KR101149745B1 - complexity water-proof layer structure using the perforation sheets, and construction method of complexity water-proof layers using thereof - Google Patents

Abstract

The present invention relates to a composite waterproof layer structure using a perforated sheet and a composite waterproof layer construction method using a perforated sheet to form a concrete slab bottom plate 10 and the slab bottom plate 10 in a horizontal plane from which foreign substances and corrosion parts are removed. In order to form a mortar base layer 20 coated with a mixed mortar and the heat insulating insulating layer 30 formed on the upper surface of the mortar base layer 20 are sequentially formed, a plurality of perforations on the heat insulating insulating layer 30 A perforated sheet layer 40 is formed which consists of a perforated sheet 40 'with holes 40-1 formed therein, and at least one air is provided for the discharge of bubbles generated in the lower layer at random positions on the perforated sheet layer 40. The pocket 41 is provided, and the insulating waterproof layer 50 and the insulating waterproof layer 50 are formed to cover the perforated sheet layer while filling the perforated hole 40-1 formed in the perforated sheet layer 40. Top view beam It provides a composite waterproof layer structure and a perforated sheet using a perforated sheet in which the top coating layer 60 to be coated for the arc is laminated in order to provide a construction method using the same.

Perforated sheet, composite waterproof layer

Description

Complex water-proof layer structure using the perforation sheets, and construction method of complexity water-proof layers using approx}

The present invention relates to a composite waterproof layer structure using a perforated sheet and a composite waterproof layer construction method using a perforated sheet. Specifically, a concrete slab bottom plate from which foreign substances and corrosion portions are removed, and a mixed mortar to form the slab bottom plate in a horizontal plane The mortar base layer coated with and the heat insulation insulating layer formed on the upper surface of the mortar base layer are sequentially laminated, and a perforated sheet layer having a plurality of perforated holes is formed on the heat insulation insulating layer, and the random on the perforated sheet layer At least one air pocket is provided to discharge the bubbles generated in the lower layer at one position, and the insulating waterproof layer is formed to cover the sheet layer while filling the perforated hole formed in the perforated sheet layer, and the upper surface on the insulating waterproof layer. Multi-coated perforated sheet formed by laminating the top coating layer to be coated for protection It relates to a waterproof structure and a composite waterproof construction method.

As the prior art for this field, Korean Patent Registration No. 683133 (Prior Art 1) and Korean Patent Application Publication No. 2005-96573 (Prior Art 2) have already been filed and registered by the applicant.

Prior arts 1 and 2 construct a layered composition to have a heat insulation and waterproof function using a composition that can combine heat insulation, heat insulation, water resistance, or sound insulation based on inexpensive and recyclable materials such as waste tires and waste styrofoam. It relates to a technique related to the method, as a result of the inventors repeated construction using only the above patented technology, some problems that the waterproof function between the side wall and each layer is not perfect, and the lifting caused by the air bubbles when interlayer bubbles occur We found a problem that does not completely solve the phenomenon.

Therefore, in order to solve the above problems, the present inventors form a perforated sheet layer in which a perforated sheet having a plurality of perforated holes is continuously formed between the layers laminated in the composite waterproof layer, and occurs in a lower layer at a random position on the perforated sheet layer. In order to solve the conventional problems by providing a composite waterproof layer structure is provided with a plurality of air pockets of at least one to discharge the bubbles.

In addition, the present inventors have attempted to solve the problems of the prior art by improving and providing a perforated sheet constituting the perforated sheet layer.

In addition, the inventors of the present invention, the slab bottom plate, mortar base layer, insulation insulation layer, perforated sheet layer, insulation waterproof layer, top coating layer In order to solve the conventional problems, a urethane sealant is applied to a portion where one side of the side wall contacts, thereby providing a structure and a construction method in which the respective layers and the side wall are sealed.

Hereinafter, the present invention provides the following problem solving means.

First, the present invention provides a concrete slab bottom plate from which foreign substances and corrosion are removed, a mortar base layer coated with a mixed mortar to form the slab bottom plate in a horizontal plane, and an insulating thermal insulation layer formed on an upper surface of the mortar base layer. In this case, a laminated sheet is formed, and a perforated sheet layer having a plurality of perforated holes is formed on the insulating thermal insulation layer, and a heat insulating waterproof layer formed to cover the perforated sheet layer while filling the perforated holes formed in the perforated sheet layer; A composite waterproof layer structure in which a top coating layer coated on top of the thermal insulation waterproof layer is formed to be laminated in order to protect the upper surface thereof, wherein a plurality of air pockets are provided to discharge bubbles generated in a lower layer at a random position on the perforated sheet layer. To provide a composite waterproof layer structure using a perforated sheet characterized by And a means (first invention).
According to another aspect of the present invention, in the first invention, the connecting portions between the plurality of perforated sheets constituting the perforated sheet layer are adhered to each other by an adhesive glass fiber attachment sheet, and then the upper space portion of the glass fiber attachment sheet. To solve the problem is to provide a composite waterproof layer structure using a perforated sheet characterized in that the coating is made of a sealing material made of a known waterproof mixing composition or urethane sealant for sealing.
Another solution of the present invention is in the first invention, the slab bottom plate, mortar base layer, heat insulation thermal insulation layer, perforated sheet layer, heat insulation waterproof layer and the top coating layer and the part where the side wall of the slab bottom plate is in contact with the glass fiber The present invention provides a composite waterproof layer structure using a perforated sheet, which is sealed between the laminated layers and the sidewalls by adhering with an adhesive sheet and then applying a sealing material made of a known waterproof mixing composition or urethane sealant. do.
In another aspect of the present invention, in the first invention, the thermal insulation insulating layer is 5 to 25% by weight waste styrofoam powder, 18 to 22% by weight waste tire powder, 8 to 12% by weight waste fossil powder, volcanic ash powder It is a problem solving means to provide the composite waterproof layer structure using the perforated sheet which consists of a mixture containing 23-27 weight%, 13-17 weight% of back cement, and 13-17 weight% of general cement.
In another aspect of the present invention, in the first invention, the heat insulating waterproof layer is 20 to 30% by weight of 20 to 30 mesh waste tire rubber powder, 20 to 30% by weight of ash powder of 20 to 30 mesh. %, 40 to 70% by weight of a powder mixture consisting of 20 to 30% by weight foamed stone powder of 20 to 30 mesh and 15 to 25% by weight of cement; 20% to 30% by weight of vinyl acetate ethylene copolymer emulsion, 50% to 60% by weight of water, and 10% to 20% by weight of carboxymethylcellulose sodium, including 30% to 60% by weight of an aqueous solution It is a problem solving means to provide a composite waterproof layer structure using a perforated sheet comprising a mixture.
Another solution of the present invention is the heat-resistant waterproof layer in the first invention, 30 to 40% by weight of the waste tire rubber powder of 30 to 40 mesh, 20 to 40% by weight of the ash powder of 30 to 50 mesh 30 to 50% by weight of the powder mixture consisting of 15% to 25% by weight of ceramic powder, 15% to 25% by weight of cement; 50% to 70% by weight of an aqueous emulsion solution comprising 50% to 70% by weight of vinyl acetate ethylene copolymer emulsion, 20% to 30% by weight of water, and 10% to 20% by weight of sodium carboxymethylcellulose. It is a problem solving means to provide a composite waterproof layer structure using a perforated sheet comprising a mixture.
Another problem solving means of the present invention is a sand layer, a mixed layer made of rubber and asphalt, a nonwoven fabric layer, a mixed layer made of rubber and asphalt, sand layer is sequentially laminated by pressure, a plurality of punched holes in the press-laminated perforated sheet It is a problem solving means to provide the perforated sheet characterized by being formed (2nd invention).
Another problem solving means of the present invention is (i) a base treatment step of high pressure spraying washing with the removal of foreign matters or corrosion of the slab bottom plate; (ii) a mortar base layer forming step of performing horizontal treatment of the base surface by using mortar on the slab bottom plate; (iii) curing the mortar base layer by curing and then curing the thermal insulation insulating layer 30 having a thickness of 4-6 mm by curing for at least 24 hours to 48 hours; (iv) disposing a plurality of perforated sheets on the thermal insulation insulating layer to form perforated sheet layers, and installing air pockets for discharging bubbles generated in the lower layer at a plurality of arbitrary positions; (v) adhering each other with a glass fiber attachment sheet to the connection portion of the perforated sheet, and sealing with a sealing material made of a waterproof mixing composition or urethane sealant for sealing therebetween; (vi) forming a heat insulation waterproof layer formed by applying a top surface of the perforated sheet layer while filling the perforated hole of the perforated sheet layer; (vii) forming a top coat layer coated with a coating material to protect the heat insulating waterproof layer; to provide a composite waterproof construction method using a perforated sheet as a problem solving means (third invention).

delete

delete

delete

delete

delete

delete

delete

In addition, the present invention, in the third invention, a mixed waterproofing composition known in the site that is in contact with one side of the sidewall during the formation of the slab bottom plate, mortar base layer, heat insulation insulating layer, perforated sheet layer, heat insulation waterproof layer, top coating layer Another object of the present invention is to provide a composite waterproof construction method using a perforated sheet, wherein a sealing material such as a urethane sealant is coated to seal between the respective layers and the sidewalls.

In another aspect, the present invention provides a composite waterproof construction method using a perforated sheet, characterized in that in the third invention, the thickness of the thermal insulation insulating layer is formed to 4-6mm, and left to cure for at least 24 to 48 hours. It is a problem solving means.

 In another aspect, the present invention is to provide a composite waterproof construction method using a perforated sheet in the third invention, characterized in that the coating step of the heat-insulating waterproof layer is repeated at least once or more at intervals of at least 2 to 4 hours. It is a solution.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, a perforated sheet layer is formed by using a perforated sheet having a plurality of perforated holes formed between the layers of the composite waterproof layer, and a plurality of air pockets are formed to discharge bubbles generated in the lower layer at random positions on the perforated sheet layer. By providing it, there is an effect that can easily remove the bubbles generated during the interlayer lamination, there is an effect that can remove the moisture permeating through the invisible fine gap between the wall to be constructed and each waterproof layer to be laminated.

Hereinafter, specific embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a partial cross-sectional view showing the structure of the composite waterproof layer according to the present invention, Figure 2 is a partial plan view for explaining a perforated sheet installed in the composite waterproof layer according to the present invention, Figure 3 is a perforated sheet layer according to the present invention Is an enlarged partial cross-sectional view of Fig. 4, which is a partial cross-sectional view for explaining a state of being treated with a sealant for sealing between a wall and a layer according to the present invention, and Fig. 5 is an enlarged cross-sectional view of a perforated sheet.

Here, reference numeral 10 denotes a slab bottom plate and 70 denotes a side wall of the slab. According to the present invention, first remove the foreign matter and corrosion of the slab bottom plate 10, and gripping treatment of the damaged part and the excited part of the base surface and smooth the base surface using a circular grinder in the case of protrusion or irregularities To keep the work done. A high pressure washer may be used to remove foreign substances from the base surface, and if the crack of the base surface is severe, V-cut work may be performed to fill the sealant and smooth the base surface. After this operation, the mortar base layer 20 coated with the mixed mortar is laid in order to maintain a uniform horizontal surface of the slab bottom plate 10.

On the upper surface of the mortar base layer 20 to form a heat insulating insulating layer 30 is laminated. As a material for constituting the thermal insulation thermal insulation layer 30 used herein, a conventional composition known and applied by the present inventors will be used. The thermal insulation thermal insulation layer 30, 5 to 25% by weight waste styrofoam powder, 18 to 22% by weight waste tire powder, 8 to 12% by weight waste fossil powder, 23 to 27% by weight ash ash, 13 to 17 weight cement %, 13 to 17% by weight of general cement is used.

Subsequently, the perforated sheet layer 40 is formed of a plurality of perforated sheets 40 'having a plurality of perforated holes 40-1 formed on the thermal insulation insulating layer 30, and the perforated sheet layer 40 A plurality of air pockets 41 are provided for the air bubbles discharged from the lower layer at a random position. The air pocket 41 is cut to fit the size of the air pocket in order to smooth the air flow of the perforated sheet 40 'and then fixedly installed on the thermal insulation thermal insulation layer. In addition, the air pocket may be installed at the center where the perforated sheet 40 'and the perforated sheet 40' meet to advantageously discharge the bubbles. In addition, the number of air pockets 41 is preferably installed one per 50m ² , it will be clear that the construction can be adjusted to suit the number according to the size of the installation area. The reason for installing the air pocket 41 is to remove bubbles generated when the slab bottom plate 10, the mortar base layer 20, and the thermal insulation thermal insulation layer 30 are sequentially installed.

In addition, the perforated sheet layer 40 is laid separately in the perforated sheet 40 'produced separately, and attached between the perforated sheet 40' using a glass fiber attachment sheet 42, between the urethane It will be filled with turn sealant or waterproof mix composition.

The perforated sheet 40 'used in the above is a structure in which the perforated holes 40-1 are formed at regular intervals as shown in Figs. 2 and 3 so that the bubbles generated can be discharged to the outside. Detailed configuration of the perforated sheet 40 ′, as shown in FIG. 5, forms a sand layer 44 on both sides symmetrically about the nonwoven fabric layer 46, and a mixed layer made of rubber and asphalt therein. 45 is laminated. When the layer structure is arranged in order from the bottom up, the sand layer 44, the mixed layer 45 made of rubber and asphalt, the nonwoven fabric layer 46, the mixed layer 45 made of rubber and asphalt, and the sand layer 44 In turn, it has a pressure laminated structure. Further, a plurality of punched holes 40-1 for removing bubbles generated between the layers are formed in the press-laminated punched sheet 40 '.

Thereafter, the insulating waterproof layer 50 is formed to cover the perforated sheet layer 40 while filling the perforated hole 40-1 formed in the perforated sheet layer 40 formed of the plurality of perforated sheets 40 ′. ), And finally, the top coating layer 60, which is coated on the heat insulating waterproof layer 50 to protect the upper surface thereof, is sequentially laminated to provide a composite waterproof layer structure.

In addition, although the present invention has been mentioned above, the connection portion of the plurality of perforated sheets 40 'may use an adhesive sheet for waterproof sealing of the connection portions between the perforated sheet layers, and more preferably, the adhesive glass fiber adhesive sheet 42 A hole between the perforated sheets 40 'and the upper surface of the glass fiber attachment sheet 42 (the space formed between the perforated sheet and the perforated sheet) for sealing and adhering, Urethane sealant or waterproof mixture is applied and sealed again.

In addition, the present invention sequentially from the slab bottom plate 10, the mortar base layer 20, the thermal insulation thermal insulation layer 30, the perforated sheet layer 40, the thermal insulation waterproof layer 50, the top coating layer 60 of concrete In the process of lamination in order to seal the contact area with the side wall 70 of the slab bottom plate is applied by the sealant 43 selected from the urethane sealant or waterproofing mixed composition is sealed. In more detail, the slab bottom plate 10 is first formed, and then a sealant 43 selected from a urethane sealant or a waterproof mixture composition is applied between a portion of an end surface of the slab bottom plate and the side wall 70. After that, the mortar base layer 20 is formed, and then the thermal insulation insulating layer 30 is laid. Subsequently, while the perforated sheet layer 40 is laid, the gap generated between the side wall and the perforated sheet layer 40 is again sealed by using a glass fiber attachment sheet 42 and a sealing material 43 such as a urethane sealant. The process is terminated while laying the heat insulating waterproof layer 50 and the top coating layer in accordance with the process process.

In the present invention, the heat-insulating waterproof layer 50, the inventors disclosed in the patent registration No. 683133 is to use a known heat-insulating waterproof composition. This mixed composition is 20 to 30% by weight of 20 to 30% by weight of waste tire rubber powder, 20 to 30% by weight of 20 to 30 mesh ash powder, 20 to 30% by weight of foamed stone powder of 20 to 30 mesh 40 to 70 weight percent of a powder mixture consisting of 15 to 25 weight percent cement; 20% to 30% by weight of vinyl acetate ethylene copolymer emulsion, 50% to 60% by weight of water, and 10% to 20% by weight of carboxymethylcellulose sodium, including 30% to 60% by weight of an aqueous solution It consists of a mixed composition (composition 1: brand name High Powder Dowon Green Chemical Co., Ltd.).

Also in the present invention as the heat-insulating waterproof layer 50, the inventor discloses that it is possible to selectively use the known heat-insulating waterproof composition disclosed in Patent Registration No. 683133. The mixed composition is 30 to 40% by weight of the waste tire rubber powder of 30 to 40 mesh, 20 to 40% by weight of ash powder of 30 to 50 mesh, 15 to 25% by weight of ceramic powder, 15% by weight of cement 30 to 50% by weight of the powder mixture consisting of 25 to 25% by weight; 50% to 70% by weight of an aqueous emulsion solution comprising 50% to 70% by weight of vinyl acetate ethylene copolymer emulsion, 20% to 30% by weight of water, and 10% to 20% by weight of sodium carboxymethylcellulose. It turns out that it consists of a mixed composition (composition 2: brand name high powder Dowon Green Chemical Co., Ltd.). The mixed composition used herein may optionally be used as a material for sealing between the perforated sheets 40 '.

The composition used for the heat insulating waterproofing layer 50 is also revealed that the composition 1 and the composition 2 can be used by mixing in a certain weight part. The mixing ratio of the composition 1 and the composition 2 is preferably used in a mixture within the range of 1: 2.7 to 1: 3.

Next, the construction method of this invention is demonstrated.

In order to form the layer structure of the present invention, the present invention is subjected to the following construction process.

First of all, as a first step, it is subjected to a background treatment step for smoothly layering by removing the foreign material and / or the corrosion part of the concrete slab bottom plate by performing a high pressure spray cleaning.

As a second step, a mortar base layer 20 is formed on the slab bottom plate 10 to perform horizontal processing of the base surface using mixed mortar or mortar.

Third, after the curing of the mortar base layer 20 is cured, 5 to 25% by weight of waste styrofoam powder, 18 to 22% by weight of waste tire powder, 8 to 12% by weight of waste fossil powder, 23 to 27% by weight of volcanic ash powder, The step of forming a heat insulating insulating layer 30 consisting of a mixed composition comprising 13 to 17% by weight of the cement, 13 to 17% by weight of the cement.

Fourth, a plurality of perforated sheets 40 'are formed on the insulating thermal insulation layer 30 of the third step to form the perforated sheet layers 40, and a plurality of air pockets 41 for discharging bubbles are provided. Go through the steps As described above, the perforated sheet 40 ′ includes a sand layer 44, a mixed layer 45 made of rubber and asphalt, a nonwoven layer 46, a mixed layer 45 made of rubber and asphalt, and a sand layer ( 44) in turn uses a perforated sheet of a pressure laminated structure. Here, the perforated sheets are usually installed at intervals of 50 to 100 mm, preferably at 70 mm intervals.

Fifth, the glass fiber attachment sheet 42 is bonded to each other at the connection portion of the perforated sheet 40 ', and sealed by using a sealant 43 made of urethane sealant or the waterproof mixture composition for sealing thereon. It goes through the steps.

Sixth, while filling the perforated hole 40-1 of the perforated sheet 40 ', the step of forming the heat insulating waterproof layer 50 formed by applying the upper surface of the perforated sheet 40' is performed.

As a material of the heat insulation waterproofing layer used here, as mentioned above, the inventors developed and used the heat insulation waterproofing composition described in the prior application.

Seventh, the process is completed while going through the forming step of the top coat layer 60 to coat with a coating material for protecting the heat insulation waterproof layer 50.

Here, one side of the sidewall 70 during the formation of the slab bottom plate 10, the mortar base layer 20, the thermal insulation thermal insulation layer 30, the perforated sheet layer 40, the thermal insulation waterproof layer 50, and the top coating layer 60. The glass fiber attachment sheet 42 may be attached to a portion in contact with the glass fiber, and a sealing material 43 such as a urethane sealant may be applied to seal the space between the respective layers and the sidewalls. The sealing method may be performed in the same manner as the sealing method between the perforated sheets 40 'described above.

It is preferable to form the thickness of the heat insulation thermal insulation layer 30 formed through the above process to 4-6 mm, and to cure by leaving it for at least 24 to 48 hours.

In addition, the present invention is a construction process for attaching using a glass fiber attachment sheet 42 for adhesion between the perforated sheet 40 'and the perforated sheet 40', applying and sealing the above-mentioned waterproof mixture composition thereon It includes more.

In addition, the present invention is repeated at least one or more times the coating step of the heat insulating waterproof layer 50 at least 2-4 hours apart. More preferably, however, the coating is performed twice every two hours.

As mentioned above, the present invention is not limited to the above description, and various modifications can be made without departing from the technical spirit of the present invention.

1 is a partial cross-sectional view showing the structure of the composite waterproof layer according to the present invention

Figure 2 is a partial plan view for explaining the perforated sheet installed in the composite waterproof layer according to the present invention

Figure 3 is an enlarged partial cross-sectional view of the perforated sheet layer according to the present invention

Figure 4 is a partial cross-sectional view for explaining a state treated with a sealant for sealing between the wall and the layer according to the present invention

5 is an enlarged cross-sectional view of a perforated sheet

Claims (11)

The concrete slab bottom plate 10 from which foreign substances and corrosion are removed, the mortar base layer 20 coated with mixed mortar to form the slab bottom plate 10 in a horizontal plane, and the mortar base layer 20 Insulating thermal insulation layer 30 formed on the upper surface is formed by laminating in order, A perforated sheet layer 40 having a plurality of perforation holes 40-1 is formed on the thermal insulation insulating layer 30, The top surface protection layer 50 is formed to cover the perforated sheet layer 40 while filling the perforated hole 40-1 formed in the perforated sheet layer 40, and the top surface protection on the insulated waterproof layer 50. As a composite waterproof layer structure formed by laminating the top coating layer 60 to be coated in order, Composite waterproof layer structure using a perforated sheet, characterized in that a plurality of air pockets 41 are provided for the discharge of bubbles generated in the lower layer at a random position on the perforated sheet layer (40). The method of claim 1, The connecting portions between the plurality of perforated sheets 40 'constituting the perforated sheet layer 40 are adhered to each other with an adhesive glass fiber attachment sheet 42, and then to the upper space portion of the glass fiber attachment sheet 42. Composite waterproof layer structure using a perforated sheet, characterized in that the coating made of a sealing material made of a known waterproof mixing composition or urethane sealant for sealing. The method of claim 1, The slab bottom plate 10, the mortar base layer 20, the thermal insulation thermal insulation layer 30, the perforated sheet layer 40, the thermal insulation waterproof layer 50, and the top coating layer 60 and the sidewall 70 of the slab bottom plate are connected. A perforated sheet, which is sealed between the laminated layers and the side walls by applying a sealing material 43 made of a known waterproof mixing composition or urethane sealant, and then adhering to the contacted portion with a glass fiber attachment sheet 42. Composite waterproof layer structure used. The method according to claim 1, The thermal insulation insulating layer 30, 5 to 25% by weight waste styrofoam powder, 18 to 22% by weight waste tire powder, 8 to 12% by weight waste fossil powder, 23 to 27% by weight ash powder, 13 to 17 weight by back cement %, A composite waterproof layer structure using a perforated sheet, characterized in that the mixture consisting of 13 to 17% by weight of the general cement. The method according to claim 1, The heat-insulating waterproof layer 50, 20 to 30% by weight of 20 to 30 mesh waste tire rubber powder, 20 to 30% by weight of 20 to 30 mesh ash powder, 20 to 20% foamed stone powder of 20 to 30 mesh 40 to 70% by weight of the powder mixture consisting of 30% by weight to 15% by weight of cement; 20% to 30% by weight of vinyl acetate ethylene copolymer emulsion, 50% to 60% by weight of water, and 10% to 20% by weight of carboxymethylcellulose sodium, including 30% to 60% by weight of an aqueous solution Composite waterproof layer structure using a perforated sheet, characterized in that consisting of a mixture. The method according to claim 1, The thermal insulation waterproof layer 50, 30 to 40% by weight of the waste tire rubber powder of 30 to 40 mesh, 20 to 40% by weight of the ash powder of 30 to 50 mesh, 15 to 25% by weight of ceramic powder, bag 30 to 50% by weight of the powder mixture consisting of 15% to 25% by weight of cement; 50% to 70% by weight of an aqueous emulsion solution comprising 50% to 70% by weight of vinyl acetate ethylene copolymer emulsion, 20% to 30% by weight of water, and 10% to 20% by weight of sodium carboxymethylcellulose. Composite waterproof layer structure using a perforated sheet, characterized in that consisting of a mixture. delete (i) a background treatment step of high pressure water cleaning with the removal of foreign matters or corrosion of the slab bottom plate 10; (ii) forming a mortar base layer 20 which performs horizontal processing of the base surface using mortar on the slab bottom plate 10; (iii) curing the mortar base layer 20 by curing and curing the thermal insulation insulating layer 30 having a thickness of 4-6 mm for at least 24 hours to 48 hours; (iv) forming a plurality of perforated sheets 40 'on the heat insulating insulating layer 30 to form the perforated sheet layer 40, and optionally selecting a plurality of air pockets 41 for discharging bubbles generated in the lower layer. Installing at the location of; (v) adhering to the connecting portion of the perforated sheet 40 'with a glass fiber attachment sheet 42 and sealing with a sealing material 43 made of a waterproof mixture composition or urethane sealant for sealing therebetween; (vi) forming a heat insulation waterproof layer 50 formed by applying a top surface of the perforated sheet layer 40 while filling the perforated hole 40-1 of the perforated sheet layer 40; (vii) forming a top coat layer 60 coated with a coating material to protect the heat insulation waterproof layer 50; Composite waterproof construction method using a perforated sheet comprising a. delete delete delete

Images