KR101841190B1 - Water proof structure having air vent and forming method thereof - Google Patents

Abstract

The present invention relates to a waterproof structure having a deaeration path and a method for forming the same. The waterproof structure comprises: a primer layer formed by applying a primer to the upper surface of concrete; an air permeable sheet having a lower surface disposed on the primer layer, and having a plurality of pores to perform a function of discharging moisture and air pressure generated from the concrete to the outside; and a resin excessive impregnation blocking layer attached to the upper surface of the air permeable sheet, and having fine pores for discharging moisture and air pressure discharged from concrete to the outside while blocking excessive impregnation when an air permeable resin is applied. The resin excessive impregnation blocking layer and the air permeable sheet have a plurality of perforations formed on the overall areas thereof to penetrate longitudinally, and the perforations have a diameter of 1 to 10 mm. An air permeable resin is applied to the upper surface of the resin excessive impregnation blocking layer, and the resin permeates downwardly through the perforations formed on the resin excessive impregnation blocking layer and the air permeable sheet to spread from the upper surface of the resin excessive impregnation blocking layer to the lower surface of the air permeable sheet, so that the air permeable sheet is adhered to the primer layer by the adhesive function of the resin. A plurality of pores are formed in the resin to discharge moisture and air pressure generated from the concrete to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a waterproof structure having a degassing furnace,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof structure having a degassing furnace for discharging moisture and air pressure generated in concrete, and more particularly, to a waterproof structure having a degassing furnace formed between a concrete and a waterproof layer, The present invention relates to a waterproof structure having a degassing furnace capable of efficiently discharging air pressure to the outside, and a method of forming the same.

Generally, the waterproofing works of buildings is one of the important processes from the viewpoint of user 's livability, comfort and safety of buildings. However, more than 30% of the flaws in construction work are related to leaks, and the losses incurred due to leaks are added more than three times the initial construction cost. Most of these defects are caused by construction negligence and can be prepared in advance.

Conventional waterproofing methods for preventing leaking of buildings include sheet waterproofing or two-component urethane rubber waterproofing material on which a synthetic polymer roofing sheet such as rubber, vinyl chloride resin or ethylene vinyl acetate resin is adhered to the concrete surface with an adhesive And waterproofing of the coating film which is mixed in the field.

At this time, the waterproofing of the sheet is an operation to connect sheets formed in a predetermined shape in the field, and waterproofing work can be performed, so that a constant film thickness is secured and a period of hardening and curing is not necessary. However, there are many cases where leaks occur in the joints of sheets.

In addition, the coating film waterproofing is advantageous in that it can form an integral waterproof layer because of the absence of joints such as sheet waterproofing, because two liquids are applied and stirred in the field so that they can be adhered to the concrete floor. However, air pockets of the waterproof layer between the waterproof layer of the waterproof layer and the concrete interface are generated, which is a natural phenomenon due to the inherent environment of the rooftop directly receiving direct sunlight.

In addition, conventionally, the air permeability is maximized by applying a polyurea resin having fast curing properties on the upper surface of the sheet as a waterproofing agent. However, in addition to the polyurea resin, air permeability There is a problem that the use of materials for forming a waterproof layer is extremely limited.

FIG. 1 is a diagram showing a bulge phenomenon occurring when a waterproof layer is formed by a conventional waterproof method.

Referring to FIG. 1, a waterproof layer 10 is formed on an upper surface of a concrete. At this time, when the surface of the waterproof layer 10 receives direct sunlight, the surface temperature of the waterproof layer 10 increases to 60 to 80 ° C, and the molecular motion of the air and moisture contained in the concrete inside the waterproof layer becomes active and the volume expands. Also, due to the shrinkage and expansion of the concrete due to repetition of the diagonal crossing, and the temperature difference between the waterproof layer (10) and the concrete interface, pressure less than about 0.1 kgf / cm 2 occurs repeatedly at the waterproof layer and concrete interface. The pressure generated by the inflation pressure, the temperature difference, etc., is concentrated on the area where the waterproof layer 10 is lifted or the adhesive strength is weak, so that the waterproof layer 10 is inflated to cause the inflating phenomenon 20. The bulge phenomenon 20 can be prevented by forming a deaeration path between the upper surface of the concrete and the waterproof layer 10, which can discharge the moisture and air pressure discharged from the concrete. Thus, a method of forming a degassing furnace has been proposed.

2 is a view showing a conventional waterproofing method having such a degassing furnace.

Referring to FIG. 2, the adhesive 30 is applied to the upper surface of the concrete, the nonwoven fabric 40 is coated on the upper surface of the adhesive 30, and the hydrophobic sheet 50 is coated on the upper surface thereof. Since the adhesive 30 has no air permeability, when the adhesive 30 is applied over a certain size, the swelling phenomenon 20 occurs. Therefore, the adhesive 30 must be applied manually. In this case, the operation time is long and the working efficiency is low. Further, when the non-breathable adhesive (30) is used, moisture and air pressure can not be discharged from the concrete portion having the adhesive, so that the degassing efficiency is lowered and a long period of time The adhesive 30 is dropped. The adhesive 30 absorbed by the nonwoven fabric 40 and absorbed up to the upper surface of the nonwoven fabric 40 is adhered to the hydrophobic sheet 50. The hydrophobic sheet 50 is not excellent in adhesion to the adhesive 30.

Korean Patent Registration No. 10-0789253

Disclosure of Invention Technical Problem [8] The present invention has been made in view of overcoming the above-described problems of the prior art, and conceived to solve the above-mentioned problems, and it is an object of the present invention to improve the technique proposed by the applicant of the present application (Patent Document 1), to further improve workability, And a method of forming the waterproof structure.

That is, the present invention relates to a resin composition comprising a breathable air-permeable resin used as an adhesive, a resin having a plurality of voids and a plurality of micro voids formed between the voids, and an air permeable sheet punched at predetermined intervals to improve workability And a degassing furnace capable of securing a uniform adhesion force and a uniform degassing furnace, and a method of forming the same.

The present invention relates to a waterproof structure having a degassing furnace for relieving stress acting on a waterproof layer and a concrete surface and preventing swelling of a waterproof layer by discharging all the moisture and air pressure generated in concrete due to sufficient deaeration, The purpose of the method is to provide.

The present invention provides a waterproof layer using all kinds of waterproof materials by making it easy to ensure air permeability through a structure in which a resin over-infiltration barrier film is attached to an upper surface of a breathable sheet and a pore is formed, And it is an object of the present invention to provide a waterproof structure having a degassing furnace capable of improving the workability and a method of forming the same.

In order to achieve the above object, a waterproof structure having a degassing furnace according to the present invention is a waterproof structure having a degassing furnace for discharging moisture and air pressure discharged from concrete to the outside, A primer layer; An air permeable sheet having a lower surface disposed on the primer layer and having a plurality of voids formed therein to discharge moisture and air pressure discharged from the concrete to the outside; A resin overblock layer disposed on the top surface of the breathable sheet and having microvoids capable of discharging moisture and air pressure discharged from the concrete to the outside while shielding the infiltration of the breathable resin during application, A plurality of pores are formed in the resin-over-impregnated barrier layer and the air-permeable sheet so as to pass through them, the pores having a diameter of 1 to 10 mm; Permeable sheet and is permeated downward through a plurality of pores formed on the resin-over-impregnation-blocking layer and the air-permeable sheet to spread from the upper surface of the resin-over-impregnation-blocking layer to the lower surface of the air- An air permeable resin that adheres the breathable sheet to the primer layer by an adhesive function and has a function of discharging moisture and air pressure discharged from the concrete by forming a plurality of pores; And a waterproof layer applied on the resin over-impregnation blocking layer and adhered to the air-permeable sheet by an adhesive function of the air-permeable resin formed on the upper surface of the resin over-impregnation blocking layer, wherein the air permeable sheet, the resin over- And a degassing furnace connected to each other by pores and pores is formed from the resin to discharge moisture and air pressure discharged from the concrete to the outside.

Here, the resin over-impregnation blocking layer may be formed of a polyurethane non-woven fabric formed on the upper surface of the air-permeable sheet and having voids between the fiber structures of 0.02 to 0.15 mu m in size.

Here, the breathable sheet may be formed by using a composition obtained by mixing zeolite or activated carbon having a breathable property by a porous structure, which is superior in moisture absorption ability, on any one kind of porous resin selected from among polypropylene, polyester and polyethylene having a porous structure A sheet made in the form of a sheet can be used.

Here, the primer layer may be formed of any one of water-soluble acrylic resins, acrylic and polyisocyanate resins, epoxy resins, acrylic urethane resins, elastic urethane resins, and polyurea resins, Using a breathable primer solution prepared by mixing zeolite or activated carbon having excellent absorption ability; A breathable primer prepared by mixing cellulose or cellulose derivative having a porous fiber structure with any one kind of adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Liquid; The primer solution may have a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps.

And a sidewall portion extending upwardly along the sidewall of the concrete at an edge of the concrete bottom surface to discharge moisture and air pressure generated in the bottom surface of the concrete to the sidewall of the concrete, Permeable resin sheet and a waterproof layer are formed in this order to connect the degassing furnace of the concrete bottom and the degassing furnace of the side wall portion, wherein the air permeable sheet is formed on the entire surface of the side wall or has a width of 50 to 200 mm ; And an excellent barrier waterproofing layer formed on the side wall part to protrude to protect the barrier wall from dust or abrasion.

According to another aspect of the present invention, there is provided a method of forming a waterproof structure having a degassing furnace, the method comprising the steps of: preparing a waterproof structure having a degasser for discharging moisture and air pressure discharged from concrete to the outside, (A) forming a resin over-impregnation blocking layer on the upper surface of the air-permeable sheet having a plurality of voids, and forming a plurality of pores over the entire area; (B) applying a primer to the upper surface of the concrete to form a primer layer; (C) placing an air-permeable sheet having a resin-over-impregnated barrier layer on the primer layer; (D) applying a breathable resin having a plurality of pores to the breathable sheet to allow the breathable resin to permeate through the pores from the upper surface to the lower portion, thereby bonding the breathable sheet to the primer layer by the adhesive function of the breathable resin, Forming a degassing furnace; (E) forming a waterproof layer to be adhered to the breathable sheet by the adhesive function of the breathable resin formed on the upper surface of the resin over-impregnation blocking layer by applying a water repellent agent on the breathable sheet having the resin over-impregnated barrier layer; (F) forming a top coating layer on the waterproof layer, wherein a degassing furnace is formed through a plurality of pores of the air-permeable sheet and pores of the air-permeable resin, and moisture and air pressure discharged from the concrete are discharged to the outside And discharging it.

In the step (A), a plurality of pores are formed on the resin-over-impregnation-blocking layer and the air-permeable sheet, the pores are formed to a size of 1 to 10 mm in diameter, and the resin- Wherein the air permeable sheet has permeability to any one porous resin selected from polypropylene, polyester and polyethylene having the porous structure and has a porous structure, Zeolite or zeolite having excellent absorption ability or activated carbon may be used to produce a sheet.

Here, in the step (B), in forming the primer layer, the adhesive property of any one selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin, and polyurea resin Using a breathable primer solution prepared by mixing zeolite or activated carbon having air permeability by porous structure in the resin but having excellent moisture absorption ability; A breathable primer prepared by mixing cellulose or cellulose derivative having a porous fiber structure with any one kind of adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Liquid; The primer solution may have a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps.

According to the present invention, it is possible to form a degassing furnace through the pores of a plurality of pores of the air-permeable sheet and the pores of the resin-over-impregnation-blocking layer and the air-permeable resin, so that moisture and air pressure discharged from the concrete can be easily discharged It is possible to provide a waterproof structure having a degassing furnace capable of improving the workability and ensuring a uniform adhesive force and a uniform degassing furnace.

The present invention has a breathable sheet having a porous polyurethane film (nonwoven fabric) having voids, in which a plurality of pores are formed over the entire area, and the breathable resin is applied to adhere to the primer layer by absorption in the downward direction, It is possible to increase the efficiency of degassing for discharging all of the moisture and air pressure generated in the concrete to the outside, thereby relieving the stress acting on the waterproof layer and the concrete surface and preventing the waterproof layer from being swollen. It is possible to form a waterproof layer on the top surface of the breathable sheet by using all kinds of waterproof materials, so that it is possible to solve the problems which are extremely limited to the use of the conventional waterproof materials and to achieve the usefulness to improve the workability.

The present invention forms a pore structure on the breathable sheet, thereby achieving uniform absorption during the application of the breathable resin, thereby achieving the usefulness of exhibiting uniform adhesion.

1 is a view for explaining a bulge phenomenon occurring when a waterproof layer is formed by a conventional waterproofing method.
2 is a view showing a waterproofing method having a conventional degassing furnace.
3 is a schematic cross-sectional view showing a waterproof structure having a degassing furnace according to an embodiment of the present invention.
4 is a view illustrating a waterproof structure having a degassing furnace according to an embodiment of the present invention.
5 is a view illustrating a waterproof structure having a degassing furnace according to another embodiment of the present invention.
6 is a flowchart illustrating a method of forming a waterproof structure having a degassing furnace according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

A waterproof structure 100 having a degassing furnace according to an embodiment of the present invention is a waterproof structure for discharging moisture and air pressure discharged from concrete by forming a degassing furnace. As shown in FIGS. 3 to 5, The concrete bottom part A and the concrete side wall part B extending from the concrete bottom part A. The concrete bottom part A and the concrete side wall part B extending therefrom have the same construction.

Hereinafter, a waterproofing structure 100 having a degassing furnace according to the present invention will be described with reference to a concrete bottom A for convenience of explanation.

The waterproof structure 100 having a degassing furnace according to the present invention includes a primer layer 110 formed by applying a primer to the concrete bottom surface, and a plurality of voids formed on the bottom surface of the primer layer 110 The air permeable sheet 120 is attached to the upper surface of the air permeable sheet 120 and performs a function of discharging moisture and air pressure discharged from the concrete 1 to the outside. And a resin over-impregnation-blocking layer 121 having micro-pores for allowing the moisture and air pressure discharged from the concrete 1 to be discharged to the outside while blocking the concrete.

A plurality of perforations 122 are formed in the resin over-impregnation blocking layer 121 and the air-permeable sheet 120 so as to pass through them, and the perforations 122 are formed to have a diameter of 1 to 10 mm More preferably, a diameter of 2 to 5 mm is more preferable.

If the diameter is less than 1 mm with respect to the perforation 122, the perforation is too small to penetrate and absorb in the downward direction when the perforated resin is applied. When the diameter exceeds 10 mm, the percolation amount Is too large, it is difficult to maintain a uniform adhesive force with respect to the breathable sheet.

The perforations 122 are formed at regular intervals to maintain a uniform adhesive force due to uniform absorption of the breathable resin 130.

The primer layer 110 can improve adhesion between the bottom surface of the concrete and the air-permeable sheet 120 by applying a primer, maintain its adhesive strength for a long time, and prevent bubbles generated from the bottom surface of the concrete.

The primer layer 110 is a component for reinforcing the adhesion between the concrete 1 and the breathable sheet 120 and may be sometimes omitted. The air permeable resin 130 The air permeable sheet 120 having the resin over-impregnation blocking layer 121 may be directly formed.

As the primer layer 110, a known concrete primer may be used, but it is preferable that the primer layer 110 is constructed so as to exhibit a function of air permeability in addition to adhesion.

To this end, the primer layer 110 is formed of a water-soluble acrylic resin, an acrylic resin and a polyisocyanate resin, an epoxy resin, an acrylic urethane resin, an elastic urethane resin, and a polyurea resin, A breathable primer solution prepared by mixing zeolite or activated carbon having excellent moisture absorbing ability can be used. In some cases, water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin A breathable primer solution prepared by mixing cellulose or a cellulose derivative having a porous fiber structure with one kind of adhesive resin may be used.

At this time, it is preferable that the primer solution has a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps at 25 캜, thereby enhancing the adhesiveness.

The breathable sheet 120 may be composed of a breathable sheet made of a porous resin selected from among polypropylene, polyester and polyethylene having a porous structure.

At this time, the air permeable sheet 120 may be formed by using a composition obtained by mixing zeolite or activated carbon having a breathable property by porous structure, which is excellent in moisture absorption ability, on any one kind of porous resin selected from among polypropylene, polyester and polyethylene having a porous structure And may be formed in the form of a sheet, which may have a form of a more preferable constitution.

The zeolite or activated carbon may be added in the form of a nanopowder having a very small particle size.

Preferably, the resin over-impregnation blocking layer 121 is formed on the upper surface of the breathable sheet 120 and is formed of a polyurethane film (non-woven fabric) having voids between the fibers for forming a degassing furnace for ventilation It is more preferable that the pores between the fibers are formed to have a size of 0.02 to 0.15 mu m in order to prevent moisture and air pressure from being discharged to the outside while preventing the penetration of the breathable resin 130 into the inside.

The resin over-impregnation blocking layer 121 and the air-permeable sheet 120 are applied to the upper surface of the resin over-impregnation blocking layer 121 and permeate downward through a plurality of pores 122 formed in the air- An air permeable resin 130 spreading from the upper surface of the barrier layer 121 to the lower surface of the air permeable sheet 120 to adhere the air permeable sheet 120 to the primer layer 110 by its own adhesive function, Permeable resin 130 formed by applying a film on the upper surface of the resin-over-impregnation-blocking layer 121 by applying a water-repellent agent on the impregnation-blocking layer 121, And a waterproof layer 140 adhered to the side of the base 120.

The air-permeable resin 130 has a structure in which a plurality of pores are formed, so that moisture and air pressure discharged from the concrete 1 can be discharged to the outside.

The air-permeable resin 130 is an aqueous urethane paint forming air-permeable pores. Since penetration of water through the pores is minimized, it is preferable that pores formed by applying the air-permeable resin 130 are formed small, Or irrespective of the type, to induce gas artificially to form pores in the cured film. At this time, the holes of the pores are formed small, and water repellency can be imparted to the cured coating film by using an additive to prevent the penetration of water through the pores. Accordingly, the breathable resin 130 can minimize the deterioration of the water resistance and is excellent in adhesion to the concrete 1 and the waterproof layer 140. The formation of such pores can provide breathability and can transfer moisture and air pressure by itself.

The air-permeable resin 130 is formed by mixing a polyol and isocyanate as a curing agent. In order to artificially form pores in the cured coating film coated with the air-permeable resin 130, the equivalent amount of the polyol used in the reaction Of isocyanate. At this time, the isocyanate reacts with the equivalent amount of the polyol to cure, and the remaining isocyanate reacts with the polyol to react with the water molecules adsorbed on the concrete surface to induce the generation of carbon dioxide (CO ₂ ), thereby forming fine pores.

In addition, since the breathable resin 130 uses water as a solvent as a solvent, the polyol and the isocyanate of the breathable resin 130 are blocked and coated with a blocking agent, respectively. After a certain period of time, the polyol reacts with the isocyanate, After the reaction, the remaining isocyanate reacts with the water molecules of the concrete to generate carbon dioxide.

This structure forms a degassing furnace which is connected to the air permeable sheet 120 by the voids and pores of the air permeable sheet 120 and the resin overflow impregnation blocking layer 121 and the air permeable resin 130, Moisture and air pressure generated on the floor surface can be efficiently discharged to the outside.

The waterproof layer 140 can be formed by using any waterproof material generally used, which is generally used, and it has a viscosity of 25 Lt; 0 > C.

The concrete sidewall portion B has a structure extending upward along a sidewall of the concrete at the edge of the bottom of the concrete and is the same as the construction of the concrete bottom A described above, And discharging the air pressure to the side wall of the concrete.

That is, in the present invention, a waterproof structure having a degassing furnace is formed only in the concrete bottom portion A, so that the moisture and air pressure generated on the concrete floor can be guided to the outside and can be easily discharged. And the concrete side wall portion B is formed by extending to the side of the concrete portion A so that moisture and air pressure can be discharged to the concrete side wall.

In the present invention, the concrete sidewall portion B is formed to extend from the bottom of the concrete A so that the deaeration passage of the concrete bottom wall and the deaeration passage of the concrete side wall portion are connected to each other, The waterproof layer 160 may be formed by protruding the waterproof layer 160 to protect the waterproof layer 160 from dust or abrasion.

The waterproof layer 140 is formed of the same material as that of the waterproof layer 140. The waterproof layer 140 is formed of the same material as the waterproof layer 140. The moisture and air pressure To prevent the phenomenon that it can not be discharged to the outside.

The superior barrier waterproof layer 160 may be formed at one location per 200 square meters.

At this time, in the concrete side wall portion B, only the portion having a width of 50 to 200 mm with respect to the air permeable sheet 120 is formed only at the portion where the excellent barrier preventing layer 160 is formed when the excellent barrier preventing layer 160 is formed in some places .

The concrete sidewall B may be attached to the sidewall through a self-supporting structure, not by a coating method, unlike the concrete bottom A.

A method of forming the waterproofing structure 100 having the above-described structure according to the present invention will be described with reference to FIG.

A resin over-impregnation barrier layer is formed on the upper surface of the air-permeable sheet having a plurality of voids, and a perforation is formed through the resin over-impregnation barrier layer to the lower surface of the air-permeable sheet. (S1).

The breathable sheet may be composed of a breathable sheet made of any one kind of porous resin selected from among polypropylene, polyester and polyethylene having a porous structure.

The breathable sheet is formed into a sheet form by using a composition obtained by mixing zeolite or activated carbon having air permeability by a porous structure and having excellent moisture absorbing ability into any one kind of porous resin selected from among polypropylene, polyester and polyethylene having a porous structure And the zeolite or activated carbon may be added in the form of a nanopowder having a very small particle size.

The resin over-impregnation blocking layer is preferably formed on the upper surface of the air-permeable sheet and is preferably composed of a polyurethane film (non-woven fabric) having voids between fibers for forming a degassing furnace for air permeability, More preferably 0.02 to 0.15 mu m in size.

At this time, the pores are preferably formed to have a diameter of 1 to 10 mm, more specifically, a diameter of 2 to 5 mm.

A primer layer is formed by applying a primer solution to the upper surface of the concrete (S2).

The primer layer may be formed of a water-soluble acrylic resin, an acrylic resin and a polyisocyanate resin, an epoxy resin, an epoxy resin, , An acrylic urethane resin, an elastic urethane resin, and a polyurea resin may be used as the air-permeable primer liquid prepared by mixing zeolite or activated carbon having air permeability by porous structure but having excellent moisture absorbing ability, Sometimes produced by mixing cellulose or cellulose derivative having a porous fiber structure with any one kind of adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin, primer Solution may also be used.

Here, it is preferable that the primer solution has a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps at 25 占 폚.

A breathable sheet having a resin over-penetration barrier layer is placed on the primer layer (S3).

Permeable resin having a plurality of pores formed on the upper surface of the resin-over-impregnated barrier layer is applied on the air-permeable sheet having the resin-over-impregnated barrier layer, whereby the air-permeable resin is impregnated from the upper surface to the lower portion through the pores, The air permeable sheet is adhered to the primer layer to have a uniform adhesive force and a degassing furnace is formed (S4).

Thus, a degassing furnace is formed which is connected to each other by the air gaps and pores of the air permeable sheet, the resin over-impregnation blocking layer and the air permeable resin, and moisture and air pressure generated in the concrete can be efficiently discharged to the outside.

(S5) by applying a waterproofing agent on the breathable sheet having the resin-over-impregnated barrier layer to adhere to the breathable sheet by the adhesive function of the breathable resin formed on the upper surface of the resin-over-impregnated barrier layer.

At this time, the waterproof layer may not be a quick-setting resin, and any known waterproofing agent generally used may be used, and the viscosity is preferably 200 to 2000 cps at 25 ° C.

The top coat layer is formed on the waterproof layer by a top coat such as a resin mortar (S6).

At this time, the top coating layer protects the waterproof layer and not only improves the waterproof performance, but also the top coat of the desired color can be applied to enhance the aesthetics.

Accordingly, in the present invention, the degassing furnace can be formed through the voids of the voids of the air-permeable sheet and the voids of the resin-over-impregnation blocking layer and the air-permeable resin, so that moisture and air pressure discharged from the concrete can be easily discharged Thereby providing a waterproof structure having a degassing furnace capable of improving workability and ensuring a uniform adhesive force and a uniform degassing furnace.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. May be made, which will be within the technical scope of the present invention.

1: Concrete 100: Waterproof structure with degassing furnace
110: primer layer 120: breathable sheet
121: resin over-infiltration blocking layer 122: perforation
130: breathable resin 140: waterproof layer
150: Top coating layer 160: Good barrier waterproof layer

Claims (8)

1. A waterproof structure having a degassing furnace for discharging moisture and air pressure generated in concrete to the outside,
A primer layer formed by applying a primer to the upper surface of the concrete;
An air permeable sheet having a lower surface disposed on the primer layer and having a plurality of voids formed therein to discharge moisture and air pressure discharged from the concrete to the outside;
A resin over-infiltration barrier layer adhered to the upper surface of the air-permeable sheet and having microvoids capable of discharging moisture and air pressure discharged from the concrete to the outside, while preventing excessive infiltration of the air-permeable resin during application; ≪ / RTI >
A plurality of pores are formed in the resin-over-impregnated barrier layer and the air-permeable sheet so as to pass through them, the pores having a diameter of 1 to 10 mm;
Permeable sheet and permeates through the plurality of pores formed in the resin-over-impregnation-blocking layer and the air-permeable sheet to the lower surface of the air-permeable sheet from the upper surface of the resin-over- The air permeable resin performing a function of causing the air permeable sheet to adhere to the primer layer and discharging moisture and air pressure discharged from the concrete to the outside by forming a plurality of pores;
A waterproof layer applied on the resin over-impregnation blocking layer and adhered to the air-permeable sheet by an adhesive function of the air-permeable resin formed on the upper surface of the resin over-impregnation blocking layer; / RTI >
And a deaerator connected to the air-permeable sheet and the resin-over-impregnation-blocking layer and the air-permeable resin by air gaps and pores are formed to discharge moisture and air pressure discharged from the concrete to the outside. Waterproof structure. The method according to claim 1,
The resin-over-impregnated barrier layer may include a resin-
Characterized in that the air permeable sheet is a polyurethane nonwoven fabric formed on the upper surface of the breathable sheet and having voids between the fiber structures of 0.02 to 0.15 mu m in size. The method according to claim 1,
The air-
Characterized in that it is formed in a sheet form by using a composition obtained by mixing porous resin selected from among polypropylene, polyester and polyethylene having a porous structure with air permeability by porous structure, but mixing zeolite or activated carbon excellent in moisture absorption ability Wherein the waterproof structure is provided with a deaerator. The method according to claim 1,
The primer layer,
A zeolite or an activated carbon having a breathable property by a porous structure and excellent in moisture absorption ability is attached to any one adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Using a breathable primer solution prepared by mixing;
A breathable primer prepared by mixing cellulose or cellulose derivative having a porous fiber structure with any one kind of adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Liquid;
Characterized in that the primer solution has a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps. The method according to claim 1,
Further comprising a sidewall portion extending upwardly along a sidewall of the concrete at an edge of the concrete bottom surface to discharge moisture and air pressure discharged from the bottom surface of the concrete to sidewalls of the concrete, A breathable resin and a waterproof layer are sequentially formed to connect the degassing furnace of the concrete floor to the degassing furnace of the side wall portion, wherein the breathable sheet is formed on the entire surface of the side wall or has a width of 50 to 200 mm at one site per 200 square meters;
Wherein the waterproof structure further comprises an excellent barrier waterproof layer protruding from the side wall to protect the waterproof structure from dust or abrasion. A method for forming a waterproof structure having a degassing furnace for discharging moisture and air pressure discharged from concrete to the outside,
(A) forming a resin over-impregnation blocking layer on the upper surface of the air-permeable sheet having a plurality of voids, and forming a plurality of pores over the entire area;
(B) applying a primer to the upper surface of the concrete to form a primer layer;
(C) placing an air-permeable sheet having a resin-over-impregnated barrier layer on the primer layer;
(D) applying a breathable resin having a plurality of pores to the breathable sheet to allow the breathable resin to permeate through the pores from the upper surface to the lower portion, thereby bonding the breathable sheet to the primer layer by the adhesive function of the breathable resin, Forming a degassing furnace;
(E) forming a waterproof layer to be adhered to the breathable sheet by the adhesive function of the breathable resin formed on the upper surface of the resin over-impregnation blocking layer by applying a water repellent agent on the breathable sheet having the resin over-impregnated barrier layer;
(F) forming a top coating layer on the waterproof layer; / RTI >
Wherein a ventilation path is formed through a plurality of voids of the breathable sheet and pores of the breathable resin to discharge moisture and air pressure discharged from the concrete to the outside. The method according to claim 6,
In the step (A)
A plurality of pores are formed on the resin-over-impregnated barrier layer and the air-permeable sheet, the pores having a diameter of 1 to 10 mm,
The resin over-impregnation-blocking layer may be formed by using a polyurethane non-woven fabric having a pore size of 0.02 to 0.15 mu m between the fiber structures,
The breathable sheet may be formed into a sheet of a porous resin selected from the group consisting of polypropylene, polyester and polyethylene having the porous structure by mixing a zeolite or activated carbon having breathability by a porous structure, Wherein the waterproof structure is formed by using the waterproof structure. The method according to claim 6,
In the step (B)
In forming the primer layer,
A zeolite or an activated carbon having a breathable property by a porous structure and excellent in moisture absorption ability is attached to any one adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Using a breathable primer solution prepared by mixing;
A breathable primer prepared by mixing cellulose or cellulose derivative having a porous fiber structure with any one kind of adhesive resin selected from water-soluble acrylic resin, acrylic and polyisocyanate resin, epoxy resin, acrylic urethane resin, elastic urethane resin and polyurea resin Liquid;
Wherein the primer solution has a specific gravity of 0.9 to 1.4 and a viscosity of 15 to 50 cps.

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