KR101711910B1 - Painting Method for Waterproof, Antifouling and Color Using Eco-Friendly Waterproof Material - Google Patents

Abstract

A coating method of the present invention includes: a step of arranging and cleaning a base surface to be coated, washing the base surface with a high-pressure washing device at a high pressure, drying the base surface, checking the dried base surface, and marking parts of the base surface where cracks exist; a second step of forming a primer layer by coating a primer functioning as an adhesives for attaching and coating the paint; a third step of repairing the cracked parts and joints with a water-soluble sealing material and simply sealing the cracked parts and the joints with a rubber scraper; a fourth step of forming a first middle coat layer and a second middle coat layer separately by coating a constant amount of a middle coat paint mixed with a paint composite for a middle coat containing minerals and acryl on a top surface of the primer layer per unit area for waterproofing the base surface; a fifth step of hardening the second middle coat layer until a recoating for forming a top coat is possible; and a sixth step of forming the top coat by finally coating a paint composite for the top coat with a color capable of preventing the cracks on the paint layer and contamination and having an excellent adhesive force and elasticity by forming a thin film on the top of the second middle coat layer to finish the top of the second middle coat layer for various colors and a ultraviolet ray blockage. The coated surface according to the coating method of the present invention is capable of achieving both functions of preventing a water leakage from a building and improving appearance at the same time by being coated once, obtaining eco-friendly properties, durability, antifouling properties, a high adhesive force, maximized waterproofing properties, high elasticity, and providing various colors.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a waterproof antifouling color coating method using an eco-friendly water-

More particularly, the present invention relates to a method for coating a floor or a wall, more particularly, an environmentally-friendly and water-resistant waterproofing material including inorganic and acrylic, and a paint capable of being used as a coating material, And a waterproof antifouling color coating method capable of simultaneously achieving a waterproof and antifouling color.

Generally, the building structure is based on reinforced concrete mainly composed of cement. It is manufactured by adding water and other additives to aggregates such as cement, sand, and gravel, and the reactive components in the cement around the aggregate over time, The strength that can support various loads applied to it is demonstrated. Also, by hydration reaction at this time, concrete has strong alkalinity of about pH 12 ~ 13, and this strong alkalinity is a typical compound which forms a film on the surface of reinforcing steel which is mainly burdened with various loads externally, It is known as a structure.

However, these concrete structures are caused by defects such as early cracking, lifting and dropping due to material factors, construction factors, environmental factors, and the like, leading to fatal defects such as deterioration of structural strength of concrete and leakage.

Material factors include heavy use of marine resources due to exhaustion of aggregate resources and excessive increase of alkali in cement. As a construction factor, a large amount of water is used to improve workability and productivity, . Environmental factors include increased carbon dioxide concentrations in the atmosphere due to increased industrial facilities and automobiles, acid rain, and the use of large amounts of materials such as calcium chloride to prevent freezing.

These various factors cause early aging such as alkali aggregate reaction, frost damage, salting or neutralization, or alkaline components react with moisture to form hydrated material, and these recrystallized materials cause whitening on the surface of the substrate, of

The decrease in alkalinity of the concrete caused by contamination causes a crack in the reinforcing steel, which causes defects such as cracking, lifting and dropping of concrete, resulting in deterioration of the structural strength, as well as a fatal defect such as leakage.

The alkali aggregate reaction reacts with the silica component (SiO2) contained in the aggregate due to the alkali supplied from cement and the like to form an expandable gel, which expands and absorbs in the concrete to generate fine cracks. These aggregate reactions include an alkali silica reaction, an alkali carbonate reaction, and an alkali silicate reaction. Among these, the most cracking reaction is caused by an alkali silica reaction It is known.

The carbonation or neutralization of concrete refers to a phenomenon in which alkaline concrete with a pH of about 12 to 13 initially reacts with carbon dioxide in the air to lose its alkalinity. The alkali and calcium hydroxide present in the concrete pores are passed through the capillary pores of the concrete surface It reacts with the carbon dioxide in the diffused air to form calcium carbonate, which slowly neutralizes the concrete.

This neutralized concrete is a factor that deteriorates the rustproofing ability of the reinforcing steel, and cracks are generated by expansion pressure due to seaweed, and the surface of the concrete that protects the reinforcing steel is dropped off.

Concrete East Sea is a phenomenon in which water present inside porous concrete is cracked due to expansion pressure during repeated freezing and thawing process according to the seasonal change, causing the concrete to fall off .

Salinity is caused by the direct penetration of seawater near the shore or by the use of sea salt exceeding the allowable amount of seawater particles and by the presence of large amounts of chlorine ions such as calcium chloride and sodium chloride used as measures to prevent freezing, U

And the surface of the concrete falls off due to cracks due to the expansion pressure.

The various early deterioration phenomena of the above-mentioned concrete can prevent moisture penetration from the outside because the alkali ions in the concrete and the water and chlorine ions introduced from the inside and the outside react with each other chemically to proceed the defect, Outside

It is possible to prevent various defects due to premature aging by using a material which can discharge quickly and adsorb and fix harmful ions such as alkali ions and chlorine ions and use the materials that can suppress the progress of aging phenomenon.

Conventionally, paints using urethane, epoxy or water-based emulsion have been painted as a finishing material for concrete. However, since these organic paints form a dense dry film on the concrete surface to form a water-impermeable and anticorrosive film, Can cause irrelevant chemical reactions and can not be integrated with concrete, and can not exhibit sufficient adhesion particularly in the presence of water. In addition, when the organic paint is painted, defects such as lifting, cracking, swelling or dropping of the dry film occur due to expansion of vaporized water inside the concrete.

Inorganic coatings using sodium silicate as a concrete finishing agent or reinforcing agent are known, which are integrated with the concrete material by reaction with calcium hydroxide and the like among the concrete components on the concrete surface, and the concrete which is neutralized with the strong alkali of the sodium silicate itself The present invention is not limited to the alkali silicate, but may be used in a wide range of applications. In the case of sodium silicate, the reaction occurs relatively quickly on the concrete surface, It forms a hydrated material on contact with water, causing a whitening phenomenon on the surface of the concrete, thus posing a problem of contamination. In addition, sodium silicate has many problems in initial water resistance due to the nature of sodium silicate.

In addition, the modern society has been used regardless of the harmfulness of the composition, if the conventional architectural paint can be faithful to its function due to economic development.

Recently, the seriousness of environmental problems has arisen and the movement to restrict the use of architectural paints has been activated.

Conventional architectural paints have been found to release a large amount of harmful substances to the environment if they are polluted.

Recently, sick house syndrome has become a serious social problem. People suffering from sick house syndrome have symptoms such as tickling, dizziness, headache and skin trouble, and symptoms vary according to individual.

The exact cause of this sick house syndrome is hard to ascertain, but volatile substances inside the building are considered to be the main causative agents, such as formaldehyde (HCHO) and volatile organic compounds (VOC's).

These harmful substances are generated from new wallpaper or plates and are known to last for about 6 months to 2 years.

Inside these buildings, toxic chlorine gas is also released, and formaldehyde is also released, which is widely used in preservatives, adhesives and plywood, and is known as a carcinogen that adversely affects the nervous system and organs.

On the other hand, the anion is known to be beneficial to the human body, so that products that generate anion have been researched and developed to utilize it for improving the environment. However, many products mainly focused on anion have a limited role as environmental materials and anion Generally, most of the generating devices generate active oxygen, and active oxygen is recognized as a health inhibitor that causes immune degradation and leukemia. Electromagnetic waves generated from the generator are a new pollutant, In fact.

Generally, the structure is mainly used by coating with paint considering the functional and environmentally benign aspects.

As a result of industrialization, factories and buildings (apartments) are constructed in various ways, and thus it is inevitable to supply paint which satisfies the functionality and beautification aspects while being well preserved in various harmful environments such as acid rain and harmful gas. Styrene acrylic emulsion paint or oil-soluble acrylic paint has been used for such a demand.

However, such conventional paints have a problem of emitting harmful substances such as formaldehyde (HCHO) and volatile organic compounds (VOCs).

As described above, the neutralized concrete can solve the problem of deterioration of the rustproofing ability of reinforcing bars, the sea rusting and salting of concrete, the waterproofing of rooftops and joints, and the discharge of harmful substances from walls and bases simultaneously. A coating method and a painting method which can realize various colors capable of giving a high quality of a color image are required.

1. Korean Patent Registration No. 10-1370292 (Registered Date: February 27, 2014) Construction method of eco-friendly organic and inorganic flooring material using organic and inorganic materials 2. Waterproof and anti-corrosion coating method of steel structure using hybrid water-soluble high-polymer acrylic (NOX) -bonded hybrid crystals (Korean Patent Registration No. 10-0918615) 3. Korea Patent Publication No. 10-0489663 (registered on May 04, 2005) Water-soluble inorganic transparent coating composition 4. Korean Registered Patent Publication No. 10-1040775 (registered on June 03, 2011) Aqueous inorganic acrylic silicone waterproof coating composition 5. Korean Registered Patent No. 10-1169892 (Registered Date: July 24, 2012) Water-repellent coating agent

The present invention for solving the above problems is an environmentally friendly product which can achieve both waterproof and aesthetic functions simultaneously and which does not contain organic volatile compounds and heavy metals and is a durable product by preventing durability deterioration due to acidification, And a waterproof antifouling color coating method having a high surface hardness and having excellent stain resistance and using a paint with improved adhesion.

The coating method of the present invention is characterized in that the surface to be painted is cleaned, the surface is cleaned, the high pressure is cleaned with a high pressure washer, dried, the high pressure washing, drying and checking step A first step; A second step of applying a primer to form a primer layer by applying a primer serving as an adhesive for smooth adhesion and coating of the paint; A third step of repairing cracks and joints using a water-soluble sealing material and repairing joints and cracks for performing a simple sealing treatment using rubber hairs; In order to waterproof the base surface, a predetermined weight per unit area is applied to the upper part of the primer layer by mixing the intermediate coating composition containing an inorganic material and acrylic, and the first intermediate layer and the second intermediate layer are divided into two layers A fourth step of a middle application step of forming a middle layer; A fifth step of curing the second intermediate layer for a period of time during which the top coat can be repainted to apply the top coat; And a thin film layer is formed by a finishing treatment for various hue and ultraviolet shielding to form a coating film composition which is good in adhesion and elasticity, prevents cracking of the coating material, prevents contamination, And a top coat application step of final coating with a top coat to form a top coat layer.

The first step is a surface cleaning step of cleaning the surface of the substrate to be coated; A high-pressure washing step of high-pressure washing with a high-pressure washer; A drying step of drying the base surface; It is composed of the steps 1-4 to check the dried base surface and to mark the cracked part.

The fourth step is a first intermediate coating step of forming the first intermediate layer by first coating a predetermined weight per unit area with the intermediate coating material mixed with the intermediate coating composition for waterproofing the base surface, ; A drying step of drying for a period of time for solidifying and drying to apply the secondary medium; And a second intermediate coating step of forming the second intermediate layer by applying the intermediate coating composition to a predetermined thickness in a state of mixing the intermediate coating composition to improve the waterproof property.

The primer is applied in an amount of 0.3 to 0.5 kg per m < 2 > for forming the primer layer, wherein the intermediate coating is first applied in an amount of 0.4 to 1.8 kg per m < 2 & 0.4 to 1.8 kg per m < 2 > is secondarily applied, and the top coat is applied in an amount of 0.3 to 0.6 kg per m < 2 >

40 to 65% by weight of an epoxy copolymer (Epoxy Copolymer) branded with different types of epoxies for enhancing long-term water resistance and adhesion after painting environment-friendly water-soluble epoxy resin as a basic skeleton; 10 to 20% by weight of Modified Epoxy Copolymer which improves initial reaction degradation which is a disadvantage of water-soluble epoxy resin to accelerate initial reaction curing to improve physical properties and workability due to additional factors; 3 to 10% by weight of Modified Polysiloxane Resin which improves the surface permeability of the substrate, which is an essential requirement of the primer coating, and which prevents leveling and cretering by adjusting the surface tension; 0.1 to 1% by weight of a non-silicone defoaming agent (Defomer) to prevent surface bubbles generated when the porous backing surface (concrete surface) is coated; 20 to 30% by weight of water, which is a diluent and a dispersant.

The water-soluble sealing material comprises 49 to 70% by weight of a water-soluble high-elasticity-modified acrylic emulsion copolymer; 29 to 50% by weight of Limestone, which prevents cracking of the paint, adjusts the viscosity, and serves as a filler; 0.5 to 1% by weight of a polyamide copolymer which is a wetting and dispersing agent.

The intermediate coating composition comprises 40 to 65% by weight of an acrylic copolymer, which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity; 15 to 40% by weight of Limestone, which prevents cracking of the paint, adjusts the viscosity and serves as a filler; 3 to 8% by weight of an anti-sagging agent that prevents the thickness from flowing unevenly downward; 4 to 10% by weight of titanium dioxide (Titanium Dioxide), which is a white pigment which serves as a basic pigment so as to produce various colors; 0.2 to 1.2% by weight of ammonia (ammonia) for making the hydrogen ion concentration into weak alkali for integrating waterproof and painting into one and preventing neutralization; 10 to 25% by weight of water as a diluent and dispersant; And 1 to 3% by weight of a reactive surfactant for preventing deterioration of water resistance.

The coating composition for phase inks comprises 45 to 70% by weight of an acrylic copolymer, which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity; 7 to 15% by weight of Limestone, which acts as a filler to prevent paint from cracking and to adjust viscosity; 0.5 to 2% by weight of an anti-sagging agent, which is a water-soluble inorganic resin to prevent contamination, and prevents the uneven thickness from flowing downward; 3 to 12% by weight of titanium dioxide (Titanium Dioxide), which is a white pigment serving as a basic pigment so as to produce various colors; 0.2 to 1.2% by weight of ammonia (ammonia) for making the hydrogen ion concentration into weak alkaline to integrate the waterproofing and painting into one, and to prevent neutralization; 15 to 35% by weight of water as a diluent and dispersant; 0.5 to 3% by weight of a reactive surfactant for preventing deterioration of water resistance; 2 to 8% by weight of pigment, which is a pigment for giving various colors;

And 1.5 to 10% by weight of a silane lithium silicate which is a special inorganic resin which prevents thermal change of the thermoplastic water-soluble acrylic resin and improves the resistance to staining and weatherability.

The reactive surfactant is a polyoxyethylene alkylphenyl ether having a self-reactive group, which reacts with water-soluble acrylic molecules to improve the water resistance and adhesion of the water-soluble acrylic resin. The anti- (SiO2) and aluminum oxide (Al2O3) components and a denatured mixture of bentonite and polymer.

The problems to be solved by the present invention can be solved by the coating method described above.

The painting surface according to the coating method of the present invention can achieve the leakage protection of the building and the aesthetic function at the same time by a single construction, has environment friendliness, durability, stain resistance, high adhesion and water resistance , The elastic force is high, and various colors can be realized.

Figure 1 is a flow chart of the painting process of the present invention
2 is a cross-sectional view of a waterproof and stainproof color coating layer of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The terms used below are defined in consideration of the functions of the present invention. These terms may vary depending on the intention or custom of the user, the operator, and the like. The definition is "an environmentally friendly water- A waterproof antifouling color coating method using a paint for a coating material ", which is incorporated herein by reference in its entirety.

Hereinafter, a preferred embodiment of the "waterproof and antifouling color coating method using a coating material for paint and coating material containing an inorganic and acrylic-containing water-soluble waterproofing material" according to the present invention will be described in detail.

The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

Fig. 1 is a flowchart of a coating method of the present invention, and Fig. 2 is a cross-sectional view of a waterproof and stainproof color coating layer of the present invention.

As shown in FIG. 1, the coating method using a paint made of a coating composition containing an inorganic material and an acryl of the present invention is a method in which a substrate to be painted is cleaned, the surface is cleaned, and then the substrate is washed with a high pressure washer, A first step of checking the dried surface of the substrate and marking the cracked portion of the high pressure washing, drying and inspection steps; A second step of applying a primer to form a primer layer (1) by applying a primer serving as an adhesive to smooth the adhesion and coating of the paint; A third step of repairing cracks and joints using a water-soluble sealing material and repairing joints and cracks for performing a simple sealing treatment using rubber hairs; A predetermined weight per unit area is applied to the upper surface of the primer layer 1 by mixing the intermediate coating composition containing an inorganic material and acryl in order to waterproof the surface of the substrate 1 and the first intermediate layer 21, A middle layer applying step of forming a middle layer (2) by dividing the layer (22) into two layers; A fifth step of curing the second intermediate layer (22) for a period of time during which the top coat can be repainted to apply the top coat; Is formed on the second intermediate layer (22) and forms a thin film film by finishing treatment for various hue and ultraviolet ray blocking to prevent the paint from cracking and to prevent contamination, And a top coat application step of finally coating the top coat layer with the top coat composition in which the composition is mixed to form the top coat layer (3).

2, in the coating method of the present invention, the primer layer is formed on the primer layer after the surface is washed, dried, and inspected at a high pressure, and the primer layer is painted twice on the primer layer, Layer and a second intermediate layer and then forming a top layer with the top coat on top of the intermediate layer.

The first step is a surface cleaning step of cleaning the surface of the substrate to be coated; A high-pressure washing step of high-pressure washing with a high-pressure washer; A drying step of drying the base surface; It is composed of the steps 1-4 to check the dried base surface and to mark the cracked part.

The fourth step is a step of applying a predetermined weight per unit area of the intermediate coating material mixed with the intermediate coating composition for waterproofing the base surface to form a first intermediate coating layer 21, Step 1; A drying step of drying for a period of time for solidifying and drying to apply the secondary medium; And a second intermediate application step of forming the second intermediate layer 22 by applying a second predetermined amount of intermediate coating to the intermediate coating composition in order to increase the water resistance.

The primer is applied in an amount of 0.3 to 0.5 kg per m < 2 > for forming the primer layer (1).

The intermediate coating is first applied in an amount of 0.4 to 1.8 kg per m 2 for forming the first intermediate layer 21 and 0.4 to 1.8 kg is applied secondly for forming the second intermediate layer 22.

The top coat is applied in an amount of 0.3 to 0.6 kg per m < 2 > for forming the top coat layer (3).

40 to 65% by weight of an epoxy copolymer (Epoxy Copolymer) branded with different types of epoxies for enhancing long-term water resistance and adhesion after painting an environment-friendly water-soluble epoxy resin as a basic skeleton; 10 to 20% by weight of Modified Epoxy Copolymer which improves initial reaction deterioration which is a disadvantage of water-soluble epoxy resin to accelerate initial reaction curing to improve physical properties and workability due to ancillary factors; 3 to 10% by weight of Modified Polysiloxane Resin which improves the surface permeability of the substrate, which is an essential requirement of the primer coating, and prevents leveling and cretering by adjusting the surface tension; 0.1 to 1% by weight of a non-silicone defoaming agent (Defomer) to prevent surface bubbles generated when the porous backing surface (concrete surface) is coated; 20 to 30% by weight of water, which is a diluent and a dispersant.

Wherein the water-soluble sealing material comprises 49 to 70% by weight of a water-soluble highly elastic modified acrylic emulsion copolymer; 29 to 50% by weight of Limestone, which prevents cracking of the paint, adjusts the viscosity and serves as a filler; 0.5 to 1% by weight of a polyamide copolymer which is a wetting and dispersing agent.

The intermediate coating composition comprises 40 to 65% by weight of an acrylic copolymer, which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity; 15 to 40% by weight of Limestone, which acts as a filler to prevent cracking of the paint and adjust the viscosity; 3 to 8% by weight of an anti-sagging agent which prevents the thickness from flowing unevenly downward; 4 to 10% by weight of titanium dioxide (Titanium Dioxide) which serves as a basic pigment for producing various colors; 0.2 to 1.2% by weight of ammonia (Ammonia) for making the hydrogen ion concentration into weak alkali for integrating waterproof and painting into one and preventing neutralization; 10 to 25% by weight of water as a diluent and dispersant; And 1 to 3% by weight of a reactive surfactant for preventing deterioration of water resistance.

45 to 70% by weight of an acrylic copolymer which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity; 7 to 15% by weight of Limestone, which acts as a filler to prevent cracking of the paint and adjust the viscosity; 0.5 to 2% by weight of an anti-sagging agent, which is a water-soluble inorganic resin for preventing contamination; 3 to 12% by weight of titanium dioxide (Titanium Dioxide) which serves as a basic pigment for producing various colors; 0.2 to 1.2% by weight of ammonia (Ammonia) for making the hydrogen ion concentration into weak alkali for integrating waterproof and painting into one, and preventing neutralization; 15 to 35% by weight of water as a diluent and dispersant; 0.5 to 3% by weight of a reactive surfactant for preventing deterioration of water resistance; 2 to 8% by weight of pigments, which are pigments for producing various colors; And 1.5 to 10% by weight of a silane lithium silicate which is a special inorganic resin which prevents thermal change of the thermoplastic water-soluble acrylic resin and improves the resistance to staining and weatherability.

The reactive surfactant is a polyoxyethylene alkylphenyl ether which has a self-reactive substance and reacts with water-soluble acrylic molecules to improve the water resistance and adhesion of the water-soluble acrylic resin.

The anti-sagging agent is a mixture of dense bentonite and polymer with silicon dioxide (SiO 2) and aluminum oxide (Al 2 O 3) components.

A key point of the coating method of the present invention is that the intermediate layer 2 is divided into two layers of a first intermediate layer 21 and a second intermediate layer 22 in order to improve waterproofness, , Heavy metals, high functionality, excellent antifouling property and heat shielding property, excellent durability, chemical resistance and adhesiveness, high water resistance, paintability, stain resistance and various colors A primer, a water-soluble sealing material, an intermediate coating composition and a top coat composition are prepared and used.

The paint application method of the present invention can be applied to various types of coating materials such as a dry pit, a red brick, a functional waterproof coating finish material, a concrete surface, a panel, a urethane surface, a shingle surface, a crack repairing function of a sphere crack or a urethane crack, It is the top coating function of waterproof wet type waterproofing material.

The primer is an epoxy copolymer prepared by painting an environment-friendly water-soluble epoxy resin with a basic skeleton and then epoxies copolymerizing different types of epoxies that enhance long-term water resistance and adhesion, and an epoxy resin which improves initial reaction deterioration, (Modified epoxy copolymer) which improves the physical properties and the workability by ancillary factors, improves the surface permeability of the primer, which is an essential requirement of the primer coating, and adjusts the leveling and cretering by adjusting the surface tension. (Modified Polysiloxane Resin) to prevent surface bubbles generated during coating of porous base paper (concrete surface), and a non-silicone defoaming agent (Defomer), water as diluent and dispersant, It improves the workability by accelerating and improves surface tension, Prevent the ring and is prevented to produce a surface foam was sought to improve the physical properties.

The above-mentioned intermediate coating composition is a high-performance elastic acrylic emulsion resin which forms a thin film film to improve the adhesion and improve the elasticity, and the acrylic copolymer which prevents the coating from cracking and adjusts the viscosity and functions as a filler (Anti-Sagging Agent) to prevent the thickness from flowing unevenly and a white pigment such as Titanium Dioxide (Titanium Dioxide), which acts as a basic pigment for producing various colors, ), Ammonia (ammonia) for making the hydrogen ion concentration into weak alkaline, water as diluent and dispersant, and reactive surfactant for preventing the water resistance from lowering to integrate the waterproofing and painting into one, and to prevent neutralization Using water-soluble, environmentally friendly paints that do not contain organic volatile compounds and heavy metals It is eco-friendly, it makes hydrogen ion concentration weakly alkaline to integrate waterproof and paint into one, and to prevent neutralization. It is one-component type thermoplastic product for maximizing durability for flow integrated with outside temperature. Excellent adhesion performance is achieved by using acrylic polymer containing special ion because adhesion property is maximized by using sealant type acrylate for attachment performance to the surface to be adhered, and water resistance is remarkably decreased in water-based acryl The introduction of reactive surfactants without using surfactants maximized the manufacturing and waterproof coating.

The coating composition for phase-in use is a high-performance elastic acrylic emulsion resin which forms a thin film film to improve the adhesion and improves the elasticity, and acrylic copolymer which prevents the coating from cracking and adjusts the viscosity and functions as a filler (Anti-Sagging Agent), which is a water-soluble inorganic resin to prevent contamination, and a white pigment which acts as a basic pigment for producing various colors. Titanium dioxide, which is a pigment, and ammonia (ammonia) to make the hydrogen ion concentration into weak alkali to integrate waterproofing and painting and to prevent neutralization, water as diluent and dispersant, Reactive type surfactants, pigments such as pigments for imparting various colors, It is made of Silane Lithium Silicate which is a special inorganic resin that prevents thermal change of the water-soluble acrylic resin and improves the stain resistance and weather resistance. It is environmentally friendly because it uses water-soluble, organic volatile compound and heavy metal- It has a weak hydrogen ion concentration for the purpose of integrating the waterproofing and painting into one and neutralizing it. It has made the alkali with a weak alkali and maximized the durability with the one-component thermoplastic product for the flow integrated with the external temperature. It has excellent stain resistance by blending special hydrolyzed inorganic resin to improve surface stain, and maximizes integration by using sealant acrylate for adhesion on inorganic and other adhered surfaces. And the adhesion performance Excellent adhesion performance by using acrylic monomer containing special ion and water repellent + coating material, water repellency is maximized by introducing reactive surfactant without using surfactant which significantly reduces water resistance in water-based acrylic It is a contradictory concept to overcome the problem of high elasticity and stickiness among the conditions of environmentally friendly water-soluble inorganic + acrylic waterproof product. But it is a conflicting concept to reduce the high elasticity and the surface stickiness by introducing the self-hardening type monomer with butyl methacrylate as a main base It maximizes both physical properties and makes various colors possible by making waterproof + paint as one product as environmentally friendly water-soluble product and by producing various colors of dry paint pavement surface, aged red brick, panel and shingle.

According to the coating method of the present invention, firstly, it is possible to simultaneously achieve leakage protection and aesthetic function of a building by a single construction, secondly, an eco-friendly product as a water-soluble product containing no organic volatile compounds and heavy metals, and third, And the durability is maximized by decreasing the durability by acidification. The fourth problem is to improve the surface hardness by mixing the inorganic resin with the thermoplastic aqueous acrylic product during the rise in temperature, Fifth, the adhesion was improved by using the silane type acrylate. The sixth reaction type surfactant was applied to maximize the preparation and the waterproof coating. The seventh butyl methacrylate was used as the main base to introduce the self-hardening monomer. Height and surface stickiness And the eighth color pigment can be used, so that various colors can be implemented.

1: primer layer 2: intermediate layer
21: primary intermediate layer 22: secondary intermediate layer
3: Top layer
A: Base layer A1: Base layer

Claims (4)

A waterproof antifouling color coating method using a paint made of a coating composition containing an inorganic material and acrylic, and an environmentally waterproof waterproofing material containing an inorganic material and acrylic,
The coating method is to clean the surface to be painted, clean the surface, clean it with a high-pressure washer, dry it, check the surface after drying, mark the cracked part, Step 1;
A second step of applying a primer to form a primer layer (1) by applying a primer serving as an adhesive to smooth the adhesion and coating of the paint;
A third step of repairing cracks and joints using a water-soluble sealing material and repairing joints and cracks for performing a simple sealing treatment using rubber hairs;
A predetermined weight per unit area is applied to the upper surface of the primer layer 1 by mixing the intermediate coating composition containing an inorganic material and acryl in order to waterproof the surface of the substrate 1 and the first intermediate layer 21, A middle layer applying step of forming a middle layer (2) by dividing the layer (22) into two layers;
A fifth step of curing the second intermediate layer (22) for a period of time during which the top coat can be repainted to apply the top coat;
A coating film formed on the second intermediate layer 22 to form a thin film film by a finishing treatment for hue development and ultraviolet ray shielding to provide a coating composition having good adhesion and elasticity to prevent cracking of the coating material, And a top coating step of finally coating the top coat layer 3 with a top coat paint mixed with the top coat layer 3,
40 to 65% by weight of an epoxy copolymer (Epoxy Copolymer) branded with different types of epoxies for enhancing long-term water resistance and adhesion after painting an environment-friendly water-soluble epoxy resin as a basic skeleton;
10 to 20% by weight of Modified Epoxy Copolymer which improves initial reaction deterioration which is a disadvantage of water-soluble epoxy resin to accelerate initial reaction curing to improve physical properties and workability due to ancillary factors;
3 to 10% by weight of Modified Polysiloxane Resin which improves the surface permeability of the substrate, which is an essential requirement of the primer coating, and prevents leveling and cretering by adjusting the surface tension;
0.1 to 1% by weight of a non-silicone defoaming agent (Defomer) to prevent surface bubbles generated when the porous backing surface (concrete surface) is coated;
20 to 30% by weight of water as a diluent and a dispersant,
Wherein the water-soluble sealing material comprises 49 to 70% by weight of a water-soluble highly elastic modified acrylic emulsion copolymer;
29 to 50% by weight of Limestone, which prevents cracking of the paint, adjusts the viscosity and serves as a filler;
0.5 to 1% by weight of a polyamide copolymer which is a wetting and dispersing agent,
The intermediate coating composition comprises 40 to 65% by weight of an acrylic copolymer, which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity;
15 to 40% by weight of Limestone, which acts as a filler to prevent cracking of the paint and adjust the viscosity;
3 to 8% by weight of an anti-sagging agent which prevents the thickness from flowing unevenly downward;
4 to 10% by weight of titanium dioxide (Titanium Dioxide) which serves as a basic pigment for producing various colors;
0.2 to 1.2% by weight of ammonia (Ammonia) for making the hydrogen ion concentration into weak alkali for integrating waterproof and painting into one and preventing neutralization;
10 to 25% by weight of water as a diluent and dispersant;
And 1 to 3% by weight of a reactive surfactant for preventing the water resistance from being lowered,
45 to 70% by weight of an acrylic copolymer which is a high-performance elastic acrylic emulsion resin which forms a thin film to improve adhesion and improve elasticity;
7 to 15% by weight of Limestone, which acts as a filler to prevent cracking of the paint and adjust the viscosity;
0.5 to 2% by weight of an anti-sagging agent, which is a water-soluble inorganic resin for preventing contamination;
3 to 12% by weight of titanium dioxide (Titanium Dioxide) which serves as a basic pigment for producing various colors;
0.2 to 1.2% by weight of ammonia (Ammonia) for making the hydrogen ion concentration into weak alkali for integrating waterproof and painting into one, and preventing neutralization;
15 to 35% by weight of water as a diluent and dispersant;
0.5 to 3% by weight of a reactive surfactant for preventing deterioration of water resistance;
2 to 8% by weight of pigments, which are pigments for producing various colors;
And 1.5 to 10% by weight of a silane lithium silicate, which is a special inorganic resin that prevents thermal change of the thermoplastic water-soluble acrylic resin and improves the stain resistance and weather resistance, and is an eco-friendly water- Water-proof antifouling color coating method using paint for paint
The method according to claim 1,
The first step is a surface cleaning step of cleaning the surface of the substrate to be coated;
A high-pressure washing step of high-pressure washing with a high-pressure washer;
A drying step of drying the base surface;
And a step (1-4) of inspecting the dried base surface and marking the cracked portion,
The fourth step is a step of applying a predetermined weight per unit area of the intermediate coating material mixed with the intermediate coating composition for waterproofing the base surface to form a first intermediate coating layer 21, Step 1;
A drying step of drying for a period of time for solidifying and drying to apply the secondary medium;
And a second intermediate coating step of coating the intermediate coating layer with a predetermined thickness to form the second intermediate coating layer 22 in order to improve the water resistance,
The primer is applied in an amount of 0.3 to 0.5 kg per m < 2 > for forming the primer layer (1)
The intermediate coating is first applied in an amount of 0.4 to 1.8 kg per m 2 for forming the first intermediate layer 21 and 0.4 to 1.8 kg is applied secondly for forming the second intermediate layer 22,
Wherein the top coat is applied in an amount of 0.3 to 0.6 kg per m < 2 > for forming the top coat layer (3). The waterproof antifouling color coating method using the coating material for an environment-
delete The method according to claim 1,
The reactive surfactant is a polyoxyethylene alkylphenyl ether which has a self-reactive substance and reacts with water-soluble acrylic molecules to improve the water resistance and adhesion of the water-soluble acrylic resin.
Wherein the anti-sagging agent is a mixture of bentonite and polymer which is crystalline and denatured with silicon dioxide (SiO ₂ ) and aluminum oxide (Al ₂ O ₃ ) components, and which is an eco-friendly water- Waterproof antifouling color coating method using paint

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