KR102259681B1 - Self-contained dry waterproofing system using improved composite sheet - Google Patents

Abstract

The present invention relates to a self-attached dry waterproof system using an improved composite sheet, capable of preventing a chemical deformation of a composite sheet as well as significantly reducing construction periods by avoiding the use of organic solvent through a structural improvement causing the composite sheet to be attached by a self-attached adhesive layer. In particular, a lower overlapped part is boned and fixed to a primer layer in a state in which an end of a composite sheet is finished, and then, a self-attached adhesive layer formed on one exposed side (22) of an adjacent composite sheet is bonded and fixed to an upper side of the lower overlapped part and the primer layer, and, as a result, an improvement in the durability of a composite sheet bonding part can be promoted in response to expansion behavior caused by a temperature change. In order to achieve the purpose, the present invention mainly includes a primer layer (10), a composite sheet (20), an upper reinforcement sheet (30), a lower reinforcement sheet (40), a self-attached adhesive layer (50), a connection sheet (60), a urethane layer (70), and a top coating layer (80).

Description

Self-contained dry waterproofing system using improved composite sheet}

The present invention relates to a self-adhesive dry waterproofing system using an improved composite sheet, and more particularly, the structure is improved so that the composite sheet is attached by a self-adhesive adhesive layer, thereby preventing chemical deformation of the composite sheet by not using an organic solvent and reducing the construction period. In particular, the lower overlap portion is adhesively fixed to the primer layer in a state where the end of the composite sheet is closed, and then a self-adhesive adhesive layer formed on the exposed surface 22 of one side of the adjacent composite sheet is the upper surface of the lower overlap portion and the primer layer It relates to a self-adhesive dry waterproofing system using an improved composite sheet to improve the durability of the composite sheet joint in response to the expansion and contraction behavior according to the temperature change because the adhesive is fixed to the surface and forms an overlapping adhesive part.

In general, waterproofing occupies a larger proportion in the construction field than in the civil engineering field, and in particular, most of the waterproofing work in the construction field places weight on the exposed part of the roof. Such waterproofing is an important process that directly affects the durability and durability of the building in the field of construction and civil engineering, but in reality, the awareness of its role tends to be very low in the field due to the cost aspect.

For example, the exposed waterproofing method that includes roof waterproofing and the non-exposed waterproofing method used for roof greening have to take into account that the waterproofing layer is directly exposed to the external environment and leaks occur due to different behaviors depending on the temperature difference, so the construction method becomes increasingly complicated. As time goes on, the cost of construction and construction is greatly increased.

Accordingly, in Patent Laid-Open Publication No. 10-2010-0066335 disclosed in the prior art, a waterproof sheet for waterproofing the surface by adhesion to a base surface, comprising: a conventional waterproofing layer having a predetermined area and preventing the penetration of water; A technology including an adhesive layer provided on the lower surface of the waterproof layer, in which a heating element configured to generate heat by high frequency is mixed and distributed as a whole, and gels when the heating element is heated, thereby enhancing adhesive strength has been previously proposed.

However, in the prior art, due to the structural characteristics of bonding a waterproof sheet composed of a heating element or a heating layer composed of a high-frequency heating element inside the adhesive layer to the base surface, when overlapping the existing waterproof layer, it is easily separated along with the existing waterproof layer. It has to be applied after demolition, which delays the construction period, and in particular, in the event of a leak due to partial adhesion of the waterproofing sheet connection part after construction, partial repair is impossible, and the re-construction work for a wide area was followed.

Accordingly, the present invention has been conceived to solve the above problems,

The structure is improved so that the composite sheet is attached by a self-adhesive adhesive layer, and the construction period is greatly shortened with the prevention of chemical deformation of the composite sheet due to the non-use of organic solvent. In particular, the lower overlapping part is attached to the primer layer with the end of the composite sheet closed. After being fixed, the self-adhesive adhesive layer formed on the exposed surface 22 of one side of the neighboring composite sheet is adhesively fixed to the upper surface of the lower overlapping part and the primer layer to form an overlapping adhesive part, so the composite sheet bonding part in response to the expansion and contraction behavior according to the temperature change An object of the present invention is to provide a self-adhesive dry waterproofing system using an improved composite sheet for improving durability.

In order to achieve this object, a feature of the present invention is that the primer layer 10 is applied to the concrete base surface (1) to form an adhesive line; a composite sheet 20 having both ends joined to the primer layer 10 and formed of at least one rubber-based resin selected from among butyl rubber, polybutene, ethylene-propylene-diene copolymer, and ethylene acrylic; An upper reinforcing sheet that is finished installed on the upper surface of the composite sheet 20, and that one end is extended and protruded compared to the composite sheet 20 to form a lower overlapping portion 32 overlapping the bottom surface of the adjacent composite sheet 20 ( 30); A lower reinforcing sheet that is finished installed on the bottom surface of the composite sheet 20, both ends are formed in a reduced size compared to the composite sheet 20, and provided to form exposed surfaces 22 on both ends of the bottom surface of the composite sheet 20 ( 40); a self-adhesive adhesive layer 50 formed on the exposed surface 22; a connection sheet 60 attached to the upper reinforcing sheet 30 and provided to close the adjacent composite sheet 20 junction at the top; a urethane layer 70 provided to coat the upper surface of the upper reinforcing sheet 30 and the connecting sheet 60; and a top coating layer 80 coated on the upper surface of the urethane layer 70 and formed of a photocatalytic active layer or mortar layer containing titanium dioxide, and is formed on one side exposed surface 22 of the composite sheet 20 The self-adhesive adhesive layer 50 is adhesively fixed to the primer layer 10 in a state in which the lower overlapping part 32 finishes the end of the composite sheet 20 in a state of being adhesively fixed to the primer layer 10, and then the neighboring The self-adhesive adhesive layer 50 formed on one exposed surface 22 of the composite sheet 20 is adhesively fixed to the upper surface of the lower overlapping portion 32 and the primer layer 10 to form an overlapping adhesive portion 90 characterized.

At this time, the upper reinforcing sheet 30 is bonded to the upper surface of the composite sheet 20, a mesh fiber sheet layer 30a formed of recycled polyester yarn and having voids therein, and a mesh fiber sheet layer 30a on the upper surface A urethane sponge bond nonwoven fabric layer (30b) which is attached and formed by spinning polyurethane elastic fibers and is coated on the upper surface of the urethane sponge bond nonwoven fabric layer (30b), hydroxy urethane prepolymer, diphenylmethane diisocyanate, polypropylene glycol, It characterized in that it comprises a thermosetting solvent-free polyurethane coating layer (30c) formed in a two-component type including any one or more catalysts and additives of organic polyisocyanate, dibutyltin dilaurate, and dibutyltin dioctoate.

In addition, the lower overlapping portion 32 is formed with a width of 30-50 mm, and both sides between the adjacent composite sheets 20 are closed by adjacent self-adhesive adhesive layers 50 in the longitudinal direction of the composite sheet 20 to form a moisture flow path 33 with the evaporator, and install a deaeration base 34 at a position corresponding to the lower overlapping part 32 to exhaust the moisture moving through the moisture flow path 33 do.

In addition, the lower overlapping portion 32 has an end bent by 180° toward the composite sheet 20 to form an upper overlapping portion 32', and the upper and lower overlapping portions 32 and 32' are in a non-adhesive state. Overlapping, the self-adhesive adhesive layer 50 of the composite sheet 20 adjacent to the upper overlapping portion 32' is attached to the upper overlapping portion on the lower overlapping portion 32 in response to the stretching behavior of the composite sheet 20 The part 32' is characterized in that it is provided to absorb the stretching stress by moving.

In addition, after closing the joint of the composite sheet 20 with the connecting sheet 60, the joint airtightness test is performed using the pressure tester 100, and the pressure tester 100 is airtight packing on the bottom surface while the lower part is opened. A vacuum pump 140 in which 122 is installed and connected to a vacuum chamber 120 having a transparent window 124 formed thereon, and a vacuum exhaust port 142 formed at one side of the vacuum chamber 120 to generate a vacuum pressure ), and a pressure regulator 150 for adjusting the vacuum pressure of the vacuum pump 140, and a pressure gauge 160 for measuring the internal pressure of the vacuum chamber 140,

After the vacuum pump 140 is turned on in a state in which the vacuum chamber 120 is positioned in the region including the connection sheet 60, when a vacuum pressure is detected by the pressure gauge 160, between the joint parts of the composite sheet 20 It is determined that the airtightness is maintained, and when there is no change in the pressure gauge 160 or does not reach the set pressure, it is characterized in that it is provided to determine the airtight leakage between the joint parts of the composite sheet 20 .

In addition, a leak position detection unit 200 for detecting an airtight leak position while performing a joint airtight inspection using the pressure tester 100 is provided, and the leak position detecting unit 200 is one end in the vacuum chamber 120 . This is connected, and the other end is connected to a nozzle 210 extending toward the bottom of the inner region of the vacuum chamber 120 , a pump 220 connected to the nozzle 210 , and a pump 220 , and a test solution inside The storage solution tank 230 is included, and the vacuum pump 140 is operated while the vacuum chamber 120 is positioned at the inspection point to create a vacuum inside the vacuum chamber 120 to create a vacuum pump 140 . ) is adsorbed and fixed, and then, when the test solution is injected into the vacuum chamber 120 through the nozzle 210 of the leak position detecting unit 200, the gas generated at the airtight leakage point is in the form of bubbles (B) by the test solution. It is identified as and characterized in that it is provided so as to detect the location of the leak.

In addition, after the leak location detection process using the leak location detection unit 200 is completed, the test solution contained in the vacuum chamber 120 is sucked and recovered using the pump 220, stored in the solution tank 230, and reused. characterized in that it is provided.

In addition, the airtight packing 122 is formed of inner and outer packings 122a and 122b formed on the inner and outer peripheral surfaces of the vacuum chamber 120, and is connected to the space between the inner and outer packings 122a and 122b. The adsorption exhaust port 123 for sucking air is formed, and the suction exhaust port 123 and the vacuum exhaust port 142 are connected to the vacuum pump 140 through the three-way valve 180, and the vacuum pump 140 is It is provided to selectively communicate with any one of the vacuum exhaust port 142 and the adsorption exhaust port 123 by the operation of the three-way valve 180,

With the vacuum chamber 120 positioned at the inspection point, the vacuum pump 140 and the suction exhaust port 123 are communicated using the three-way valve 180 to exhaust the air between the inner and outer packings 122a and 122b. When a predetermined pressure value is reached while the airtight packing 122 is adsorbed and fixed to the floor in this way, the vacuum chamber 120 is turned off by measuring the pressure change between the inner and outer packings 122a and 122b. When the pressure fluctuation width is maintained within a set range, it is determined that the airtightness is maintained at the adsorption site by the airtight packing 122, and the three-way valve 180 is controlled to connect the vacuum pump 140 and the vacuum exhaust port 142. It is characterized in that it is provided to exhaust the air inside the vacuum chamber 120 in a state of being provided to perform a joint airtight inspection.

According to the above configuration and action, the present invention is improved in structure so that the composite sheet is attached by the self-adhesive adhesive layer, and the construction period is greatly shortened with the prevention of chemical deformation of the composite sheet due to the non-use of an organic solvent, in particular, the lower overlapping portion of the composite sheet The end is adhesively fixed to the primer layer in a finished state, and then the self-adhesive adhesive layer formed on one exposed surface 22 of the adjacent composite sheet is adhesively fixed to the upper surface of the lower overlapping portion and the primer layer to form an overlapping adhesive portion, so the temperature change There is an effect of improving the durability of the composite sheet joint in response to the stretching behavior according to the

1 is a configuration diagram showing an overall self-adhesive dry waterproof system using an improved composite sheet according to an embodiment of the present invention.
Figure 2 is a block diagram showing the formation step of the self-adhesive dry waterproof system using the improved composite sheet according to an embodiment of the present invention.
Figure 3 is a block diagram showing a stripping base of the self-adhesive dry waterproof system using the improved composite sheet according to an embodiment of the present invention.
Figure 4 is a configuration diagram showing the upper and lower overlapping parts of the self-adhesive dry waterproof system using the improved composite sheet according to an embodiment of the present invention.
5 is a configuration diagram showing a pressure tester of a self-adhesive dry waterproof system using an improved composite sheet according to an embodiment of the present invention.
6 is a block diagram showing a leak position detection unit of a self-adhesive dry waterproof system using an improved composite sheet according to an embodiment of the present invention.
7 is a configuration diagram showing a state in which a three-way valve of a self-adhesive dry waterproof system using an improved composite sheet according to an embodiment of the present invention is applied.

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

1 is a configuration diagram showing the overall self-adhesive dry waterproof system using the improved composite sheet according to an embodiment of the present invention, and FIG. 2 is a self-adhesive dry waterproof system using the improved composite sheet according to an embodiment of the present invention. It is a block diagram showing the formation step, and FIG. 3 is a block diagram showing a stripping base of a self-adhesive dry waterproofing system using an improved composite sheet according to an embodiment of the present invention, and FIG. 4 is an improvement according to an embodiment of the present invention. It is a configuration diagram showing the upper and lower overlapping parts of the self-adhesive dry waterproofing system using the composite sheet, and FIG. 5 is a configuration diagram showing the pressure tester of the self-adhesive dry waterproofing system using the improved composite sheet according to an embodiment of the present invention, 6 is a block diagram showing a leak position detection unit of a self-adhesive dry waterproof system using an improved composite sheet according to an embodiment of the present invention, and FIG. 7 is a self-adhesive dry type using an improved composite sheet according to an embodiment of the present invention. It is a configuration diagram showing the state in which the three-way valve of the waterproof system is applied.

The present invention relates to a self-adhesive dry waterproofing system using an improved composite sheet, which is structurally improved so that the composite sheet is attached by a self-adhesive adhesive layer, thereby preventing chemical deformation of the composite sheet by not using an organic solvent and greatly shortening the construction period. , In particular, the lower overlap portion is adhesively fixed to the primer layer in a state where the end of the composite sheet is closed, and then a self-adhesive adhesive layer formed on one exposed surface 22 of the adjacent composite sheet is adhesively fixed to the upper surface of the lower overlap portion and the primer layer A primer layer (10), a composite sheet (20), an upper reinforcement sheet (30), a lower reinforcement sheet (40) so that the durability of the composite sheet joint can be improved in response to the expansion and contraction behavior according to the temperature change because the overlapping adhesive part is formed. , a self-adhesive adhesive layer 50 , a connection sheet 60 , a urethane layer 70 , and a top coating layer 80 as a main component.

The primer layer 10 according to the present invention is applied to the concrete base surface 1 to form an adhesive line. The primer layer 10 is applied in the form of a strip after the base surface 1 is treated, so that the bottom surface of the joint area of the composite sheet 20 to be described later is adhesively fixed.

In addition, the composite sheet 20 according to the present invention has both ends bonded to the primer layer 10, and is formed of any one or more rubber-based resins selected from butyl rubber, polybutene, ethylene-propylene-diene copolymer, and ethylene acrylic. do.

The composite sheet 20 is formed of a mixture of any one or more of a vulcanization accelerator, a filler, a synthetic resin, and a rubber primer to a rubber-based resin in a form in which an upper and lower self-adhesive rubber adhesive is applied to an unvulcanized rubber sheet, wherein the rubber-based resin is butyl rubber, It is formed of one or more mixtures of polybutene, ethylene-propylene-diene copolymer, and ethylene acrylic, and as the filler, a mixture of talc and calcium carbonate can be used. An affinity plasticizer is used.

In addition, the upper reinforcing sheet 30 according to the present invention is finished and installed on the upper surface of the composite sheet 20 , and one end of the composite sheet 20 extends and protrudes compared to the composite sheet 20 and overlaps the lower surface of the neighboring composite sheet 20 to overlap the bottom surface. provided to form a portion 32 .

The upper reinforcing sheet 30 is bonded to the upper surface of the composite sheet 20, a mesh fiber sheet layer 30a formed of recycled polyester yarn and having voids therein, and the mesh fiber sheet layer 30a are attached to the upper surface and , A urethane sponge bond nonwoven fabric layer 30b formed by spinning polyurethane elastic fibers, and a urethane sponge bond nonwoven fabric layer 30b coated on the upper surface, hydroxy urethane prepolymer, diphenylmethane diisocyanate, polypropylene glycol, organic poly It includes a thermosetting solvent-free polyurethane coating layer 30c formed in a two-component type including any one or more catalysts and additives of isocyanate, dibutyltin dilaurate, and dibutyltin dioctoate.

Here, the mesh fiber sheet layer 30a is a PE-mesh fabric using recycled fabric including PET bottles, waste fishing nets, etc., and is recycled by polymerizing, spinning, and reproducing the waste treated by crushing and heat-treating the waste to form a raw material. It is a recycled fiber sheet.

The existing grid-type mesh network has the ability to respond to the deformation occurring in the right angle direction, but has a disadvantage of being deformed if easily distorted in the radial irregular shape. In addition, the existing grid-type glass fiber mesh, which is mainly used as a waterproofing material, has a thickness of about 5 to 10 mm, and the shape of the grid is large, so it was used for reinforcing the joint rather than the reinforcing material of the sheet. PE-mesh fiber sheet is differentiated from the existing grid-type mesh form, and the warp yarns crossed twice in the longitudinal direction pass, and the double warp yarns in the V-shape form a double Z-shape with the warp yarns as the center. Such a mesh shape responds to radial deformation as well as longitudinal and longitudinal directions and prevents deformation of the sheet.

In addition, the lattice form of glass fiber applied to the existing waterproofing material uses an interval of 5~10mm, so the density is lowered, but the PE-mesh fiber of this company maintains the price of around 0.5~1.5mm, The PE mesh fibers and pores are impregnated with a butyl rubber core layer to have integrity.

And, the PE fabric has excellent heat resistance, so it responds to the application and curing temperature of the two-component thermosetting polyurethane adhesive coating on the upper part of the sheet, and maintains the sheet form firmly by preventing heat shrinkage and deformation.

In addition, the urethane spunbond nonwoven fabric layer 30b is a nonwoven fabric made by spun urethane spunbond polyurethane elastic fibers in the form of filaments, which are sleep fibers, and then randomly laminated and adhered. The continuous filaments of polyurethane elastic fibers have high elasticity compared to conventional nonwoven fabrics.

The surface of the urethane sponge bond nonwoven fabric layer (30b) has excellent adhesive performance with the same material properties as the thermosetting polyurethane adhesive coating and liquid urethane resin coated on the sheet, and prevents chemical reactions for long-term maintenance. Suitable.

In addition, the thermosetting solvent-free polyurethane coating layer 30c is formed of a two-component thermosetting solvent-free polyurethane adhesive coating material. For example, hydroxy urethane prepolymer, diphenylmethane diisocyanate, polypropylene glycol, organic polyisocyanate and a two-component thermosetting type solvent-free polyurethane coating material including catalysts and additives such as dibutyltin dilaurate and dibutyltin dioctoate.

The thermosetting solvent-free polyurethane coating layer 30c formed of such a thermosetting coating material is mixed in a chamber, and when applied on the upper part of the fabric, the pot life is within 10 to 20 seconds, so that it can be molded in a roll form from the outlet of the molding equipment. The curing temperature is easy at 60°C to 100°C, and the preferred temperature is 70°C to 80°C for thermal curing, and after thermal curing, curing is completed at room temperature for 4-5 days to complete the reaction.

The thermosetting solvent-free polyurethane coating layer 30c has a low thermal shrinkage rate to minimize deformation due to thermal curing during thermal curing, thereby preventing shrinkage and wrinkling of the fabric. In addition, by maintaining a low hardness, it has the advantage that the sheet can be seated on the base surface by minimizing the rolling wrinkles when the sheet is installed after manufacturing the sheet in the form of a roll.

And the thermosetting solvent-free polyurethane coating layer 30c has a low absorption rate of 3% or less due to evaporation of moisture during curing by heat and coating of the polyurethane surface. Therefore, it is possible to prevent moisture absorption on the surface of the sheet during production and storage, thereby maintaining a dry state.

In addition, the two-component solvent-free urethane coating material forming the thermosetting solvent-free polyurethane coating layer 30c is an eco-friendly polyurethane coating material with reduced volatile organic substances (VOCs), which can be used as an interior material by reducing volatile organic compounds as much as possible. It is an eco-friendly adhesive coating material and has excellent adhesive performance with the polyurethane coating material and butyl rubber sheet on the upper part of the sheet, so it has integrity with the polyurethane coating material and forms a stable adhesive part with the butyl rubber sheet extending from the sheet.

Here, for the mixing ratio of the two-component urethane coating material constituting the thermosetting solvent-free polyurethane coating layer 30c formed in the two-component type, refer to [Table 1] below, and in this case, the numerical value indicated in Contents in [Table 1] is the weight means wealth.

If the polyurethane paint is a two-component type, there are a catalyst curing type and a polyol curing type. Generally, a compound having several hydroxyl groups (-OH) is called a polyol. It is added to polyether, polyester, castor oil, etc. ), etc. in a slightly excess state than before, curing and drying proceeds by receiving the Hydroxy Group (-OH) component from the moisture in the air and reacting. In general, hardening takes about 3 to 5 hours at room temperature, but if there is a lot of moisture, it cures faster and if it is low, hardening proceeds slowly. Because of this reaction, it is important to block moisture during storage in order to increase the storage stability of the polyurethane. It is manufactured through a special process of a differentiated raw material moisture management manufacturing method, and the coupling crosslinking agent in the formulation is introduced to combine organic and inorganic raw materials to improve the material so that the storage performance in the container is stably maintained.

By using low-volatility MDI (Methylene diphenyldiisocyanate)-based isocyanate in catalysts and monomers, the use of phosphoric acid (H ₃ PO ₄ ), a hazardous substance used as a reaction catalyst, is excluded, and an eco-friendly material, Alkylsulphonic Phenyl Ester, is used instead of DOP plasticizer, which is an environmentally regulated material. applied. For the environmental safety of workers, a coloring pigment without heavy metals was applied. In the manufacturing process, dioctyl phthalate and dimethyl carbonate, an eco-friendly material, were used instead of xylene and toluene, which are volatile organic compounds, in the solvent part. was used. In addition, by applying regenerated silicate fine powder, the storage stability was taken into consideration by utilizing the moisture absorption function of silicate along with the enhancement of the environment.

[Table 2] below compares the principle of improving the eco-friendliness of the one-component urethane coating material of the existing technology and the new technology.

In addition, the lower reinforcing sheet 40 according to the present invention is finished installed on the bottom surface of the composite sheet 20 . And the lower reinforcing sheet 40 is formed of a film layer or a PE coating layer, prevents moisture absorption of the base surface 1, maintains an insulating state, and controls expansion and contraction of butyl rubber.

The lower reinforcing sheet 40 has both ends formed in a reduced size compared to the composite sheet 20, and is provided to form exposed surfaces 22 on both ends of the bottom surface of the composite sheet 20, and the exposed surfaces 22 A self-adhesive adhesive layer 50 is formed.

In addition, the connection sheet 60 according to the present invention is attached to the upper reinforcing sheet 30, and is provided so as to close the joint of the adjacent composite sheet 20 from the top.

The connection sheet 60 is formed of the same material as the composite sheet 20, and is attached and fixed by a self-adhesive adhesive layer formed on the bottom surface.

In addition, the urethane layer 70 according to the present invention is provided to coat the upper surface of the upper reinforcement sheet 30 and the connection sheet 60 .

And a top coating layer 80 coated on the upper surface of the urethane layer 70 and formed of a photocatalytic active layer or mortar layer containing titanium dioxide is provided.

Here, the top coating layer 80 is directly exposed to the external environment while protecting the surface of the upper reinforcing sheet 30, volatile organic compounds (VOCs) and odor purification, difficult to decompose due to photocatalytic activity by titanium dioxide having anatase crystal structure It removes pollutants and environmental hormones, and also removes fine dust due to the decomposition of nitrogen compounds and oxygenates carbon dioxide.

And as shown in FIG. 2, the self-adhesive adhesive layer 50 formed on one side exposed surface 22 of the composite sheet 20 is adhesively fixed to the primer layer 10, and the lower overlapping part 32 is the composite sheet 20 ) The self-adhesive adhesive layer 50 formed on one side exposed surface 22 of the adjacent composite sheet 20 after being adhesively fixed to the primer layer 10 in a finished state is the lower overlapping portion 32, the upper surface and As it is adhesively fixed to the primer layer 10 and provided to form the overlapping adhesive part 90 , there is an effect of improving the durability of the composite sheet joint in response to the expansion and contraction behavior according to the temperature change.

In FIG. 3, the lower overlapping portion 32 is formed with a width of 30-50 mm, and both sides between the adjacent composite sheets 20 are closed by adjacent self-adhesive adhesive layers 50 between the composite sheets 20. A moisture flow path 33 is formed in the longitudinal direction.

And as it is provided to exhaust the moisture moving along the moisture flow path 33 by installing a deaeration base 34 at a position corresponding to the lower overlapping part 32, the base surface 1 is waterproofed and then water is continuously discharged. Even if dew condensation occurs inside the joint of the composite sheet 20 due to management, it dries quickly and the waterproof function is closely maintained for a long time.

In FIG. 4 , the lower overlapping portion 32 has an end bent by 180° toward the composite sheet 20 to form an upper overlapping portion 32 ′.

And, the upper and lower overlapping portions 32 and 32' are overlapped in a non-adhesive state, and the self-adhesive adhesive layer 50 of the composite sheet 20 adjacent to the upper overlapping portion 32' is attached, The upper overlapping portion 32 ′ moves on the lower overlapping portion 32 in response to the stretching behavior of the composite sheet 20 to absorb the stretching stress.

In FIG. 5 , after closing the joint part of the composite sheet 20 with the connection sheet 60 , the joint part air tightness test is performed using the pressure tester 100 .

The pressure tester 100, the vacuum chamber 120 in which the airtight packing 122 is installed on the bottom surface while the lower part is opened, and the transparent window 124 is formed in the upper part, and the vacuum chamber 120 formed on one side A vacuum pump 140 that is connected to the exhaust port 142 to generate a vacuum pressure, a pressure regulator 150 that adjusts the vacuum pressure of the vacuum pump 140, and a pressure gauge that measures the internal pressure of the vacuum chamber 140 ( 160).

Looking at the operating state of the pressure tester 100 , after the vacuum pump 140 is turned on in a state where the vacuum chamber 120 is positioned in the region including the connection sheet 60 , the pressure gauge 160 is When the vacuum pressure is detected, it is determined that the airtightness is maintained between the joint parts of the composite sheet 20, and if there is no change in the pressure gauge 160 or does not reach the set pressure, it is determined as an airtight leakage between the joint parts of the composite sheet 20 provided

In this way, it is configured to form the urethane layer 70 after maintaining the airtight leakage area by simply performing the airtight leak test in advance using the pressure tester 100 under the condition that it is impossible to determine the airtight leak with the naked eye. Poor waterproofing due to poor adhesion of the joint of the sheet 20 is prevented.

In FIG. 6 , a leak position detection unit 200 for detecting a gastight leak position while performing a joint airtight inspection using the pressure tester 100 is provided.

The leak position detecting unit 200 has one end connected to the vacuum chamber 120, the other end extending toward the bottom of the vacuum chamber 120 inner region, and a pump connected to the nozzle 210 ( 220) and a solution tank 230 connected to the pump 220 and storing the test solution therein.

Looking at the operation state of the leak position detecting unit 200, the vacuum pump 140 is operated in a state where the vacuum chamber 120 is positioned at the inspection point to create a vacuum inside the vacuum chamber 120 to create a vacuum pump 140 ) is adsorbed and fixed, and then, when the test solution is injected into the vacuum chamber 120 through the nozzle 210 of the leak position detecting unit 200, the gas generated at the airtight leakage point is in the form of bubbles (B) by the test solution. is identified, so anyone can easily detect the location of the leak, and the airtight leak location can be quickly maintained locally to save time.

In addition, after the leak location detection process using the leak location detection unit 200 is completed, the test solution contained in the vacuum chamber 120 is sucked and recovered using the pump 220, stored in the solution tank 230, and reused. provided As such, as the test solution is provided to be reused, there is an advantage in that contamination around the test location is prevented.

7, the airtight packing 122 is formed of inner and outer packings 122a and 122b formed on the inner and outer peripheral surfaces of the vacuum chamber 120, and the space between the inner and outer packings 122a and 122b. is connected to an adsorption exhaust port 123 for sucking air is formed, and the suction exhaust port 123 and the vacuum exhaust port 142 are connected to the vacuum pump 140 through the three-way valve 180, and the vacuum pump 140 ) is provided to selectively communicate with any one of the vacuum exhaust port 142 and the adsorption exhaust port 123 by the operation of the three-way valve 180 . In this case, the three-way valve 180 may be configured to be automatically controlled by the controller.

And with the vacuum chamber 120 positioned at the inspection point, the vacuum pump 140 and the adsorption exhaust port 123 are communicated using the three-way valve 180 as shown in FIG. 7 (a), and the inner and outer packings (122a) When a predetermined pressure value is reached with the airtight packing 122 adsorbed and fixed to the floor in such a way as to exhaust the air between (122b), the vacuum chamber 120 is turned off in the inner and outer packings (122a) (122b). ), when the pressure fluctuation width is maintained within a set range by measuring the pressure change between the airtight packing 122, it is determined that the airtightness is maintained at the adsorption site, and by controlling the three-way valve 180 as shown in FIG. As the vacuum pump 140 and the vacuum exhaust port 142 are connected, the vacuum chamber 120 is exhausted to perform the joint airtight inspection, so the reliability of the airtight inspection process is secured.

10: primer layer 20: composite sheet
30: upper reinforcement sheet 40: lower reinforcement sheet
50: self-adhesive adhesive layer 60: connection sheet
70: urethane layer 80: top coating layer

Claims (8)

A primer layer (10) applied to the concrete base surface (1) to form an adhesive line;
a composite sheet 20 having both ends joined to the primer layer 10 and formed of at least one rubber-based resin selected from among butyl rubber, polybutene, ethylene-propylene-diene copolymer, and ethylene acrylic;
An upper reinforcing sheet that is finished installed on the upper surface of the composite sheet 20, and that one end is extended and protruded compared to the composite sheet 20 to form a lower overlapping part 32 overlapping the bottom surface of the adjacent composite sheet 20 ( 30);
The composite sheet 20 is finished installed on the bottom surface, both ends are formed in a reduced size compared to the composite sheet 20, and a lower reinforcement sheet ( 40);
a self-adhesive adhesive layer 50 formed on the exposed surface 22;
a connection sheet 60 attached to the upper reinforcing sheet 30 and provided to close the adjacent composite sheet 20 junction at the top;
a urethane layer 70 provided to coat the upper surface of the upper reinforcing sheet 30 and the connecting sheet 60; and
A top coating layer 80 coated on the urethane layer 70 and formed of a photocatalytic active layer or mortar layer containing titanium dioxide;
The self-adhesive adhesive layer 50 formed on one exposed surface 22 of the composite sheet 20 is adhesively fixed to the primer layer 10, and the lower overlapping part 32 closes the end of the composite sheet 20. The self-adhesive adhesive layer 50 formed on one side exposed surface 22 of the adjacent composite sheet 20 after being adhesively fixed to the primer layer 10 in a state of the lower overlapping portion 32 upper surface and the primer layer 10 Self-adhesive dry waterproofing system using an improved composite sheet, characterized in that it is fixed to the adhesive to form an overlapping adhesive portion (90).
The method of claim 1,
The upper reinforcing sheet 30 is bonded to the upper surface of the composite sheet 20, a mesh fiber sheet layer 30a formed of recycled polyester yarn and having voids therein, and the mesh fiber sheet layer 30a are attached to the upper surface and , A urethane sponge bond nonwoven fabric layer 30b formed by spinning polyurethane elastic fibers, and a urethane sponge bond nonwoven fabric layer 30b coated on the upper surface, hydroxy urethane prepolymer, diphenylmethane diisocyanate, polypropylene glycol, organic poly Improved composite sheet comprising isocyanate, dibutyltin dilaurate, and a thermosetting solvent-free polyurethane coating layer (30c) formed in a two-component type including any one or more catalysts and additives of dibutyltin dilaurate and dibutyltin dioctoate Self-adhesive dry waterproofing system using
The method of claim 1,
The lower overlapping portion 32 is formed with a width of 30-50 mm, and both sides between the adjacent composite sheets 20 are closed by the adjacent self-adhesive adhesive layers 50 in the longitudinal direction of the composite sheet 20. An improvement characterized in that it is provided to exhaust the moisture moving by forming a movement passage (33), and by installing a deaeration base (34) at a position corresponding to the lower overlapping part (32) Self-adhesive dry waterproofing system using composite sheet.
The method of claim 1,
The lower overlapping portion 32 has an end bent by 180° toward the composite sheet 20 to form an upper overlapping portion 32', and the upper and lower overlapping portions 32 and 32' are overlapped in a non-adhesive state. , the self-adhesive adhesive layer 50 of the composite sheet 20 adjacent to the upper overlapping portion 32' is attached, and the upper overlapping portion ( 32 ') self-adhesive dry waterproof system using an improved composite sheet, characterized in that it is provided to absorb the stretching stress by moving.
The method of claim 1,
After closing the joint portion of the composite sheet 20 with the connection sheet 60, the joint airtight test is performed using the pressure tester 100, and the pressure tester 100 has an airtight packing 122 on the bottom while the lower part is opened. ) is installed, a vacuum chamber 120 having a transparent window 124 formed thereon, and a vacuum pump 140 connected to a vacuum exhaust port 142 formed on one side of the vacuum chamber 120 to generate a vacuum pressure; , a pressure regulator 150 for adjusting the vacuum pressure of the vacuum pump 140, and a pressure gauge 160 for measuring the internal pressure of the vacuum chamber 140,
After the vacuum pump 140 is turned on in a state in which the vacuum chamber 120 is positioned in the region including the connection sheet 60, when a vacuum pressure is detected by the pressure gauge 160, between the joint parts of the composite sheet 20 When it is determined that airtightness is maintained, and when there is no change in the pressure gauge 160 or does not reach the set pressure, using an improved composite sheet, characterized in that it is provided to determine the airtight leakage between the composite sheet 20 joints Self-adhesive dry waterproofing system.
The method of claim 5,
A leak position detection unit 200 for detecting an airtight leak position while performing a joint airtight inspection using the pressure tester 100 is provided, and the leak position detecting unit 200 has one end connected to the vacuum chamber 120 . and the other end is connected to a nozzle 210 extending toward the bottom of the vacuum chamber 120, a pump 220 connected to the nozzle 210, and a pump 220, and the test solution is stored therein Including a solution tank 230 to be,
By operating the vacuum pump 140 with the vacuum chamber 120 positioned at the inspection point, the vacuum chamber 120 is created in a vacuum state to adsorb and fix the vacuum pump 140, and then the leak position detection unit 200 ), when the test solution is injected into the vacuum chamber 120 through the nozzle 210, the gas generated at the airtight leakage point is identified in the form of a bubble (B) by the test solution to detect the leak location. Self-adhesive dry waterproof system using an improved composite sheet, characterized in that.
The method of claim 6,
After the leak location detection process using the leak location detection unit 200 is completed, the test solution contained in the vacuum chamber 120 is sucked and recovered using the pump 220, stored in the solution tank 230, and reused. Self-adhesive dry waterproof system using an improved composite sheet, characterized in that.
The method of claim 5,
The airtight packing 122 is formed of inner and outer packings 122a and 122b formed on the inner and outer circumferential surfaces of the vacuum chamber 120, and is connected to the space between the inner and outer packings 122a and 122b. An adsorption exhaust port 123 for sucking in is formed, the suction exhaust port 123 and the vacuum exhaust port 142 are connected to the vacuum pump 140 through a three-way valve 180, and the vacuum pump 140 is a three-way valve (180) is provided to selectively communicate with any one of the vacuum exhaust port 142 and the adsorption exhaust port 123 by operation,
With the vacuum chamber 120 positioned at the inspection point, the vacuum pump 140 and the suction exhaust port 123 are communicated using the three-way valve 180 to exhaust the air between the inner and outer packings 122a and 122b. When a predetermined pressure value is reached while the airtight packing 122 is adsorbed and fixed to the floor in this way, the vacuum chamber 120 is turned off by measuring the pressure change between the inner and outer packings 122a and 122b. When the pressure fluctuation width is maintained within a set range, it is determined that the airtightness is maintained at the adsorption site by the airtight packing 122, and the three-way valve 180 is controlled to connect the vacuum pump 140 and the vacuum exhaust port 142. Self-adhesive dry waterproofing system using an improved composite sheet, characterized in that it is provided to exhaust the air inside the vacuum chamber 120 in a state to perform a joint airtight inspection.

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