KR102508079B1 - Complex waterproof construction method - Google Patents

Abstract

According to the present invention, an exhaust passage designed to exhaust air pressure (gas) to the outside between the construction surface and the composite waterproof layer is formed to discharge air pressure (water vapor, etc.) generated between the construction surface and the composite waterproof layer, thereby improving the waterproof quality In order to maximize the reliability and stability of, as well as to minimize the temperature rise caused by the radiant heat transmitted to the inside of the concrete and prevent the deterioration of the waterproof layer from the heat energy generated in the infrared (heat ray) in the visible light region, especially from the outside sun;
Forming an asphalt layer formed of a plurality of asphalt sheets to be stacked and closed while dividing the construction surface on a plane; Forming a water-soluble urethane coating layer applied while being laminated on top of the asphalt sheet; Forming a heat-shielding integrated polyurea coating layer applied while being laminated on top of the water-soluble urethane coating layer; Between the construction surface and the asphalt layer, the construction surface is divided into a plurality of divided spaces on a plane by making the construction surface airtight, and a joint reinforcing sealant to close the 'gap' of the part where the asphalt sheets contact bands are provided; Between the joint reinforcing sealant bands and the construction surface, a vapor distributing tape is provided to discharge air pressure to the outside while distributing the water vapor to each space divided and partitioned by the joint reinforcing sealant band through which water vapor circulates. Provides a composite waterproofing construction method that is

Description

Complex waterproof construction method

The present invention relates to a composite waterproofing construction method to form a waterproof layer by constructing the uppermost rooftop of apartments, department stores, hypermarkets, schools, exhibition halls, office buildings, upper slabs of parking lots, etc. and the uppermost floors such as water purification plants and sewage treatment plant management facilities. , More specifically, by forming an exhaust passage designed to exhaust air pressure (gas) to the outside between the construction surface and the waterproof layer to discharge the air pressure (water vapor, etc.) generated between the construction surface and the waterproof layer, the waterproof quality In addition to maximizing the reliability and stability of the waterproof layer, in particular, it is designed to minimize the temperature rise caused by radiant heat transmitted to the inside of the concrete and prevent deterioration of the waterproof layer from thermal energy generated from infrared rays (heat rays) among the range of visible rays from the outside sun. It is about a composite waterproof construction method.

In general, exposed waterproof structures constructed on the uppermost rooftops of apartments, department stores, large marts, schools, exhibition halls, office buildings, and upper slabs of parking lots, as well as on the uppermost floors such as water purification plants and sewage treatment plant management facilities, are exposed to various external environmental and physical conditions. and must meet various requirements.

First, it is installed in the form of partial insulation on the construction floor, but there should be no swelling due to water vapor pressure.

Second, although it is constructed in the form of partial insulation on the construction floor, there should be no swelling due to wind pressure.

Third, there should be no deterioration (splitting, crumbling) due to long-term exposure to ultraviolet rays (UV).

Fourth, it should be possible to respond to cracks caused by repeated drying, contraction, and expansion of concrete structures.

Fifth, when applying the composite method, it is necessary to prevent the occurrence of a step in the sheet joint and to facilitate the application of the coating material or sheet material applied on the top.

In Korean Patent Application No. 10-2016-0137617 (Name: Rooftop composite waterproofing system and its construction method/2016.10.21.), as known in the publication, applying a primer to the rooftop; Laying and adhering the lower multi-hole sheet so that the holes are placed in the installation direction of the waterproof sheet at the primer site where the ends of the waterproof sheet to be installed in an adjacent butting manner meet; Applying a primer to the upper surface of the lower multi-hole sheet; Laying and bonding the upper multi-hole type sheet so that the hole is orthogonal to the hole on the lower multi-hole type sheet; Laying a waterproof sheet in a butting manner so that the ends meet in the middle of the upper surface of the upper multi-hole sheet and adhering to the construction surface and the primer of the upper multi-hole sheet; A waterproof construction method is described in the order of: coating a waterproof paint on the surface of the waterproof sheet to finish the waterproof paint film.

And in Korean Patent Application No. 10-2016-0077075 (Name: Rooftop waterproofing construction method/2016.06.21.), as known in the gazette, an uncured layer attached to the surface of a concrete slab, a poor cement layer, sand, dust , A slab surface treatment step in which an operator removes oily contaminants using a grinding machine, grinder, planer, or blower, and a depression formed by a predetermined depth based on the bottom surface of the slab at regular intervals on the bottom surface of the slab A blowing groove forming step of forming a groove, a blowing pipe installation step of embedding a plurality of blowing pipes installed along the inside of the groove formed on the upper surface of the slab and having a cylindrical tube shape and having a plurality of through holes formed on the outer circumferential surface; It is connected to a blower pipe installed in the center of the upper surface of the slab, and a forced hot air spraying step of removing moisture and moisture from the inside of the bottom surface of the slab by blowing air or hot air into the blower pipe, and drying the inside of the bottom surface of the slab Upon completion, a waterproof coating step of forming a waterproof coating film on the upper surface of the slab by sequentially performing undercoating, intermediate coating, and top coating on the upper surface of the slab, and coating of the waterproof coating film on the upper surface of the slab A rooftop waterproofing construction method is described, which includes a waterproofing coating drying step of drying the waterproofing coating on the upper surface of the slab by natural drying for a predetermined time or more upon completion.

On the other hand, in Korea Patent Application No. 10-2012-0127308 (Name: Rooftop Composite Waterproofing Layer and its Waterproofing Construction Method/2012.11.12.), as is known in the Publication, the concrete surface provided on the roof of the building is waterproofed. A waterproofing layer construction method for a concrete surface, comprising the steps of cleaning the concrete surface to remove foreign substances; Forming and curing an adhesive layer on the concrete surface; Spreading a primary fiber reinforcing material on top of the adhesive layer and placing the lower surface in close contact with the adhesive layer; Applying a first urethane layer with a thickness completely covering the first fiber reinforcement, allowing the urethane to penetrate the first fiber reinforcement and bonding to the adhesive layer, and curing the first urethane layer; disposing a secondary fiber reinforcing material having a grid-like mesh structure on top of the primary urethane layer; Applying a secondary urethane layer with a thickness completely covering the secondary fiber reinforcement, allowing the urethane to penetrate the secondary fiber reinforcement and bonding to the adhesive layer, and curing the secondary urethane layer; And applying and curing a top coating layer on top of the secondary urethane layer to block external ultraviolet rays to prevent aging and discoloration of the urethane layer; In addition, a construction method of a waterproof layer configured to prevent air bubbles is described.

In addition, in Korean Patent Application No. 10-2005-0073079 (Name: On-site fast construction method of ventilation insulation type waterproof layer on the roof of a building and structure of the waterproof layer/2005.08.10.), as is known in the gazette, the waterproof surface of the roof of the building A ground level adjustment step of adjusting the base sheet to be flat, a base layer forming step of forming a base layer by installing a plurality of base sheets so that one side overlaps each other on the waterproof base surface of the building roof, and the overlapped portion of the base sheet is waterproofed on the roof of the building The base layer fixing step of partially fixing the base layer to the base surface with a base fixing material, the joint part processing step of attaching the overlapping part of the base layer where the base fixing material is installed with an adhesive fixing material, and waterproofing by spraying a quick-hardening coating waterproofing material on the base layer A waterproofing film forming step of forming a film, an embossing layer treatment step of maintaining a predetermined inclination angle with respect to the surface of the waterproof film and spraying a quick-hardening coating film waterproofing material by spraying, and embossing processing for preventing slipping, and the embossing process A waterproof layer construction method is described, which includes the step of forming a top-coat layer by applying a top-coat material to the waterproof film.

Korean Patent Application No. 10-2016-0137617 (2016.10.21.) Korean Patent Application No. 10-2016-0077075 (2016.06.21.) Korean Patent Application No. 10-2012-0127308 (2012.11.12.) Korean Patent Application No. 10-2005-0073079 (2005.08.10.)

However, the single waterproofing method or the composite waterproofing method applied to the conventional rooftop exposure as described above is constructed in the form of front insulation, partial insulation, and front bonding.

However, these conventional waterproofing construction methods are caused by swelling of the waterproofing layer due to vapor pressure generated inside the concrete structure, simultaneous fracture of the waterproofing layer due to behavior and cracking of the underlying concrete below, and wind moving to the rooftop and damaging the floor. There were problems in that the waterproof layer was defective due to physical conditions such as lifting the roof material (waterproof layer) upward by the pressure (wind resistance) generated according to the external environment, which led to water leakage.

In particular, the biggest disadvantage of a single sheet material is that in the processing method of the joint, the gap between the sheets that occurs during overlapping joints, the leakage path due to poor adhesion, and the sheet deformation due to high and low temperature environments that occur during butt joints, and the butt area. Separation (separation or fracture) between sheet materials causes leaks due to defects such as occurrence of vulnerable areas for leaks, and there are problems in that a lot of maintenance costs are incurred to solve this problem.

The present invention has been proposed to solve the above conventional problems, and an object of the present invention is to form an exhaust passage for discharging atmospheric pressure (gas) to the outside between the construction surface and the waterproof layer to form the construction surface and the waterproof layer. As the air pressure (water vapor, etc.) generated between the discharge is discharged, the reliability and stability of the waterproof quality are maximized, and in particular, the deterioration of the waterproof layer from the thermal energy generated from infrared rays (heat rays) among the visible rays from the outside sun It is to provide a composite waterproofing construction method capable of preventing and minimizing the temperature rise due to radiant heat transmitted to the inside of the concrete.

In the composite waterproof construction method according to the present invention for achieving the object of the present invention as described above, in the composite waterproof construction method to construct a composite waterproof layer on the top of the construction surface; Forming an asphalt layer formed of a plurality of asphalt sheets to be stacked and closed while dividing the construction surface on a plane; Forming a water-soluble urethane coating layer applied while being laminated on top of the asphalt sheet; Forming a heat-shielding integrated polyurea coating layer applied while being laminated on top of the water-soluble urethane coating layer; Between the construction surface and the asphalt layer, the construction surface is divided into a plurality of divided spaces on a plane by making the construction surface airtight, and a joint reinforcing sealant to close the 'gap' of the part where the asphalt sheets contact bands are provided; Between the joint reinforcing sealant bands and the construction surface, a vapor distributing tape is provided to discharge air pressure to the outside while distributing the water vapor to each space divided and partitioned by the joint reinforcing sealant band through which water vapor circulates. characterized by being

The joint reinforcing sealant band is formed in a 'net shape' that intersects each other at right angles on a plane to the construction surface to secure airtightness with respect to the outside and the construction surface while maintaining the space between the plurality of asphalt sheets stacked on top. It is characterized by ensuring confidentiality.

The water vapor dispersion tape includes: the degassing band having a length and using 'non-woven fabric' as a material; It is characterized in that it includes; a fixing band laminated and coupled to the lower part of the degassing band, laminated and fixed to the construction surface, and made of a 'PE tube' having a length.

The liquid coating materials applied to form the water-soluble urethane coating layer and the heat-insulating polyurea coating layer, respectively, have a uniform thickness while having an even thickness by a coating film homogenization device equipped with a squeegee that is moved according to a linear moving motion to be formed; The coating film homogenization device has a fixing table having a length and having a length at the bottom to which the squeegee is detachable, and a driving wheel provided at both ends of the fixing table and configured to roll with respect to the construction surface at the outer end is rotatably fixed It is made including a fixing bracket; In the fixing bracket, the distance between the construction surface and the center is formed differently, so that the distance between the lower end of the squeegee and the construction surface is formed differently, and each of the running wheels is provided with a plurality of driving It is characterized in that the parts are provided respectively.

The composite waterproof construction method according to the present invention made as described above is a conventional waterproof construction method by stably discharging the water vapor pressure generated between the construction surface and the waterproof layer to the outside while evenly distributing it over the entire area through the water vapor dispersion tape. This branch has the effect of solving the swelling phenomenon, which is a chronic problem of exposed waterproofing materials.

In other words, by forming an exhaust passage between the construction surface and the waterproof layer to exhaust the air pressure (gas) to the outside, the air pressure (water vapor, etc.) generated between the construction surface and the waterproof layer is discharged, thereby improving the reliability and stability of the waterproof quality. has the effect of maximizing

In addition, it has the effect of solving the step problem and the watertight stability of the joint that occur during the processing of the joint of the asphalt sheet while forming a continuous waterproof layer by applying only the coating material alone at the construction site through the coating film homogenization device.

In addition, it has the effect of forming a waterproof layer of a desired thickness homogeneously by selectively applying the interval between the construction surface and the squeegee through various running parts constituting the film homogenization device.

1 is a schematic illustration showing a state in which a composite waterproofing construction method according to an embodiment according to the present invention is applied.
2 to 5 are schematic diagrams sequentially showing the composite waterproofing construction method according to this embodiment.
6 and 7 are schematic diagrams showing degassing means applied to the composite waterproofing construction method according to the present embodiment.
8 to 15 are schematic illustrations showing a coating film homogenization device applied to the composite waterproofing construction method according to the present embodiment.

Hereinafter, with reference to the accompanying drawings, a detailed description of a composite waterproofing construction method according to a preferred embodiment according to the present invention is as follows.

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same members are sometimes indicated by the same reference numerals. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention are omitted.

1 to 5 are views showing a composite waterproofing construction method according to an embodiment of the present invention, and the composite waterproofing construction method according to this embodiment is a single coating material or an exposure-type composite in which a sheet material and a coating material are applied in combination. As a waterproof construction method, a type of single construction of inorganic coating material, a type of construction of coating material after construction of sheet material, and a method of finishing with an exposed sheet after construction of sheet material can be applied to enable field application.

That is, in forming the composite waterproof layer 200 on the construction surface 100, such as the uppermost rooftop of apartments, department stores, hypermarkets, schools, exhibition halls, office buildings, upper slabs of parking lots, etc., and the uppermost floors such as water purification plants and sewage treatment plant management facilities Applied.

The composite waterproof construction method according to this embodiment is to form the composite waterproof layer 200 formed by stacking a sheet material waterproof layer and a cut material waterproof layer, and asphalt composed of asphalt sheets 4 forming sheet material waterproof. The water-soluble urethane coating layer 5 and the heat-shielding integrated polyurea coating layer 6 respectively form the waterproof layer and the coating material waterproof.

That is, an asphalt layer formed of the plurality of asphalt sheets 4 configured to be stacked and closed while partitioning the construction surface 100 on a plane is formed; forming the water-soluble urethane coating layer 5 applied while being laminated on top of the asphalt sheet 4; It consists of forming the heat shield integrated polyurea coating layer 6 applied while being laminated on top of the water-soluble urethane coating layer 5.

In the above, the composite waterproof layer 200 prevents deterioration of the waterproof layer from thermal energy generated from infrared rays (heat rays) in the visible light range from the outside sun through the heat-insulating polyurea coating layer 6 and radiant heat transmitted to the inside of the concrete. temperature rise is minimized.

In the composite waterproofing construction method according to the present embodiment made as described above, between the construction surface 100 and the asphalt layer, the construction surface 100 has airtightness to partition into a plurality of divided spaces on a plane And, joint reinforcing sealant bands 7 are provided to close the 'gap' where the asphalt sheets 4 contact each other.

That is, the asphalt sheets 4 are bonded and fixed to the construction surface 100 while partitioned spaces are formed between the joint reinforcing sealant bands 7 .

At this time. As the 'gap' of the part where the asphalt sheets 4 contact is stably sealed, structural stability is realized.

Meanwhile, the structural stability of the asphalt layer may be further secured by adhesively fixing the upper portion of the 'gap' at the contact portion of the asphalt sheets 4 through the reinforcing mesh 8.

In the above, the joint reinforcing sealant bands 7 are arranged and formed in a 'net shape' crossing the construction surface 100 at right angles to each other on a plane, and stacked on top while securing airtightness with respect to the outside and the construction surface 100. The airtightness of the space between the bonding surfaces of the plurality of asphalt sheets 4 is secured.

In the composite waterproofing construction method according to the present embodiment made as described above, between the joint reinforcing sealant bands 7 and the construction surface 100, water vapor is circulated and divided by the joint reinforcing sealant band 7 A vapor distributing tape (1) is provided to discharge air pressure to the outside while dispersing vapor in each of the partitioned spaces, thereby forming a degassing passage on the construction surface (100).

That is, through the degassing passage formed between the construction surface 100 and the composite waterproof layer 200, the water vapor generated from the construction surface (concrete structure) 100 is passed through the water vapor dispersion tape 1 By distributing it evenly over the entire area and stably discharging it to the outside, waterproofing defects such as swelling do not occur.

Accordingly, the reliability and stability of the waterproof quality can be secured even when used for a long period of time.

On the other hand, in the composite waterproof construction method according to this embodiment, the water vapor dispersion tape 1 includes the degassing band 11 having a length and using 'non-woven fabric' as a material; It may include a fixing band 12 which is stacked and coupled to the lower portion of the degassing band 11 and is laminated and fixed to the construction surface 100 and made of 'PE' having a length.

That is, the water vapor dispersion tape 1 is made of a 'double band structure' in which the degassing band 11 is laminated on top of the fixing band 12, thereby realizing convenience in construction work.

In the fixing band 12, a plurality of ventilation holes 13 formed through and guiding the vapor pressure generated on the construction surface 100 to the degassing band 11 may be formed with a gap therebetween. there is.

That is, the fixing band 12 blocks the waterproofing between the construction surface 100 and the degassing band 11 so that the water vapor pressure passing through the degassing band 11 reversely penetrates into the construction surface 100. In addition, the water vapor pressure generated on the construction surface 100 is stably guided to the degassing band 11 through the ventilation holes 13, so that the waterproof structure and the air pressure discharge structure are stable. can be implemented.

In the composite waterproof construction method according to this embodiment made as described above, the liquid coating materials applied to form the water-soluble urethane coating layer 5 and the heat-insulation integrated polyurea coating layer 6, respectively, follow the linear movement. It is designed to be formed with a uniform thickness while having an even thickness by the coating film homogenization device 2 equipped with a moving squeegee 21.

That is, it is possible to form a continuous waterproof layer by applying only a single coating material to the construction surface 100 at the construction site through the coating film homogenization device 2.

In addition, it is possible to solve the step problem and watertightness stability of the joint that occur during processing of the sheet material joint.

In the above, the coating film homogenization device 2 has a fixing table 22 having a length and having a length at the bottom to which the squeegee 21 is attached and detachable, provided at both ends of the fixing table 22 and at the outer end, the construction surface 100 ) It may include a fixing bracket 24 in which the driving wheel 23 for rolling motion is rotatably fixed, and a handle bar 25 rotatably coupled to the fixing table 22.

That is, when the user holds and pushes the handle bar 3 connected and bound to the handle bar 25 in a state where the liquid 'coating material' is applied to the construction surface 100, the driving wheel 23 moves. The squeegee 21 fixed to the fixing table 22 performs a flattening operation so that the coating material has a uniform thickness while rolling while contacting the construction surface 100 .

As shown in FIGS. 12 to 14, in the fixing bracket 24, the lower end of the squash 21 and the The distances L1, L2, and L3 of the construction surface 100 may be formed differently, and a plurality of driving parts 26 each of which the driving wheels 23 are respectively provided may be provided.

That is, the various driving parts 26 fixed to the fixing bracket 24 by making the distances L1, L2, and L3 between the lower end of the squeegee 21 and the construction surface 100 different from each other. The waterproof layer 200 having a desired thickness is formed homogeneously by selectively applying a gap between the construction surface 100 and the squash 21 through the holes.

Accordingly, the construction quality of the waterproof layer is maximized at the work site.

On the other hand, the driving part 26 is disposed on 'three sides' radially arranged around the fixing bracket 24, and is disposed to be idling while having a gap between them on the driving part 26 The two driving wheels 23 may form the driving part 26 while forming a set.

That is, 'three' running parts 26 may be formed on the fixing bracket 24, respectively, and the user may selectively apply them to form the composite waterproof layer 200 having each selected thickness.

At this time, the fixing bracket 24 may be made of a 'plate body' in a 'polygon' shape having at least 'three sides', and the driving wheel 23 is fixed between each driving part 26. It can be made of a 'plate body' in a 'hexagonal' shape with fixed sides, respectively, and is preferably applied according to the user's selection.

In the above, the driving wheel 23 is made of an 'inclined surface' having an inclination angle on its outer circumferential surface so that the contact area with the construction surface 100 is minimized, so that the rolling motion width of the driving wheel 23 is the composite waterproof layer. (200) may be prevented from deteriorating the waterproof quality.

Binding grooves 27 in which both ends of the fixing bracket 22 are fitted and fixed may be formed on a side end face of the fixing bracket 24 connected to the fixing base 22; The coupling grooves 27 are formed on a connecting line connecting the centers of the driving parts 26 and the center of the fixing bracket 24 at right angles, so that the squeegee 21 is attached to the driving part 26. As it is arranged in a right angle direction from the center, it is possible to perform a work that can be applied homogeneously while pushing the waterproof coating film applied to the construction surface 100 at a right angle.

In the above, at both ends of the fixing table 22, a binding threaded rod 28 is formed which is screwed and coupled while penetrating the fixing bracket 24 so that it can be screwed to the fixing bracket 924, according to the user's choice. It is preferable to apply

In the above, the holder 22 and the handlebar 25 are bound in a 'coxa' structure, so that even if the handlebar 25 is freely bent, the vertical and horizontal positions of the holder 22 are maintained. It is not variable, so that the stability of the work can be secured during the homogenization work of the waterproof layer 200.

That is, even if the force applied by the operator during work is biased, the posture of the fixing table 22 is not changed, so the work is performed stably and the work quality is maximized.

As described above, in the composite waterproof construction method according to the present embodiment, the degassing passage is formed between the construction surface 100 and the composite waterproof layer 200 so that air pressure is exhausted from the construction surface 100. It is a feature of the technical configuration that the generated air pressure (steam) is stably exhausted.

One embodiment of the present invention described above is only exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. . Therefore, it will be well understood that the present invention is not limited to the forms mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and alternatives within the spirit and scope of the present invention as defined by the appended claims.

1: water vapor dispersion tape 11: degassing band
12: fixed band 13: ventilation hole
2: film homogenization device 21: squeegee
22: fixing stand 23: driving wheel
24: fixed bracket 25: handrail
26: driving part 27: binding groove
28: binding screw rod 3: handle rod
4: asphalt sheet 5: water-soluble urethane coating layer
6: Thermal insulation integrated polyurea coating layer 7: Joint reinforcing sealant band
8: reinforcement mesh
100: construction surface 200: composite waterproof layer

Claims (4)

In the composite waterproof construction method to construct the composite waterproof layer 200 on the top of the construction surface 100; Forming an asphalt layer formed of a plurality of asphalt sheets 4 that are laminated and closed while dividing the construction surface 100 on a plane; Forming a water-soluble urethane coating layer 5 applied while being laminated on top of the asphalt sheet 4; forming a heat-shielding integrated polyurea coating layer 6 applied while being laminated on top of the water-soluble urethane coating layer 5; Between the construction surface 100 and the asphalt layer, the construction surface 100 is made to have airtightness to be partitioned into a plurality of divided spaces on a plane, and the ' Joint reinforcing sealant bands 7 are provided to close the gap'; Between the joint reinforcing sealant bands 7 and the construction surface 100, water vapor is circulated and air pressure is applied to the outside while distributing the water vapor to the respective spaces divided by the joint reinforcing sealant bands 7. A water vapor dispersion tape (1) is provided to discharge,
The liquid coating materials respectively applied to form the water-soluble urethane coating layer 5 and the heat-shielding integrated polyurea coating layer 6,
It is formed with a uniform thickness while having a uniform thickness by the coating film homogenization device 2 equipped with a squeegee 21 that moves according to the linear movement;
The film homogenization device 2,
A fixing table 22 having a length and having a length at the bottom to which the squeegee 21 is attached and detachable, and a driving wheel provided at both ends of the fixing table 22 and configured to roll with respect to the construction surface 100 at the outer end ( 23) comprises a fixing bracket 24 fixed to be axially rotatable;
In the fixing bracket 24,
The distance between the construction surface 100 is formed differently around the center, so that the distance between the lower end of the squash 21 and the construction surface is formed differently, and each of the running wheels 23 is respectively A composite waterproof construction method characterized in that a plurality of running parts 26 are provided, respectively. According to claim 1,
The joint reinforcing sealant band 7,
The space between the plurality of asphalt sheets 4 stacked on top while securing airtightness with respect to the outside and the construction surface 100 by being arranged in a 'net shape' crossing the construction surface 100 at right angles to each other on a plane. Composite waterproof construction method characterized in that to ensure the confidentiality of. According to claim 1,
The water vapor dispersion tape (1),
a degassing band 11 having a length and made of 'non-woven fabric';
A composite waterproofing construction method characterized in that it comprises a; fixed band 12 made of a 'PE tube' having a length that is laminated and coupled to the lower part of the degassing band 11 and laminated and fixed to the construction surface 100 . delete

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