BG1194U1 - Resin-based covering material for solid surfaces - Google Patents

Abstract

The utility model relates to resin-based covering material for solid surfaces, particularly steel, intended to protect public property from sticking posters by forming a special layer containing inert material, whose purpose is to impede poster sticking to the base.

Description

Technical field

The invention relates to a resin-based coating material and its application to hard surfaces, in particular steel, to protect public property from adhering to posters, making it difficult to adhere the plaque to the substrate.

BACKGROUND OF THE INVENTION

The display of posters in places not intended for this purpose, mainly municipal property, such as lighting poles, electrical switchboard doors, etc., is currently an open and unresolved issue. The goal is to find a way to prevent this phenomenon in the simplest and most effective way. Efforts are currently focused on the development of surface treatment technologies that interfere with adhesion, and, if the adhesion does occur, help to facilitate the removal of posters.

This can be achieved by mechanical treatment such as irregularities or, for example, by using a special metal coating provided with a molded relief as described in FR 2799488. It is provided with grooves according to a pattern, such modified coating can be used as external protection of waste containers and others. However, such a solution is expensive and its use is limited to more or less flat surfaces.

Another possible surface treatment is the use of an anti-adhesive coating. Hydrophilic and oilyphilic coatings have been developed to protect against the sticking of posters, spray and spray, as well as the adhesion of other impurities, these coatings being wax based, as described in EP 0020695, wherein the wall protective layer contains at least a microcrystalline wax and silicone oil in an organic solvent.

GB 2048301 is a resin-based adhesive compound that contains a self-emulsifying wax or a mixture of vegetable-derived synthetic wax, mineral wax and microcrystalline wax in an aqueous environment that provides adequate protection. The solution is suitable for the treatment of facades and monuments, since quality coating requires a certain porosity of the substrate.

Coating surfaces also use acrylates and resins, often with a silicone component. FR 2849857 describes a spray-on-spray surface treatment that utilizes a compound created by radical polymerization containing fluoroalkyl acrylate.

Another coating material for interior and exterior coatings that protects against paper bonding for a long time, which can be easily removed after bonding, is shown in JP 1009277. This material contains modified silicone or silicone resin with silicone oil and silicone rubber .

Mechanical surface treatment or the production of appropriate coatings is often complex and not applicable to the protection of all types of equipment. Protective roofing materials have a much wider scope of use; however, it is difficult to meet the strict requirements for their qualities. They are required to be able to adhere sufficiently to the surface, to be resistant to weather effects and to retain their anti-adhesive properties for a long time. Covering materials containing as one component internal material that prevents the paper from sticking to the surface have been in use for a short time. However, the coating obtained is not aesthetically pleasing and the existing technologies are not suitable due to their high cost.

It is an object of the invention to provide an anti-adhesive coating material that can be used on any type and surface of any type, and whose production and use are easy.

The technical nature of the utility model

The aforementioned disadvantages are solved by a coating material for hard surfaces, such as steel surfaces, based on a resin according to the invention, based on the fact that the material contains 542

1194 Ul% by weight polybutyl methacrylate with structural unit -CH ₂ -CH-COC ₄ H ₉ - dissolved in the organic solvent in the mixture, with 9-15% by weight of the coating material being combined materials with the addition of up to 10% of weight pigments and up to 2% by weight elastomers.

The coating material with this composition combines the proper characteristics of the resins (adhesiveness, strength) and plastic materials (elasticity).

A suitable solution consists of an organic solvent, xylene, and constituents of the group comprising titanium powder, polyester powder and aluminum coating paste.

Another suitable solution includes pigments in the group of organic pigments such as hematite, zinc oxide and / or synthetic pigments, Versal red F2RKD, Versal green BG, Versal yellow 2GxD.

Another suitable design includes elastomers selected from the group consisting of vinyl acetate vinyl chloride.

The whole mixture is processed to the final form of coating material in a homogenizing machine. The final material is rigid and elastic and contains inert material sandwiched between two layers.

The basic principle is to reduce the contact surface between the base structure and the glued flat object, such as paper, due to the presence of inert material in the coating system, which means that a rough layer of 1-6 nun thickness and small voids and tips are created under pressure. , which reduces the contact surface for sticking the plaque. Another effective factor is the ability of the system to grip adhesive materials to the surface, which thus do not adhere to the surface, but "slip" onto the voids of the coarse layer due to the use of inert material. These two factors lead to the fact that the poster cannot be easily glued and, if glued, can be easily removed without the use of any mechanical tools and without damaging the applied system layer.

The macromolecular compound makes it possible to react to external conditions and as a result of these conditions creates the optimum structure due to the components contained in the matrix of the material (ventilation of air humidity, adjustment to external temperatures and creating a balance state with respect to external elasticity). The coating creates a system that, together with the coating, is routed to a compact unit. After application, the material matures for 2-3 years and only then begins to age. As indicated above, the base coat is applied first and then the top coat is followed. As a result of the joining of the two layers, application of the top layer results in a softening of the already applied base coat and the layers bond in a material way. In this way, a very plastic layer is formed, which creates the so-called "foil effect" with a large binding force of the applied layer and a waterproof protective layer on the surface. Therefore, individual layers cannot subsequently be peeled off as a result of any activity. The advantage is meteorological protection, protection against UV radiation, acids and alkalis.

An example of a design variant of a utility model

The production of the roofing material included:

- 54% by weight of polybutyl methacrylate with 20% by weight of xylene as solvent in the mixture

-12% by weight titanium powder

- 8% by weight of zinc oxide

- 2% by weight of vinyl acetate with 4% by weight of xylene as solvent in the mixture.

The individual components were treated to a homogeneous mixture in a homogenizer to obtain the final shape of the coating material.

A dry pillar of light was cleared of the remnants of its old covering and of impurities. The base coating was applied to the substrate and after drying the first layer of coating material was applied. After the coating was completed, silicone sand was applied to the layer using a mechanical spray tool, for example, using a roller used to finish the facades - the so-called "mill" - and 2 hours after the first layer of silicone sand with a grain size from about 15-20 grains per square centimeter dried, the coating was provided with a second layer of applied material. In this way, a compact layer is formed and after the structured coating has dried, it has a smooth and aesthetic "foil appearance" and even after moisture, no moisture is visible. Experimental bonding of a piece of paper on a ladder provided with this layer was not successful.

Claims (4)

Claims A resin-based coating material based on a resin, characterized in that it contains 54-75% by weight of polybutyl methacrylate having a structural unit -CH ₂ -CH-COO ₄ H ₉ - dissolved in the organic solvent in the mixture, with 9-15% by weight of the coating material being combined materials with the addition of up to 10% by weight of pigments and up to 2% by weight of elastomers. Coating material according to claim 1, characterized in that the combined materials are from the group comprising titanium powder, polyester powder or aluminum coating paste. Coating material according to claim 1, characterized in that the pigments are selected from the group of organic pigments such as hematite, zinc oxide and / or synthetic pigments, Versal red F2RKD, Versal green BG, Versal yellow 2GxD. Covering material according to claim 1, characterized in that the elastomer is vinyl acetate vinyl chloride.