KR102072273B1 - Construction Method of Water Proof Sheet Having Elasticity - Google Patents

Abstract

The present invention relates to a waterproof membrane construction method having an elasticity, the waterproof membrane construction method having an elasticity according to an embodiment of the present invention is applied to the top surface waterproofing waterproofing to the concrete surface to waterproof the construction structure Constructing the undercoat layer; Constructing a first intermediate waterproofing layer by first applying an intermediate waterproofing agent to an upper portion of the lower waterproofing layer and then applying a moderate waterproofing agent to an upper portion of the waterproofing layer; Constructing a mesh sheet for installing a mesh sheet of a mesh type on top of the first middle waterproof layer; Constructing a silica mixed layer on the first intermediate waterproof layer in a state in which the mesh sheet is embedded by applying a silica blend mixed with a middle waterproofing agent and silica in an upward direction in the inside of the mesh sheet; Constructing a second intermediate waterproofing layer by applying a secondary waterproofing agent to the upper portion of the silica sand mixture layer; And applying a top coat waterproofing agent to waterproof the top coat on the second middle coat waterproofing layer to finish the construction by constructing the top coat waterproofing layer.

Description

Construction Method of Water Proof Sheet Having Elasticity

The present invention relates to a waterproof membrane construction method having elasticity, and more particularly, to improve the method of construction on the concrete surface for waterproofing the roof of the building structure or the upper part of the parking lot to improve the bonding strength of the coating film, strengthening the strength and lifespan It relates to a waterproof membrane construction method having an elasticity to increase.

In general, in the external waterproof construction of roof slabs and underground structures, waterproofing methods using liquid waterproofing, infiltration waterproofing, asphalt waterproofing, sheet waterproofing, and elastic film waterproofing alone or in parallel with each other have been used.

For liquid and penetration waterproofing, apply or penetrate cement waterproofing on concrete, mortar and other matrix surfaces, and apply mortar mixed with waterproofing agent to water-tightize the mother or mix the waterproofing agent on cement or mortar concrete and apply it on the back of the mother. It is a method of preventing the penetration of water by watertightening. This method is suitable for small construction sites and short cross sections. However, in large structures and spans, if a crack occurs in the structure, the waterproofing layer is also destroyed, and only highly skilled workers should rely on it. There is a problem.

Asphalt waterproofing is a method of laminating felt and roofing waterproof asphalt used in melting kiln (melting temperature of about 260 ℃), and it has excellent waterproofing effect due to its thick waterproof layer, but it has to be heated during operation and sensitive to temperature changes. There is a disadvantage in that the construction period is long, and it is not preferable because the waterproof effect cannot be expected when a crack occurs in the structure.

Sheet waterproofing is divided into synthetic rubber sheet waterproofing method and synthetic resin sheet waterproofing method according to the type of material used. Adhesive and watertightness of the joint area where the sheet overlaps with the sheet is not stable. Adhesion and water resistance to the primer is weak.

After construction, there is a disadvantage that the corner edge portion is bursting or voids due to shrinkage of the sheet, which tends to float.

Coating waterproofing can be divided into urethane rubber, acrylic rubber, acrylic resin, and rubberized asphalt, depending on the type of material used. It is a method of finishing liquid materials using rollers or brushes. This method has the advantage of some flexibility to cope with the crack of the structure and simple work process, while the disadvantage of not being able to withstand when the degree of cracking is large.

The above methods have the disadvantages as described above, the defects are likely to occur due to the limitations of the physical properties of the waterproofing material itself after construction, and if the crack occurs more than 2 to 3 mm due to the imbalance of the building itself, Beyond the limits of elasticity, the end result is the destruction of the sheet or the waterproofing layer. Therefore, while a structure made of concrete such as reinforced concrete or autoclaved lightweight concrete (ALC) is present, repairs are repeatedly made by defects. 'S work has to remove all the existing waterproof layer, and thus the increase of working time and cost, as well as the disposal of construction wastes that occur is serious situation. In general, construction waste must be landfilled at a designated place, which incurs huge transportation and disposal costs, and in the case of illegal landfilling, increases the destruction and pollution of the environment.

In addition, in the case of repair work on the existing waterproof layer without new construction or dismantling, it is possible to use the method of applying the primer and bonding the sheet after leveling the base surface. In this case, the primer coating layer is also broken together, and the moisture penetrates into the entire waterproof layer. Therefore, when the sheet is rolled, it is easy to see the phenomenon of walking as if it is a sheet of paper with a weakness of comprehensive adhesive force. In order to expect the waterproofing effect of the primer layer and the coating waterproof layer, it resists external weather and physical shocks, and the waterproofing occurs repeatedly. There is a need for the development of a waterproof sheet and a waterproof method for minimizing defects.

The present invention has been made to solve the above-described problems, the object of the present invention is to form a waterproof coating on the upper surface of the concrete surface to be waterproofed of the building structure, applying a medium urethane waterproofing agent mixed with silica sand to the mesh sheet It is provided between a bottom urethane and a top urethane coating film to improve the waterproof performance, to improve the bonding strength of the coating film provided in a plurality of layers, to provide a waterproof film construction method having an elasticity to increase the strength to increase the life .

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood from the following description.

In order to achieve the above object, the present invention is an elastic waterproof film construction method according to an embodiment of the present invention is to apply a waterproofing agent to the upper surface waterproofing on the concrete surface for waterproofing the building structure to construct a waterproofing layer step; Constructing a first intermediate waterproofing layer by first applying an intermediate waterproofing agent to an upper portion of the lower waterproofing layer and then applying a moderate waterproofing agent to an upper portion of the waterproofing layer; Constructing a mesh sheet for installing a mesh sheet of a mesh type on top of the first middle waterproof layer; Constructing a silica mixed layer on the first intermediate waterproof layer in a state in which the mesh sheet is embedded by applying a silica blend mixed with a middle waterproofing agent and silica in an upward direction in the inside of the mesh sheet; Constructing a second intermediate waterproofing layer by applying a secondary waterproofing agent to the upper portion of the silica sand mixture layer; And applying a top coat waterproofing agent to waterproof the top coat on the second middle coat waterproofing layer to finish the construction by constructing the top coat waterproofing layer.

In addition, in the step of constructing the silica sand mixture layer, the silica sand mixture is mixed with the mixing ratio of the intermediate waterproofing agent and the silica sand in a 7: 3 to apply in the upper direction in the inside of the mesh sheet in the state of the mesh sheet It may be provided to be applied to the silica sand mixture layer on the first intermediate waterproof layer.

Specific details for achieving the above object will be apparent with reference to the embodiments described below in detail with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be configured in various forms, and the present embodiments are intended to complete the disclosure of the present invention and to provide general knowledge in the technical field to which the present invention belongs. It is provided to fully inform those who have the scope of the invention.

According to one of the problem solving means of the present invention described above, the waterproof membrane construction method having an elasticity according to an embodiment of the present invention in forming a waterproof coating on top of the concrete surface on which the waterproofing of the building structure is carried out, silica sand mixed The intermediate urethane waterproofing agent is applied to the mesh sheet to be provided between the lowering urethane agent and the upper urethane coating film to improve the waterproofing performance, and improve the bonding strength of the coating film provided in the plural layers, and enhance the strength to increase the service life. to provide.

In addition, the waterproof membrane construction method according to an embodiment of the present invention has a mesh-type having a plurality of through-holes between the double intermediate waterproof layer on the upper part of the waterproofing layer which is a waterproof coating on the concrete surface to be waterproofed The mesh sheet is inherent, and the silica sheet mixture in which the silica sheet is mixed with the intermediate waterproofing agent is installed in the mesh sheet to provide the effect of improving the binding strength of the coating film while improving the binding strength of the coating film through the porous silica mixture.

In addition, the waterproof membrane construction method according to an embodiment of the present invention comprises a double middle waterproof layer and a top waterproof layer embedded with a bottom waterproof layer and a mesh sheet, the silica sheet is included between the double middle waterproof layer embedded with a mesh sheet. It is possible to protect the external impact by improving the thermal insulation performance while improving the waterproofing performance by thickening the coating layer that is integrated and improves the strength by increasing the adhesive strength while improving the strength by improving the strength by constructing the mixed silica sand layer. It provides an effect to reduce the incidence of cracking of the face.

1 is a process chart showing a waterproof film construction method having elasticity according to an embodiment of the present invention.
2 is a configuration diagram showing a waterproof film construction method having the elasticity of FIG.

The present invention may be modified in various ways and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In the following description of the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, numerals (eg, first, second, etc.) used in the description of the present specification are merely identification symbols for distinguishing one component from another component.

In addition, in the present specification, when one component is referred to as "connected" or "connected" with another component, the one component may be directly connected or directly connected to the other component, but in particular It is to be understood that unless otherwise indicated, there may be connected or connected via another component in the middle.

The suffixes "module" and "unit" for components used in the following description are given or mixed in consideration of ease of specification, and do not have distinct meanings or roles. In addition, in order to clearly describe the present invention, parts irrelevant to the description are omitted in the drawings, and the width, length, thickness, etc. of the components in the drawings may be exaggerated for convenience. Like reference numerals denote like elements throughout the specification.

Hereinafter, with reference to the accompanying drawings to describe the specific content for the practice of the present invention.

1 is a process chart showing a waterproof film construction method having elasticity according to an embodiment of the present invention, Figure 2 is a block diagram showing a waterproof film construction method having an elasticity of FIG.

1 and 2, the waterproof membrane construction method according to an embodiment of the present invention is a conventional method for waterproofing by forming a plurality of coating layers on the concrete surface of the roof slab and underground structure. .

Such, the waterproof membrane construction method has a waterproofing layer construction step (S10), the first intermediate waterproof layer construction step (S20), the mesh sheet construction step (S30), the silica sand mixed layer construction step (S40), the second intermediate waterproof layer construction step (S50), the top waterproof layer construction step (S60), and the construction completion step (S70).

Underwater waterproofing construction step (S10) is a step of applying a water repellent waterproofing to the upper surface to the concrete surface 10 for waterproofing the building structure to construct the waterproofing layer 110.

First, while filling the grooves or cracks generated in the concrete surface 10 in the state of removing the foreign matter of the concrete surface 10 to be waterproof construction, the water-repellent agent absorbed by the concrete surface 10 to the concrete surface 10 It is a step of applying the undercoat waterproof layer 110 by applying.

Here, the waterproofing agent is provided in the form of a conductor formed with a coating film mixed with various materials capable of filling the grooves or cracks formed in the concrete while being absorbed into concrete in a urethane material having excellent waterproofing performance, the paint material is commonly used Detailed description is omitted accordingly.

The first intermediate waterproofing layer construction step (S20) is a step of constructing the first intermediate waterproofing layer 120 by first applying the intermediate waterproofing agent to the upper portion of the lower waterproofing layer 110 by applying the intermediate waterproofing agent to the upper portion of the lower waterproofing layer 110. .

That is, after the construction of the waterproofing layer 110, the waterproofing agent is first applied to the upper portion of the waterproofing layer 110, and the intermediate waterproofing agent for adhering the mesh sheet 130 to be constructed afterwards is improved while improving the adhesion efficiency with the waterproofing layer 110. The first intermediate waterproofing layer 120 is constructed.

Here, the intermediate waterproofing agent is provided in the form of a conductor formed with a coating film is mixed with various materials to improve the adhesion performance of the waterproofing layer 110 and the mesh sheet 130 located on the upper urethane material having excellent waterproof performance, Detailed descriptions will be omitted as the paint material used is used.

Mesh sheet construction step (S30) is a step of constructing the mesh sheet 130 to install the mesh sheet 130 of the mesh type on the upper portion of the first waterproof layer 120.

That is, the first intermediate waterproof layer 120 is inserted into each through hole by installing a mesh-type mesh sheet 130 so that a plurality of through holes are formed while joining the first intermediate waterproof layer 120 after the construction of the first waterproof layer 120. By directly contacting the inside of the hole with the silica sand mixture layer 140 to be described later, the mesh sheet 130 becomes a medium to be bonded to each other integrally to improve the bonding strength to prevent lifting.

Silica mixed layer construction step (S40) is the upper portion of the first intermediate waterproof layer 120 in the state that the mesh sheet 130 is embedded by applying a silica mixture mixed with a mid-water waterproofing agent and silica in the upper direction in the inside of the mesh sheet 130 In the step of constructing the silica sand mixture layer 140.

That is, after the mesh sheet 130 is installed, the silica sand mixture mixed with the silica sand and the middle waterproof agent is applied to the upper direction from the mesh-shaped through hole, and the first middle waterproof layer 120 and the mesh sheet 130 are installed while being bonded to each other. A step of constructing the silica mixed layer 140 embedded in the mesh sheet 130.

Here, the silica sand mixture is mixed in the mixing ratio of the middle water-repellent agent and the silica sand 7: 3 and applied in the upper direction in the inside of the mesh sheet 130, the upper portion of the first middle water-resistant layer 120 in the state embedded in the mesh sheet 130 It is provided to be applied in order to construct the silica sand mixture layer 140. This, the silica sand mixture layer 140 may be provided to increase the strength while combining the first intermediate waterproof layer 120 and the second intermediate waterproof layer 150 integrally while the mixed silica sand is cured.

Here, when the ratio of silica sand exceeds 3, the water repellent content in the silica sand mixture is lowered, thereby deteriorating the waterproofing performance and the adhesion performance, and thus, the silica sand is not integrally bonded with the mesh sheet 130. When it is less than 3, it is preferable to mix at the ratio of 3, as the strengthening effect of strength falls.

The second intermediate waterproofing layer construction step (S50) is a step of constructing the second intermediate waterproofing layer 150 by applying a secondary waterproofing agent to the upper portion of the silica sand mixture layer 140.

That is, after the construction of the silica sand mixture layer 140 is applied to the upper half of the silica sand mixture layer 140 is bonded to the upper portion of the silica sand mixture layer 140 and combined with the silica sand mixture layer 140 and combined with the top waterproof layer 160 to be described later. The second intermediate waterproofing layer 150 is constructed to be possible.

Top coat waterproof layer construction step (S60) is a step of constructing a top coat waterproof layer 160 by applying a top coat waterproofing agent to the top waterproofing on the second middle waterproof layer 150.

That is, after constructing the second middle waterproof layer 150, the upper waterproof layer is coated by applying a top waterproofing agent including a material to protect the surface while being bonded to protect the second middle waterproof layer 150 to the upper portion of the second middle waterproof layer 150. 160 is a step of construction.

Here, the top coat waterproofing agent is formed on top of the second middle waterproofing layer 150 in a urethane material having excellent performance, and is combined with the second middle waterproofing layer 150 to form a coating film mixed with various materials for improving strength to withstand external impacts. To be provided in the form of a conductor to be used, a detailed description thereof will be omitted as a conventionally used paint material is used.

Construction completion step (S70) after finishing the construction of the top waterproof layer 160 by applying a coating on the top of the top waterproof layer 160 to the coating layer 170 to coat the top surface of the top waterproof layer 160 to the surface treatment It is the stage to finish construction.

That is, after the top coat waterproof layer 160 is applied to the upper surface of the top coat waterproof layer 160 by applying a coating for the surface treatment to construct a coating layer 170 to protect the top coat waterproof layer 160 during the movement of vehicles and people When you finish the waterproof membrane construction having elasticity.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

<Description of the symbols for the main parts of the drawings>
100: waterproof film 110: undercoat waterproof layer
120: first intermediate waterproof layer 130: mesh sheet
140: silica sand mixed layer 150: the second intermediate waterproof layer
160: top waterproof layer 170: coating layer

Claims (2)

Constructing a waterproofing layer by applying a waterproofing agent to the upper surface waterproofing on the concrete surface for waterproofing the building structure;
Constructing a first intermediate waterproofing layer by first applying an intermediate waterproofing agent to the upper portion of the waterproofing layer and then applying the intermediate waterproofing agent to the upper portion of the waterproofing layer;
Constructing a mesh sheet for installing a mesh sheet of a mesh type on top of the first middle waterproof layer;
Applying the silica blend to improve the adhesion performance by mixing the middle waterproofing agent and the silica sand in the upper direction in the inside of the mesh sheet is inserted into a plurality of through holes of the mesh sheet and bonded in a state of being in direct contact with the first intermediate waterproof layer Constructing a silica sand mixture layer on top of the first intermediate waterproof layer to improve strength;
Constructing a second intermediate waterproofing layer to apply a secondary waterproofing agent on the upper portion of the silica sand mixing layer to be in direct contact with the silica sand mixing layer inserted into the through hole of the mesh sheet to improve bonding strength;
Constructing a top coat waterproofing layer to coat the top coat waterproofing layer by applying a top coat waterproofing agent to the top of the second middle coat waterproofing layer; And
After finishing the construction of the top waterproofing layer by applying a coating on the top of the top waterproofing layer to coat the top surface of the top waterproofing layer to perform a surface treatment to finish the construction;
The first intermediate waterproofing layer and the second intermediate waterproofing layer are bonded to each other through direct contact with the silica sand mixture layer through the through-holes of the mesh sheet, so that the first intermediate waterproofing layer and the second intermediate waterproofing layer are connected to each other through the mesh sheet. Bonded together so as to be integrated into the mixed layer
Waterproof membrane construction method having elasticity.
The method of claim 1,
In the step of constructing the silica sand mixture layer,
The silica sand mixture is mixed with the mixing ratio of the intermediate waterproofing agent and the silica in a 7: 3 to apply in the upper direction from the inside of the mesh sheet to the upper portion of the silica sand mixture layer on the first intermediate waterproof layer in the state embedded in the mesh sheet Equipped to be applied for construction
Waterproof membrane construction method having elasticity.

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