KR101198110B1 - Spot Bond and Solid Composite Waterproofing Construction Method used with Thermoplasticity Plastic`s waterproof panel has Empty Prominence and Depression, and Elastic Liquid Waterproofing Materials - Google Patents

Abstract

PURPOSE: A composite waterproofing method using an irregularity forming waterproof panel with empty protrusions and an elastic waterproof coating material is provided to maintain a watertight waterproof layer for a long time. CONSTITUTION: A composite waterproofing method using an irregularity forming waterproof panel with empty protrusions and an elastic waterproof coating material is as follows. An irregularity forming waterproof panel(10) with empty protrusions(12) is arranged on a waterproof base of a concrete structure(100). Each empty protrusion is formed in a conical or semicircular shape and has a hole. An upper waterproof layer(20) is formed by filling the protrusions of the waterproof panel and spreading an elastic waterproof coating material on the waterproof panel. A composite waterproof layer(60) is formed by curing the upper waterproof layer.

Description

Spot Bond and Solid Composite Waterproofing Construction Method used with Thermoplasticity Plastic`s waterproof panel has Empty Prominence and Depression, and Elastic Liquid Waterproofing Materials}

The present invention relates to a three-dimensional composite adhesive adhesive waterproofing method using an uneven shaped waterproof panel having an empty hollow and an elastic coating waterproofing material, and having a conical or semi-circular hollow having a hollow inside and having a hole formed in the bottom of a concrete structure. The concave-convex molding waterproof panel is connected to the concave-convex molding waterproof panel, and the concave-convex molding waterproof panel has a hollow inside protrusion to fill and apply and harden an elastic coating waterproofing material of 120 N / mm to 600 N / mm to form an integrated waterproof layer. It relates to a three-dimensional composite adhesive bonding waterproofing method using a panel and an elastic coating waterproofing material.

In general, a concrete structure is formed by cracking in the process of drying or curing the concrete after pouring concrete (dry shrinkage crack in the former case, hard shrinkage crack in the latter case), or by pouring concrete separately. Concrete joints (commonly referred to as cold joints), or expansion joints that occur when subsequent installations of separated concrete structures, etc., are cracks or joints that are exposed to temperature after drying. B. The vertical or shearing behavior (called out-of-plane behavior) of the concrete structure due to the horizontal stretching behavior (in-plane behavior) or the upper load (called out-of-plane behavior) is caused by the change of load, etc. It is necessary.

In addition, most of the waterproof structure of the roof or outer wall of the underground structure buried in the ground of the concrete structure is subjected to a compressive load by the protective press or ground soil such as concrete installed for the protection of the waterproof layer and the cross-sectional deformation (cross-sectional shrinkage) and As a result, energy coagulation occurs, and when the above-described in-plane or out-of-plane behavior occurs, a defect that easily breaks the waterproof layer occurs even in a very small behavior. It is necessary to set it as the waterproof layer with a large resistance to cross-sectional deformation by.

In addition, among the concrete structures, the waterproof layer such as the roof (roof) of the ground structure exposed to the outside air is directly affected by environmental conditions such as ultraviolet rays or solar radiation, especially during the day or during the year. In this case, the above-described in-plane behavior is also increased, and the expansion pressure is also generated due to the vaporization of moisture contained in the concrete slab. Therefore, when designing or installing the waterproof layer, the resistance to in-plane or out-of-plane behavior is large. Or a breathable waterproof layer capable of alleviating the expansion pressure due to vaporization of water.

After all, in the case of the waterproof layer to be installed on the concrete structure, it will be a combination of the effects of the various behaviors as described above, when designing or installing the waterproof layer, it is necessary to make the waterproof layer, or waterproof method that can solve most of these problems, Looking at the problems of the conventional waterproof layer, or waterproof method in this respect,

First, in the case of a method of applying a waterproofing material of a coating film series, sheet series, or a coating film + sheet composite series to a waterproof base by applying an adhesive or primer on a conventional front surface (generally referred to as a front adhesive waterproofing method), shown in FIG. As can be seen, defects in which the cross section of the waterproof layer is drastically reduced due to local deformations occurring at the various cracks and joints, and the waterproof layer is easily broken even with a slight stress (called no-stress stress), are frequently generated.

In recent years, in view of the past experience as described above, for example, as shown in FIG. 2, the upper waterproof layer of the crack or the joint portion is partially insulated from the waterproof base using a tape 210 or the like, In other words, the partial insulation waterproofing method is used to prevent the occurrence of breakage defects in the waterproofing layer. Although this method partially exerts its effects at the visible cracks and joints, there is a large amount of fine cracks that are not visible to the naked eye. It is pointed out that the concrete structure which occurs as a result of little effect.

In addition, as shown in FIG. 3, the synthetic polymer-based, metal-based, or asphalt-based sheet-like or plate-shaped waterproofing base material 220 is partially disposed on the entire surface of the concrete surface waterproofing base including cracks or joints visible to the naked eye. Adhesion is performed using a fastener such as an adhesive or an anchor, and then the coating waterproofing material 230 is continuously applied thereon to complete the waterproofing layer, that is, the waterproofing layer is insulated from the waterproofing base depending on the waterproofing base material 220. Waterproof layer generated by evaporation pressure of moisture contained in concrete structure to be waterproof base, in addition to preventing occurrence of breakage defect of waterproof layer occurring at the crack or joint part by using partial adhesive insulation composite waterproofing method This swelling defect is also solved at the same time. It is much more effective than the law, but when the heterogeneous waterproofing base material 220 and the coating waterproofing material 230 are used, for example, when exposed to the outside air, the physical behavior of the change in the outside temperature is different. Ceiling slab or outer wall of the ground structure or roof structure of the ground structure where the life span of the waterproofing layer is significantly reduced due to the drop of the adhesive interface of the coating waterproofing material, wrinkles, etc., or a heavy load such as a concrete protective pressing layer. When it is used in the upper load, the thickness of the waterproofing layer is significantly reduced, the stress is accumulated inside the waterproofing layer, and the defect of the waterproofing layer is easily broken even with slight deformation of the structure, or the fine dust or sand adhered to the concrete surface. Lifespan as a waterproofing layer due to the occurrence of defects in the waterproofing layer due to acute projections such as gravel It is to be significantly reduced.

In particular, most waterproofing layers including the composite waterproofing layer are made of a rubber-based waterproofing material that is easily deformed (cross section reduced) to the upper load with a thin thickness of about 2 to 3 mm, so that such defects occur more easily. There were various problems.

Korean Laid-Open Patent Publication No. 2002-0087244 (2002.11.22) Registered Patent Publication No. 10-0878226 (2009.01.12) Registered Patent Publication No. 10-0878342 (2009.01.06) Registered Patent Publication No. 10-1059736 (2011.08.22)

It is an object of the present invention to form a composite waterproof layer integrated with an elastic coating waterproofing material having a concave-shaped or semi-circular protrusion having an empty inside, so that the thickness of the waterproof layer due to the load on the waterproof layer (cross section reduction), horizontal stretching It is to provide a three-dimensional composite adhesive adhesion waterproofing method that prevents damage of the waterproof layer due to (in-plane) behavior, vibration, and shear (out-of-plane) behavior, increases the interfacial adhesion of the composite waterproof layer, and is breathable.

The present invention is an arrangement step of disposing a concave-shaped waterproof panel having a conical or semi-circular projection having a hollow inside and a hole at the bottom thereof on the waterproof base of the concrete structure; A connection step of interconnecting the uneven molded waterproof panel in the length or width direction by using the protrusion of the uneven molded waterproof panel; An upper waterproof layer forming step of forming an upper waterproof layer by coating an elastic coating waterproofing material to have a predetermined height while filling the protrusions of the uneven-shaped waterproof panel; Curing step of curing the upper waterproof layer to form a composite waterproof layer integrated with the concave-convex molding waterproof panel; including, wherein the concave-convex waterproof panel is formed so as to protrude downward from the flat plate and the plate portion And a plurality of conical or semi-circular protrusions which are hollow inside, the protrusions 12 having a hole 14 having a diameter D of 0.1 to 3.0 mm at the lower end, and a height h of 3.0 to 20.0 mm. And inner diameter d of 5.0 to 15.0 mm.

The present invention is a hole in the bottom of the conical or semi-circular projection of the concave-convex waterproof panel is bonded to the waterproof base, the concave-convex waterproof panel made of thermoplastic material and the composite waterproof layer made of an elastic coating waterproofing material to the point, the waterproof ground Mechanical behaviors of varying types, or sizes, that occur randomly throughout the resulting concrete structure, ie expansion behavior of cracks, expansion joints, or expansion joints or gaps of PC plates It is possible to maintain the watertight waterproof layer for a long time by dynamically responding freely without transmitting vertical vibration or shear behavior caused by upper vehicle driving or people's walking which is repeated over a long period of time.

According to the present invention, the uneven-shaped waterproof panel is provided with protrusions having a predetermined height, and after forming the composite waterproof layer, the composite waterproof layer can withstand the upper loads such as pressed concrete or ground without being pressed, thereby improving waterproof durability.

According to the present invention, the uneven-shaped waterproof panel is provided with protrusions having a predetermined height, so that when the exposed waterproof layer such as the roof of the ground structure is formed, even if the moisture contained in the ground concrete evaporates and expands, the waterproof layer swells through the spaces between the protrusions. Defect problem can be solved, and through this, it is possible to form a ventilation exposure composite waterproof layer.

According to the present invention, the uneven-shaped waterproof panel is provided with protrusions having a predetermined height, so that the adhesion area with the elastic coating waterproofing material filled in the empty space inside the protrusions is maximized, and an interface drop defect between heterogeneous waterproof layers due to thermal behavior occurs. It can be integrated without being able to improve watertight durability.

The composite waterproof layer of the present invention is composed of a concave-convex waterproofing panel and an elastic coating waterproofing material having similar thermal characteristics, so that the composite waterproof layer can follow the temperature stretching behavior even in an exposed environment with a large fluctuation in outside temperature, thereby improving durability.

According to the present invention, the projections of the concave-convex waterproof panel can be easily inserted by using the projection space of the hollow concave-convex waterproof panel, which can be continuously integrated to increase the watertightness and improve the workability. have.

According to the present invention, since the composite waterproof layer is formed integrally by filling and coating the void space and the upper part of the protrusion of the concave-convex waterproofing material with the elastic coating waterproofing material, the upper and lower (outside) behavior according to the pressure resistance and vibration corresponding to local compression and In addition, it is possible to further improve the followability to shear behavior caused by driving a car or walking a person.

The present invention can be partially fixed to the waterproof base by using the projections such as pins, nails, anchors, etc., and the fixture can be more easily fixed to the waterproof base by using compressed air such as airless. Therefore, it can be attached without deformation even in structures with very large deformation behavior.

The present invention is not only more economical than the conventional technique of installing a unit sheet, applying a coating waterproofing material, or using a combination thereof over the concrete surface, but also exhibiting excellent pressure resistance, so that It is possible to solve most of the problems, such as the reduction of the cross-section of the waterproof layer due to the upper load caused by the puncture or the puncturing of the waterproof layer.

The present invention is to provide the optimum waterproof layer performance within the economic range through the limitation of the thickness, the projection height and the projection interval, or the coating thickness of the elastic coating waterproofing material of the concave-shaped waterproof panel.

The present invention is to provide an optimum waterproof layer performance within the economic range through the limitation of the physical properties of the elastic coating film waterproofing material.

The composite waterproof layer of the present invention is composed of a dual structure of an uneven molded waterproof panel having excellent waterproofing ability and an elastic coating waterproofing material that can be seamlessly waterproofed, and has many excellent effects such as having excellent waterproofing ability when applied to exposed and non-exposed waterproofing to concrete structures. There is.

1 is an exemplary view showing a conventional waterproof method (front adhesive waterproof method)
2 is an exemplary view showing a conventional partial insulation waterproofing method
Figure 3 is an exemplary view showing a conventional insulation waterproofing method (waterproof base material)
Figure 4 is an exemplary view showing the configuration of the concave-convex molding waterproof panel according to the present invention
Figure 5 is an exemplary view showing an installation state (overlapping) of the uneven molding waterproof panel of the present invention
Figure 6 is an exemplary view showing a fixed state (fixture) of the present invention uneven molding panel
7 is an exemplary view showing a point of adhesion state of the composite waterproof layer according to the present invention
8 is an exemplary view showing a construction state using a composite waterproof layer according to the present invention

Figure 4 is an exemplary view showing the configuration of the concave-convex waterproofing panel according to the present invention, Figure 5 is an illustration showing the installation state (overlapping) of the concave-convex waterproofing panel according to the present invention, Figure 6 is As an illustration showing a fixed state (fixed sphere),

The present invention is a waterproof concave surface 110 of the concrete structure 100, a concave-convex waterproof panel 10 is formed with a plurality of projections 12 having an empty space therein, and the interior of the projection of the concave-contained waterproof panel ( The composite waterproof layer 60 is integrally formed with the upper waterproof layer 20 formed by pouring the elastic coating film waterproof material 13 so as to be filled.

The concave-convex waterproof panel 10 is made of a thermoplastic plastic material, a flat plate portion 11 made of a sheet or plate, and a plurality of conical or semi-circular protrusions 12 protruding downward from the flat plate portion 11. ).

The projection 12 has a hollow inside 13 and has a hole 14 having a diameter D of 0.1 to 3.0 mm at its lower end, a height h of 3.0 to 20.0 mm, and an inner diameter d of 5.0 to 15.0. Mm is provided.

Moreover, the said projection 12 is continuously formed by adjoining the spacing L between 1.0-10.0 mm.

The concave-convex waterproof panel 10 configured as described above has an ethyl group such as polyethylene, or a propylene group such as polypropylene, or an ester group such as polyester, or a polyurethane. It is made of thermoplastic hard or soft plastic material having the same urethane group or epoxy group such as epoxy, and has a thickness (t) of 0.1 to 2.0 mm.

In addition, the protrusions 12 are filled with an elastic coating waterproofing material into the interior 13 forming an empty space, and the holes 14 formed in the protrusions 12 form an air layer inside the protrusions when the elastic coating waterproofing material is filled. Simultaneously with the prevention, it is provided with a function to make a point adhesive to the waterproof base surface 110 of the concrete structure 100 by the elastic coating film waterproofing material as shown in FIG.

That is, the hole 14 of the protrusion 12 according to the present invention has a diameter D of 0.1 to 3.0 mm, and the diameter of such a hole facilitates the filling of the elastic coating waterproof material filled into the protrusion, or a large amount. When the diameter of the hole is less than 0.1mm, it is difficult to fill the elastic coating waterproofing material without the air layer inside the projection, and when the diameter is 3.0mm or more, the elastic coating waterproofing material is largely escaped through the hole to form the waterproofing layer. It is expensive and uneconomical.

In addition, the size limit for the protrusion 12 of the present invention as described above is to improve the waterproof layer performance, such as pressure resistance, crack resistance, fatigue resistance, if outside the range according to the present invention, irregularities waterproof panel and elastic coating film Degradation of the performance of the composite waterproof layer made of a waterproof material occurs.

Referring to the three-dimensional composite point adhesive waterproofing method using the composite waterproof layer 60 made of the concave-convex waterproof panel 10 and the elastic coating waterproofing material 20 of the present invention configured as described above are as follows.

8 is an exemplary view showing a construction state using the composite waterproof layer according to the present invention, the present invention is a hollow or semi-circular projection 12, the interior 13 is empty and the hole 14 is drilled in the lower portion Arrangement step of having a concave-convex molding waterproof panel 10 on the waterproof base surface 110 of the concrete structure 100;

A connection step of interconnecting the concave-convex waterproof panel 10 in the length or width direction by using the protrusions 12 of the concave-convex waterproof panel 10;

An upper waterproof layer forming step of forming an upper waterproof layer 20 by applying an elastic coating waterproofing material to have a predetermined height while filling the protrusions 13 of the unevenly shaped waterproof panel 10;

Curing the upper waterproof layer 20 to form a composite waterproof layer 60 integrated with the uneven molded waterproof panel 10; and a curing step.

The disposing step arranges a plurality of concave-convex waterproofing panel 10 in a concrete structure. In this case, the uneven waterproof panel may be disposed after applying an adhesive or primer to the concrete structure.

The connecting step is to maintain the watertightness by cumulatively connecting a plurality of concave-shaped waterproof panel as shown in Figure 5, one side concave-shaped waterproof panel 10a and another concave-convex waterproof panel 10b Connect by overlapping each other.

At this time, the concave-convex waterproofing panel has an overlap width of about 10.0 to 100.0 mm in the length or left and right width directions, and fits the projections of adjacent concave-convex waterproofing panels into the protrusions of the concave-convex waterproofing panel, or adhesive It is installed so that the concave-convex waterproofing material is continuously installed on the front surface of the waterproofing base (concrete structure surface) by inserting and bonding.

In addition, the connecting step, as shown in Figure 6, by using a hole 14 formed in the bottom of the projection 12 of the concave-convex waterproof panel (water) with a metal fixture 40 such as pins, nails, anchors, etc. (concrete Fastening partially on the waterproof surface (concrete structure surface) with metal fixtures 40 such as pins or nails by applying pneumatic or other physical pressure on the upper flat surface of the uneven waterproof panel It further comprises a step.

In the forming of the upper waterproof layer, an elastic coating waterproofing material is applied to the uneven molded waterproof panel 10 installed on the waterproof base 110 of the concrete structure, thereby forming the upper waterproof layer 20 having a predetermined thickness.

The elastic coating film waterproofing material is synthetic rubber-based coating waterproofing materials, such as urethane, chloroprene of 120 N / mm ~ 600 N / mm of an extended length; Synthetic resin coating waterproofing materials such as urea, epoxy and polyester; Asphalt series waterproofing material; It can be used by selecting any one of water-resistant polymers such as urethane, epoxy, acrylic, EVA, etc., and coating film waterproofing material mixed with cement or inorganic powder such as sand or calcium carbonate. Inadequate response to dynamic behaviour, or rising construction costs are uneconomical.

In addition, the elastic coating waterproofing material may be used in the same series, or if the elastic range of the specified range by varying the degree of elasticity. For example, the inside of the projection of the uneven molded waterproof panel is filled with a coating waterproof material having a better elongation than the stress, and the upper waterproof layer is filled with a coating waterproof material having a higher stress than the elongation, whereas the inside of the protrusion is filled with a coating waterproof material having a higher stress than the elongation. The waterproof layer may form an upper waterproof layer 20 by applying a coating waterproof material having an excellent elongation rate than stress.

That is, the upper waterproof layer 20 is formed by an elastic coating waterproof material filled into the projections of the uneven waterproof panel and another elastic coating waterproof material applied to have a predetermined thickness over the flat portion 11 of the uneven waterproof panel. Be,

The elastic film waterproofing material filled into the projections has a higher stress than another elastic coating waterproofing material applied onto the flat plate portion, and the other elastic coating waterproofing material applied over the flat plate portion has better elongation than the elastic coating waterproofing material filled into the projections. do or,

The elastic film waterproofing material filled into the projections has a higher elongation than another elastic coating waterproofing material applied onto the flat plate portion, and the other elastic coating waterproofing material applied over the flat plate portion has better stress than the elastic film waterproofing material filled into the projections. The upper waterproof layer 20 itself may be formed to have a dual structure.

In addition, the elastic coating waterproofing material should be poured over the uneven molding waterproof panel and spread with a brush, roller, or trowel, or sprayed to make a waterproof layer having a predetermined thickness.

At this time, the elastic coating waterproofing material is filled to the inside space of the protrusion 13 of the uneven shaped waterproof panel and applied to have a predetermined thickness from the flat portion 11 of the uneven molded waterproof panel to form the upper waterproof layer 20. do.

In addition, the elastic coating film waterproofing material is formed by holes 14 having a diameter of 0.1 to 3.0 mm formed at the lower end of the projections of the unevenly shaped waterproofing panel 10, without excessive formation of an air layer into the empty space of the inside of the projections 13, and further leakage. Filled without.

In addition, the elastic coating film waterproof material is bonded to the uneven molding waterproof panel 10 to the maximum adhesive area, the adhesive strength of the concrete structure waterproof surface 110 is also good, easy to form an integrated composite waterproof layer, to give a predetermined elasticity It is also excellent in following the dynamic behavior such as horizontal or vertical, and also has the feature to improve the resistance to local compression after filling the protrusion inside.

The curing step cures the upper waterproof layer 20 formed by the application of the elastic coating waterproofing material, thereby forming a composite waterproof layer 60 by integrating the uneven shaped waterproof panel 10 and the upper waterproof layer 20. That is, the composite waterproof layer according to the present invention has a double layer structure in which the uneven molded waterproof panel 10 and the upper waterproof layer 20 made of an elastic coating waterproof material are integrally formed.

In addition, the present invention further includes a surface treatment step of applying an adhesive or primer 50 to the surface of the concave-convex molding waterproof panel 10 is arranged.

The surface treatment step is to increase the bonding strength of the upper waterproof layer 20 and the concave-convex molding waterproof panel 10 formed by the application of the elastic coating waterproofing material, the adhesive or primer 50, a brush or roller, or a spray injection device Evenly apply to uneven molding waterproof panel.

In addition, the present invention after the curing step, as shown in Figure 8 (a), on the composite waterproof layer 60, the concrete of a predetermined thickness, or put a PC (Pre-casting Concrete) plate or block to press the protection A further step of making the layer 70 can be added, and through the formation of such a waterproof protective layer, a waterproof layer which is mechanically strengthened and excellent in durability and economy can be formed.

In addition, the present invention after the curing step, as shown in Figure 8 (b), a coating for forming a surface coating layer 80 by applying a UV protection surface protection material (Top-Coat material) on the composite waterproof layer 60, You can add more steps.

In addition, the present invention after the curing step, as shown in (b) of Figure 8, on the composite waterproof layer 60, by installing a heat insulating material 30, such as urethane foam or expanded polystyrene, the thermal insulation reinforcing step to reinforce the thermal insulation You can add more.

The present invention made as described above is applied to the horizontal load generated from the cracks and joints, etc. essential for the construction of the construction structure, or to the excessively constant compressive load, or to underground or ground concrete subjected to vertical vibration or shear load It is possible to provide a three-dimensional composite point adhesive waterproofing method that can solve most of the common problems of the conventional exposed and unexposed waterproofing methods in places such as the slab upper part of the structure or the slab upper part of the ground concrete structure exposed to the outside air. .

Hereinafter, the present invention will be described in detail by way of examples.

Example 1

In order to check the pressure resistance of the composite waterproof layer formed by the projections and recesses waterproof panel and the elastic coating waterproofing material, the projections have waterproof surface inside diameter of 5 mm, thickness 0.5 mm, protrusion height 5.0 mm, and gap between projection spaces 2.5 mm. 13 sheets were cut out using panels as representative test specimens to be 30cm × 30cm, and the first class of urethane rubber-based waterproofing materials defined by KS F 3211 (for exposure, tensile strength of 2.3 N / mm2 or more, elongation at break of 450%) Above, 280 N / mm or more), two kinds of urethane rubber-based waterproofing materials (for exposure, tensile strength of 1.9 N / mm2 or more, elongation at break of 300% or more, extension of 120 N / mm or more), acrylic rubber film waterproofing material (Tensile strength of 1.3 N / mm2 or more, elongation at break of 300% or more, tensile strength of 120 N / mm or more), and polyurea resin coating waterproofing material specified in KS F 4922 (tensile strength of 16.0 N / mm2 or more, elongation at break 350 % Or more, tensile strength 900 N / mm Or above) to fill only the inner space of the projections (indication 0), or to fill the space, and to cure it so that the thickness is 2.0 mm (indication 2.0) and 5.0 mm (indication 5.0) from the uneven molded panel, respectively. The sheet was made plain and each test piece was pressurized using a pressure tester with a maximum load of 500 tons with a steel pressure plate (30 cm x 30 cm) at a speed of 10 mm / min. , 10.0 Ton? Ｆ, 50.0 Ton? Ｆ, 75.0 Ton? Ｆ, 100.0 Ton? Ｆ, 125.0 Ton? Ｆ, 150.0 Ton? Ｆ, 175.0 Ton? Ｆ, 200.0 Ton? Ｆ The amount of deformation (protrusion height pressing strain, mm) of the unevenly formed waterproofing material was measured, and the test was carried out by pressing again, and the results are shown in [Table 1].

Comparative Example 1

For comparison with the pressure resistance of the composite waterproof layer between the uneven molded waterproof panel with the projection and the elastic coating waterproofing material, the same type of urethane rubber-based waterproofing material used in Example 1 was manufactured and cured to a thickness of 3 mm, which is a general waterproofing material. Using the resultant (display 3.0) as a test body, the test was carried out in the same manner as in the test method of Example 1, and the results are shown in comparison with [Table 1].

Comparative Example 2

In order to compare the pressure-resistance of the composite waterproof layer between the protrusions and protrusions waterproofing panel and the elastic coating waterproofing material, a cement mortar waterproofing material (acrylic PCM, Polymer Cement Mortar) mixed with an acrylic water-soluble polymer was used in Example 1. Representative specimens such as the filling of only the inner space of the projections (mark 0), or fill the entire space and applied so that the thickness (t) is 2.0mm (mark 2.0), 5.0mm (mark 5.0) from the uneven molded panel respectively. Using the cured product as a test body, the test was carried out in the same manner as in the test method of Example 1, and the results are shown in comparison with Table 1.

At this time, the cement mortar-based waterproofing material mixed with the acrylic water-soluble polymer is used in the application number 10-2011-0119916 previously filed by the applicant of the present invention, a detailed description thereof will be omitted.

Table 1

Breakdown strength test result, deformation

In the test results of [Table 1], plain was broken while showing a deformation of 4.5 mm at a load of about 4.3 Ton.ｆ, whereas most of the test specimens were not damaged when the specimen filled with the elastic coating waterproofing material. ,

The elastic coating waterproofing material of Comparative Example 1 was also largely deformed at about 2.3 mm (residual thickness of about 0.7 mm), but was not damaged even under a load of 200 Ton · ｆ, whereas in Comparative Example 2, the pressure resistance was high when the thickness of the upper waterproof layer was thick. Although somewhat advantageous from the side, defects such as cracks and cracks began to develop around the load of about 100 Tonｆ (not practically a problem at all), which means that the waterproof material has a small deformation and high strength. We believe this is due to the nature of the material.

In the test results of the type of elastic coating waterproofing material filled with protrusions, the deformation amount greatly increased up to about 50 Ton ｆ of the internal pressure load, and then the deformation amount decreased afterwards. After deformation, it is presumed to have been transferred to deformation of the filled elastic coating waterproofing material, and in the amount of deformation, the larger the tensile strength test specimen (polyurea resin type> urethane rubber type 1> urethane rubber type 2 type> acrylic rubber type), the smaller the deformation amount (withstand pressure) In the case of composite use with the uneven-shaped waterproof panel having hollow protrusions used in the present invention, it can be seen that the greater the tensile strength of the coating film, the more advantageous in terms of pressure resistance.

Example 2

In order to check the resistance (fatigue resistance) to the horizontal stretching behavior (in-plane dynamic behavior) of the crack of the composite waterproof layer between the protrusions and the uneven molded waterproof panel with the elastic coating waterproofing material, the thickness is about 10 mm, the width is 100 mm, the length Two concrete forming plates manufactured to have a thickness of 50 mm are placed on top of each other on a test apparatus that is capable of horizontally repeatable operation (total length of 100 cm), and the surface inner diameter of the protrusion used in Example 1 above. A concrete molded plate cut out of 13 sheets with a size of length and width of 100 cm x 100 cm, respectively, using 5 mm, thickness 0.5 mm, protrusion height 5.0 mm, and protrusion thickness 2.5 mm between protrusion spaces as representative specimens. On top of it, the four kinds of coating film waterproofing materials (urethane rubber type 1, type 2, acrylic rubber and polyurea resin) specified in KS F 3211 used in Example 1 were filled only with the inner space of the projection ( 0) or all the spaces are filled up, and the thickness t is applied to be cured so that the thickness t is 2.0 mm (display 2.0) and 5.0 mm (display 5.0), respectively. , The thickness of the concrete fabricated to be about 10 mm thick, 100 mm wide, and 100 mm long (approximately 240 kgf / m 2) was placed, and the widths of the butt gaps of the specimen concrete assuming the concrete slab were 0.0 to 0, respectively. The test equipment was electrically operated to reciprocate between 10.0 mm, 0.0-15.0 mm, 0.0-20.0 mm, 0.0-30.0 mm, and 0.0-40.0 mm width, and 2,000 repeated tensile strains at a speed of 2 minutes each. Fatigue) Tests were performed and defects such as breakage of the test body or dropping of the lower point adhesive parts (five protruding parts on each side centered on butt joints) occurred, and the number of repeated tests was recorded. It is shown in [Table 2].

Comparative Example 3

For comparison according to Example 2, a first class of urethane rubber-based waterproofing material of the same type as used in Example 2 was used, with the same size (100cm × 100cm) on the butt concrete forming plate according to Example 2, which was the general thickness of the waterproofing material. The test was carried out in the same manner as in the test method of Example 2 using the product prepared by curing in mm and cured (indication 3.0), and the results are shown in [Table 2].

Comparative Example 4

For comparison according to Example 2, a cement mortar-based waterproofing material (acrylic PCM, Polymer Cement Mortar) mixed with the acrylic water-soluble polymer used in Example 1 was formed in each of the representative test bodies in the same manner as in Example 2, respectively. An example was prepared by filling only the bay (indication 0) or filling the space and applying a curing such that the thickness t was 2.0 mm (indication 2.0) and 5.0 mm (indication 5.0) from the uneven molded panel. The test was carried out in the same manner as in the test method of 2, and the results are shown in [Table 2] in comparison.

[Table 2]

Fatigue Resistance Test Results

According to the test results of [Table 2], in the case of Plain, there was no abnormality in the previous test, which occurs in the butt joint (joint) of the base concrete because the projection end is insulated with the base concrete that is not bonded This is a natural result because the stretch load is not transferred to the plain (waterproof panel) layer.In the case of the test specimen filled with the elastic coating waterproofing material, most of the test specimens are separated from the end portions of the protrusions and the base concrete without damaging the waterproof layer. On the other hand, the elastic coating waterproofing material that adhered the base concrete and the entire surface of Comparative Example 3 was damaged at the initial stage (80 times) after the start of the test, from which the waterproofing base and the waterproofing layer were insulated to prevent fatigue of the waterproofing layer. It can be seen that it is advantageous in terms of durability, and in the case of Comparative Example 4 if the thickness of the upper waterproof layer is thick Indicate the fatigue performance tends to be improved and, most exhibited a relatively small width of the defect is eliminated in the wake of the adhesive or cracking behavior of which is determined that the deformation of the water shield due to the characteristics of small cement mortar-based material.

In addition, most of the test results for each type of elastic coating waterproofing material filled with protrusions withstand the behavior of 0.0-15.0 mm. However, when the crack behavior width becomes larger, the elongation ratio is greater than the tension, that is, the urethane rubber type 2> urethane rubber type 1 > Polyurea resin type> Acryl rubber type in order to show good fatigue resistance, and when used in combination with the unevenly formed waterproof panel having hollow protrusions used in the present invention, a coating film having a higher elongation (strain) than tensile stress We believe the waterproofing material will be more advantageous. However, when comparing acrylic rubber and polyurea resin having the same elongation (over 300%), polyurea resin having excellent tensile stress is more advantageous in terms of fatigue resistance, which is an elastic coating film having the same elongation (strain). The greater the tensile strength of the ash, the more suitable it is for the present invention.

Example 3

Surface of the projections used in Example 1 to check the resistance against the vertical vibration load caused by the driving of the vehicle or the walking of a large number of people of the composite waterproof layer consisting of the projections and protrusions waterproof panel and the elastic coating waterproofing material Twelve pieces were cut out to have a size of 30cm × 30cm, with a concave-shaped waterproof panel having an inner diameter of 5 mm, a thickness of 0.5 mm, a protrusion height of 5.0 mm, and a gap of 2.5 mm between protrusion spaces, and restrained at the bottom of the test apparatus. Put on urethane rubber type 1 and type 2, acrylic rubber type and polyurea resin coating film waterproofing material used in Example 1 and put it on the concrete molding plate of 30cm × 30cm size, And filled so that the thickness is 2.0 mm (indicated 2.0) and 5.0 mm (indicated 5.0) from the uneven molded waterproof panel, respectively, and cured. The steel pressure plate (30cm × 30cm) of the test equipment used was bonded with epoxy adhesive, and the pressure plate was shown to be 100.0 Ton? Ｆ at a speed of 100mm / min with a compressive strength tester with a maximum load of 500ton. 1 mm, 2 mm, and 3 mm above the initial height of the specimen (5 mm of protrusion height of the panel + 0-5 mm of thickness of the upper waterproof layer) in the opposite (upper) direction at a rate of 100 mm / min. 50 mm, 4 mm and 5 mm heights were stretched 50 times for each tensile height, and the results were shown in [Table 3].

Comparative Example 5

For comparison, test specimens were prepared and tested in the same manner as in Example 3, using a cement mortar-based waterproofing material (acrylic PCM, Polymer Cement Mortar) mixed with the acrylic water-soluble polymer used in Example 1, and the results were obtained. It is shown in comparison with [Table 3].

[Table 3]

Resistance test results for vertical vibration

In the test results of [Table 3], it can be seen that in the case of the test specimen filled with the elastic coating waterproofing material, most of the test specimens did not have a drop of the point adhesive surface until the tensile height of 2.0 mm. In the case of Comparative Example 5, if the thickness of the upper waterproof layer is slightly advantageous, but applying a tension of 2.0 mm height, it can be seen that the point adhesive surface was removed from all the test specimens at the beginning of the test, which means that the waterproof material is small in deformation. In addition, it is believed to be due to the characteristics of cement mortar-based materials, which are relatively inferior in adhesive strength.

In addition, most of the test results for the type of elastic coating waterproofing material filled with protrusions showed no abnormality due to the elastic force of each material up to a tensile height of 2.0 mm. However, at 3.0 mm or more, urethane rubber type 1> urethane rubber type 2> poly Urea resin type> acrylic rubber type, or tensile strength (N / mm, T _p = T _B x (L-20), T _p : tensile strength (N / mm), T _B : tensile strength (N / mm 2), L: It is understood that the response to vertical vibration is good at 280 or more> 280 or more> 900 or more> 120 or more, based on the distance between marks in breaking).

Example 4

In order to check the resistance against shear load caused by the driving of a car or the walking of a large number of people of the composite waterproof layer made of the bumpy and unevenly shaped waterproof panel and the elastic coating waterproofing material,

The test body was sized as a representative test body as in Example 3, namely, using the uneven molded panel having a surface inner diameter of 5 mm, a thickness of 0.5 mm, a protrusion height of 5.0 mm, and a gap of 2.5 mm of the protrusion space used in Example 1. 12 pieces are cut out to be 30 cm × 30 cm, and placed on a concrete molding plate having a size of 30 cm × 30 cm, and the urethane rubber type 1 and 2, acrylic rubber type and polyurea resin coating film waterproofing material is formed only in the inner space. Fill (mark 0) or fill all the space and apply curing so that the thickness is 2.0 mm (mark 2.0) and 5.0 mm (mark 5.0) from the uneven molded panel, respectively, and the test used in Example 1 above. The steel pressure plate of the device (30 cm × 30 cm) is bonded with an epoxy adhesive, and the pressure plate is fixed vertically to a tensile tester with a maximum load of 10 tons until it is dropped from the concrete base at a speed of 10 mm / min. Chapter were tested to measure the deformation amount of time, the results are shown in Table 4.

Comparative Example 6

For comparison, test specimens were prepared and tested in the same manner as in Example 4, using a cement mortar-based waterproofing material (acrylic PCM, Polymer Cement Mortar) mixed with the acrylic water-soluble polymer used in Example 1, and the results were [ It is shown in comparison with Table 4].

Table 4

Result of resistance test against shear load

In the test results of [Table 4], in the case of the test body filled with the elastic coating waterproofing material, the drop (destructive) deformation of the viscous interface of most test bodies was about 3.0 to 5.0 mm, while in the case of Comparative Example 6 It can be seen that the point-bonding interface almost dropped to about 1.6 mm without deformation, which is believed to be due to the characteristics of the cement mortar-based material in which the waterproofing material is small in deformation and relatively inferior in adhesion. It is assumed that the application in the environment in which shear stress is expected to occur, such as the result of resistance test against load, is somewhat disadvantageous.

On the other hand, with respect to the test results for each type of elastic coating waterproofing material filled with projections, as shown in Example 3, the higher the adhesive strength of the point adhesion stress, while the greater the elongation (deformation amount) for the shear deformation, the more favorable the same type. Even if the elastic coating waterproof of the thicker the thickness of the upper waterproof layer of the panel shows a more favorable result. That is, it is understood that the responsiveness to shear load is good in the order of urethane rubber type 1> urethane rubber type 2> polyurea resin type> acrylic rubber type, or 280 or more> 280 or more> 900 or more> 120 or more.

The test results of Examples 1 to 4 and Comparative Examples 1 to 6 are collectively shown in [Table 5].

[Table 5]

As shown in [Table 5] above, in the pressure resistance, the coating waterproof material having excellent tensile strength is advantageous, but the horizontal behavior, the vertical vibration behavior and the shear behavior are the properties of both stress and deformation rather than biasing to unilateral properties such as stress or deformation. It can be seen that it depends on the physical quantity, that is, based on the physical quantity that can handle the tensile strength and deformation together, namely the tensile strength (N / mm) as a value that satisfies the above performance 120 N / mm or more, Although it can be in the range of 900 N / mm or less, if the test results of the urethane rubber-based first and second class is a universal value that satisfies most performance, or the material cost of the urea resin coating waterproofing material of more than 900 N / mm Considering that it is about 2 times or more than the urethane rubber type 1, about 3 times or more than the urethane rubber type 2, and about 1.5 times or more that the acrylic rubber type, As it can be seen that it is more preferable in the physical properties and an economic point of view to use a 120N / ㎜ ~ 600N / ㎜ the waterproofing coating.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

(10): uneven molding waterproof panel (11): flat plate
(12): protrusions 13: inside
14: hole 20: upper waterproof layer
30: heat insulating material 40: fixture
(50): adhesive or primer (60): composite waterproof layer
(70): protective pressing layer (80): surface coating layer

Claims (8)

Arrangement in which the concave-shaped waterproof panel 10 having conical or semi-circular protrusions 12 having a hollow 14 and a hole 14 formed at the bottom thereof is disposed on the waterproof base 110 of the concrete structure 100. step;
A connection step of interconnecting the concave-convex waterproof panel 10 in the length or width direction by using the protrusions 12 of the concave-convex waterproof panel 10;
An upper waterproof layer forming step of forming an upper waterproof layer 20 by applying an elastic coating waterproofing material to have a predetermined height while filling the protrusions 13 of the unevenly shaped waterproof panel 10;
Curing step of curing the upper waterproof layer 20 to form a composite waterproof layer 60 integrated with the concave-convex waterproof panel 10;
The concave-convex waterproof panel 10 is formed to have a flat plate portion 11 made of a sheet or plate, and protrudes downward from the flat plate portion 11 and the inside 13 is empty, and the diameter (D) at the lower end And a plurality of conical or semicircular projections 12 having a hole 14 of 0.1 to 3.0 mm and having a height h of 3.0 to 20.0 mm and an inner diameter d of 5.0 to 15.0 mm.
The upper waterproof layer 20 is formed by an elastic coating waterproofing material filled into the projections 13 of the uneven waterproofing panel, and another elastic coating waterproofing material applied onto the flat portion 11 of the uneven waterproofing panel,
The elastic coating waterproofing material filled into the projections has a higher stress than another elastic coating waterproofing material applied to the flat plate portion, and the other elastic coating waterproofing material applied to the flat plate portion has a higher elongation than the elastic coating waterproofing material filled into the protrusions. Waterproof material,
The elastic coating waterproofing material filled into the projections has better elongation than another elastic coating waterproofing material applied to the flat plate portion, and the other elastic coating waterproofing material applied to the flat plate portion has higher stress than the elastic coating waterproofing material filled into the protrusions. Three-dimensional composite adhesive bonding waterproofing method using a concave-convex waterproof panel and a hollow coating waterproofing material having a hollow projection, characterized in that the waterproof material.
delete The method of claim 1,
The elastic coating waterproofing material is a three-dimensional composite adhesive adhesive waterproofing method using a concave-convex waterproofing panel having a hollow inside and an elastic coating waterproofing material, characterized in that it has an extended 120N / ㎜ ~ 600N / ㎜.
The method of claim 3,
The elastic coating waterproofing material is a synthetic rubber coating waterproofing material; Synthetic resin coating waterproofing materials; Asphalt series waterproofing material; A three-dimensional composite adhesive adhesive waterproofing method using an uneven-shaped waterproof panel having hollow protrusions and an elastic coating waterproofing material, characterized in that it is selected from a coating waterproofing material mixed with a water-soluble polymer and an inorganic powder.
The method of claim 1,
The concave-convex waterproof panel and the three-dimensional shape using the elastic coating waterproofing material having a hollow projection, characterized in that it further comprises a surface treatment step of applying an adhesive or primer 50 to the surface of the concave-convex molded waterproof panel 10 is arranged Composite adhesive waterproofing method.
The method of claim 1,
After the curing step, the interior is characterized in that it further comprises the step of placing a concrete of a predetermined thickness on the composite waterproof layer 60, or by placing a PC (Pre-casting Concrete) plate or block to create a protective pressing layer (70) Three-dimensional composite adhesive adhesive waterproofing method using an uneven molded waterproof panel with hollow projections and an elastic coating waterproofing material.
The method of claim 1,
After the curing step, on the composite waterproof layer 60, by coating a UV-protecting surface protective material (Top-Coat material) to form a surface coating layer 80 further comprises an uneven protrusion with a hollow inside, characterized in that Three-dimensional composite adhesive bonding waterproofing method using molded waterproof panel and elastic coating waterproofing material.
The method of claim 1,
After the curing step, on the composite waterproof layer 60, by installing a heat insulating material 30, such as urethane foam or polystyrene foam, further comprises a heat insulating reinforcement step for reinforcing the heat-resistant uneven molding having a hollow inside Three-dimensional composite adhesive bonding waterproofing method using panel and elastic coating waterproofing material.

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