 3 and a coating layer of FIG. 4 are located. Primer 2 provides a strong bond between the surface of the material to be coated and the layer of stone flakes. For this purpose, standard primers are used, where foaming agents are used.

polymers or drying oils, for example primers Psb-0142 TU-6-10-1698-78, GF-17 GOST 6-10-1428-79, GF-021 GOST 25129-82, GF-0-119 GOST 23343-78 (Safronchik V.I. Protection against corrosion of building structures and technological equipment, L, Stroyizdat, 1988).

Layer 3 is formed by flakes of stone material located with mutual overlap without gaps with the formation of a continuous sheet.

The coating layer 4 mainly consists of an optically transparent varnish, for which polyester maleate and polyester acrylate varnishes are used: PE-246, PE-247, PE-250M, PE-251, PE-265, PE-2106, urea-formaldehyde MCh-22, MCh-52, alkyd Psb-231, Psb-283, alkydnirol MC-25, polyurethane UR-19, UR-277, UR-277M, UR-293, etc. (Yakovlev A.D. chemistry and technology of coatings, - L, Chemistry, 1989, section "Transparent coatings").

Another option for the topcoat is conventional non-transparent oil and enamel paints.

The coating is applied as follows.

A primer layer 2 is applied to the previously prepared surface by spraying or by roller, without waiting for the primer to completely dry, a layer of stone flakes is applied to it in the enclosed space using a spray gun, with a diameter of working nozzles exceeding the size of the stone flakes, or pouring from a height exceeding the largest size the painted surface is 5-6 times. With this method of applying flakes, moving randomly in airspace like a dry sheet and obeying the laws of probability theory, are approximately evenly distributed over the painted surface. On individual sheet surfaces not filled with flakes, they are poured manually or using a spray gun. As a result, the flakes are arranged with mutual overlap with the formation of a continuous sheet.

This method of uniformly applying scaly material to a surface is known and used in the technique called the “tower method” (for example, in the production of micanite, see the Handbook of Electrotechnical Materials, M .: Energy, 1974, volume 2, p. 192).

Stone flakes are made from a melt of natural stone, such as basalt. To obtain a colored stone flake, the melt is prepared from light rocks. Initially, thin pulmonary material such as stone foil with a thickness of about 5 microns (micrometers) is obtained, which is crushed and dispersed into fractions.

The introduction of coatings will increase the fire resistance of building structures.

Claims (1)

A paint and varnish coating consisting of a primer, a layer of scaly pigment laid with mutual overlapping of the scales, and a coating layer, characterized in that stone flakes are used as a scaly pigment.