KR20230115458A - Construction method of an inorganic waterproofing agent for the surface of a structure - Google Patents

Abstract

The present invention relates to a method for constructing an inorganic water-based waterproofing agent for the surface of a structure, and more particularly, by preparing an inorganic water-based waterproofing agent including Portland cement, alumina cement, stone dust and resins, and applying the inorganic water-based waterproofing agent to the surface of a structure. It combines well with the existing structure and increases strength, so the durability is longer, and it is easy to use because the waterproofing agent can be applied by selecting from brush, roller, and sprayer. Afterwards, by selectively finishing the work using inorganic coating agents, coating agents, and tiles, it is possible to work according to the taste of various users. Structures can be reliably reinforced, and since inorganic water-based waterproofing agents have strength similar to that of concrete, they can be combined with existing concrete structures and applied to structures as a semi-permanent waterproofing construction method. It can also be used as a fire retardant.

Description

Construction method of an inorganic waterproofing agent for the surface of a structure}

The present invention manufactures an inorganic water-based waterproofing agent including Portland cement, alumina cement, stone dust and resins and applies it to the surface of the structure, so that the inorganic water-based waterproofing agent is well combined with the existing structure and increases the strength, so the durability period is long. Of course, it is easy to use because the waterproofing agent can be applied by selecting from a brush, roller, or sprayer, and after the inorganic water-based waterproofing agent is applied to the surface of the structure, it is selectively finished using inorganic coating agents, coating agents, and tiles. It is possible to work according to the taste of various users, and since the adhesion between the surface of the structure constructed by applying the inorganic water-based waterproofing agent and the waterproofing agent is good, it is possible to reliably reinforce the existing structure, and the inorganic water-based waterproofing agent has a strength similar to that of concrete. Since it has a concrete structure, it can be applied to the structure with a semi-permanent waterproof construction method in combination with the existing concrete structure, and an environmentally friendly inorganic water-based waterproofing agent can be used as well as a fireproof material. It is a skill.

The durability of concrete structures inevitably deteriorates over time, that is, due to environmental changes in temperature and humidity, fatigue increases due to repeated contraction and expansion. This accelerates the deterioration of durability.

Therefore, in order to secure long-term durability, it is required to prevent penetration of deteriorating materials into the concrete by applying a waterproof and deterioration-inhibiting material to the surface of the concrete.

For this purpose, as a waterproofing and deterioration inhibiting material applied to the concrete surface, organic waterproofing agents such as epoxy and urethane have been widely used, and these organic waterproofing agents are vulnerable to external environmental conditions such as ultraviolet rays, so they have long-term durability. fail to perform

In addition, since organic coatings are hydrophobic substances that seal concrete and suppress concrete breathing, corrosion at the interface, modulus of elasticity, and contraction/expansion are different from those of concrete, causing peeling or lifting over time. There were many problems in actual use.

On the other hand, until now, it has been a general practice to hurriedly repair and reinforce after the concrete structure has been corroded. This perception is an erroneous practice, and unless a concrete structure is protected from the beginning, its life cannot be maintained, and concrete in the process of corrosion must be regenerated and reinforced at this point.

In order to solve this problem, recently, a siliceous powder permeable coating waterproofing method using cement has been introduced and used. When the waterproof cement mortar or waterproof cement paste made is applied to the surface of the concrete structure, the permeable coating waterproofing agent penetrates into the concrete and starts a chain reaction with the moisture and glass lime existing inside to create insoluble waterproof crystals. It is a waterproofing method that can prevent leakage of the structure by forming a tight waterproofing layer while the crystals continue to react and fill the capillary voids inside the concrete.

However, since the inorganic water-based waterproofing agent is well combined with the existing structure and increases the strength, not only the durability is longer, but also it is easy to use because the waterproofing agent can be applied by selecting from a brush, roller, or sprayer, and it is easy to use the inorganic water-based waterproofing agent on the surface of the structure. After application and construction, inorganic coating agent, coating agent, and tile are used for selective finishing, so it is possible to work according to the taste of various users. Because it can reliably reinforce existing structures, and inorganic water-based waterproofing agents have strength similar to that of concrete, there is no construction method that can be applied to structures as a semi-permanent waterproof construction method in combination with existing concrete structures.

Therefore, since inorganic water-based waterproofing agents including corn portland cement, alumina cement, stone dust and resins are manufactured and installed on the surface of the structure, the inorganic water-based waterproofing agent is well combined with the existing structure and increases strength, so that the durability period is longer as well. It is easy to use as the waterproofing agent can be applied by selecting from a brush, roller, or sprayer, and after the inorganic water-based waterproofing agent is applied to the surface of the structure, it is selectively finished using inorganic coating agent, coating agent, and tile, so it is suitable for various users. There is an urgent need for the development of a construction method for inorganic water-based waterproofing agents for the surface of structures that can be operated according to taste.

KR 10-1042282(2011.06.10)

Accordingly, the present invention was conceived to solve the above problems, and by manufacturing an inorganic water-based waterproofing agent including Portland cement, alumina cement, stone dust and resins and applying it to the surface of the structure, the inorganic water-based waterproofing agent is combined with the existing structure. The purpose is to provide a method of constructing an inorganic water-based waterproofing agent for the surface of a structure that is easy to use because the durability is increased as the durability is increased and the waterproofing agent can be applied by selecting from a brush, roller, and sprayer.

In addition, an object of the present invention is to apply inorganic water-based waterproofing agent to the surface of the structure, and then selectively finish the finish using inorganic coating agent, coating agent, and tile, so that the work can be done according to the taste of various users. It is to provide a construction method of water-based waterproofing agent.

In addition, an object of the present invention is to provide a method of constructing an inorganic water-based waterproofing agent for the surface of a structure that can reliably reinforce an existing structure because the adhesion between the surface of the structure applied and the waterproofing agent is good.

In addition, an object of the present invention is to provide a construction method of an inorganic water-based waterproofing agent for the surface of a structure that can be applied to a structure as a semi-permanent waterproofing construction method by combining with an existing concrete structure because the inorganic water-based waterproofing agent has strength similar to that of concrete.

In addition, an object of the present invention is to provide a construction method of an inorganic water-based waterproofing agent for the surface of a structure that can be used as an environmentally friendly inorganic water-based waterproofing agent as well as a fireproof material.

In order to achieve the above object, the construction method of an inorganic water-based waterproofing agent for the surface of a structure according to a preferred embodiment of the present invention is to cut and grind the surface of the structure to which the waterproofing agent is to be applied with a grinding machine to remove the residue on the surface, and cracks formed on the surface of the structure performing a V groove operation on (S1); A step (S2) of removing the surface residues and cleaning the surface of the V-grooved structure with water using a high-pressure washer; A step (S3) of performing a repair work of filling the V-grooves made in the cracks by mixing the inorganic water-based waterproofing agent with water; After performing the repair work, firstly applying an inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer (S4); Step (S5) of secondarily applying the inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer after the firstly applied inorganic water-based waterproofing agent is dried; It is characterized by including.

In the present invention, after the step (S5), a step (S6) of selectively using an inorganic coating agent, a coating agent, and a tile according to the taste of various users to finish construction; It is characterized in that it further includes.

In the present invention, in the step (S6), the inorganic coating agent is a mixture of resin-based material and stone powder, and the coating agent is characterized in that it includes water-based paint or inorganic paint.

In the present invention, the inorganic water-based waterproofing agent includes 25 to 40 parts by weight of Portland cement, 2 to 15 parts by weight of alumina cement, 0.2 to 1 part by weight of superabsorbent polymer, 3 to 15 parts by weight of powdered resin, and 3 parts by weight of silica fume. to 10 parts by weight, 3 to 30 parts by weight of illite, 0.2 to 2 parts by weight of a thickener, 15 to 35 parts by weight of silica powder, 0.3 to 0.7 parts by weight of wood fiber, and 0.0 to 0.3 parts by weight of a fluidizing agent. to be characterized

In the present invention, a place where water is confined in a water tank and a pond using concrete and stone, a place where water absorption of the ceiling, sidewall, floor, and drainage of an underground tunnel must be prevented, indoors and outdoors of an underground building structure using concrete and stone It is characterized in that it can be applied to places where outdoor waterproofing is required, and where waterproofing is required for indoors, walls, and rooftops finished with inorganic substances such as kuncrete and stucco.

The construction method of the inorganic water-based waterproofing agent for the surface of a structure according to the present invention has the following effects.

First, the present invention manufactures an inorganic water-based waterproofing agent including Portland cement, alumina cement, stone dust and resins and applies it to the surface of a structure, so that the inorganic water-based waterproofing agent is well combined with the existing structure and increases strength, so that the durability In addition to this lengthening, it is easy to use because the waterproofing agent can be applied by selecting from brush, roller, and sprayer.

Second, in the present invention, after applying the inorganic water-based waterproofing agent to the surface of the structure and then selectively using the inorganic coating agent, coating agent, and tile for finishing, the work can be performed according to the taste of various users.

Third, the present invention can reliably reinforce the existing structure because the adhesion between the surface of the structure constructed by applying the inorganic water-based waterproofing agent and the waterproofing agent is good.

Fourth, since the inorganic water-based waterproofing agent of the present invention has strength similar to that of concrete, it can be applied to structures as a semi-permanent waterproofing construction method by combining with an existing concrete structure.

Fifth, the present invention can be used as an environmentally friendly inorganic water-based waterproofing agent as well as a fireproof material.

1 is a flow chart of the construction of an inorganic water-based waterproofing agent for the surface of a structure according to an embodiment of the present invention.

Hereinafter, looking at preferred embodiments of the present invention together with the accompanying drawings, as follows. Descriptions will be omitted, and the terms to be described later are terms defined in consideration of the functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the definition is the construction method of the inorganic water-based waterproofing agent for the surface of the present invention. It will have to be made based on the contents throughout this specification that describes.

Hereinafter, the inorganic water-based waterproofing agent composition for the surface of a structure according to a preferred embodiment of the present invention will be described in detail.

The composition of the inorganic water-based waterproofing agent of the present invention includes 25 to 40 parts by weight of Portland cement, 2 to 15 parts by weight of alumina cement, 0.2 to 1 part by weight of superabsorbent polymer, 3 to 15 parts by weight of powdered resin, and 3 to 10 parts by weight of silica fume. parts by weight, 3 to 30 parts by weight of illite, 0.2 to 2 parts by weight of a thickener, 15 to 35 parts by weight of silica powder, 0.3 to 0.7 parts by weight of wood fiber, and 0.0 to 0.3 parts by weight of a fluidizing agent.

Here, the compositions constituting the inorganic water-based waterproofing agent are specifically described as follows.

The Portland cement is a mixture of silica, alumina, iron oxide, and lime-containing raw materials (usually, limestone, clay or soft silica, pyrite sinter) sufficiently in an appropriate ratio, and an appropriate amount of clinker calcined until a part thereof is melted. It is made by adding gypsum and crushing it into powder, and it serves to combine and harden all materials.

In addition, the alumina cement is a cement containing CaO—Al ₂ O ₃ as a main component and C11A7 or CA2 as a minor component, and is prepared by appropriately mixing high alumina raw materials such as voxite and limestone, pulverizing, firing, cooling, and pulverizing. It hardens much faster than Portland cement and has fire resistance.

In addition, the superabsorbent polymer is a resin that absorbs water from several tens to thousands of times its own weight, and since the material itself absorbs water, it absorbs more than cotton wool or cotton cloth, and does not release water under tolerable pressure. will be used as

In addition, the powdered resin is a dispersion material prepared by spray drying a liquid resin, and becomes a safe liquid resin when dispersed in water. Powdered resin dispersed in water forms an irreversible polymer film that is insoluble in water after drying, and is mixed with cement like liquid resin to improve tensile and flexural strength. It serves to increase adhesion, increases abrasion resistance, flexibility, water resistance, waterproofness and durability of cement mortar, improves bending strength of members, and prevents cracks caused by cement shrinkage.

In addition, the powder resin may be a re-emulsification type powder resin, and the re-emulsification type powder resin uses an ethylene vinyl acetate (EVA) powder resin, which serves to significantly increase adhesion, abrasion resistance and fluidity, and has waterproof is surely given to significantly reduce water absorption.

In addition, the silica fume is a by-product generated when silicon, ferrosilicon, and silicon metal are produced, and is a kind of silica fine particles made by a dry method. It is a generic term for silica fine particles made by burning silicon tetrachloride, chlorosilane, etc. at high temperature in an atmosphere of hydrogen and oxygen, and is amorphous silicon oxide (sio ₂ ) collected in gaseous form. It will do.

In addition, the illite is a mica group mineral belonging to the monoclinic system, has a hardness of 1 to 2, a specific gravity of 2.6 to 2.9, a streak color of white, and suppresses the occurrence of mold with antibacterial, deodorizing, and far-infrared ray functions.

And the thickener increases the viscosity of the mixed product to prevent dripping when applied to the wall.

In addition, the fluidizing agent is a naphthalene-based powder high fluidizing agent, which exhibits a strong dispersing effect in binders and fine sand, and has surface active properties, so it is adsorbed on the surface of a material and forms a lubricating film between particles to increase mutual adhesion between each component. It has the effect of increasing the strength while significantly increasing the initial and final strength with improved flow characteristics and a large water reducing effect. The fluidizing agent softens the waterproofing agent and serves as self-leveling.

In addition, the silica sand is sand made mainly of quartz (SiO ₂ ), which is an aggregate that increases strength.

In addition, the wood fiber is a general term for long and thin cells excluding xylem and xylem floating tissue among the components of wood, and the distribution state, content and thickness of the membrane wall of the wood fiber influence the material of wood, and prevent cracks as a substitute for wire mesh will be used for

1 is a flow chart of the construction of an inorganic water-based waterproofing agent for the surface of a structure according to an embodiment of the present invention.

As shown in FIG. 1, the construction method of the inorganic water-based waterproofing agent for the surface of the structure is to cut and grind the surface of the structure to be applied with the waterproofing agent with a grinding machine to remove the residue on the surface, and to perform the V-groove work on the crack part formed on the surface of the structure Step (S1) and; A step (S2) of removing the surface residues and cleaning the surface of the V-grooved structure with water using a high-pressure washer; A step (S3) of performing a repair work of filling the V-grooves made in the cracks by mixing the inorganic water-based waterproofing agent with water; After performing the repair work, firstly applying an inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer (S4); Step (S5) of secondarily applying the inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer after the firstly applied inorganic water-based waterproofing agent is dried; and, after the step (S5), performing finishing construction by selectively using inorganic coating agents, coating agents, and tiles according to the taste of various users (S6); provide more

Looking at the functions of the technical steps constituting the method of waterproofing construction using the inorganic water-based waterproofing agent for the surface of the structure are as follows.

First, as the structure surface residue removal and crack part V groove work step (S1), the surface of the structure to be applied with the waterproofing agent is shaved and ground with a grinding machine to remove the surface residue, V groove work on the crack part formed on the surface of the structure is to perform

Here, foreign substances that may peel off the waterproof layer, such as dust, radance, formwork release agent, oil, and paint, attached to the surface shaved and ground by the grinding machine are completely removed. In addition, it is preferable to remove the protruding portion flatly using a grinding machine.

Second, as a step (S2) of water cleaning with a high-pressure washer, the surface residue is removed and the surface of the V-groove structure is cleaned with water using a high-pressure washer.

Thirdly, as a repair work step (S3) of filling the V-groove, a repair work of filling the V-groove made in the crack by mixing the inorganic water-based waterproofing agent with water is performed.

Fourth, as a step (S4) of firstly applying an inorganic water-based waterproofing agent to the surface of the structure, after performing the above repair work, the inorganic water-based waterproofing agent is applied to the surface of the structure using a brush, roller, or sprayer. to distribute tea.

Fifth, as a step (S5) of secondarily applying an inorganic water-based waterproofing agent to the surface of the structure, after the firstly applied inorganic water-based waterproofing agent is dried, it is applied to the surface of the structure using a brush, roller, or sprayer. It is the second application of inorganic water-based waterproofing agent.

Sixth, as a step (S6) of selectively using inorganic coating agents, coating agents, and tiles for finishing construction, after the step (S5), selectively using inorganic coating agents, coating agents, and tiles according to the taste of various users It is to build a finish.

Here, the inorganic coating agent is a material in which a resin-based material and stone powder are mixed, and the coating agent is a water-based paint or an inorganic paint.

As described above, the construction method of the inorganic water-based waterproofing agent for the surface of the structure is a place where water is confined in a water tank and a pond using concrete and stones, a place where water absorption of the ceiling, side wall, floor, and drainage of an underground tunnel must be prevented, concrete and It can be applied to places where indoor and outdoor waterproofing of underground building structures using stones is required, and where waterproofing is required for indoors, walls, and rooftops finished with inorganic substances such as kuncrete and stucco, so its application is wide.

The best embodiment has been disclosed in the drawings and specifications, and the terms used herein are only used for the purpose of describing the present invention, and are not used to limit the scope of the present invention described in the claims or limitation of meaning. Therefore, those skilled in the art will be able to make various modifications and equivalent other embodiments therefrom, and therefore, the true technical scope of protection of the present invention should be defined by the technical spirit of the appended claims.

Claims (5)

In the construction method of inorganic water-based waterproofing agent for the surface of a structure,
The surface of the structure to which the waterproofing agent is to be applied is shaved and ground with a grinding machine to remove residues on the surface, and a V-groove operation is performed on the crack portion formed on the surface of the structure (S1);
A step (S2) of removing the surface residues and cleaning the surface of the V-grooved structure with water using a high-pressure washer;
A step (S3) of performing a repair work of filling the V-grooves made in the cracks by mixing the inorganic water-based waterproofing agent with water;
After performing the repair work, firstly applying an inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer (S4);
Step (S5) of secondarily applying the inorganic water-based waterproofing agent to the surface of the structure using a brush, roller, or sprayer after the firstly applied inorganic water-based waterproofing agent is dried; Construction method of inorganic water-based waterproofing agent for the surface of a structure, characterized in that it comprises a. According to claim 1,
After the step (S5), a step (S6) of selectively using an inorganic coating agent, a coating agent, and a tile according to the taste of various users to finish construction; Construction method of the inorganic water-based waterproofing agent for the surface of the structure, characterized in that it further comprises. According to claim 1,
In the step (S6), the inorganic coating agent is a mixture of resin-based material and stone powder, and the coating agent is a water-based paint or an inorganic paint. According to claim 1,
The inorganic water-based waterproofing agent includes 25 to 40 parts by weight of Portland cement, 2 to 15 parts by weight of alumina cement, 0.2 to 1 part by weight of superabsorbent polymer, 3 to 15 parts by weight of powdered resin, 3 to 10 parts by weight of silica fume, 3 to 30 parts by weight of illite, 0.2 to 2 parts by weight of a thickener, 15 to 35 parts by weight of silica sand, 0.3 to 0.7 parts by weight of wood fiber, and 0.0 to 0.3 parts by weight of a fluidizing agent for the surface of a structure characterized by including Construction method of inorganic water-based waterproofing agent. According to claim 1,
Places where water is confined in tanks and ponds using concrete and stones, places where water absorption in ceilings, side walls, floors, and drainage channels of underground tunnels must be prevented, places where indoor and outdoor waterproofing of underground building structures using concrete and stones is required A method of constructing an inorganic water-based waterproofing agent for the surface of a structure, characterized in that it can be applied to places where waterproofing is required on indoors, walls, and rooftops finished with inorganic materials of , Kuncrete, and Stucco.