KR101253028B1 - Sheet complex waterproof construction method using aqueous membrane waterproof agents - Google Patents

Abstract

The present invention relates to a sheet composite waterproofing method using a water-soluble coating waterproofing agent on the surface of concrete structures for various uses such as building roofs, underground basement and outer walls, upper slabs of underground parking lots, subways, communal holes, water tanks, septic tanks, swimming pools, tunnels, etc. And a first step of cleaning and cleaning the surface of the concrete structure, a second step of applying and drying a primer of polybutylacrylic acid copolymer on the surface of the concrete structure, and a water-soluble ethylene vinyl acetate gas phase copolymer resin composition. A third step of attaching the non-woven fabric while first applying the coated film waterproofing agent, and a water-soluble acrylic emulsion resin, cement, silica sand, and water are mixed in a weight ratio of 1: 1 to 3: 0.5 to 2: 3 to 5, respectively, on the nonwoven fabric. The fourth step of drying by impregnating the intermediate waterproofing agent and waterproofing the coating film of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition And a fifth step of applying and drying the second coating one to three times, and a sixth step of applying and drying a top coat made of a water-soluble acrylic emulsion resin.
The primary and secondary water-soluble coating waterproofing agents used in the sheet composite waterproofing method of the present invention are excellent in mixing stability by using water-soluble ethylene vinyl acetate vapor phase copolymer, high solid content, fast drying speed, water-soluble acrylic emulsion resin and polybutyl By mixing the adhesive made of acrylic copolymer in a certain ratio, it is excellent in acid resistance, alkali resistance, oil resistance, heat resistance and tensile strength, and it is resistant to changes in ultraviolet rays and temperature for a long time, and also has high temperature (about 70 ℃) and low temperature (about -50 ℃). ), Almost no change in physical properties, and even in the presence of moisture, the adhesion is good, it can be installed without removing the existing waterproof layer.
In addition, the sheet composite waterproofing method of the present invention by applying a primer to the surface of the concrete structure and a non-woven fabric while applying the first water-soluble coating waterproofing agent, impregnated with a water-soluble acrylic inorganic intermediate waterproofing agent, and then again a second water-soluble coating waterproofing agent By waterproofing to form a film, it prevents fine progression cracking and corrosion of concrete structural material with strong tensile strength by impregnated sheet as well as waterproof function, and waterproof layer itself is more firmly integrated and does not cause separation or heterogeneous phenomenon. Not only is there a better effect of breathability and crack resistance, heat insulation effect.
In addition, the sheet composite waterproofing method of the present invention is free from harmful effects due to volatile organic compounds, because the primer and the intermediate waterproofing agent, the primary and secondary water-soluble coating waterproofing agent, and the top coat contain no organic solvent at all, especially the top layer. Has a good surface smoothness, appearance performance and weather resistance by applying a top coat composed of a water-soluble acrylic emulsion resin resistant to ultraviolet rays, acid, and alkali.

Description

Sheet composite waterproofing method using water-soluble coating waterproofing agent {SHEET COMPLEX WATERPROOF CONSTRUCTION METHOD USING AQUEOUS MEMBRANE WATERPROOF AGENTS}

The present invention relates to a sheet composite waterproofing method using a water-soluble coating waterproofing agent, and more specifically, the roof, underground basement and outer walls of the building, the upper slab of the underground parking lot, subway, gangway, water tank, septic tank, swimming pool, tunnel, etc. A primer was applied to the surface of the concrete structure and the non-woven fabric was attached while applying the primary water-soluble coating waterproofing agent. Then, the water-soluble acrylic inorganic waterproofing agent was impregnated thereon, and then the film was formed of the second water-soluble coating waterproofing agent and the water-soluble acrylic resin top coat. By the construction, as well as the waterproof function on the surface of the concrete structure, as well as the separation or heterogeneous phenomenon of the waterproof layer itself to improve the waterproofing method of the concrete structure to have a heat insulation effect and resistance to corrosion and cracks of the building structure material.

Generally, the waterproofing material used as a protection system of construction and civil structures includes sheet type waterproofing material, coating type waterproofing material, and penetration type waterproofing material according to the construction method. Among them, the method of construction using the penetration type waterproofing material is a method used in the past for the waterproofing of bridge decks, and is mainly a method of dissolving silicon with a strong solvent and using it as a liquid penetration waterproofing agent. The construction method has a low resistance to cracking and has a problem of not penetrating into high-strength concrete of 300 kgf / cm 2 or more.

Although the sheet type waterproof construction shows uniform and excellent waterproof effect, it is expensive and difficult to connect between sheets in the construction process, so the surface is not uniform and the waterproof function may be lost due to leakage of the connection part. In addition, the coating-type waterproof construction is possible in the continuous construction without the connection portion and excellent in terms of effect, but had a disadvantage in that the resistance to cracking of the concrete and the waterproof performance at the interface is lost. The waterproofing agent used in the coating-type waterproof construction for construction and civil engineering as described above is an emulsion type mainly composed of rubber asphalt, acrylic rubber or acrylic resin, and a solution type urethane or epoxy resin containing chloroprene or chlorosulfonated polyethylene. There are reactive types, and among them, rubber asphalt and urethane waterproofing agents are frequently used.

The rubber asphalt waterproofing agent is prepared by mixing the synthetic rubber and various resins in asphalt and then rapidly curing using thermoplastic properties of the polymer, and emulsifying asphalt in synthetic latex, and then cooling by natural curing by evaporation of moisture. In general, asphalt is mixed with a styrene polymer, atactic polypropylene, styrene butadiene latex and the like.

In addition, solvent-type urethane-based waterproofing agent is widely used. Recently, water-soluble urethane-based waterproofing agent is developed and used in the form of polyurethane emulsion, polyurethane colloidal dispersion, polyurethane aqueous solution in consideration of work safety against environmental pollution or toxicity. However, in terms of properties including durability, there are still many points that are inferior to conventional solvent type urethane-based waterproofing agents.

In addition to the basic functions as a waterproofing agent to prevent leaks in buildings and the like, the coating waterproofing agents enumerated above are used to prevent the corrosion of buildings that are recently required as waterproofing agents, to prevent the formation of weeds and insects, There is a problem in terms of fineness and resistance to cracks caused by a sudden change in external temperature. Particularly, even in the case of conventional rubber asphalt waterproofing agent, there is little function of preventing the cracks of the building due to a small number of rubber components.

The penetration type waterproofing agent or the coating type waterproofing agent is well known in the art, but there are many attempts to use an emulsion type waterproofing agent as a representative coating type waterproofing agent in response to environmentally friendly demands recently, and it is also used in combination with a sheet type waterproofing material. The research to be done is steadily being carried out to the present day.

Regarding the present invention, as a prior art related to a representative multilayer composite waterproofing method, Korean Patent No. 10-0942521 (Registration Date: Feb. 8, 2010) is an inorganic and a coating waterproofing method using a waterproofing method for constructing an emulsion-type waterproofing material in multiple layers. Although the composite insulating film waterproofing method is disclosed, it is considered that it can be used only in a very limited use because it has a disadvantage in crack generation and durability due to not using a reinforcing material such as a non-woven fabric, but only applying a waterproofing agent in multiple layers. .

In addition, the Republic of Korea Patent No. 10-0883743 (Registration date: February 6, 2009) is a coating method of the waterproofing composition of the cross-linking waterproofing by laminating waterproofing method impregnated with a glass fiber roving cloth (crosslinking waterproofing composition) at the same time ascon It discloses a bridge waterproofing method using the bridge waterproof composition of the bridge or concrete structure comprising the step of pouring the waterproof layer and the asphalt concrete layer completely, which is a coating operation step of coating an alkali-resistant epoxy primer on the concrete surface; After the painting operation step, the first waterproofing film generating step of impregnating the cross-sectional waterproofing composition comprising an epoxy resin, urethane-based epoxy resin, tar, adhesive to the glass fiber and laminating work; It consists of a configuration including an adhesion promoting step of spraying the silica sand (SiO2) on the waterproof membrane, the Republic of Korea Patent No. 10-0688468 (Registration Date: February 22, 2007) in the waterproof, crack repair method of the concrete structure As a related art, there is disclosed a waterproofing and crack repair method for a concrete structure including a step of laminating and curing an adhesive-impregnated nonwoven fabric and a coating film elastic waterproof material-impregnated nonwoven fabric, and registered Korean Patent No. 10-0806613 (Registration Date: 2008. 2. 18, a waterproofing method using a roofing sheet is described.

However, since all of the known methods use solvent-based waterproofing agents, there is a problem of inconvenience caused by work and are vulnerable to moisture and durability, so that the applicants of the present invention have been in various ways for many years to solve the above problems. Among them, the acid resistance, alkali resistance, oil resistance, heat resistance, and tensile strength are excellent, and they are resistant to changes in ultraviolet rays and temperature for a long time, and hardly change in physical properties even at high and low temperatures, and adhesion in the presence of moisture. We have developed a water-soluble coating waterproofing agent for concrete structures that can be installed without removing the existing waterproof layer, and the waterproofing method of concrete structures using the same. Patent No. 10-1122254 (Registration date: Feb. 23, 2012) And Patent No. 10-0982820 (September 10, 2010) for various concrete structures It is usefully carried out in a composite waterproofing method.

Meanwhile, the present invention utilizes the technical features of the patent registered by the present applicant, that is, a coating film waterproofing agent made of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition, and impregnates the water-soluble acrylic emulsion resin and the inorganic powder on the nonwoven fabric sheet. By using the water-soluble acrylic emulsion resin having excellent adhesion as a top coat, the sheet composite waterproofing method according to the present invention is more firmly integrated with the waterproof layer and does not cause separation or heterogeneous phenomenon, but also breathability, tensile strength, crack resistance, The present invention has been completed by focusing on further improving heat retention.

An object of the present invention is to apply a primer (primer) on the surface of the concrete structure and to attach the nonwoven fabric while applying the primary water-soluble coating waterproofing agent, and then impregnated with a water-soluble acrylic inorganic intermediate waterproofing agent, to form a second water-soluble coating waterproofing film The waterproof construction prevents fine progression cracking and corrosion of the structural material with the strong tensile force of the impregnated sheet as well as the waterproofing function, and the waterproof layer itself is more firmly integrated, which does not cause separation or heterogeneous phenomenon, but also breathability and cracking. It is to provide a composite sheet waterproofing method using a water-soluble coating waterproofing agent with improved resistance to, and insulation effect.

Another object of the present invention is a primer (primer) used in the surface of the concrete structure, water repellent, primary and secondary water-soluble coating waterproofing agent, top-coat (Top-Coat) is not harmful to the human body because it does not contain any organic solvents Almost none, and the top layer is composed of a top coat made of a water-soluble acrylic emulsion resin that is resistant to ultraviolet rays, acids, and alkalis, and has excellent adhesion. To provide.

The present invention is to solve the above problems, the sheet composite waterproofing method using a water-soluble coating waterproofing agent according to the present invention, the first step of cleaning and cleaning the surface of the concrete structure, and the polybutylacrylic acid air on the surface of the concrete structure A second step of applying and drying a primer of a copolymer, a third step of attaching a nonwoven fabric by first applying a coating film waterproofing agent of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition, and a water-soluble acrylic emulsion resin and cement on the nonwoven fabric. A fourth step of impregnating and drying the intermediate waterproofing agent mixed with silica, water, and water in a weight ratio of 1: 1 to 3: 0.5 to 2: 3 to 5, and a coating film waterproofing agent of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition The fifth step of applying and drying the second to 1-3 times, and the top coat composed of a water-soluble acrylic emulsion resin is applied and dried Key is characterized by a yirueojim a sixth step.

In addition, the polybutylacrylic acid copolymer in the second step is formed by emulsion polymerization of polybutylacrylic acid, polyethylacrylic acid, polystyrene, and polyacrylic acid with water, and the water-soluble ethylene vinyl acetate gas phase in the third and fifth steps. The coating film waterproofing agent of the copolymer resin composition (A) 50 to 60% by weight of water-soluble ethylene vinyl acetate gas phase copolymer; (B) 20 to 30% by weight of the water-soluble acrylic emulsion resin; And (C) a resin composition comprising 10 to 20% by weight of a polybutylacrylic acid copolymer, and has a solid content of 40 to 60% and a viscosity of 5,000 to 10,000 cps.

And the non-woven fabric in the third step is a polyester non-woven fabric, the non-woven fabric joint portion is characterized in that the reinforcement of the connecting portion with a non-woven fabric after overlapping or butt construction with a width of 5 ~ 10㎝, used in the sixth step The top coat made of a water-soluble acrylic emulsion resin has a solid content of 30 to 60%, and further includes a pigment to enable color expression.

The primary and secondary water-soluble coating waterproofing agents used in the sheet composite waterproofing method of the present invention are excellent in mixing stability by using water-soluble ethylene vinyl acetate vapor phase copolymer, high solid content, fast drying speed, water-soluble acrylic emulsion resin and polybutyl By mixing the adhesive made of acrylic copolymer in a certain ratio, it is excellent in acid resistance, alkali resistance, oil resistance, heat resistance and tensile strength, and it is resistant to changes in ultraviolet rays and temperature for a long time, and also has high temperature (about 70 ℃) and low temperature (about -50 ℃). ), Almost no change in physical properties, and even in the presence of moisture, the adhesion is good, it can be installed without removing the existing waterproof layer.

In addition, the sheet composite waterproofing method of the present invention by applying a primer to the surface of the concrete structure and a non-woven fabric while applying the first water-soluble coating waterproofing agent, impregnated with a water-soluble acrylic inorganic intermediate waterproofing agent, and then again a second water-soluble coating waterproofing agent By waterproofing to form a film, it prevents fine progression cracking and corrosion of concrete structural material with strong tensile strength by impregnated sheet as well as waterproof function, and waterproof layer itself is more firmly integrated and does not cause separation or heterogeneous phenomenon. Not only is there a better effect of breathability and crack resistance, heat insulation effect.

In addition, the sheet composite waterproofing method of the present invention is not harmful by volatile organic compounds, because the primer and the intermediate waterproofing agent, the primary and secondary water-soluble coating waterproofing agent, and the top coat do not contain any organic solvent at all, in particular, The top layer has the advantage of having excellent surface smoothness, appearance performance and weather resistance by applying a top coat composed of water-soluble acrylic emulsion resin resistant to UV rays, acids and alkalis.

1 is a flow chart showing a composite sheet waterproofing method using a water-soluble coating waterproofing agent of the present invention,
Figure 2 is a cross-sectional view showing the structure of the waterproof layer by the sheet composite waterproofing method using the water-soluble coating film waterproofing agent of the present invention.

The present invention is a composite sheet waterproofing method using a water-soluble coating waterproofing agent, the first step of cleaning and cleaning the surface of the concrete structure; A second step of applying and drying a primer made of polybutylacrylic acid copolymer on the surface of the concrete structure; A third step of attaching a nonwoven fabric while first applying a coating film waterproofing agent made of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition; A fourth step of impregnating and drying the water-soluble acrylic emulsion resin, cement, silica sand, and the water repellent mixed in a weight ratio of 1: 1 to 3: 0.5 to 2: 3 to 5 on the nonwoven fabric; A fifth step of coating and drying the coating film waterproofing agent of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition once or twice; And a sixth step of applying and drying a top coat made of a water-soluble acrylic emulsion resin.

Hereinafter, the operation of each component to the configuration of the present invention will be described in detail, which is intended to illustrate the extent to which one of ordinary skill in the art can easily carry out the invention, It is not intended that the technical spirit and scope of the invention be limited.

In the present invention, the coating film waterproofing agent of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition (A) 50 to 60% by weight of the water-soluble ethylene vinyl acetate gas phase copolymer; (B) 20 to 30% by weight of the water-soluble acrylic emulsion resin; And (C) a resin composition comprising 10 to 20% by weight of a polybutylacrylic acid copolymer.

In general, polyvinyl acetic acid prepared by emulsion polymerization has a low glass transition temperature, which helps to plasticize the resin and is widely used in binders of paint, adhesives of wood or paper, but the water-soluble ethylene vinyl acetic acid (Ethylene- Vinyl Acetate) The gas phase copolymer (A) can obtain a polymer in powder form by producing a polymer having an average molecular weight of polyethylene ranging from 1,000 to 12,000 and having a density of 0.918 to 0.932 g / cm 3 by a gas phase method. It is preferable to use in terms of the uniformity of the product, and polyethylene can be obtained by copolymerizing a copolymer having a polar monomer such as acrylic acid or maleic anhydride in the main chain thereof as a side chain. Flexibility of the product by using a copolymer graft-polymerized Will be increased.

And when the ethylene vinyl acetate copolymer (A) is produced by copolymerizing ethylene (Ethylene) and vinyl acetate (Vinyl Acetate), the amount of vinyl acetate is about 1 to 50%, and the vinyl acetate content is about 1 to 25% for film. Although the amount of vinyl acetic acid is increased, the elastic modulus and thermal bonding temperature of the film are lowered while the impact strength, tensile strength, and permeability are increased. Thus, in the present invention, good adhesion is achieved using a vinyl acetic acid content of 25% or more. It exhibits excellent tensile strength because it is flexible even at low temperatures, and has good low temperature thermal adhesion and hot tack (adhesive strength immediately after thermal bonding).

In addition, the water-soluble acrylic emulsion resin (B) is contained in about 20 to 30% by weight relative to the total resin composition is mixed in a weight ratio of approximately 1/3 to 1/2 compared to 50 to 60% by weight of the component (A), in general In general, the acrylic emulsion resin is a generic name of a thermoplastic resin obtained by polymerizing an ester of acrylic acid or methacrylic acid. When the acrylic emulsion is used as an adhesive, it is usually used as a binder. However, in the present invention, when the acrylic acid is polymerized, an alkali is added to increase the pH. As the viscosity of the main surface is improved, it is not completely hardened and becomes a viscous polymer. Therefore, due to the composition ratio of the acrylic emulsion resin (B) as described above, it is necessary to maintain a suitable viscosity when preparing a coating film waterproofing agent by mixing predetermined water with the resin composition. In addition to being able to form a coating film waterproofing agent having high adhesion and adhesion to the bottom surface after drying.

And general water-based acrylic emulsion resin (waterbase type acrylic emulsion resin) can be manufactured in various ways, such as aqueous, organic solvent type, room temperature drying, heat drying type, the aqueous type used in the present invention is excellent heat resistance of 150 ℃ ( It has good transparency, excellent transmittance (refractive index is 1.49), good chemical resistance, electrical insulation, water resistance, and excellent water absorption, permeability, weather resistance and gloss. Unlike the existing aqueous binders, the binder is excellent in adhesion to various materials of various buildings as well as steel, and economical system coating is possible. And unlike existing oil-based binders, it can create a pleasant working environment and a residential environment by minimizing the odor generated during coating work, and it is designed to be environmentally friendly for excellent workability and does not contain heavy metals and shows high gloss.

In the preparation of the water-soluble acrylic emulsion resin, an additive commonly used such as an emulsifier, an antifoaming agent, and a dispersant is added to the emulsion, mixed evenly, and then a pigment is added and dispersed as necessary. When the dispersion is completed, the additives necessary for various functions are added according to the use to complete the product. In the conventional water-soluble paints for buildings, the pigment is dispersed in water, and then the pigment is directly dispersed in the emulsion, and then the viscosity is adjusted with a small amount of water, if necessary. This process enables high solids of the resin. The content is 30 to 60% to impart quick-drying to the water-soluble acrylic emulsion resin.

Next, the polybutylacrylic acid copolymer (C) mixed in the resin composition is used as an adhesive, which gives an elasticity to the surface of the waterproof surface and has an effect of preventing cracks on the surface. The amount of the copolymer (C) is suitably mixed in an amount of about 10 to 15% by weight based on the resin composition depending on the intended use, and mixing in an environment where the humidity is high is about 15 to 20% by weight in terms of the smoothness of the surface of the waterproof layer. Studyed as appropriate.

The polybutyl acrylic acid copolymer (C) is emulsion polymerization with water at a ratio of 13.5% by weight of polybutylacrylic acid homopolymer, 8.5% by weight of polyethylacrylic acid homopolymer, 5.2% by weight of polystyrene homopolymer, and 1.3% by weight of polyacrylic acid homopolymer. The copolymer is water-soluble and excellent in fire resistance, water resistance, abrasion resistance, oil resistance, ultraviolet resistance, and the like.

Method for producing a water-soluble coating waterproofing agent for a concrete structure according to the present invention is to put the resin composition consisting of the (A) + (B) + (C) to the mixing vessel, the mixing vessel at a rotational speed of 100 ~ 300rpm 1 It is prepared by mixing for 3 hours to a solid content of 40 to 60%, a viscosity of 5,000 to 10,000cps bar, the viscosity of the waterproofing agent is adjusted to the range according to the change of temperature, humidity and temperature of the concrete surface It is preferable in consideration of properties and adhesion.

Hereinafter, a waterproofing method of a concrete structure using a water-soluble coating waterproofing agent according to the present invention with reference to the drawings.

1 is a flow chart sequentially showing the waterproof method of the concrete structure according to the present invention, Figure 2 is a cross-sectional view showing the structure of the waterproof layer according to the present invention.

As shown in Figure 1, the waterproof method of the concrete structure according to the present invention comprises a first step to sixth step. In addition, as shown in Figure 2, the structure of the waterproof layer formed by the waterproof method of the present invention is a primer 10, the first water-soluble coating film waterproofing agent 20, nonwoven fabric 30, a middle water repellent from the concrete structure (C) 40, the second water-soluble coating film waterproofing agent 50, and the top coat 60 in this order.

The first step is to clean up and clean the surface of the concrete structure. This is to remove foreign substances on the surface of the concrete or to arrange the protrusions by a planer or a manual work, and then to clean the floor with a high pressure washer or a broom to facilitate penetration of the primer into the cracks of the concrete surface.

The second step is to apply a primer of a polybutylacrylic acid copolymer on the surface of the concrete structure and to dry it. The water-soluble adhesive as described above has excellent adhesion and smoothness to the concrete surface and adhesion to the waterproof layer. It not only improves but also gives a slight elasticity to the surface of the waterproof layer and has an effect of preventing cracks on the surface. As the properties required as the primer (adhesive primer), such chemical resistance, moisture resistance, adhesive strength, etc. can be largely mentioned. In the present invention, the water-soluble primer is a polybutylacrylic acid copolymer having excellent permeability to the surface of concrete structures. It was investigated that the most preferred resin was the most preferable, and this is the same component as the polybutylacrylic acid copolymer (C) which is one component in the water-soluble coating waterproofing resin composition used in the third and fifth steps of the present invention, so that the convenience of construction work is also sufficient. Considered.

The third step is a step of applying a nonwoven fabric while first applying a coating film waterproofing agent made of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition. As described above, the coating film waterproofing agent of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition (A) 50 to 60% by weight of the water-soluble ethylene vinyl acetate gas phase copolymer; (B) 20 to 30% by weight of the water-soluble acrylic emulsion resin; And (C) a resin composition comprising 10 to 20% by weight of a polybutylacrylic acid copolymer, which is used to have a solid content of 40 to 60% and a viscosity of 5,000 to 10,000 cps in terms of workability and adhesion. desirable.

In addition, the nonwoven fabric is preferably, by using a nonwoven fabric made of polyester material to impart strong tensile and heat insulating properties to the waterproof layer and effectively prevent the occurrence of microcracks due to impact. At this time, it is appropriate to reinforce the connecting part with nonwoven fabric after overlapping or butt-installing the nonwoven fabric joint part with a width of 5 ~ 10㎝, and the connecting part is applied by applying the coating film waterproofing agent to break, lift, The crack can be prevented as much as possible.

The fourth step is a step of impregnating and drying the water-resistant acrylic emulsion resin, cement, silica sand, water in the nonwoven fabric in a weight ratio of 1: 1 to 3: 0.5 to 2: 3 to 5, respectively. As the intermediate waterproofing agent composed of acrylic resin and inorganic components is densely packed between pores to have strong surface tensile strength, it prevents fine progression cracking and corrosion on the concrete structure, and the acrylic emulsion resin impregnated into the nonwoven fabric is made of nonwoven fabric and upper and lower waterproof layers. It is effective to prevent the lifting of the waterproof layer or the generation of pinholes by enhancing the adhesion between the liver.

In other words, the water-soluble acrylic emulsion resin used as the intermediate waterproofing agent in the present invention is all excellent in transparency, transmittance, weather resistance, chemical resistance, electrical insulation, water resistance and excellent heat resistance of about 150 ℃, and also non-woven fabric compared to other emulsion resin Since the adhesive acrylic resin and the inorganic composite component easily penetrate between the pores of the nonwoven fabric sheet because of excellent absorption and permeability to the sheet, the tension and adhesion of the nonwoven fabric sheet are improved due to the action of the intermediate waterproofing agent, thereby improving the fineness of the concrete structure. It not only prevents cracking and corrosion of the internal steel, but also significantly improves separation or heterogeneity between seams or waterproof layers of the nonwoven sheet.

The water-soluble acrylic emulsion resin is a component compatible with the water-soluble acrylic emulsion resin (B) which is one component in the water-soluble coating waterproofing resin composition used in the third and fifth steps of the present invention can be conveniently used in the field to be.

The fifth step is a step of applying and drying the coating film waterproofing agent made of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition as in the third step 1 to 3 times, and the coating film waterproofing agent has excellent blending stability and high solid content. The drying speed is fast, and by mixing the adhesive of water-soluble acrylic emulsion resin and polybutylacrylic acid copolymer in a certain ratio, it is excellent in acid resistance, alkali resistance, oil resistance, heat resistance and tensile strength, and is resistant to changes in ultraviolet rays or temperature for a long time. In addition, even at high temperature (about 70 ℃) and low temperature (about -50 ℃) to form a waterproof layer with little change in physical properties.

The sixth step is to apply a top coat (Coat) consisting of a water-soluble acrylic emulsion resin and to dry, and to coat the coating material in an amount of 0.3㎏ / ㎡ to the coating film waterproofing surface after drying and curing at room temperature for more than 24 hours . The top coat is fast drying even in high humidity, and is excellent in workability, and has good weather resistance, chemical resistance, electrical insulation, water resistance, gloss, abrasion resistance, and no flammability, and is nontoxic (lead, chromium, mercury). , Cadmium, etc.) is environmentally friendly, and has a high solids volume ratio (about 40%, ASTM D2697, 7 days), so that the dry film thickness is thick during coating, so the durability is good. In addition, the top coat additionally contains inorganic or organic pigments to enable color development to naturally maintain the color with the surrounding structure and does not cause discoloration or discoloration of the resin itself. The amount of the top coat is preferably 5 wt% The physical properties such as the strength of the coating film do not deteriorate.

The top coat may be recommended to have a different coating thickness depending on the purpose of use and site, and the painting work may be performed by rollers, brushes, sprays, etc. under atmospheric conditions of 5 to 35 ° C. and a relative humidity of 85% or less. Appropriate dilution with water is applied once or three times and dried at room temperature for at least 24 hours, the holding temperature should be about 3 ℃ or more above the dew point in order to prevent condensation of water to ensure maximum adhesion and film strength after drying. Can be. In addition, the coating thickness was found to have no problem in breathability and adhesion when the dry coating thickness was within 1 mm based on the smooth surface, and the drying time of the top coat composed of the water-soluble acrylic emulsion resin applied was shown in Table 1 below. .

Temperature 10 ℃ 20 ℃ 30 ℃ Dry touch 1 hours 30 minutes 20 minutes Curing drying 3 hours 2 hours 1 hours

Next, the examples and comparative examples of the physical properties of the water-soluble coating waterproofing agent and the waterproofing method of the concrete structure using the same will be described, but the present invention has been completed through a number of experiments, but will be readily understood by those skilled in the art The present invention will be described through preferred embodiments that can be implemented.

Water Soluble Coating Waterproofing Experimental Example

≪ Example 1 >

To 50 parts by weight of water-soluble ethylene vinyl acetate gas phase copolymer, a resin composition added at a ratio of 30 parts by weight of water-soluble acrylic emulsion resin and 20 parts by weight of polybutylacrylic acid copolymer was formed and introduced into a blender with a plasticizer, and then the viscosity was 7,000 cps at room temperature. A uniform water-soluble coating waterproofing agent was prepared by stirring and mixing at a rotational speed of 200 rpm for about 2 hours until reaching.

<Example 2>

A water-soluble coating film waterproofing agent was prepared in the same manner as in Example 1 except that the resin composition was composed of 30 parts by weight of a water-soluble acrylic emulsion resin and 10 parts by weight of a polybutylacrylic acid copolymer. .

<Example 3>

A water-soluble coating film waterproofing agent was prepared in the same manner as in Example 1, except that the resin composition was composed of 20 parts by weight of a water-soluble acrylic emulsion resin and 20 parts by weight of a polybutylacrylic acid copolymer. .

<Experimental Example>

Comparison of rubber asphalt coating film waterproofing agent and solvent type urethane coating film waterproofing agent with the coating film waterproofing agent prepared according to Examples 1 to 3 and commercially available products for tensile strength, elongation rate, adhesion strength, chemical resistance, surface smoothness and workability The results are shown in Table 2 below. Here, tensile strength and adhesion strength were measured according to ASTM D 638-91 and ASTM D 4541-89, elongation was measured according to ASTM D638-91, and chemical resistance was measured according to ASTM D 543 method.

Properties Example Rubber asphalt coating film waterproofing agent Urethane coating film waterproofing agent One 2 3 Tensile strength (kgf / cm2) 65 72 68 59 36 Elongation (%) 760 780 770 740 710 Bond strength (kgf / cm2) 21 23 19 17 12.5 Chemical resistance Ethylene glycol clear clear clear  clear clear Calcium chloride clear clear clear Bad Bad Gasoline clear clear clear clear Bad Motor oil clear clear clear clear clear Sodium chloride clear clear clear Bad Bad Surface smoothness ○ ○ ○ × ○ Workability Good Good Good Bad Bad

In the surface smoothness,

○: No surface defect such as pinhole occurred

X: Fine surface defects, such as a pinhole, generate | occur | produce finely

From the results of Table 1, the water-soluble coating waterproofing agent of the present invention is generally good in tensile strength, elongation rate, adhesion strength, chemical resistance and surface smoothness, compared to the existing oil-based products, and work at low or high temperatures without being affected by the ambient temperature. It can be seen that there is no harm caused by organic solvents.

As described above, since the water-soluble coating waterproofing agent of the present invention can exhibit a strong resistance to cracks of concrete structures, the waterproof performance does not deteriorate for a long time, but also the roof of the building, the basement and outer walls of the building, the upper slabs of the underground parking lot, subway, public sphere It can be used as a film waterproofing agent for various purposes such as water tank, septic tank, swimming pool and tunnel.

Sheet composite waterproofing Experimental Example

Next, the waterproof layer (3mm thickness) constructed by the sheet composite waterproofing method according to the present invention using the water-soluble coating film waterproofing agent of Examples 1 to 3 is a conventional rubber asphalt coating film waterproofing method (3mm thickness) and rubber asphalt system Compare the waterproof layer by the glass fiber lamination method (5 ~ 7mm thickness), respectively, and compare the adhesion, waterproof performance, irregularities on the surface of the waterproof layer, pinholes and cracks on the waterproof layer, peeling phenomenon of the waterproof layer, workability, curing speed and Items such as construction time were examined through field experiments.

As a result, the waterproof layer according to the composite sheet waterproofing method of the present invention showed good characteristics on the basis of strong adhesion and excellent workability, the composite sheet waterproofing method according to the present invention is the most effective waterproofing method compared to the conventional waterproofing method In addition, the present invention is a breakdown, lifting, cracking of the waterproofing layer of the coating film through the process of impregnating the middle water-resistant agent comprising a water-soluble acrylic emulsion resin and an inorganic material on the nonwoven fabric and applying a top coat made of a water-soluble acrylic emulsion resin In addition to improving resistance and air permeability, the upper coating film has a beautiful appearance and can be expected to significantly improve weather resistance by acting strongly on ultraviolet rays, acids and alkalis.

Accordingly, the sheet composite waterproofing method using the water-soluble coating waterproofing agent of the present invention can be substituted, modified, and changed in various ways without departing from the technical spirit of the present invention, and the water-soluble coating waterproofing agent and the nonwoven fabric are constructed together with the columnar and wall waterproofing. As it has excellent tensile property, it has good flexibility in summer and does not cause cracks due to shrinkage in winter. Therefore, the elasticity and thermal insulation of the waterproof layer can be enhanced, and micro cracks can be prevented more effectively. After drying, the surface of the concrete structure is beautiful. Since the effect to be made, it can be used in various uses and forms as a waterproof method for various facilities.

C: concrete structure
10: primer
20: water soluble coating waterproofing agent (primary)
30 nonwoven fabric
40: middle waterproofing agent
50: water-soluble coating waterproofing agent (secondary: 1 to 3 times)
60: top coat

Claims (6)

A first step of cleaning and cleaning the surface of the concrete structure;
A second step of applying and drying a primer made of polybutylacrylic acid copolymer on the surface of the concrete structure;
A third step of attaching a nonwoven fabric while first applying a coating film waterproofing agent made of a water-soluble ethylene vinyl acetate gas phase copolymer resin composition;
A fourth step of impregnating and drying the water-soluble acrylic emulsion resin, cement, silica sand, and the water repellent mixed in a weight ratio of 1: 1 to 3: 0.5 to 2: 3 to 5 on the nonwoven fabric;
A fifth step of coating and drying the coating film waterproofing agent of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition once or twice;
A sixth step of applying and drying a top coat (Top-Coat) consisting of a water-soluble acrylic emulsion resin; Sheet composite waterproofing method using a water-soluble coating waterproof, characterized in that comprises a. The method of claim 1,
The polybutylacrylic acid copolymer in the second step is a sheet composite waterproofing method using a water-soluble coating waterproofing agent, characterized in that the polybutyl acrylic acid, polyethyl acrylic acid, polystyrene, poly acrylic acid is emulsion polymerization with water. The method of claim 1,
The coating film waterproofing agent of the water-soluble ethylene vinyl acetate gas phase copolymer resin composition in the third and fifth steps (A) 50 to 60% by weight of the water-soluble ethylene vinyl acetate gas phase copolymer; (B) 20 to 30% by weight of the water-soluble acrylic emulsion resin; And (C) a resin composition comprising 10 to 20% by weight of a polybutylacrylic acid copolymer, wherein the solid content is 40 to 60%, and a viscosity of 5,000 to 10,000 cps. The method of claim 1,
The nonwoven fabric in the third step is a composite sheet waterproofing method using a water-soluble coating film waterproofing agent, characterized in that the polyester nonwoven fabric. The method of claim 1,
Non-woven fabric joints in the third step of the sheet composite waterproof method using a water-soluble coating waterproof, characterized in that the reinforcement of the connecting portion with a non-woven fabric after overlapping construction or butt construction in a width of 5 ~ 10㎝. The method of claim 1,
The top coat composed of a water-soluble acrylic emulsion resin used in the sixth step is 30 to 60% solid content, the sheet composite waterproofing method using a water-soluble coating waterproof, characterized in that it further comprises a pigment to enable color expression.

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