KR102247690B1 - Waterproofing Method and Its Waterproofing Structure of Concrete Structure using Polyurea - Google Patents

Abstract

The present invention relates to a waterproofing method and a waterproofing structure of an inner wall of a concrete structure made of concrete using polyurea, and in more detail, a water purification facility, in particular, a concrete structure for drinking water, a concrete structure inner wall surface made of concrete for storing drinking water A ceramic primer and putty-type coating waterproofing material is applied, and polyurea is applied after attaching a nonwoven fabric, and the nonwoven fabric is impregnated with the coating waterproofing material and polyurea, so that the polyurea layer is made of concrete. Disclosed is a technical field related to a concrete structure waterproofing method and a waterproofing structure using polyurea having improved waterproofness and excellent durability by having excellent adhesion and improved water resistance.
In addition, the present invention has the effect of removing air bubbles generated from the concrete substrate, which is the inner wall of the concrete structure by applying a ceramic-based putty-type coating waterproofing material, and impregnating the lower portion of the nonwoven fabric into the ceramic-based putty-type coating waterproofing material and attaching it. Therefore, it is easy to attach the non-woven fabric to the bent part of the inner wall of the concrete structure, and the upper part of the non-woven fabric is impregnated with polyurea so that the polyurea has excellent adhesion to the inner wall of the concrete structure, and at the same time has improved waterproofness and excellent durability. In addition, it is possible to obtain an effect of preventing the occurrence of cracks and the occurrence of cracks and corrosion due to the cracks of the concrete substrate.

Description

Waterproofing Method and Its Waterproofing Structure of Concrete Structure using Polyurea}

The present invention relates to a waterproofing method and a waterproofing structure of a concrete structure using polyurea, and in more detail, the interior and exterior walls of concrete structures such as storage tanks, water and sewage treatment facilities, apartments, and stores, such as walls, rooftops, and floors. A ceramic primer and putty-type coating waterproofing material is applied, and polyurea is applied after attaching the non-woven fabric. By making the non-woven fabric impregnated with the coating waterproofing material and polyurea, the polyurea layer is superior to the inner and outer walls of the concrete structure. It is a technical field related to a concrete structure waterproofing method and waterproofing structure using polyurea, which is excellent in waterproofness and durability by having adhesiveness.

In general, a coating film that protects the inner and outer walls of a concrete structure has good compressive strength, elasticity, acid resistance, alkali resistance, chemical resistance, and ozone resistance.

However, as the use time elapses, the strength of the uncoated concrete structure decreases due to impurities such as organic substances, acids, alkalis, and inorganic salts, and the durability of the structure is further deteriorated due to water leakage and even the buried rebar corrosion. do.

In addition, concrete structures basically have some degree of watertightness, but cracks occur inside and outside the structure due to irregular microcracks and poor finish of joints that occur during curing, and cracks due to external force transmitted from the outside. Leakage occurs, which intensifies the crack and in the future impairs the function of the concrete structure.

In general, epoxy resins or unsaturated polyester resins are used as the most widely used resins to form a coating film for imparting acid resistance and water resistance to concrete structures. In particular, unsaturated polyester resins are used together with glass fibers and are used in water tanks that require acid resistance as a so-called FRP (Fiberglass Reinforced Plastics) resin.

These epoxy resins and FRP resins have excellent acid resistance and are used in a waterproofing method of forming a coating film on the concrete surface to protect and waterproof the inner and outer walls of concrete structures.In particular, coatings using the epoxy resin for reservoirs, drainage basins, and drinking water tanks The method is being used.

However, the epoxy-coated anticorrosive coating is inconvenient to use in a concrete structure structure where cracks occur due to continuous and repetitive contraction and expansion activities of concrete because the elastic elongation is low instead of strong coating strength. The anticorrosive coating formed of the epoxy resin This is because there is a problem of cracking and peeling, such as cracks due to contraction and expansion activities.

In order to solve the above problems, the conventional waterproof coating method has developed a technique using a method of applying polyurea to a certain thickness after completing the surface treatment and surface sealing of the undercoat. Due to poor watertightness, pinholes were generated and the surface was not flat.

Accordingly, the conventional waterproof coating method selects a method of constructing a non-woven fabric or asphalt sheet pavement and urethane resin before coating the polyurea resin in order to overcome the problem of pinhole occurrence, but the coating film is cracked and peeled off with cracks in the concrete. It has not been able to fundamentally solve the problem.

On the other hand, as a prior art, in the Korean Patent Registration No. 0405010, in the polyurea waterproofing method in which polyurea is sprayed on the foundation member at the construction site, the nonwoven fabric is based on a nonwoven fabric as a reinforcing member to the foundation member using nails and washers. The reinforcing member fastening step of fastening to the member and the polyurea spray coating step of spraying polyurea on the reinforcing member to which the nonwoven fabric is fixed, and the spray-coated polyurea are naturally dried at room temperature for 20 to 30 seconds to be fixed. It consists of a urea drying step, but the polyurea is a polyurea waterproofing method composed of an NCO prepolymer, an amine-terminated polyether resin, and an amine chain extender. It is starting.

However, the prior art uses a nail or washer as a fixing means to fix the nonwoven fabric used as a reinforcing member to the waterproof base surface before spray coating the polyurea, so that there is a risk of damage to the waterproof structure during the fixing process. These fixing means are corroded by the moisture introduced when the part is generated, which may weaken the watertightness of the entire waterproof structure, and there are problems in that air bubbles generated from the walls of concrete structures cannot be effectively removed, and perfect watertightness cannot be guaranteed.

Korean Registered Patent No. 1178247 Republic of Korea Patent Registration No. 1129512 Republic of Korea Patent Registration No. 0408 010

The present invention is a technology conceived to solve the above-described problems according to the prior art. In the conventional waterproofing method of a concrete structure using polyurea, there is a risk of damage to the waterproof structure in the process of fixing the reinforcing member with a fixing means. These fixing means can be corroded by the moisture introduced when a part is generated, which can weaken the watertightness of the entire waterproof structure, and air bubbles generated in the walls of the concrete structure cannot be effectively removed, and the coating film is formed by cracks generated in the walls of the concrete structure. The problem of cracking and peeling occurs, and the solution to this is to impregnate the lower part of the nonwoven fabric as a reinforcing member into a putty-type coating waterproofing material to fix it, and to impregnate the upper part of the nonwoven fabric with polyurea to improve watertightness to waterproof concrete structures using polyurea. It is to provide the construction method and its waterproof structure.

The present invention is a pretreatment step (S10) of arranging the surface 10 of a concrete structure in order to realize the desired object as described above; and the ceramic-based surface 10 on the inner wall surface 10 of the treated concrete structure at the pretreatment step (S10). The primer 20 is applied and then dried (S20); and a ceramic-based putty-type coating waterproofing material 30 is applied to the surface 10 of the treated concrete structure and the coating film is applied at the same time. Including an intermediate step (S30) of attaching the nonwoven fabric 300 to the upper part of the waterproof material 30 (S30); and a top coat step (S40) of drying after applying the polyurea 40 to the upper part of the nonwoven fabric 300 (S40); A concrete structure waterproofing method using polyurea is presented.

In addition, in the intermediate step (S30) of the present invention, the nonwoven fabric 300 is attached to the upper portion of the coating waterproofing material 30, but the lower portion of the nonwoven fabric 300 is impregnated on the top of the coating waterproofing material 30 to make a first connection. A layer 310 is formed, and a putty layer 200 in which the nonwoven fabric 300 is not impregnated is attached to be formed under the first connection layer 310.

In addition, in the topcoat step (S40) of the present invention, a polyurea 40 is applied to the upper portion of the nonwoven fabric 300, and the upper portion of the nonwoven fabric 300 is impregnated under the polyurea 40 to a second It is characterized in that coating to form a polyurea layer 400 in which the connection layer 320 is formed and the nonwoven fabric 300 is not impregnated on the second connection layer 320.

In addition, the top coat step (S40) of the present invention is characterized in that the polyurea 40 is applied after the coating waterproofing material 30 is dried.

In addition, the present invention is a primer layer 100 formed by being applied to the surface 10 of a concrete structure; And a putty layer 200 formed by being applied to the surface 10 of the concrete structure in which the primer layer 100 is formed; And a nonwoven fabric 300 attached to an upper portion of the putty layer 200; and a polyurea layer 400 formed by being applied to an upper portion of the nonwoven fabric 300; Propose a concrete structure waterproof structure.

In addition, the nonwoven fabric 300 of the present invention includes a first connection layer 310 formed by impregnating a lower portion of the putty layer 200; and a polyurea layer having an upper portion not impregnated with the putty layer 200 It characterized in that it comprises a; second connection layer (320) formed by impregnating (400).

The concrete structure waterproofing method and waterproofing structure using polyurea according to the present invention presented as above has the effect of removing air bubbles generated from the walls of the concrete structure by applying a ceramic-based putty-type coating waterproofing material, and Since it is attached by impregnating the lower part of the non-woven fabric into the putty-type waterproofing material, it is easy to attach the non-woven fabric to the curved part of the wall of the concrete structure, and the upper part of the non-woven fabric is impregnated with polyurea so that the polyurea and the inner wall of the concrete structure As well as having excellent adhesion, improved waterproofness and excellent durability, it is possible to obtain an effect of preventing the occurrence of cracks and the occurrence of cracks and corrosion due to cracks in the concrete substrate.

1 is a flow chart showing a waterproofing method according to a preferred embodiment of the present invention.
Figure 2 is a side cross-sectional view showing the undercoat step according to a preferred embodiment of the present invention.
3 is a side cross-sectional view showing an intermediate step according to a preferred embodiment of the present invention.
Figure 4 is a side cross-sectional view showing a top coat step according to a preferred embodiment of the present invention.

The present invention relates to a waterproofing method and a waterproofing structure of a concrete structure made of concrete using polyurea, and to be described in more detail, a ceramic-based primer 20 on the surface of a concrete structure made of concrete such as walls, rooftops, floors, etc. After applying, a ceramic-based putty-type waterproofing material 30 is applied, and at the same time, the lower part of the nonwoven fabric 300 is impregnated into the waterproofing material 30 and attached thereto. By impregnating the top of 300) into the applied polyurea 40, the polyurea layer not only has excellent adhesion to the surface 10 of the concrete structure made of concrete, but also has improved waterproofness and excellent durability. It is a technical field related to the waterproof construction method and waterproof structure of concrete structures using polyurea.

The configuration of the fart control method for achieving the present invention as described above is a pretreatment step (S10) of arranging the surface 10 of the concrete structure; and the surface 10 of the concrete structure treated with the pretreatment step (S10). The primer 20 is applied and then dried (S20); and a ceramic-based putty-type coating waterproofing material 30 is applied to the surface 10 of the treated concrete structure and the coating film is applied at the same time. Including an intermediate step (S30) of attaching the nonwoven fabric 300 to the upper part of the waterproof material 30 (S30); and a top coat step (S40) of drying after applying the polyurea 40 to the upper part of the nonwoven fabric 300 (S40); It is characterized by being.

In addition, in the intermediate step (S30) of the present invention, the nonwoven fabric 300 is attached to the upper portion of the coating waterproofing material 30, but the lower portion of the nonwoven fabric 300 is impregnated on the top of the coating waterproofing material 30 to make a first connection. A layer 310 is formed, and a putty layer 200 in which the nonwoven fabric 300 is not impregnated is attached to be formed under the first connection layer 310.

In addition, in the topcoat step (S40) of the present invention, a polyurea 40 is applied to the upper portion of the nonwoven fabric 300, and the upper portion of the nonwoven fabric 300 is impregnated under the polyurea 40 to a second It is characterized in that coating to form a polyurea layer 400 in which the connection layer 320 is formed and the nonwoven fabric 300 is not impregnated on the second connection layer 320.

In addition, the top coat step (S40) of the present invention is characterized in that the polyurea 40 is applied after the coating waterproofing material 30 is dried.

The configuration of the fart structure for achieving the present invention as described above is a primer layer 100 formed by being applied to the surface 10 of a concrete structure; And the primer layer 100 is applied to the surface 10 of the concrete structure formed thereon. The putty layer 200 is formed; And the non-woven fabric 300 attached to the upper portion of the putty layer 200; And the polyurea layer 400 formed by being applied on the upper portion of the non-woven fabric 300; It is characterized by being.

In addition, the nonwoven fabric 300 of the present invention includes a first connection layer 310 formed by impregnating a lower portion of the putty layer 200; and a polyurea layer having an upper portion not impregnated with the putty layer 200 It characterized in that it comprises a; second connection layer (320) formed by impregnating (400).

Hereinafter, a concrete structure waterproofing method using polyurea of the present invention will be described in detail through a preferred embodiment, and a waterproof structure constructed by the waterproofing method will be described together.

First, the pretreatment step (S10), which is the main component for achieving the present invention, is

As a step of arranging the base surface of the surface 10 of the concrete structure, the primer 20 applied in the following subcontracting step (S20) can be closely and stably fixed to the inner wall surface 10 of the concrete structure. By removing fine protrusions or pre-applied paint, the surface 10 is smoothed to adjust the background, and if there are cracks or damaged parts on the surface 10, V-cutting and polishing is performed and then filling with a filler such as a sealing agent, It is to arrange the surface 10 of the concrete structure.

That is, the pretreatment step (S10) of the present invention is finished by injecting a filler such as a sealing agent after V-cutting grinding on the cracks of a certain size or more leaking into the concrete structure surface 10, and the aging surface and the excitation area are joints and Finish to be flat in the same way as the existing surface 10 so that there is no curvature.

In particular, in the pretreatment step (S10) of the present invention, the nonwoven fabric 300 installed in the intermediate step (S30) below is attached to the surface 10 of the concrete structure, so that it is not limited to the smoothness of the surface 10 as well as Since the nonwoven fabric 300 is stably attached to and installed on the surface 10 of the curved concrete structure by the ceramic-based putty-type waterproofing material 30, it is possible to focus on the lifted areas and the cracked areas. It is desirable to perform flattening by processing.

Next, the main constituent elements for achieving the present invention, the subcontracting step (S20)

The pretreatment step (S10) is a step of applying a ceramic-based primer 20 to the inner wall surface 10 of the treated concrete structure and then drying it.If there is a previously applied paint, that is, a previously applied waterproofing layer, the primer 20 is removed. It is characterized in that it firstly imparts waterproofing and anticorrosiveness to the surface 10 of the concrete structure by applying and firstly prevents air bubbles from being generated inside the concrete by removing voids and adsorbing foreign substances in the concrete.

In more detail, the primer 20 used in the undercoating step (S20) of the present invention requires ventilation because a single urethane or a single epoxy-based primer generally used for various waterproofing and anticorrosive construction has high volatile components. In order to strongly bond with the ceramic-based putty-type coating waterproofing material 30 applied in the intermediate step (S30), since there are many problems, such as, the reaction rate is slow, or being vulnerable to temperature and moisture, a ceramic-based primer ( 20) is used.

In addition, the primer 20 used in the undercoat step (S20) of the present invention may be any conventionally used ceramic primer, as an example, a two-component wet primer containing a main material and a curing agent. It may be, and the subject may include an epoxy resin, water, a ceramic-based binder, and an additive.

That is, the primer 20 has a low reaction rate due to a large amount of volatile components such as a conventional single urethane or a single epoxy series, and may be used any of a ceramic based primer other than a primer that does not have a problem that is vulnerable to moisture.

In addition, it will be apparent that the primer 20 adjusts the curing speed without adhesive force according to the external temperature change in different seasons, and the construction time can be shortened by controlling the curing speed, but the surface of the concrete structure It is desirable to apply it to (10) without flowing down.

In connection with the above, the undercoating step (S20) of the present invention is characterized in that the primer 20 is applied and then dried for a certain period of time, which is, after the undercoating step (S20), that is, in the intermediate step (S30), the surface of the concrete structure ( 10) When the putty-type coating waterproofing material 30 for attaching the nonwoven fabric 300 is applied, it is not affected by the moisture remaining on the surface 10 of the concrete structure, and the effect that can be applied stably is realized. , It realizes the effect of increasing the strength of the surface 10 of the concrete structure, and realizes the effect that the bonding with the putty-type coating waterproofing material 30 can be made strong.

That is, in the undercoat step (S20) of the present invention, the primer layer 100 is formed on the surface 10 of the concrete structure by applying and drying the primer 20 described above, and the putty form of the intermediate step (S30) below. The effect of allowing the putty layer 200 to be easily formed by the waterproofing material 30 is realized.

Next, the intermediate step (S30), which is the main component for achieving the present invention, is

A ceramic-based putty-type coating waterproofing material 30, which is the same series as the primer 20, is applied to the surface 10 of the concrete structure treated in the undercoating step (S20) and a non-woven fabric on the top of the coating waterproofing material 30 As the step of attaching 300, it is characterized in that the non-woven fabric 300 is easily attached and installed while removing the voids and air layers of concrete that have not been removed by the primer 20.

In more detail, the ceramic-based putty-type coating waterproofing material 30 used in the intermediate step (S30) of the present invention uses the same ceramic type as the primer 20 described above, but is applied in a paste form. It is characterized.

In addition, the intermediate step (S30) of the present invention is installed by attaching a nonwoven fabric 30 to the upper portion of the coating waterproofing material 30 at the same time as the coating waterproofing material 30 is applied, the coating waterproofing material 30 Since the is made of a putty form, that is, in a paste form, it is easy to attach, and in particular, the nonwoven fabric 300 can be easily attached to the corners or protrusions and corners of the surface of the concrete structure.

In addition, since the coating waterproofing material 30 is of the same ceramic type as the primer 20, the nonwoven fabric 300 realizes a strong effect of adhesion, that is, the bonding force with the primer 20, so that the nonwoven fabric 300 is formed on the surface 10 of the concrete structure. In addition to realizing the effect of being firmly and stably attached to and installed, air bubbles and moisture generated by the pores are once again removed by removing the pores of the concrete that have not been removed by the primer 20 and the air layer generated from the pores. And, the effect of stably maintaining the nonwoven fabric 300 and the polyurea layer 400 formed in the top coat step (S40) to be described later is stably maintained from the fracture caused by the crack of the concrete.

In connection with the above, in the intermediate step (S30) of the present invention, the nonwoven fabric 300 is attached to the upper portion of the coating waterproofing material 30, but the lower portion of the nonwoven fabric 300 is impregnated on the upper portion of the coating waterproofing material 30. 1 A connection layer 310 is formed, and the nonwoven fabric 300 is attached to a lower portion of the first connection layer 310 so as to form a putty layer 200 that is not impregnated. As 30) is formed in a paste form, the lower portion of the nonwoven fabric 300 attached thereto is naturally impregnated and attached to the coating waterproofing material 30, thereby forming the putty layer 200 and the first connection layer 310.

In addition, the putty layer 200 achieves the effect of maintaining a strong bond with the primer layer 100 formed by the concrete, that is, the ceramic primer 20, which is the same series as the surface 10 of the concrete structure. In addition, the first connection layer 310 realizes the effect of maintaining a strong bonding force between the putty layer 200 and the nonwoven fabric 300, and thus the polyurea formed in the top coat step (S40) to be described later. The layer 400 achieves the effect of maintaining a strong bond with the putty layer 200.

That is, in the intermediate step (S30) of the present invention, the surface of the concrete structure 10, that is, the undercoat step (S20), is treated by applying the previously described putty-type waterproofing material 30 and attaching the nonwoven fabric 300 at the same time. The putty layer 200 and the first connection layer 310 are formed on the upper part of the primer layer 100 so that the polyurea layer 400 is used by the polyurea 40 of the top coat step (S40) below. To realize the effect of being formed.

Next, the top coat step (S40), which is the main component for achieving the present invention, is

As a step of drying after applying the polyurea 40 on the top of the nonwoven fabric 300, it dries faster and has superior physical properties than resin materials such as epoxy or urethane used in the past. It is characterized by coating a polyurea resin that can be used.

In more detail, the polyurea 40 is generally a resin produced by a chain reaction between an isocyanate prepolymer and an amine, and has a uniform reactivity because it does not use a catalyst, and after spray coating 3 Since it has a gel type within ~5 seconds, it can be sprayed without running down on slopes and vertical surfaces. It is hardly affected by water and temperature during construction, and it is not affected by climate change, moisture, heat, cold, etc. , It has a characteristic that it is easy to apply to any complex structure such as slopes, ceilings, etc., and it has very strong chemical resistance, so there is little corrosion and damage, so it has superior physical properties than conventional resin materials such as epoxy or urethane.

In addition, in the top coat step (S40) of the present invention, the nonwoven fabric 300 is coated with the polyurea 40 having the same characteristics as described above, and the surface of the concrete, that is, a concrete structure ( It is not affected by 10), is stable, and can form a waterproof layer with excellent physical properties.

In connection with the above, in the top coat step (S40) of the present invention, the polyurea 40 having the same characteristics as described above is applied to the upper portion of the nonwoven fabric 300, and the nonwoven fabric 300 is applied to the lower portion of the polyurea 40. The upper portion of the layer is impregnated to form a second connection layer 320, and the nonwoven fabric 300 is applied to form a non-impregnated polyurea layer 400 on the second connection layer 320. However, since it has a gel type after spray painting, the polyurea 40 is impregnated on the top of the nonwoven fabric 300 that is not impregnated with the coating waterproofing material 30 to form the second connection layer 320 and the polyurea layer 400 do.

In addition, since the polyurea 40 has elasticity different from the above-described ceramic heating primer 20 and the putty-type coating waterproofing material 30, the crack of concrete, that is, the surface 10 of the concrete structure When it occurs, there is a property that judgment does not occur due to elasticity, so that a stable waterproof layer can be formed.

In addition, the second connection layer 320 serves to connect the putty layer 200 and the first connection layer 310 and the polyurea layer 400 made of ceramic. When the crack of (10) occurs, it is possible to obtain the effect of being connected by the nonwoven fabric 300 to prevent the phenomenon that the polyurea layer 400 is lifted, as well as the tensile strength generated in the polyurea layer 400 even when a crack occurs. The effect of minimizing the breakage of the polyurea layer 400 is realized by realizing the effect of causing the polyurea layer 400 to be small.

In addition, the polyurea layer 400 has very strong tensile strength, tear strength, elongation, and abrasion resistance due to the characteristics of the polyurea, so in addition to the second connection layer 320 formed by the nonwoven fabric 300 It makes it possible to realize the effect of forming a waterproof layer having a stable, that is, high durability.

On the other hand, in the top coating step (S40) of the present invention, it is preferable to apply the polyurea 40 after the coating waterproofing material 30 applied in the intermediate step (S30) is dried, which is the polyurea 40 to be applied. By preventing mixing with the coating waterproofing material 30, the use of the polyurea 40 is minimized to realize an effect of minimizing cost, and a waterproofing layer made of non-elastic ceramic-based waterproofing layer and elastic polyurea By ensuring that this is divided, the above effect is realized.

That is, the top coat step (S40) of the present invention is formed under the nonwoven fabric 300 formed by the putty-type coating waterproofing material 30 by impregnating the polyurea 40 on the top of the nonwoven fabric 300 described above. The second connection layer 320 and the polyurea layer 400 are formed on the first connection layer 310 to realize the effect of forming a stable and excellent waterproofing layer.

In connection with the above, looking at the waterproof structure of the concrete structure using the polyurea of the present invention by the waterproofing method described above, the primer layer 100 formed by being applied to the surface 10 of the concrete structure, and the primer layer ( The putty layer 200 is formed by being applied on the surface 10 of the concrete structure on which 100) is formed or the primer layer 100, and the nonwoven fabric 300 and the nonwoven fabric attached to the upper part of the silic putty layer 200 ( It is characterized in that it comprises a polyurea layer 400 formed by coating on the upper portion of the 300).

Specifically, the primer layer 100 is formed by applying a primer 20 to the surface 10 of the concrete structure treated in the pretreatment step (S10), and at this time, the primer layer 100 is the surface 10 of the concrete structure. ), or formed to protrude from the inner wall surface 10 of the concrete structure.

The putty layer 200 is formed by applying a putty-type coating waterproofing material 30 on the surface 10 of the concrete structure on which the primer layer 100 is formed, or a putty-type coating film on the upper portion of the primer layer 100 The waterproofing material 30 is applied and formed.

The nonwoven fabric 300 is attached at the same time as the putty-type coating waterproofing material 30 is applied to the upper part of the putty layer 200, and the lower part is impregnated on the putty layer 200, that is, the coating waterproofing material 30 Is impregnated before curing to form the first connection layer 310.

In addition, the nonwoven fabric 300 is a second connection formed by impregnating the putty layer 200, that is, the polyurea 40, that is, the polyurea layer 400 on which the upper portion not impregnated with the coating waterproofing material 30 is applied. It comprises a layer (320).

In addition, the polyurea layer 400 is formed by applying a polyurea 40 on the top of the nonwoven fabric 300, and the polyurea 40 is impregnated on the top of the nonwoven fabric 300 so that the second connection layer At the same time as 320 is formed, it is formed by spray coating so that the polyurea layer 400 may be formed on the second connection layer 320.

That is, the present invention can minimize the lifting and dropping phenomena caused by cracks in concrete compared to the conventional epoxy or urethane-based waterproof structure through the waterproofing method described above and the waterproofing structure using the same. It is possible to form a waterproof structure of a durable concrete structure by preventing corrosion and corrosion of the steel structure.

The above has been described with reference to a preferred embodiment of the present invention, and is not limited to the above embodiment, and through the above embodiment, a person of ordinary skill in the art to which the present invention belongs does not depart from the gist of the present invention. It can be implemented with various changes in.

10: inner wall surface
20: primer
30: coating waterproofing material
40: polyurea
100: primer layer
200: putty layer
300: non-woven fabric
310: first connection layer
320: second connection layer
400: polyurea layer

Claims (7)

Pre-treatment step (S10) of arranging the surface 10 of the concrete structure; And
A primer step (S20) of drying after applying a ceramic primer 20 to the surface 10 of the concrete structure treated in the pretreatment step (S10); and
The intermediate step of applying a ceramic-based putty-type coating waterproofing material 30 to the surface 10 of the concrete structure treated in the undercoating step (S20) and attaching the nonwoven fabric 300 to the upper portion of the coating waterproofing material 30 ( S30); and
Including; a top coat step (S40) of drying after applying the polyurea (40) to the upper portion of the nonwoven fabric (300),
The intermediate step (S30) is
A nonwoven fabric 300 is attached to the upper part of the waterproofing material 30, but the lower part of the nonwoven fabric 300 is impregnated on the waterproofing material 30 to form a first connection layer 310, and the first connection Attached to form a putty layer 200 in which the nonwoven fabric 300 is not impregnated under the layer 310,
The top coat step (S40) is
A polyurea 40 is applied to the upper portion of the nonwoven fabric 300, and a second connection layer 320 is formed by impregnating the upper portion of the nonwoven fabric 300 under the polyurea 40, and the second Applying to form a polyurea layer 400 in which the nonwoven fabric 300 is not impregnated on an upper portion of the connection layer 320,
The top coat step (S40) is
After the coating waterproofing material 30 is dried, polyurea 40 is applied,
A concrete structure waterproofing method using polyurea, characterized in that the coating waterproofing material 30 is formed in a paste form and is easy to attach, but the non-woven fabric 300 is easily attached to the corners or protrusions or corners of the surface of the concrete structure.
delete delete delete In the waterproof structure by the concrete structure waterproofing method using polyurea of claim 1,
A primer layer 100 formed by being applied to the inner wall surface 10 of the concrete structure; And
A putty layer 200 formed by being applied to the surface 10 of the concrete structure on which the primer layer 100 is formed; And
Nonwoven fabric 300 attached to the upper portion of the putty layer 200; And
Including; a polyurea layer 400 formed by being applied on the upper portion of the nonwoven fabric 300,
The nonwoven fabric 300 is
Including; a first connection layer 310 formed by impregnating a lower portion on the upper portion of the putty layer 200,
The nonwoven fabric 300 is
A concrete structure waterproofing structure using polyurea, comprising: a second connection layer (320) formed by impregnating the upper portion of the putty layer (200) not impregnated with the polyurea layer (400). delete delete

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