KR102532742B1 - Method of waterproofing construction using eco-friendly inorganic elastic coating waterproofing agent - Google Patents

Abstract

The present invention relates to a waterproofing construction method using an eco-friendly inorganic elastic coating waterproofing agent which improves waterproof properties by applying a waterproof structure having an inorganic elastic coating waterproof layer with an elongation percentage of 120-150%. The waterproofing construction method using an eco-friendly inorganic elastic coating waterproofing agent comprises: a background surface cleaning step (S1) of breaking a protruding portion and a rising portion of a construction portion, and removing impurities hindering adhesion of a waterproofing material; a primer coating step (S2) of mixing primer consisting of inorganic powder and aqueous acryl emulsion by an electric blender, and then coating and drying the mixture on the construction portion with one among a brush, a roller, and a spray to be overlapped in a horizontal direction and a vertical direction to form a primer layer; a concrete putty construction step (S3) of mixing concrete putty consisting of inorganic powder and aqueous silicon emulsion by an electric blender, and then filling small and large openings of the construction portion with a rubber scraper or a darby for plastering; and a waterproof layer coating step (S4) of coating and drying an inorganic elastic coating waterproofing agent three times to be overlapped in a horizontal direction and a vertical direction to form a waterproof layer with an elongation percentage of 120-150%.

Description

Waterproof construction method using eco-friendly inorganic elastic coating waterproofing agent {METHOD OF WATERPROOFING CONSTRUCTION USING ECO-FRIENDLY INORGANIC ELASTIC COATING WATERPROOFING AGENT}

The present invention relates to a waterproof construction method using an eco-friendly inorganic elastic coating film waterproofing agent, and more particularly, an eco-friendly inorganic elastic coating film that improves waterproof properties by applying a waterproof structure having an inorganic elastic coating waterproof layer with an elongation of 120 to 150%. It relates to a waterproof construction method using a waterproofing agent.

In the following description, the case of waterproofing construction on the roof of a building will be described as an example, but the technical concept of the present invention is not limited to the roof waterproofing of a building, and tunnel waterproofing, pier waterproofing, marine structure waterproofing, steel structure waterproofing, parking tower waterproofing It can be applied to waterproof construction in various places including waterproofing of cargo ships, etc.

In general, when moisture such as rainwater permeates from the roof or basement of a building, some of the moisture does not evaporate and penetrates into the building, thereby adversely affecting the durability of the structure.

In particular, since concrete is weak in waterproofing power, various waterproofing materials are used to waterproof structures such as inner walls and floors.

In current concrete and masonry buildings, a special waterproof layer must be introduced to prevent moisture penetration into the building. In new buildings, a non-exposed waterproof layer is applied, so that the pressed concrete exposed to the outside continues to be defenseless against moisture, acid rain, and ultraviolet rays.

As this shape continues, moisture penetrates to the unexposed waterproof layer, plastic materials in the waterproof layer are eluted, and physical properties change to hard, mechanical factors cause destruction, and moisture continues to penetrate into the concrete slab, corroding the reinforcing bars leaks will occur. In order to prevent such leakage, aging, deterioration and corrosion, a coating film waterproofing agent is applied to the pressed concrete surface to protect concrete buildings from moisture and sunlight.

In general, the roof of a building or the floor of a roof is constructed with a slab to form a concrete layer, and a waterproofing layer is formed by waterproofing with a waterproofing solution such as asphalt concrete thereon. On the waterproof layer, a heat insulating material such as styrofoam, rock wool, glass wool, etc. is applied to form a heat insulating layer, and a protective layer of urethane is formed thereon to perform waterproof construction.

In the course of this waterproof construction, the insulation material is a type of foamable resin and is hygroscopic, containing moisture. In the case of the roof or roof of a building, all water generated by rain or snow is not drained and removed, but some of it permeates into the insulation layer inside the roof floor. As the amount of permeated water increases over time, it causes cracks or corrosion on the roof floor, and freeze-up and cracking are accelerated due to freezing, especially in winter.

As described above, various coating waterproofing agents have been developed and used to protect concrete structures, and have strong adhesion to concrete, excellent waterproof and weather resistance, and have the same alkalinity as concrete without material separation because no neutral chemical reaction occurs. There is a polymer cement-based inorganic coating film waterproofing agent.

Domestic Utility Model Registration No. 20-0175730 is 10 to 30 parts by weight of Portland cement or blast furnace cement, 20 to 50 parts by weight of a water-dispersible acrylic emulsion having a solid content of 40 to 50 parts by weight, and siliceous silica sand of 160 mesh or less 30 to 60 parts by weight of curing retardant sodium silicofluoride, oxycarbonic acid and its salts, sodium gluconate, sucrose, polysaccharide, sugar alcohol 0.5 to 1.5 parts by weight, water 1 to 10 parts by weight, color conditioning aids and Thickeners, preservatives, heat-resistant anti-aging agents, ozone-resistant agents, and UV stabilizers are composed in a weight ratio of 0.5 to 5, but there is a disadvantage in that various types of curing retardants that inhibit hydration are used, and as a result, admixtures (emulsion polymers) are used. ) and powder (inorganic powder) are mixed and stirred at the site, there is a disadvantage in that cost increases due to increased labor costs due to double work and abuse of unnecessary materials.

In addition, domestic patent registration No. 10-0406212 heats 35 to 55 parts by weight of water at 40 to 50 ° C., and adds 5 to 10 parts by weight of a nonionic surfactant and 40 to 60 parts by weight of calcium stearate to emulsify and disperse. and mixing with 180 to 200 parts by weight of an acrylic emulsion resin copolymer to prepare an emulsion agent A; And agent B prepared by mixing 100 parts by weight of white Portland cement with 50 to 70 parts by weight of No. 7 silica sand, 5 to 9 parts by weight of chromium oxide, and 0.1 to 0.5 parts by weight of polyoxyethylene lauryl ether with the agent A at 1:0.25 Although mixing is suggested to be in a weight ratio, this prior art is the same as the prior art in that it is difficult for the user to directly make the emulsion A agent, and as a result, mixing and stirring are performed on site.

In addition, Korean Patent Registration No. 10-0661210 is composed of a liquid combination containing a silicone emulsion as a main component and a powder containing cement and aggregate; The content of the silicone emulsion is composed of 4 to 17% by weight relative to the weight of cement as an active content, and the mixing ratio of the cement and aggregate is made of 1: 0.5 to 1: 5 in weight ratio, to stabilize the matrix structure of the cement It is suggested that the auxiliary binder is added within the range of 6 to 16% by weight compared to cement.

Therefore, according to the above prior art, acrylic or silicone emulsion is used as an admixture, and various additives are used to improve performance such as cement-based powder (inorganic powder) and various hydration reactions and water repellency, chemical resistance, and tensile strength. It can be said that they are the same and similar in that they are used and the products are mixed and stirred at the construction site.

Republic of Korea Utility Model Registration No. 20-0175730 Republic of Korea Patent Registration No. 10-0406212 Republic of Korea Patent Registration No. 10-0661210

An object of the present invention is to provide a waterproof construction method using an eco-friendly inorganic elastic coating waterproofing agent that improves waterproof characteristics by applying a waterproofing structure having an inorganic highly elastic coating waterproofing layer having an elongation of 120 to 150%.

In addition, another object of the present invention is an eco-friendly inorganic elastic coating film waterproofing agent in which a waterproofing layer made of inorganic material is formed on the surface of concrete made of inorganic material to improve bonding strength and extend lifespan, thereby eliminating the need for repair work due to a low defect rate. It is to provide a waterproof construction method using.

In addition, another object of the present invention is to significantly improve the tensile strength and elongation rate to waterproof construction using an eco-friendly inorganic elastic coating film waterproofing agent that has excellent performance that does not separate or separate from the construction surface even when cracks occur in the concrete structure is to provide a way

In addition, another object of the present invention is to use cement-based inorganic powder, so contraction and expansion are performed together with concrete, and corrosion of concrete can be prevented by easily discharging moisture of the concrete to the outside, thereby extending the lifespan of the building. It is to provide a waterproof construction method using an environmentally friendly inorganic elastic coating film waterproofing agent that can be extended.

However, the objects of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below. .

According to the features of the present invention for achieving the above object,

A surface cleaning step (S1) of removing protruding parts and lifting parts of the construction part and cleaning impurities that hinder the adhesion of the waterproofing material;

Primer consisting of water-based acrylic emulsion and inorganic powder is blended with an electric mixer, applied to the construction site with either a brush, roller, or spray in the horizontal and vertical directions, and then dried to form a primer layer. Step (S2);

A concrete putty agent construction step (S3) in which a concrete putty agent composed of aqueous silicone emulsion and inorganic powder is mixed with an electric mixer and then fills the large and small voids of the construction area with a rubber spatula or a plastering base at the construction site; and

A waterproofing layer application step (S4) of applying the inorganic elastic coating film waterproofing agent three times overlapping in the horizontal and vertical directions and drying to form a waterproofing layer with an elongation rate of 120 to 150% using an eco-friendly inorganic elastic coating film waterproofing agent. Provides a waterproofing method.

At this time, according to an additional feature of the present invention, the background surface cleaning step (S1),

It is preferable to break the protruding and raised parts of the construction site with a small hammer drill or heavy hammer, clean the impurities that hinder the adhesion of the waterproofing material, apply the primer once or twice, and then apply the concrete putty to the concrete voids.

According to another additional feature of the present invention, the primer for forming the primer layer of the primer application step (S2) is a two-component type of the main agent and the curing agent, and is used by mixing at a rate of 10 kg of the main agent and 10 kg of the curing agent. to do,

The subject uses an aqueous acrylic emulsion,

The curing agent is inorganic powder, but the composition is preferably composed of cement 8kg, white cement 1kg, ceramic ore 0.5kg, silica sand 0.3kg, antifoaming agent 0.1kg, plasticizing agent 0.1kg.

According to another additional feature of the present invention, the concrete putty agent in the concrete putty agent construction step (S3) is a two-component type of the main agent and the hardener, so that it is mixed and used at the site in a ratio of 10 kg of the main agent and 17 kg of the hardener,

The subject uses an aqueous silicone emulsion,

The curing agent uses inorganic powder, and the composition is preferably composed of 12.8 kg of cement, 3 kg of micro cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent.

According to another additional feature of the present invention, the inorganic elastic coating film waterproofing agent in the waterproof layer application step (S4) is a two-component type of the main agent and the curing agent, so that it is mixed and used at the site in a ratio of 10 kg of the main agent and 6 kg of the curing agent.

The subject uses an aqueous acrylic emulsion,

The curing agent uses inorganic powder, and the composition preferably consists of 2.3 kg of cement, 2 kg of micro cement, 0.5 kg of white cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent.

Applying the waterproof construction method using the eco-friendly inorganic elastic coating film waterproofing agent of the present invention has the following effects.

The present invention has an effect of improving waterproof characteristics by applying a waterproof structure having an inorganic highly elastic coating waterproof layer with an elongation of 120 to 150%.

In addition, when a liquid material and other powdered materials are prepared in a separate container and then mixed and applied to the surface of the concrete during use, a waterproof layer is formed, thereby improving user convenience.

In addition, when the present invention described above is applied, the tensile strength and elongation of the waterproof layer are greatly improved, so that even when cracks occur in the concrete structure, there is an effect that it is not separated or separated from the construction surface.

In addition, when the present invention described above is applied, since the cement-based inorganic powder is used, it is possible to prevent corrosion of the concrete by easily discharging moisture from the concrete to the outside, thereby prolonging the life of the building. After all, by forming a waterproof layer made of inorganic material on the concrete surface made of inorganic material, the bonding strength is improved, and accordingly, the defect rate is low, so there is an effect that repair work is not required.

In addition, the application of the present invention described above can shorten the construction period caused by mixing and stirring at the site, as well as minimize defects in the composition caused by incomplete mixing and stirring at the site, so that defects after construction There is an effect that can reduce the occurrence.

In addition, when the present invention described above is applied, the properties of the material are similar to those of concrete, so that material separation does not occur, so that the effect can be expected as a waterproofing agent for exposure for a long period of time.

1 is a flow chart showing the process of waterproofing construction using an environmentally friendly inorganic elastic coating film waterproofing agent according to a preferred embodiment of the present invention.
Figure 2 is a photograph showing the adhesion between the environmentally friendly inorganic elastic coating film waterproofing agent and heterogeneous materials according to an embodiment of the present invention.
3 are photographs showing that the waterproof layer is not damaged even when the structure is damaged according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail.

In describing the present invention, if it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

1 is a flowchart showing a process of waterproofing construction using an environmentally friendly inorganic elastic coating film waterproofing agent according to a preferred embodiment of the present invention.

Referring to Figure 1,

First, break off the protruding and raised parts of the construction site, and clean and remove impurities that hinder the adhesion of the waterproofing material. (Refer to step S1)

At this time, the protruding part and the raised part of the construction part are broken with a small hammer drill or heavy hammer, and impurities that hinder the adhesion of the waterproofing material, including cement crumbs, oil, soil, etc., are cleaned with an air cleaner or a high-pressure water cleaner.

After applying the primer, the broken part is mixed with the concrete putty agent and applied according to the base surface using a rubber spatula or plastering machine.

Then, a primer application step (refer to step S2) of forming a primer layer is performed.

The primer for forming the primer layer is in a two-component type of the main agent and the curing agent, and is mixed and used in a ratio of 10 kg of the main agent and 10 kg of the curing agent immediately before use in the field.

The subject uses an aqueous acrylic emulsion.

The curing agent uses inorganic powder, and the composition is most preferably composed of 8 kg of cement, 1 kg of white cement, 0.5 kg of ceramic ore, 0.3 kg of silica sand, 0.1 kg of antifoaming agent, and 0.1 kg of fluidizing agent. At this time, the cement may be Portland cement or blast furnace cement, which is generally widely used, and the ratio of each composition may be increased or decreased in the range of 15%, and it is obvious that a separate composition may be added.

The primer layer has a function of excellently improving adhesion between concrete and dissimilar materials, and the inventors of the present invention, as shown in the accompanying drawings, PVC, steel pipe, copper pipe, stainless steel pipe, H-beam, reinforcing bar, It was confirmed that it can be applied to wood, high sash, etc.

In the present invention, it performs a function of reinforcing the adhesion between concrete and an eco-friendly inorganic elastic coating waterproofing agent to be constructed later.

The primer is mixed with the main agent (10 kg) and the hardener (10 kg), mixed with an electric mixer for about 3 minutes, and then applied to the construction site in horizontal and vertical directions with either a brush, roller or spray, overlapping at 25 ° C. Dry for 10 to 20 minutes.

At this time, if the construction part is a closed space or a space with poor ventilation, it can be cured with a fan, a duct, or a heat fan.

Since the primer applied to the present invention is inorganic, there is an effect that there is no concern about fire even after construction.

After that, proceed with the concrete putty construction step (see step S3) that fills the large and small voids of the construction site.

The concrete putty agent is a two-component type of the main agent and the hardener, and is used by mixing at a ratio of 10 kg of the main agent and 17 kg of the hardener immediately before use at the site.

The subject uses an aqueous silicone emulsion.

The curing agent uses inorganic powder, and the composition is most preferably composed of 12.8 kg of cement, 3 kg of micro cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent. However, it is obvious that the ratio of each composition can be increased or decreased in the range of 15%, and additional compositions can be added.

The concrete putty agent applied to the present invention is generally used as a repair product or concrete surface finishing material and is preferably applied to a thickness of 0.1 mm using a "concrete handy coat" known to have excellent adhesive strength.

As a result of a number of experiments conducted by the inventors of the present invention, it was confirmed that no lifting or cracking occurred even when the coating was applied at a thickness of 0.05 mm to 0.1 mm, and it had sufficient adhesive strength.

The concrete putty agent is mixed with the main material (10 kg) and the hardener (17 kg), and then blended for 3 to 5 minutes with an electric mixer, and then fills the large and small voids of the construction site with a rubber spatula or a plasterer.

Thereafter, a waterproof layer coating step (S4) is performed in which the inorganic elastic coating film waterproofing agent is applied three times overlapping in the horizontal and vertical directions and dried to form a waterproof layer with an elongation of 120 to 150%.

The inorganic elastic coating film waterproofing agent is a two-component type of a main material (10 kg) and a curing agent (6 kg), and the main material uses an aqueous acrylic emulsion.

The curing agent uses inorganic powder, and the composition preferably consists of 2.3 kg of cement, 2 kg of micro cement, 0.5 kg of white cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent. However, it is obvious that the ratio of each composition can be increased or decreased in the range of 15%, and additional compositions can be added.

Since the inorganic elastic coating film waterproofing agent applied to the present invention uses a material having crack resistance, water permeability, and galling resistance, it has excellent resistance to cracking of architectural/civil concrete structures, and has excellent concrete surface protection and adhesion durability. Excellent.

In addition, since the elongation rate is 120 to 150%, the anti-crack effect is excellent and it can be optimally used for seismic design of concrete structures.

The inorganic elastic coating film waterproofing agent is mixed with the main agent (10 kg) and the curing agent (6 kg), and then mixed with an electric mixer for about 5 minutes, and then overlapped in the horizontal and vertical directions with either a brush, roller, or spray on the construction site 3 Apply twice and dry.

In the case where the mixer is less and there is lumpy dregs, it is preferable to completely remove the dregs with an electric mixer before construction, and the thickness of the waterproof layer is preferably 1.5 to 0.2 mm.

In addition, the touch drying time is 30 minutes at 25 ° C, but a fan, blower, or hot air blower can be used to shorten the drying time and construction period.

In the above description, when the inorganic elastic coating film waterproofing agent needs to construct a wall and a floor, the wall waterproofing is performed first, and then the floor waterproofing is performed.

Referring to the photos of FIG. 3, it was confirmed that the waterproof layer was not damaged even when the inorganic elastic coating film waterproofing agent was applied to a sidewalk block and the back side of the sidewalk block was damaged. As a result, it can be seen that when the present invention is applied, even when the structure is damaged, the waterproof layer is not damaged and the waterproof effect is maintained.

What has been described above is only one embodiment for carrying out a waterproof construction method using an environmentally friendly inorganic elastic coating film waterproofing agent, and the present invention is not limited to the above embodiment. Those skilled in the art in the field belonging to the present invention will be able to understand that various modifications are possible without departing from the gist of the present invention.

S1: background surface cleaning step
S2: Primer application step
S3: Concrete putty construction step
S4: waterproofing layer application step

Claims (5)

A surface cleaning step (S1) of removing protruding parts and lifting parts of the construction part and cleaning impurities that hinder the adhesion of the waterproofing material;
Primer consisting of water-based acrylic emulsion and inorganic powder is blended with an electric mixer, applied to the construction site with either a brush, roller, or spray in the horizontal and vertical directions, and then dried to form a primer layer. Step (S2);
A concrete putty agent construction step (S3) in which a concrete putty agent composed of aqueous silicone emulsion and inorganic powder is mixed with an electric mixer, and then fills the large and small voids of the construction area with a rubber spatula or plastering base at the construction site; and
A waterproof layer application step (S4) of applying an inorganic elastic coating film waterproofing agent three times overlapping in the horizontal and vertical directions and drying to form a waterproof layer with an elongation rate of 120 to 150%,
The primer for forming the primer layer in the primer application step (S2) is composed of a two-component type of the subject and the hardener, and is mixed and used at the site in a ratio of 10 kg of the subject and 10 kg of the hardener,
The subject uses an aqueous acrylic emulsion,
The curing agent uses inorganic powder, but the composition is an eco-friendly inorganic elastic coating film, characterized in that composed of a ratio of 8 kg of cement, 1 kg of white cement, 0.5 kg of ceramic ore, 0.3 kg of silica sand, 0.1 kg of antifoaming agent, and 0.1 kg of fluidizing agent. Waterproof construction method using waterproofing agent. According to claim 1,
In the background surface cleaning step (S1),
After breaking the protruding and raised parts of the construction site with a small hammer drill or heavy hammer, cleaning impurities that hinder the adhesion of the waterproofing material, applying the primer once or twice, and then applying concrete putty to the concrete voids Characterized in that Waterproof construction method using eco-friendly inorganic elastic coating film waterproofing agent. delete According to claim 1,
In the concrete putty construction step (S3), the concrete putty is a two-component type of the main agent and the hardener, so it is mixed and used at the site in a ratio of 10 kg of the main agent and 17 kg of the hardener.
The subject uses an aqueous silicone emulsion,
The curing agent uses inorganic powder, and the composition is composed of a ratio of 12.8 kg of cement, 3 kg of micro cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent. waterproofing method. According to claim 1,
The inorganic elastic coating film waterproofing agent in the waterproofing layer application step (S4) is a two-component type of the main agent and the curing agent, so it is mixed and used at the site in a ratio of 10 kg of the main agent and 6 kg of the curing agent.
The subject uses an aqueous acrylic emulsion,
The curing agent uses inorganic powder, and the composition is an eco-friendly inorganic type, characterized in that composed of a ratio of 2.3 kg of cement, 2 kg of micro cement, 0.5 kg of white cement, 0.8 kg of ceramic ore, 0.2 kg of antifoaming agent, and 0.2 kg of fluidizing agent. Waterproof construction method using elastic coating film waterproofing agent.

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