KR102517058B1 - 3-Layer Coating Water-proofing Structure And Coating Water-proofing Method - Google Patents

Abstract

The present invention relates to a three-layer coating waterproofing structure, which can be easily constructed and used, and to a coating waterproofing construction method thereof. The three-layer coating waterproofing structure, comprises: an adhesive layer including a fiber-modified rubber asphalt-based adhesive; a coating waterproofing layer applied while a plastic polymer rubber asphalt-based waterproofing agent is melted; and a sheet stiffener including a fiber grid.

Description

3-Layer Coating Water-proofing Structure And Coating Water-proofing Method}

The present invention relates to a three-layer coating film waterproof structure and a coating film waterproofing method, and more particularly, an adhesive layer composed of a fiber-modified rubber asphalt-based adhesive applied to the entire surface at an even thickness while in contact with the top of a concrete structure; A coating film waterproof layer applied while contacting the adhesive layer while melting the plastic polymer rubber asphalt-based waterproofing agent; And installed while being in close contact with the surface of the coating film waterproof layer, made of at least one fiber material selected from the group consisting of recycled polypropylene fiber, carbon fiber, aramid fiber, acrylic fiber, polyamide fiber, recycled polyester fiber and basalt fiber. A sheet reinforcing material including a fiber grid; wherein the fiber-modified rubber asphalt-based adhesive contains 44 to 48 wt% of asphaltium, 27 to 34 wt% of xylene, 12 to 18 wt% of SBS rubber, and 6 to 6 wt% of reinforcing fibers. 11% by weight, and the plastic polymer rubber asphalt-based waterproofing agent contains 60 to 70% by weight of asphaltium, 15 to 20% by weight of petroleum hydrocarbon resin, 5 to 15% by weight of styrene-butadiene rubber and heavy paraffin distillation A three-layer coating film waterproof structure characterized by being mixed with 5 to 10% by weight of a liquid solvent extract and cleaning the surface of the surface to be subjected to the method by high-pressure air cleaning to remove foreign substances and drying using a heat lancer; an adhesive layer application and curing step of applying and curing the fiber-modified rubber asphalt-based adhesive to form a continuous film; Applying a coating waterproofing layer to a thickness of 1.8 to 2.2 mm by indirectly heating and melting the plastic polymer rubber asphalt-based waterproofing agent at a constant temperature under a condition of 160 to 190 ° C; A sheet reinforcement installation and curing step of installing a roll-shaped sheet reinforcement material by laying the coating film waterproof layer and pressing it with a roller; A leveling asphalt layer laying and compaction step of laying and compacting asphalt to form a leveling asphalt layer; Placing and compacting an abrasion asphalt layer by laying and compacting asphalt using a material having a high modulus of elasticity to form an abrasion asphalt layer; And curing step; It relates to a coating film waterproof method characterized in that consisting of.

(For example) Pavement materials such as asphalt are applied to the top plate of the concrete structure constituting the bridge deck for vehicle passage. Cracks are generated by the load applied by the etc. or shrinkage/expansion according to temperature change, and gaps are formed. As external foreign substances such as moisture or soot penetrate into the concrete structure through the gaps formed in the packaging material, There is a problem that the durability of the concrete structure is deteriorated because the structure is aged or corroded.

In order to solve this problem, firstly, asphalt reinforcing materials such as fabrics or non-woven fabrics are used to prevent gaps in the pavement from forming, and secondarily, even if gaps are formed in the pavement, external foreign substances including moisture in the concrete structure A method of applying a coating film waterproofing material before applying a paving material to a concrete structure to prevent this penetration has been implemented.

As a prior art related to this, there is Korean Patent Registration No. 10-1212519 (2012, 12, 18, Title of Invention: Bridge Waterproof Structure and Bridge Waterproof Structure), and the bridge waterproof structure is the concrete structure ( C), a coating film waterproofing material 200 applied to the film, and a reinforcing material 300 attached to the coating film waterproofing material 200 to prevent cracks from occurring in the coating film waterproofing material 200 by the load acting on the packaging material (A) The reinforcing material 300 includes a nonwoven fabric 310 attached to the coating film waterproofing material 200 and a grid member 320 integrally provided with the nonwoven fabric 310 in a lattice shape, and the grid The member 320 includes glass fiber, and the grid member 320 may be formed by compressing the glass fiber after coating it with a bituminous material. With the above configuration, the present invention has a concrete structure constituting the top plate of a bridge. It is possible to prevent external foreign substances including moisture from penetrating into the concrete structure, and even if a load is applied to the pavement applied to the concrete structure, it is possible to prevent cracks from occurring in the coating waterproofing material applied to the concrete structure, and the coating waterproofing material is firmly attached to the concrete structure. It is said that it can be contacted and the durability of the bridge waterproof structure can be improved. However, the use of a grid member containing glass fiber, which is vulnerable to high temperatures and has a small elongation rate, and non-woven fabric that inevitably retains moisture, is a measure that emphasizes economic feasibility. However, it is not suitable as a reinforcing material for roads heated by direct sunlight, and it has inherent problems that it cannot help but retain moisture for a long time and can cause cracks in the coating waterproof layer due to phase change due to temperature change.

In addition, it is desperately needed to secure original technology for the production of fiber grids through eco-friendly material yarns.

Republic of Korea Patent Registration No. 10-1212519 (2012, 12, 18, Title of Invention: Bridge waterproofing structure and bridge waterproofing method)

The three-layer coating film waterproofing structure and coating film waterproofing method of the present invention have the following objectives.

(1) An object of the present invention is to provide a coating film waterproofing structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure, while preventing moisture from penetrating and allowing moisture moved to the lower part to pass through the paving material. Adhering the concrete structure and the coating film waterproof layer firmly in order to diverge to the outside, and installing sheet reinforcing materials to withstand the external force such as the load applied to the packaging material, so that the coating film waterproof layer does not crack. Adhesive layer and coating waterproofing It is to provide a coating film waterproof structure composed of three layers consisting of a layer and a sheet reinforcing material.

(2) Another object of the present invention is to provide a coating waterproofing method that facilitates the construction and utilization of a three-layer waterproofing structure.

(3) Another object of the present invention is to contribute to ESG management, which is emerging as a keyword that determines the success or failure of a country and the capital market beyond individual companies by using environmentally friendly recycled yarn for sheet reinforcement.

In the coating film waterproof structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure, the coating film waterproof structure constituting the present invention is applied to the entire surface at an even thickness while touching the upper part of the concrete structure, but fiber modification An adhesive layer 200 composed of a rubber asphalt-based adhesive; A coating film waterproof layer 300 applied while contacting the adhesive layer 200 while melting the plastic polymer rubber asphalt-based waterproofing agent; And installed while being in close contact with the surface of the coating film waterproof layer, at least one selected from the group consisting of regenerated polypropylene fibers, carbon fibers, aramid fibers, acrylic fibers, polyamide fibers, regenerated polyester fibers, dyneema fibers, and basalt fibers. It relates to a three-layer coating film waterproof structure (WP3L) characterized in that composed of; sheet reinforcement 400 including a fiber grid made of a fiber material.

The fiber-modified rubber asphalt-based adhesive is composed of a mixture of 44 to 48% by weight of asphaltium, 27 to 34% by weight of xylene, 12 to 18% by weight of SBS rubber, and 6 to 11% by weight of reinforcing fibers, and the reinforcing fibers are It may be composed of one or more fibers selected from aramid fibers, polyamide fibers, basalt fibers, recycled polyester fibers, and recycled polypropylene fibers.

The plastic polymer rubber asphalt waterproofing agent contains 60 to 70% by weight of asphaltium, 15 to 20% by weight of petroleum hydrocarbon resin, 5 to 15% by weight of styrene-butadiene rubber and 5 to 10% by weight of heavy paraffin distillate solvent extract. It is preferable to be composed of a mixture.

The sheet reinforcement 400 includes a longitudinal rib 410 made of a bundle of three-pronged fiber yarn; a weft wire rib 420 made of a single yarn bundle; And a binding string 430 tied to bind the radial ribs 410 and the weft ribs 420; but including a fiber grid composed of, wherein the radial ribs 410 and the weft ribs 420 intersect to form a grid However, the weft wire rib 420 sequentially passes through and crosses the lower part of the first fiber yarn bundle, the upper part of the second fiber yarn bundle, and the lower part of the third fiber yarn bundle among the three-pronged fiber yarn bundles of the longitudinal rib 410, When the weft wire rib 420 passes the upper part of the second fiber yarn bundle of the warp wire rib 410, the weft wire rib 420 forms a protruding rib protrusion (no sign) on the upper part of the warp wire rib, The binding string 430 passes through the rib protrusions (unsigned), but binds them while spirally turning the radial ribs 410, and the rib protrusions (unsigned) from the top of the bundle of second fiber yarns of the radial ribs It may have an internal size of 3mm to 15mm in length, characterized in that it is installed with the surface on which the rib protrusions (signs are not given) are formed.

The coating waterproofing method to have a 3-layer coating waterproof structure (WP3L) is

A surface cleaning step (S100) of cleaning the surface of the surface to be subjected to the method to remove foreign substances by cleaning with high-pressure air and drying using a heat lancer;

An adhesive layer application and curing step (S200) of applying and curing the fiber-modified rubber asphalt-based adhesive to form a continuous film;

Applying a coating waterproofing layer to a thickness of 1.8 to 2.5 mm by indirectly heating and melting the plastic polymer rubber asphalt-based waterproofing agent at a constant temperature under a condition of 160 to 190 ° C (S300);

A sheet reinforcement installation and curing step (S400) in which a roll-shaped sheet reinforcement material is laid while being in contact with the upper portion of the coating film waterproof layer and installed by pressing with a roller;

A leveling asphalt layer laying and compaction step of laying and compacting asphalt to form a leveling asphalt layer (S500);

Placing and compacting an abrasion asphalt layer by laying and compacting asphalt using a material having a high modulus of elasticity to form an abrasion asphalt layer (S600); and

It consists of; curing step (S700).

The present invention has the following effects.

(1) The present invention provides a coating film waterproof structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure, but preventing moisture from penetrating and dissipating the moisture moved to the lower part to the outside through the paving material. In order to do this, the concrete structure and the coating film waterproof layer must be firmly bonded, and a sheet reinforcing material is installed to withstand external forces such as the load applied to the packaging material to prevent cracks in the coating film waterproof layer. Adhesive layer, coating waterproof layer, and sheet reinforcement Provides a coating film waterproof structure composed of 3 layers composed of

(2) The present invention provides a coating film waterproofing method that facilitates the construction and utilization of a coating film waterproof structure composed of three layers.

(3) By using eco-friendly recycled yarn for the sheet reinforcing material of the present invention, it contributes to ESG management, which is emerging as a keyword that determines the success or failure of a country and the capital market beyond individual companies.

1 is a cross-sectional view showing a three-layer coating film waterproof structure according to the present invention.
2 and 3 are cross-sectional and perspective views showing the three-layer coating film waterproof structure of the present invention in a separated form.
4 is a plan view and a partially detailed perspective view showing a sheet reinforcing material constituting one layer in the three-layer coating film waterproof structure of the present invention.
5 is a diagram showing a coating film waterproof method for realizing a three-layer coating film waterproof structure in time-series steps.
6 is a perspective view showing a ground surface cleaning step in a coating film waterproofing method.
7 is a perspective view showing the steps of applying an adhesive layer and curing in a coating film waterproofing method.
8 is a perspective view showing a step of applying a coating film waterproof layer in a coating film waterproofing method.
9 is a perspective view showing a sheet reinforcement installation and curing steps in the coating film waterproofing method.
10 is a perspective view showing a step of laying and compacting a leveling asphalt layer.
11 is a perspective view showing the steps of laying and compacting the worn asphalt layer.
12 and 13 are test reports for the coating waterproof layer and the three-layer coating waterproof structure in the three-layer coating waterproof structure according to the present invention.

First, prior to entering into the detailed description of the present invention, if it is determined that the detailed description of the known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator, so the definitions are defined as "3-layer waterproof structure and waterproof coating method" according to the present invention. It should be made based on the contents throughout this specification describing ".

The terminology used in this specification is only for referring to specific embodiments and is not intended to limit the present invention. As used herein, the singular forms also include the plural forms unless the phrases clearly indicate the opposite.

As used herein, the meaning of "comprising" specifies particular characteristics, regions, integers, steps, operations, elements, and/or components, and other specific characteristics, regions, integers, steps, operations, elements, components, and/or components. It does not exclude the presence or addition of groups.

All terms including technical terms and scientific terms used in this specification have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. The terms defined in the dictionary are additionally interpreted as having a meaning consistent with the related technical literature and the currently disclosed content, and are not interpreted in an ideal or very formal meaning unless defined.

In one aspect of the invention, Figure 1 is a cross-sectional view showing a three-layer coating film waterproof structure of the present invention, Figures 2 and 3 are cross-sectional and perspective views showing the three-layer coating film waterproof structure of the present invention in a separated form, Figure 4 is a three-layer coating film waterproof structure of the present invention A plan view and a partially detailed perspective view showing a sheet reinforcement constituting one layer in a layer coating waterproof structure. Figure 7 is a perspective view showing the step of arranging the surface of the waterproofing method, Figure 7 is a perspective view showing the step of applying the adhesive layer and curing in the waterproofing method, Figure 8 is a perspective view showing the step of applying the waterproof layer of the coating film waterproofing method, Figure 9 is It is a perspective view showing the installation of sheet reinforcement and curing steps in the coating waterproofing method, Figure 10 is a perspective view showing the leveling asphalt layer laying and compaction step, Figure 11 is a perspective view showing the wearing asphalt layer laying and compaction step, Figures 12 and 13 are This is a test report for the coating waterproof layer and the three-layer coating waterproof structure in the three-layer coating waterproof structure according to the present invention.

1 to 3, in the coating film waterproof structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure, the coating film waterproof structure constituting the present invention is in contact with the top of the concrete structure while An adhesive layer 200 composed of a fiber-modified rubber asphalt-based adhesive applied to the entire surface with an even thickness; A coating film waterproof layer 300 applied while contacting the adhesive layer 200 while melting the plastic polymer rubber asphalt-based waterproofing agent; And installed while being in close contact with the surface of the coating film waterproof layer, at least one selected from the group consisting of regenerated polypropylene fibers, carbon fibers, aramid fibers, acrylic fibers, polyamide fibers, regenerated polyester fibers, dyneema fibers, and basalt fibers. It relates to a three-layer coating film waterproof structure (WP3L) characterized in that composed of; sheet reinforcement 400 including a fiber grid made of a fiber material.

Here, since most of the retaining walls are concrete structures, they may be substantially replaced with concrete.

The fiber-modified rubber asphalt-based adhesive is composed of a mixture of 44 to 48% by weight of asphaltium, 27 to 34% by weight of xylene, 12 to 18% by weight of SBS rubber, and 6 to 11% by weight of reinforcing fibers, and the reinforcing fibers are It is preferable to be composed of one or more fibers selected from aramid fibers, polyamide fibers, basalt fibers, regenerated polyester fibers, regenerated polypropylene fibers, and dyneema fibers.

The use of recycled polypropylene fibers and recycled polyester fibers is one of the key keywords of recent ESG management, attracting attention as an eco-friendly material and the creation and sustainability of the plastic cycle economy. Of these, recycled polypropylene has strong fatigue resistance, It has excellent impact strength, and especially has excellent moisture resistance (it has a property of drying moisture very quickly because it has strong hydrophobicity enough to float on water), so it has a characteristic that can dry moisture in the sheet reinforcement layer step.

The basalt fiber (basalt fiber) is a pure inorganic fiber made of a filament having a diameter of 9 to 20 μm, that is, a fine thread, by melting basalt formed as a result of volcanic activity at 1,500 ° C and spinning it using centrifugal force. Although it is an eco-friendly material with no triggering action, it has excellent physical properties such as non-combustibility, heat dissipation, heat resistance, sound insulation, sound absorption, dust proofing, acid and alkali erosion resistance, water corrosion resistance, abrasion resistance, and light weight and high strength properties.

The Dyneema fiber has 15 times the strength of steel at the same weight, has very strong durability and abrasion resistance, and is lightweight (30% lighter than PE, light enough to float on water like conventional polypropylene), waterproof and UV It is a fiber having resistance (ultraviolet rays do not pass), and its properties are displayed as it is in the fiber-modified rubber asphalt-based adhesive and the sheet reinforcing material included as components.

The asphaltium will be described later.

The xylene acts as an organic dispersion solvent that improves dispersibility, and the SBS rubber is a polymer modifier having a molecular weight of 10,000 or more and acts to have intermediate properties between rubber and plastic. It has excellent properties, cold resistance (adhesive performance is maintained even at -15 ° C) and elastic restoring power.

As a result, it has excellent adhesion between the base surface and the coating waterproof layer, heat resistance, elasticity, and crack resistance, and has excellent flexibility at low temperatures, acid resistance, and alkali resistance.

The plastic polymer rubber asphalt waterproofing agent contains 60 to 70% by weight of asphaltium, 15 to 20% by weight of petroleum hydrocarbon resin, 5 to 15% by weight of styrene-butadiene rubber and 5 to 10% by weight of heavy paraffin distillate solvent extract. It is preferable to be composed of a mixture.

The petroleum hydrocarbon resin serves to improve flow resistance at high temperature and crack resistance at low temperature. When mixed in less than 15% by weight, the modification effect by the petroleum hydrocarbon resin is insignificant, and mixed in an amount greater than 20% by weight If you do, the viscosity becomes too high, causing a problem that it is difficult to prepare the mixture.

The styrene-butadiene rubber is abbreviated as 'SBR', and refers to a synthetic rubber composed of a random copolymer of styrene and butadiene as a polymer modifier. It is prepared by radical emulsion polymerization and has excellent coating or film forming properties at room temperature. It is included to maintain the mixing bond and viscosity of the material stably even when the temperature changes, and to enhance the waterproof, antiseptic, anticorrosive, antiseptic, electrical insulation, chemical resistance, oil resistance, weather resistance, extensibility, adhesion and elasticity of the coating film. .

Among the above, the paraffin distillate solvent extract refers to a complex combination of hydrocarbons extracted in the solvent extraction process, and serves as a crosslinking agent as a mixed compatibilizer composed of aromatic hydrocarbons having carbon numbers in the range of C20 to C50. It functions to maintain the waterproofing agent in a gel state at a temperature below the softening point and to add elasticity and flexibility.

Asphaltium, which is commonly included in the fiber-modified rubber asphalt-based adhesive and the plastic polymer rubber asphalt-based waterproofing agent, is a stable mixture of bitumen-based materials and mineral components and has relatively high viscosity, so it is resistant to deformation of the surface of the concrete structure. The follow-up of the adhesive layer to the surface and the adhesive strength with the coating film waterproof layer are increased, so that the coating film waterproof layer can be firmly adhered as a central layer, and the change in physical properties due to heating at high temperature is minimized, so that the construction heating process (190 ℃ heating) to prevent deterioration in heat resistance and elasticity of the coating waterproof layer and increase resistance to load.

When asphaltium is less than 60% by weight in the plastic polymer rubber asphalt waterproofing agent, improvement of waterproofing performance, prevention of deterioration in heat resistance and elasticity of the coating film waterproofing layer due to heating at high temperature, ease of melting, etc. may not appear, When it exceeds 70% by weight, the viscosity of the waterproofing agent increases, and when the temperature is below zero, it hardens and brittle fracture occurs.

Due to this configuration, external foreign substances such as moisture or soot introduced through cracks in the packaging material due to ultraviolet light, calcium chloride, load applied by a vehicle (not shown) passing the packaging material, or contraction/expansion due to temperature change, etc. Penetration into the concrete structure can be prevented, and accordingly, the concrete structure can be prevented from being aged or corroded by the penetration of external foreign substances including moisture.

Referring to FIG. 4, the sheet reinforcing material 400 includes a longitudinal rib 410 made of a bundle of three-pronged fiber yarn; a weft wire rib 420 made of a single yarn bundle; And a binding string 430 tied to bind the radial ribs 410 and the weft ribs 420; but including a fiber grid composed of, wherein the radial ribs 410 and the weft ribs 420 intersect to form a grid However, the weft wire rib 420 sequentially passes through and crosses the lower part of the first fiber yarn bundle, the upper part of the second fiber yarn bundle, and the lower part of the third fiber yarn bundle among the three-pronged fiber yarn bundles of the longitudinal rib 410, When the weft wire rib 420 passes the upper part of the second fiber yarn bundle of the warp wire rib 410, the weft wire rib 420 forms a protruding rib protrusion (no sign) on the upper part of the warp wire rib, The binding string 430 passes through the rib protrusion (unsigned), but binds it while spirally turning the radial rib 410, and the rib protrusion (unsigned) is from the uppermost part of the bundle of the second fiber yarn of the radial rib. It may have an internal size of 3mm to 15mm in length, characterized in that it is installed with the surface on which the rib protrusion (not given a sign) is formed.

Of course, the fiber yarn bundle does not mean a bundle of fiber yarns scattered in various directions without order, but should be interpreted as a bundle of fiber yarns all aligned in one direction.

At this time, it is preferable to arrange the longitudinal ribs in parallel with the moving direction of the vehicle, and arrange the weft ribs in the vertical direction.

In the method of forming the rib protrusion, when a long rod having a predetermined thickness is placed together on the second bundle of the three-pronged fiber yarn bundles of the longitudinal ribs 410, a grid is formed, and then the rod is removed, the rib protrusion is naturally formed.

That is, in the existing fiber grid manufacturing method,

i) a process of dividing the longitudinal ribs 410 into bundles of three-pronged fiber yarn;

ii) a process of including a long rod as long as the length of the longitudinal rib in the middle bundle of the three-pronged fiber yarn bundles;

iii) Process of crossing the grid of hypotheses and then removing the bars

When this is included, rib protrusions that increase the adhesion of the asphalt are formed.

When construction is performed by applying the fiber grid containing the rib protrusions, a high reinforcing force is maintained due to a greater adhesive force in relation to the asphalt than the existing fiber grid, and thus, fatigue cracking of the asphalt due to traffic load And it has the effect of preventing the aggregate from moving in the longitudinal and transverse directions as well as preventing reflection cracking.

In addition, poor construction due to a decrease in reinforcing force is prevented in advance.

Referring to Figures 5 to 11, the coating film waterproofing method to have a three-layer coating waterproof structure (WP3L) is

A surface cleaning step (S100) of cleaning the surface of the surface to be subjected to the method to remove foreign substances by cleaning with high-pressure air and drying using a heat lancer;

An adhesive layer application and curing step (S200) of applying and curing the fiber-modified rubber asphalt-based adhesive to form a continuous film;

Applying a coating waterproofing layer to a thickness of 1.8 to 2.5 mm by indirectly heating and melting the plastic polymer rubber asphalt-based waterproofing agent at a constant temperature under a condition of 160 to 190 ° C (S300);

A sheet reinforcement installation and curing step (S400) of installing a roll-shaped sheet reinforcement material by laying the coating film waterproof layer and pressing it with a roller;

A leveling asphalt layer laying and compaction step of laying and compacting asphalt to form a leveling asphalt layer (S500);

Placing and compacting an abrasion asphalt layer by laying and compacting asphalt using a material having a high modulus of elasticity to form an abrasion asphalt layer (S600); and

It consists of; curing step (S700).

In the adhesive layer application and curing step, the fiber-modified rubber asphalt-based adhesive is applied in the axis direction at an application amount of 0.3 / m^2 using a roller, brush, etc., and the curing time is about 30 minutes at 20 ° C., and at 5 ° C. It is preferable to set it as about 1 hour 30 minutes.

In the coating film waterproof layer application step, the plastic polymer rubber asphalt-based waterproofing agent should be uniformly applied in an amount of about 2.5 kg per m2 with a thickness of 1.8 to 2.5 mm, and when applied at a temperature of less than 160 ° C. If the thickness exceeds 2.5mm, there is a possibility of consolidation, so it is desirable to avoid this during construction.

In addition, the plastic polymer rubber asphalt-based waterproofing agent must be indirectly heated (in the case of direct heating, a temperature of 300 ° C or higher may be applied, and as a result, phenomena such as rapid development of aging and decrease in viscosity of the coating film occur) Stirring using a dedicated stirrer It should be heated.

In the sheet reinforcement installation and curing step, the installation of the sheet reinforcement means that it is completely bound and positioned between the coating film waterproof layer and the wear asphalt layer, and does not necessarily have a certain thickness overall, and the plastic polymer rubber asphalt waterproofing agent It is important that the asphalt of the asphalt and the bituminous material of the asphalt as a paving material adhere to each other so that the sheet reinforcing material is firmly bound. It is desirable to reinforce

As a result, it is possible to minimize the damage of the bridge pavement due to the vehicle load and to maximize the longitudinal and transverse tensile strength and shear strength of the surface of the pavement.

The plastic polymer rubber asphalt-based waterproofing agent, which is a sample, is indirectly stirred and heated and melted while maintaining 190 ° C. The results shown in Table 1 below were obtained by using a mixture of 7% by weight of the liquid solvent extract and applied to a thickness of 2 mm.

Referring to FIG. 12, the test results for the quality of the coating waterproof layer in the three-layer coating waterproof structure constructed according to the coating waterproofing method of the present invention are shown in Table 1, and it can be seen that all of them exceed the coating specification standards. .

port neck coating standards applicant note Workability will not interfere with work clear KS F 4932 non-volatile content Within ±3% of displayed value 99.6 Touch dry time (h) within 3 0:10 Seal
Performance tensile strength unprocessed 1.5 or higher 1.72 alkali treatment More than 80% of untreated 1.58 heat treatment More than 80% of untreated 1.67 elongation unprocessed over 100 985 alkali treatment More than 80% of untreated 946 heat treatment More than 80% of untreated 896 water permeability won't be pitching not pitched Heat-resistant dimensional stability Within ±2.0 0.5 crack resistance -20℃ No cracks, tears or breaks No cracks, tears or breaks Chloride ion permeation resistance less than 100 13 indentation there will be no holes no hole fatigue resistance No cracks, tears or breaks No cracks, tears or breaks shear
adhesion
Performance Shear adhesion strength -20℃ 0.80 or higher 1.32 20℃ 0.15 or higher 0.29 Shear adhesion strain 0.5 or higher 3.1 -20℃ 20℃ 1.0 or higher 4.5 tensile adhesive strength -20℃ 1.2 or later 1.61 20℃ 0.6 or higher 0.63 low temperature flexibility -20℃ there will be no balance no cracks KS F 4917

Each layer constituting the three-layer coating waterproof structure is composed of a mixture of 46 wt% of asphaltium, 31 wt% of xylene, 15 wt% of SBS rubber, and 8 wt% of aramid fiber, and the fiber-modified rubber asphalt-based adhesive is mixed at 20 ° C. It was cured for about 30 minutes, and the plastic polymer rubber asphalt-based waterproofing agent was heated and melted by indirect stirring while maintaining 190 ° C. It was composed of a mixture of 7% by weight and 7% by weight of heavy paraffin distillate solvent extract, which was applied to a thickness of 2 mm, and was composed by binding and installing a sheet reinforcement made of aramid fibers as a fiber grid, as shown in Table 2 below. got the result

Referring to FIG. 13, the test results for the quality of the three-layer coating waterproof structure constructed according to the coating waterproofing method of the present invention are shown in Table 2 below, and it can be seen that all of them exceed the coating specification standards.

port neck coating standards applicant note Seal
Performance tensile strength
(23℃) unprocessed 4.0 or higher 7.34 KS M 3211 alkali treatment More than 80% of untreated 6.68 heat treatment More than 80% of untreated 6.90 elongation
(23℃) unprocessed 20 to 60 33 alkali treatment More than 80% of untreated 30 heat treatment More than 80% of untreated 29 tensile strength
(40℃) unprocessed 4.0 or higher 6.31 alkali treatment More than 80% of untreated 5.87 heat treatment More than 80% of untreated 5.99 elongation
(40℃) unprocessed 20 to 60 37 alkali treatment More than 80% of untreated 35 heat treatment More than 80% of untreated 32 non-volatile Within ±3% of displayed value 99.4 KS M ISO 3251 water permeability won't be pitching not pitched KS F 4931 Chloride ion permeation resistance less than 100 14 KS F 2711 indentation there will be no holes no hole KS F 4917 fatigue resistance No cracks, tears or breaks No cracks, tears or breaks low temperature flexibility -10℃ no cracks no cracks Heat-resistant dimensional stability 150℃ Within ±2.0 0.3 KS F 4931 crack resistance -10℃ No cracks, tears or breaks No cracks, tears or breaks tensile adhesive strength -10℃ 1.5 or higher 1.75 23℃ 0.8 or higher 0.86 shear
adhesion
Performance Shear adhesion strength -10℃ 1.0 or higher 1.35 23℃ 0.2 or higher 0.31 Shear adhesion strain -10℃ 0.5 or higher 2.8 23℃ 1.0 or higher 3.7 Tensile adhesive strength after 7 days of soaking 23℃ More than 70% before immersion 0.67 fatigue crack test -10℃ No cracks, tears or breaks No cracks, tears or breaks

The present invention has the following effects.

(1) The present invention provides a coating film waterproof structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure, but preventing moisture from penetrating and dissipating the moisture moved to the lower part to the outside through the paving material. In order to do this, the concrete structure and the coating film waterproof layer must be firmly bonded, and a sheet reinforcing material is installed to withstand external forces such as the load applied to the packaging material to prevent cracks in the coating film waterproof layer. Adhesive layer, coating waterproof layer, and sheet reinforcement Provides a coating film waterproof structure composed of 3 layers composed of

(2) The present invention provides a coating film waterproofing method that facilitates the construction and utilization of a coating film waterproof structure composed of three layers.

(3) By using eco-friendly recycled yarn for the sheet reinforcing material of the present invention, it contributes to ESG management, which is emerging as a keyword that determines the success or failure of a country and the capital market beyond individual companies.

WP3L: 3-layer coating waterproof structure 100: floor slab
200: adhesive layer 300: coating film waterproof layer
400: sheet reinforcement 410: longitudinal rib
420: weft rib 430: binding string
500: leveling asphalt layer
600: wear asphalt layer

Claims (5)

In the coating film waterproof structure provided between a concrete structure requiring waterproofing and a paving material installed on the concrete structure,
The coating film waterproof structure
An adhesive layer made of a fiber-modified rubber asphalt-based adhesive applied to the entire surface with an even thickness while in contact with the upper portion of the concrete structure;
A coating film waterproof layer applied while contacting the adhesive layer while melting the plastic polymer rubber asphalt-based waterproofing agent; and
It is installed while being in close contact with the surface of the coating film waterproof layer, and at least one fiber selected from the group consisting of regenerated polypropylene fiber, carbon fiber, aramid fiber, acrylic fiber, polyamide fiber, regenerated polyester fiber, dyneema fiber, and basalt fiber It consists of a; sheet reinforcement including a fiber grid made of a material,
The plastic polymer rubber asphalt waterproofing agent contains 60 to 70% by weight of asphaltium, 15 to 20% by weight of petroleum hydrocarbon resin, 5 to 15% by weight of styrene-butadiene rubber and 5 to 10% by weight of heavy paraffin distillate solvent extract. A three-layer coating film waterproof structure characterized by being mixed and composed. The method of claim 1,
The fiber-modified rubber asphalt-based adhesive is composed of a mixture of 44 to 48% by weight of asphaltium, 27 to 34% by weight of xylene, 12 to 18% by weight of SBS rubber, and 6 to 11% by weight of reinforcing fibers,
The reinforcing fibers may be composed of one or more fibers selected from aramid fibers, polyamide fibers, basalt fibers, regenerated polyester fibers, and regenerated polypropylene fibers. The method of claim 1,
The sheet reinforcing material includes a longitudinal rib made of a bundle of three-pronged fiber yarn; a weft rib made of a single yarn bundle; And a binding string bundled to bind the longitudinal ribs and the weft ribs; including a fiber grid composed of;
The longitudinal ribs and the weft ribs cross to have a grid shape, and the weft ribs are the lower part of the first fiber yarn bundle, the upper part of the second fiber yarn bundle, and the lower part of the third fiber yarn bundle among the three-pronged fiber yarn bundles of the radial ribs. Crossing through the boulevard, and when the weft wire rib passes the upper part of the second fiber yarn bundle of the warp wire rib, the weft wire rib forms a rib protrusion in the form of a protrusion at the top of the warp wire rib, and the binding string passes through the rib protrusion, The rib protrusion may have an internal size of 3 mm to 15 mm in length from the top of the bundle of the second fiber yarn of the radial rib, but the rib protrusion is installed with the side on which the rib protrusion is formed. 3, characterized in that Layer coating waterproof structure. In the coating film waterproofing method to have the three-layer coating waterproof structure of any one of claims 1 to 3,
Cleaning the surface of the surface to be subjected to the method by cleaning with high-pressure air to remove foreign substances and drying using a heat lancer;
an adhesive layer application and curing step of applying and curing the fiber-modified rubber asphalt-based adhesive to form a continuous film;
Applying a coating waterproofing layer to a thickness of 1.8 to 2.5 mm by indirectly heating and melting the plastic polymer rubber asphalt-based waterproofing agent at a constant temperature under a condition of 160 to 190 ° C;
A sheet reinforcement installation and curing step of laying a roll-shaped sheet reinforcement on top of the coating film waterproof layer and pressing it with a roller;
A leveling asphalt layer laying and compaction step of laying and compacting asphalt to form a leveling asphalt layer;
Placing and compacting the worn asphalt layer by laying and compacting asphalt using a material having a high modulus of elasticity to form a worn asphalt layer; and
Curing step; coating film waterproof method characterized in that consisting of. delete

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