KR20050118152A - Waterprooping method of concrete structure using normal temperature type polyurea - Google Patents

Abstract

The present invention can be firmly installed without lifting by applying a room temperature type polyurea by a brush or roller on the surface of the concrete structure of the narrow work site and the surface of the corner portion or the angled corner of the concrete structure in a narrow space. It can be installed in all seasons regardless of temperature, and close to the surface of concrete structure to prevent water leakage and prevent corrosion of reinforcement of concrete structure, thereby reducing waterproof construction cost and reducing maintenance and repair costs. It is also an object of the present invention to provide a waterproof construction method of a concrete structure using a room temperature type polyurea that can be easily installed by anyone to improve the waterproof construction quality by completely removing the pinhole.

Description

WATERPROOPING METHOD OF CONCRETE STRUCTURE USING NORMAL TEMPERATURE TYPE POLYUREA}

The present invention relates to a waterproof construction method of a concrete structure using a room temperature type polyurea, in particular a room temperature type by a brush or a roller on the surface of the concrete structure and the corner portion or the angled corner of the concrete structure in a poor work site in a narrow space By applying polyurea, it can be firmly installed without lifting, it can be installed in all seasons regardless of moisture and temperature, and it can not only reduce the cost of waterproofing, but also close to the surface of concrete structure to prevent leakage completely. Therefore, it is possible to reduce the cost of waterproof construction by preventing steel corrosion of concrete structures, and to reduce maintenance / maintenance costs, and concrete using room temperature polyurea that can improve the quality of waterproof construction by completely removing pinholes. It relates to a waterproof construction method of the structure.

As a waterproof construction method using a polyurea widely used in the prior art is disclosed in Korean Patent Laid-Open Publication No. 2001-0061028 (published date; July 07, 2001).

In the waterproof construction method using the polyurea disclosed in Korean Patent Laid-Open Publication No. 2001-0061028, the primer is coated on the surface of the concrete structure to simultaneously isolate the waterproof membrane and maximize the waterproof efficiency. The polyurea waterproof sheet is spaced and glued to the concrete structure so that the site can be easily found and repaired, and that is, between the edges or walls of the exposed concrete base and adjacent waterproof sheets, or close to the floor. It is a construction method to apply a polymer material to overlap the sheet.

In addition, as a waterproof construction method using a conventional polyurea is disclosed in Korean Patent Publication No. 10-0473730 (registration date; February 18, 2005).

The waterproof construction method of a concrete structure using urea polymer resin disclosed in Korean Patent Publication No. 10-0473730, the first step of smoothing the surface of the concrete structure, and adhesive properties to the surface of the concrete structure The second step of coating the primer, and the third step of attaching the polymer resin coated waterproof sheet on the primer layer, and the fourth step of coating the urea polymer resin on the waterproof sheet.

According to the waterproof construction method using this polyurea, the waterproof sheet prepared in advance and prepared is attached to the concrete surface to be constructed, and in the field, only the urea resin coating is performed on the waterproof sheet to obtain an excellent waterproof coating film. Forming an appropriate coating layer according to the separation distance to prevent the external force generated or transmitted from the bottom or from the top to be delivered to the concrete surface can be obtained excellent waterproof coating. That is, a waterproof sheet with low hardness is formed in the layer near the surface of concrete so that cracks (external force) transmitted from the bottom or to the concrete do not spread to the upper coating film (concrete), and the hardness that the surface should have on the upper portion In order to guarantee the use of urea polymer resin with higher hardness and lower physical properties than the lower coating film, the hardness of the lower coating film (waterproof sheet layer) is a non-woven fabric having a value of 40 to 60 measured by Shore A hardness tester. Or coated with a polymer resin on the upper and lower portions of the steel mesh or rubber-asphalt sheet coated, and the hardness of the upper coating film (urea polymer resin layer) is 90 or more measured by Shore A hardness meter. I use it.

However, in the waterproofing method constructed by the above methods, after applying a primer (super fast curing type polymer material) to the surface of the concrete structure, a thick thick film-type waterproof sheet should be attached, so that the corner portion or the angled corner of the concrete structure In addition, there is a problem that the polyurea waterproof sheet is dropped from the concrete surface and the concrete structure and the polyurea waterproof sheet are peeled off, and it is lifted. Also, the upper surface of the waterproof sheet attached to the concrete structure using expensive and large spray equipment Since the polyurea of the super hardening type should be applied to the concrete, there was a problem in that the waterproof construction method of the concrete structure having poor working site conditions in a narrow space was inadequate.

In addition, to apply polyurea to the surface of concrete structures, 70 ?? In order to maintain the above temperature, there is a problem that expensive spraying equipment should be used, and since the work of spraying ultra-fast curing polymer material must be carried out by skilled workers, there is a problem such as not being able to reduce the waterproof construction cost, Since the curable polymer material is used, there are problems such as bubbles generated by the pinholes and the quality of waterproof construction cannot be improved.

Accordingly, the present invention has been made in view of the above-mentioned problems, and an object of the present invention is not only to the surface of a concrete structure of a poor work site in a narrow space, but also to a brush or a roller on the surface of an edge portion or an angled corner portion of the concrete structure. It is to provide a waterproof construction method of a concrete structure using a room temperature type polyurea that can be applied to room temperature type polyurea firmly without lifting.

Another object of the present invention to provide a waterproof construction method of a concrete structure using a room temperature type polyurea that can be installed in four seasons regardless of moisture and temperature.

Another object of the present invention is to be in close contact with the surface of the concrete structure to prevent leakage completely to prevent the corrosion of the reinforcement of the concrete structure to reduce the waterproof construction cost, and at the same time to reduce the maintenance cost To provide a waterproof construction method of concrete structures using polyurea.

Another object of the present invention is to provide a waterproof construction method of a concrete structure using a room temperature type polyurea that can completely remove the pinhole to improve the waterproof construction quality.

Still another object of the present invention is to provide a waterproof construction method of a concrete structure using a room temperature type polyurea that anyone can easily construct.

In order to achieve the above object, the waterproof construction method of the concrete structure using the room temperature-type polyurea of the present invention includes a foreign material removal step of removing a foreign material attached to the surface of the concrete structure with a grinding machine or a shot blasting, and the foreign material in the foreign material removal step. A buckhole filling process for filling the buckhole formed on the surface of the removed concrete structure with polymer cement, and a primer applying process for applying permeable aromatic isocyanate-based low viscosity primer to the surface of the concrete structure in which the buckhole is filled with polymer cement in the buckhole filling process; In order to remove the pinhole formed on the surface of the concrete structure to which the permeable aromatic isocyanate-based low viscosity primer is applied in the primer coating process, the aromatic isocyanate-based room temperature type polyurea is applied flatly with a roller or a brush 1) a first curing step of forming an aromatic isocyanate-based room temperature polyurea layer by curing the air in the air for a predetermined time in the coating step, the aromatic isocyanate-based polyurea applied in the first coating step, and the first curing step A second coating step of applying an aliphatic isocyanate-based room temperature polyurea evenly with a roller or a brush to remove the pinhole remaining in the aromatic isocyanate-based room temperature-type polyurea layer cured at And a second curing step of curing the aliphatic isocyanate-based room temperature polyurea to form an aliphatic isocyanate-based room temperature polyurea layer.

In addition, the waterproof construction method of the concrete structure using the room temperature type polyurea of the present invention is a foreign material removal step of removing the foreign matter attached to the surface of the concrete structure with a grinding machine or a shot blast, and the surface of the concrete structure removed in the foreign material removal process A buckhole filling process for filling the buckhole formed in the polymer cement and a permeable aromatic isocyanate low viscosity primer is applied to the vertical wall of the concrete structure filled with the buckhole in the buckhole filling process to form a permeable aromatic isocyanate low viscosity primer layer In order to remove the pinhole formed on the surface of the concrete structure to which the permeable aromatic isocyanate-based low viscosity primer is applied in the primer coating step, the aromatic isocyanate-based room temperature type polyurea is applied to a roller or a brush. Aromatic isocyanate having a thickness of 200 μm to 300 μm on the upper surface of the aromatic isocyanate-based room temperature polyurea coating step of applying a flat coating with an aromatic isocyanate-based room temperature polyurea layer Aromatic isocyanate-type polyurea formed on the bottom surface of the room temperature-type polyurea film attaching step of attaching the systemic room temperature-type polyurea film and the aromatic isocyanate-type room temperature-type polyurea film attached in the step of attaching the room temperature polyurea film Isocyanate cured for a predetermined time to form an aromatic isocyanate room temperature polyurea curing step to form an aromatic isocyanate room temperature type polyurea layer, and aromatic isocyanate cured in the aromatic isocyanate room temperature type polyurea curing step Applying an aliphatic isocyanate-based room temperature polyurea to the upper surface of the aromatic isocyanate-based room temperature polyurea film attached in the step of attaching the room temperature-type polyurea film after curing of the room temperature-type polyurea film with a roller or a brush Aliphatic isocyanate room temperature forming the aliphatic isocyanate room temperature type polyurea layer by curing the aliphatic isocyanate room temperature type polyurea coating step and the aliphatic isocyanate room temperature type polyurea applied in the aliphatic isocyanate room temperature type polyurea coating step. It is characterized by consisting of a type polyurea curing process.

Hereinafter, the waterproof construction method of the concrete structure using the room temperature type polyurea according to the first embodiment of the present invention will be described in detail.

The waterproof construction method of the concrete structure using the room temperature type polyurea according to the first embodiment is to remove the foreign matter (for example, dirt, hardened pieces of cement or lye) attached to the surface of the concrete structure with a grinding machine or a short blast ( Foreign matter removal process), the buckhole formed on the surface of the concrete structure removed in the foreign matter removal process is filled with polymer cement (buckhole filling process).

Next, a permeable aromatic isocyanate (MDI) low viscosity primer is applied to the surface of the concrete structure (primer coating step), and the permeable aromatic isocyanate based low viscosity primer is formed on the surface of the concrete structure to which the primer application step is applied. In order to remove the pinhole, the aromatic isocyanate-based polyurea is applied evenly with a roller or a brush (first application process), and the aromatic isocyanate-based polyurea applied in the first application process is cured in the air for a predetermined time. To form an aromatic isocyanate-based room temperature polyurea layer (first curing step), and to remove the bubbles remaining in the aromatic isocyanate-based room temperature-type polyurea layer cured in the first curing step. Top surface of polyurea Aliphatic isocyanate-based (IPDI) room temperature polyurea is applied evenly with a roller or a brush (second application step), and the aliphatic isocyanate-based room temperature polyurea applied in the second application process is allowed to stand in the air to cure aliphatic An isocyanate type normal temperature polyurea layer is formed (2nd hardening process).

Next, the operation and effect of the waterproof construction method of the concrete structure using the room temperature type polyurea according to the first embodiment of the present invention configured as described above will be described.

The waterproof construction method of the concrete structure using the room temperature type polyurea according to the first embodiment of the present invention is the foreign matter adhered to the surface of the concrete structure, for example, dust, cement hardened pieces (cement lump) or After scraping and removing both lye and the like with a grinding machine or a shot blast, the buckhole formed on the surface of the concrete structure from which the foreign matter is removed in the foreign matter removing process is filled with polymer cement in the filling process.

Next, when moisture does not remain on the surface of the concrete structure in the primer coating process, a permeable aromatic isocyanate-based one-component low viscosity primer is applied, and when moisture remains on the surface of the concrete structure in the primer coating process. The permeable aromatic isocyanate di-component low viscosity epoxy primer is applied.

In order to remove the pinhole formed on the surface of the concrete structure to which the permeable aromatic isocyanate-based one-component low-viscosity polyurethane primer or the two-component low-viscosity epoxy primer is applied in the primer coating process, the aromatic isocyanate-type normal temperature polyurea is applied in the first coating process. Is coated with a roller or brush, and the aromatic isocyanate-based polyurea applied in the first coating process is left in the air for a predetermined time (for example, left in the air for about 30 minutes) in the first curing process. To harden to form an aromatic isocyanate-based polyurea layer.

A roller or an aliphatic isocyanate (IPDI) room temperature polyurea on the upper surface of the aromatic isocyanate room temperature polyurea layer in order to remove the pinhole remaining in the aromatic isocyanate room temperature type polyurea layer cured in the first curing step Aliphatic isocyanate is applied evenly in the second coating step with a brush, and the aliphatic isocyanate-based room temperature polyurea applied in the second coating step is allowed to stand for 30 to 40 minutes in an atmospheric state in the second curing step to cure the aliphatic isocyanate. Waterproofing finishes by forming a systemic room temperature polyurea layer.

Therefore, according to the first embodiment of the present invention, a permeable aromatic isocyanate-based (MDI) low viscosity primer is coated on the surface of the concrete structure, and the pinhole is made by the aromatic isocyanate-type normal temperature polyurea applied on the primer coating layer. Since the aliphatic isocyanate-based (IPDI) room temperature-type polyurea is applied to remove the bubbles again on the aromatic isocyanate-based room temperature-type polyurea layer, penetration of moisture can be prevented.

Next, the waterproof construction method of the concrete structure using the room temperature type polyurea according to the second embodiment of the present invention will be described in detail.

Waterproofing method of a concrete structure using a room temperature type polyurea according to a second embodiment of the present invention is a grinding machine or a shot blast to the foreign matter (for example, dust, cement hardened pieces or lye) attached to the surface of the concrete structure Removing (foreign material removal step), and filling the buckhole formed on the surface of the concrete structure removed in the foreign material removal step with polymer cement (buckhole filling process).

Next, a permeable aromatic isocyanate (MDI) low viscosity primer is applied to the vertical wall of the concrete structure to form a permeable aromatic isocyanate (MDI) low viscosity primer layer (primer coating step), and in the primer application step In order to remove the pinhole formed on the surface of the concrete structure to which the permeable aromatic isocyanate-based low viscosity primer is applied, the aromatic isocyanate-based room temperature polyurea is applied evenly with a roller or a brush (aromatic isocyanate-based room temperature-type polyurea coating process)

Attaching an aromatic isocyanate-based room temperature-type polyurea film having a thickness of 200 μm to 300 μm to an upper surface of the aromatic isocyanate-based room temperature-type polyurea layer applied in the aromatic isocyanate-based room temperature-type polyurea coating process Step), the aromatic isocyanate-based room temperature polyurea layer formed by curing the aromatic isocyanate-based room temperature polyurea formed on the lower surface of the aromatic isocyanate-based room temperature polyurea film attached in the step of attaching the room temperature-type polyurea film for a predetermined time To form (aromatic isocyanate-based room temperature polyurea curing step),

Aliphatic isocyanate-based (IPDI) room temperature-type polyurea on the aromatic isocyanate-based room temperature-type polyurea film attached to the aromatic isocyanate-based room temperature-type polyurea layer in the normal temperature-type polyurea film attachment process in a roller or brush Aliphatic isocyanate (IPDI) room temperature type polyurea coating step), and the aliphatic isocyanate (IPDI) room temperature type polyurea applied in the aliphatic isocyanate type (IPDI) room temperature type polyurea coating step to cure the aliphatic isocyanate type room temperature type polyurea A urea layer is formed (aliphatic isocyanate-based (IPDI) room temperature type polyurea curing step).

Next, the operation and effect of the waterproof construction method of the concrete structure using the room temperature type polyurea according to the second embodiment of the present invention configured as described above will be described.

The waterproof construction method of the concrete structure using the room temperature type polyurea according to the second embodiment of the present invention is the foreign matter attached to the vertical wall of the concrete structure, for example, dust, cement hardened pieces (cement lump) Alternatively, after removing both lye and the like by grinding with a grinding machine or a shot blast, the buckhole formed in the vertical wall of the concrete structure from which the foreign matter is removed in the foreign matter removing step is filled with polymer cement in the filling process.

Next, the permeable aromatic isocyanate (MDI) low viscosity primer layer is applied to the vertical wall of the primer applying process concrete structure to form the permeable aromatic isocyanate (MDI) low viscosity primer layer (primer applying step). In order to remove the pinhole formed in the vertical wall of the concrete structure to which the permeable aromatic isocyanate-based low viscosity primer is applied, the aromatic isocyanate-based room temperature polyurea is applied with a roller or a brush evenly (aromatic isocyanate-based room temperature-type poly Urea application process).

In addition, the aromatic isocyanate-based polyurea having a thickness of 200 μm to 300 μm in the process of attaching the room temperature-type polyurea film to the upper surface of the aromatic isocyanate-based room temperature polyurea layer applied in the aromatic isocyanate-based room temperature-type polyurea coating process. Aromatic isocyanate room temperature polyurea is formed by attaching a film and curing the aromatic isocyanate room temperature polyurea formed on the lower surface of the aromatic isocyanate room temperature polyurea film applied in the aromatic isocyanate room temperature polyurea coating step for a predetermined time. A polyurea layer is formed (aromatic isocyanate-based normal temperature polyurea curing step).

The aliphatic isocyanate-based (IPDI) room temperature polyurea is applied to the aromatic isocyanate-based room temperature-type polyurea layer cured in the aromatic isocyanate-based room temperature-type polyurea curing process. The aliphatic isocyanate (IPDI) room temperature type polyurea applied in the step of applying the aliphatic isocyanate (IPDI) room temperature type polyurea and curing the aliphatic isocyanate type (IPDI) room temperature type polyurea. To form an aliphatic isocyanate-based room temperature polyurea layer to complete waterproof construction of the concrete structure.

Therefore, according to the second embodiment of the present invention, a permeable aromatic isocyanate-based (MDI) low viscosity primer is applied to the vertical wall of the concrete structure, and applied onto the permeable aromatic isocyanate-based (MDI) low viscosity primer layer. Since pinholes are removed by the aromatic isocyanate room temperature type polyurea layer, penetration of moisture is prevented from the outside, and the aromatic isocyanate room temperature type having a thickness of 200 μm to 300 μm on the upper surface of the aromatic isocyanate room temperature type polyurea layer The polyurea film is attached, and the penetration of water from the outside is prevented by an aliphatic isocyanate (IPDI) room temperature type polyurea layer on the upper surface of the room temperature type polyurea film.

The aromatic isocyanate-based (MDI) room temperature type polyurea has good abrasion resistance, pot life is 30 minutes, tear strength is 30 ㅁ 10kgf / ㎠, tensile strength is 130 ㅁ 20kgf / ㎠, and the elongation at break is 250 ㅁ 100%. When the tensile modulus (tensile modulus) is 100% elongation is 1152psi ~ 100psi, it is preferable to use a non-tack-free curing time (tack free) 2 hours, the curing drying time 8 hours.

The aliphatic isocyanate-based (IPDI) room temperature type polyurea has excellent water resistance, impact resistance, abrasion resistance, and weather resistance, and has strong chemical resistance, with a pot life of 40 minutes, tear strength of 50 ㅁ 10kgf / ㎠, and tensile strength. Is 150 ㅁ 50kgf / ㎠, the elongation at break is 300 ㅁ 100%, the tensile modulus is 100% elongation, 1140psi ㅁ 100psi, tack free is 2 hours, curing dry It is preferable to use the thing whose time is 10 hours.

In order to increase adhesion strength, the aromatic isocyanate-based room temperature polyurea film is preferably coated with aluminum dioxide to form the surface of the film as an uneven coating film (embossed coating film).

Next, in the first and second embodiments, when no moisture remains on the surface of the concrete structure in the primary coating step, it is preferable to apply a permeable aromatic isocyanate-based one-component low viscosity primer. When water remains on the surface of the concrete structure in the primary coating step, it is preferable to apply the permeable aromatic isocyanate two-component low viscosity epoxy primer.

In the first and second embodiments, the permeable aromatic isocyanate-based one-pack type low viscosity primer is preferably made of polyurethane which is cured by reacting with moisture. It is preferable to use an epoxy agent and an epoxy curing agent mixed in a ratio of 1: 1.

The polyurea used in the first and second embodiments of the present invention is a mixture of isocyanate and amine resins. The polyurea applied in the middle is an aromatic isocyanate-based room temperature type polyurea having good abrasion resistance, and is applied to the upper coat. Polyurea is an aliphatic isocyanate-based room temperature polyurea having excellent water resistance, impact resistance, abrasion resistance and weather resistance, and strong chemical resistance, and these aromatic isocyanate-based room temperature-type polyureas and aliphatic isocyanate-based room temperature polyureas are elastic. From 200% to 600%, the hardness is good, the impact resistance is very good, and since it does not contain hydroxyl groups, it is not influenced by moisture, and there is no risk of fire during construction with no solvent, no risk of explosion, and during construction No smell

Accordingly, the present invention can be applied firmly without lifting by applying a room temperature type polyurea by a brush or roller on the surface of the concrete structure of the narrow work site and the corner portion or the angled corner of the concrete structure in a narrow space, Not only can it be installed in four seasons regardless of humidity and temperature, but it also comes in close contact with the surface of the concrete structure to prevent leaks and prevents corrosion of the reinforcement of the concrete structure. It can reduce the cost, improve the waterproof construction quality by completely removing the pinhole, and anyone can easily install it.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the waterproof construction method of the concrete structure using the room temperature type polyurea of the present invention, a brush or a roller is applied to the surface of the concrete structure and the corner portion or the angled corner of the concrete structure in a poor work site in a narrow space. By applying room temperature type polyurea, it can be firmly installed without lifting, it can be installed in all seasons regardless of humidity and temperature, and it is in close contact with the surface of concrete structure to prevent leakage and prevent corrosion of reinforcement of concrete structure. In addition to reducing the cost of waterproof construction, it is also possible to reduce maintenance and repair costs, improve the quality of waterproof construction by completely removing the pinholes, and have an excellent effect that anyone can easily install.

Claims (7)

A debris removal process of removing debris attached to the surface of the concrete structure with a grinding machine or shot blasting, A buckhole filling process of filling the buckhole formed on the surface of the concrete structure from which the foreign matter is removed in the foreign material removal process with polymer cement; A primer coating step of applying a permeable aromatic isocyanate-based low viscosity primer to the surface of the concrete structure buckhole filled with polymer cement in the buckhole filling process; A first coating step of applying an aromatic isocyanate-based room temperature polyurea evenly with a roller or a brush to remove pinholes formed on the surface of the concrete structure to which the permeable aromatic isocyanate-based low viscosity primer is applied in the primer coating step; A first curing step of forming an aromatic isocyanate-based room temperature polyurea layer by curing the aromatic isocyanate-based room temperature polyurea applied in the first coating process for a predetermined time in the air; A second coating step of applying an aliphatic isocyanate-based room temperature polyurea evenly with a roller or a brush to remove the pinhole remaining in the aromatic isocyanate-based room temperature-type polyurea layer cured in the first curing step; Waterproofing the concrete structure using a room temperature type polyurea, characterized in that the second step of curing the aliphatic isocyanate type room temperature type polyurea applied in the second coating step to form an aliphatic isocyanate type room temperature type polyurea layer Construction method. A debris removal process of removing debris attached to the surface of the concrete structure with a grinding machine or shot blasting, A buckhole filling process of filling the buckhole formed on the surface of the concrete structure removed in the foreign material removing process with polymer cement; A primer coating step of forming a permeable aromatic isocyanate-based low viscosity primer layer by applying a permeable aromatic isocyanate-based low viscosity primer to the vertical wall of the buckhole-filled concrete structure in the buckhole filling process; Aromatic isocyanate type room temperature type poly which smoothly coats an aromatic isocyanate type room temperature type polyurea with a roller or a brush to remove pinholes formed on the surface of the concrete structure to which the permeable aromatic isocyanate type low viscosity primer is applied in the primer coating process Urea coating process, A room temperature type polyurea film attaching step of attaching an aromatic isocyanate room temperature type polyurea film having a thickness of 200 μm to 300 μm to an upper surface of the aromatic isocyanate room temperature type polyurea layer applied in the aromatic isocyanate room temperature type polyurea coating step and, Aromatic isocyanate-based room temperature polyurea formed on the lower surface of the aromatic isocyanate-based room temperature polyurea film attached in the step of attaching the room temperature-type polyurea film for a certain time to form an aromatic isocyanate-based room temperature polyurea layer Isocyanate type room temperature type polyurea hardening process, Aliphatic isocyanate on the upper surface of the aromatic isocyanate room temperature type polyurea film attached in the room temperature type polyurea film attaching step after the aromatic isocyanate room temperature type polyurea cured in the aromatic isocyanate room temperature type polyurea curing step An aliphatic isocyanate-based room temperature polyurea coating step of applying the room temperature-type polyurea flatly with a roller or a brush, An aliphatic isocyanate-based room temperature-type polyurea curing step of curing the aliphatic isocyanate-based room temperature-type polyurea applied in the aliphatic isocyanate-based room temperature-type polyurea coating process to form an aliphatic isocyanate-based room temperature-type polyurea layer. Waterproof construction method of concrete structure using room temperature type polyurea. According to claim 1 or 2, wherein the aromatic isocyanate-based polyurea is good wear resistance, the pot life is 30 minutes, the tear strength is 30 W 10 kgf / ㎠, the tensile strength is 130 W 20 kgf / ㎠ When the elongation at break is 250 wh 100%, the tensile strength is 100% elongation, 1152psi wh 100psi, the non-tacky curing time is 2 hours, and the curing drying time is 8 hours. Waterproof construction method of concrete structure using urea. According to claim 1 or 2, wherein the aliphatic isocyanate-based room temperature polyurea has good abrasion resistance, strong chemical resistance and UV resistance, pot life is 40 minutes, tear strength is 50 ㅁ 10 kgf / ㎠, and tensile When the strength is 150 ㅁ 50kgf / ㎠, the elongation at break is 300 ㅁ 100%, the tensile modulus is 100% elongation, 1140psi wh 100psi, non-tacky curing time is 2 hours, and curing drying time is 10 hours. Waterproof construction method of a concrete structure using a room temperature type polyurea, characterized in that. The method of claim 1 or claim 2, wherein the primer coating step is applied to the surface of the water-free concrete structure permeable aromatic isocyanate one-component low viscosity primer, the permeable aromatic isocyanate one-component low viscosity primer is moisture Waterproof construction method of a concrete structure using a room temperature type polyurea, characterized in that the polyurethane is cured by reacting with. The method of claim 1 or 2, wherein the primer coating step is to apply the permeable aromatic isocyanate-based two-component low-viscosity epoxy primer that is cured in water when the surface of the concrete structure is water remaining, and the permeable aromatic isocyanate System two-component low-viscosity epoxy primer is a waterproof construction method of a concrete structure using a room temperature type polyurea, characterized in that a mixture of epoxy and epoxy curing agent in a ratio of 1: 1. The method of claim 2, wherein the aromatic isocyanate-based room temperature polyurea film used in the room temperature-type polyurea film attaching step is coated with aluminum dioxide to increase the adhesion strength to form the surface of the film as an uneven coating film. Waterproof construction method of a concrete structure using a room temperature type polyurea characterized in that.