KR101293947B1 - Process improving an adhesion performance between vibration preventing material and concrete - Google Patents

Abstract

The present invention relates to a construction method of the wall dustproof material, according to an embodiment of the present invention in the method for improving the adhesion performance of the dustproof material and concrete in the gas-producing wall, the dustproof material is molded from a foamed polyurethane material, one side Is made of a flat surface to be glued to the wall or earthen panel with an adhesive, and on the other side formed a plurality of grid surface (格子) in the state in which the portion where the grid surface is installed toward the space where concrete is to be placed Provided is a method for improving the adhesion performance of the anti-vibration material and concrete, characterized in that the curing after the concrete is integrated.
In addition, according to another aspect of the present invention in the construction method to improve the adhesion performance of the dustproof material and concrete by placing the dustproof material in the center and placing concrete on both sides of the dustproof material, the dustproof material is molded in a foamed polyurethane material on both sides To form a grid surface of the surface, the one side which is in contact with the side wall of the wall is made of an elastic layer with good vibration absorption force, the other side is made of a protective layer so as not to interfere with the reinforcing bar reinforcement, Provided is a method for improving the adhesion performance of the anti-vibration material and concrete, characterized in that the curing is integrated after pouring concrete on both sides.

Description

PROCESS IMPROVING AN ADHESION PERFORMANCE BETWEEN VIBRATION PREVENTING MATERIAL AND CONCRETE}

The present invention relates to a construction method of the wall dustproof material, and more particularly to a method for improving the adhesion performance of the dustproof material and concrete during the construction of the dust-proof concrete.

The subway construction method can be divided into a detachable method and a tunnel method, and the temporary facility design used for the detachable method is a soil facility. It includes the design of temporary staging, which is a temporary facility that collectively refers to the rehabilitation facilities.

Recently, the underground continuous construction method has been in the spotlight among the above-described mounting methods. The underground continuous wall method is a method of forming a structure underground. When excavating the ground using Clamshell, Hydro Mill, it fills the excavation part with the stabilizer (Bentonite) and excavates the ground. It is a method of forming.

The underground continuous construction method was used as a simple order wall or temporary earth wall in the early stage of development. However, due to advances in technology, development of construction methods and equipment, it is possible to maximize the land utilization rate in recent years. Due to the advantage of being able to form the city has been in the spotlight as a permanent wall construction method of underground structures underground.

The above-described underground continuous wall has a limit in sufficiently reducing vibration transmitted through the ground. Therefore, when there is a vibration source that causes frequent vibration in the surroundings, for example, in a building such as a subway, it is necessary to construct a separate dustproof wall to sufficiently reduce the vibration transmitted through the ground generated from the vibration source. However, in order to construct a separate dustproof wall, a wider working space and installation space must be secured, and the construction period is increased, as well as the construction cost is significantly increased.

Prior art for solving the above problems is disclosed in Korean Patent Laid-Open Publication No. 2009-36746 (2009.04.15) "Vibration barrier using underground continuous wall and its construction method" filed by the present applicant. The prior art is to reduce the vibration transmitted to the building, the dust-proof wall is a vibration-resistant material made of a synthetic resin material to reduce the vibration transmitted through the ground attached to the wall of the underground continuous wall and the underground continuous wall The construction method comprises the steps of weaving and assembling the reinforcing bar network of the basement continuous wall, mounting the plate on one side of the assembled reinforcing bar network, and reducing the vibration transmitted through the ground to the surface of the plate Attaching the dustproof material of synthetic resin material, and inserting the rebar network assembly equipped with the dustproof material in the trench and placing the concrete.

The prior art does not require a separate process or installation space for the construction of the anti-vibration wall because it does not need to separately install the anti-vibration wall to reduce the vibration transmitted through the underground, so the construction period and construction cost can be significantly reduced. There is this. However, when the concrete is poured, the contact surface between the concrete and the dustproof material is slippery, which results in a poor adhesion performance.

The present invention has been made to solve the problems as described above, one embodiment of the present invention relates to a method for improving the adhesion performance of the anti-vibration material and concrete during the construction of dust-proof concrete.

In a preferred embodiment of the present invention in the method for improving the adhesion performance of the dust-proof material and concrete in the gas-producing wall, the dust-proof material is molded from a foamed polyurethane material, one side is made of a flat surface to the wall or earth film panel It is to be bonded with an adhesive, and on the other side formed a plurality of grid surface (格子) characterized in that the part formed with the grid surface is installed in the state where the concrete is placed in the space where the concrete is to be poured after curing and integrated Provides a method for improving the adhesion performance of dustproof material and concrete.

In addition, a preferred embodiment of the present invention is a method for improving the adhesion performance of the dustproof material and concrete by placing the dustproof material in the center and placing concrete on both sides of the dustproof material, wherein the dustproof material is formed of a foamed polyurethane material on both sides To form a grid surface of the gasket, one side which is in contact with the wall side wall is made of an elastic layer with good vibration absorption force, the other side is made of a protective layer so as not to interfere with the reinforcement mesh insertion, Provides a method of improving the adhesion performance of the anti-vibration material and concrete, characterized in that the curing is integrated after pouring concrete on both sides.

According to one embodiment of the present invention as described above can provide a method for improving the adhesion performance of the anti-vibration material and concrete that can improve the work efficiency by improving the adhesion performance of the anti-vibration material and concrete by a simple method.

1 is a perspective view showing a dustproof material employed in the method for improving the adhesion performance of the dustproof material and concrete according to an embodiment of the present invention,
2 is a state diagram used in the construction method using the dustproof material shown in FIG.
3 is a perspective view showing a modified embodiment of the dustproof material shown in FIG.
Figure 4 is a state of use of the construction method using the dustproof material shown in Figure 3,
5 is a perspective view showing another modified embodiment of the dustproof material shown in FIG.

1 is a perspective view showing a dustproof material employed in the method for improving the adhesion performance of the dustproof material and concrete according to an embodiment of the present invention, Figure 2 is a state diagram of the method using the dustproof material shown in FIG.

Method for improving the adhesion performance of the anti-vibration material and concrete according to a preferred embodiment of the present invention, as shown in Figure 1, one side is formed with a flat surface 10 and the other side includes a dustproof material (1) formed in a grid type.

The grid type preferably indicates that a plurality of grid surfaces 20 which are bent and protruded at a predetermined interval are formed as shown in FIG. 1.

The dustproof material 1 is attached to the wall using the adhesive 30 on the flat surface 10 in contact with the wall 400 when using the existing wall 400, as shown in Figure 2a The portion where the grid surface 20 is formed is directed to the space where the concrete C is to be placed, and the concrete C is poured into the space and cured so that the contact force is improved, unlike the conventional flat surface 10. There is an advantage that the adhesion performance of (1) and the concrete is improved.

On the other hand, when using the dustproof material (1) as shown in Figure 2b as the panel panel (P), the part where the flat surface (10) of the earthquake panel (P) and the dustproof material 1 is preferably in contact with the A portion bonded to the adhesive 30 and formed with the grid surface 20 may be installed to face the wall 40.

The dustproof material 1 is preferably formed of a foamed polyurethane material so that vibration can be absorbed well.

Figure 3 is a perspective view showing a modified embodiment of the dustproof material shown in Figure 1, Figure 4 is a state diagram used in the construction method using the dustproof material shown in FIG.

Unlike the dustproof material 1 shown in FIG. 1, the dustproof material 100 illustrated in FIG. 3 has a grid surface 100 ′ formed on both sides instead of one side thereof, and the dustproof material 100 has a trench (as shown in FIG. 4). Located in the center of the 500 and the concrete is placed on both sides of the dustproof material 100, there is a difference in improving the adhesion performance of the dustproof material 100 and concrete.

FIG. 5 is a perspective view showing another modified embodiment of the dustproof material shown in FIG. 1, wherein the dustproof material 200 has an elastic layer 210 having good vibration absorption and a protective layer 220 protecting the elastic layer 210. It consists of. In this case, the dustproof material 200 is formed to be substantially the same as or slightly smaller than the width of the trench 500 to be easily deformed even if it touches the sidewall of the trench 500 so as not to interfere with the insertion of the rebar network 300. It is preferable to be.

As the present invention can be variously modified by those skilled in the art without departing from the scope of the claims, the technical protection scope of the present invention is not limited to the specific preferred embodiments described above. Do not.

1,100,200: dustproof material 10: flat surface
20,100 ': grid side 30: adhesive
210: elastic layer
220: protective layer 300: rebar network
400: wall 500: trench
C: Concrete P: Clap Panel

Claims (2)

In the method of improving the adhesion performance of the dustproof material and concrete in the pre-formed wall,
The anti-vibration material 1 is formed of a foamed polyurethane material, but one side is made of a flat surface (10) to adhere to the wall or earth film panel (P) with an adhesive (30), a plurality of grid surfaces on the other side (格子; 20) to improve the adhesion performance of the anti-vibration material and concrete, characterized in that the grid surface (20) is formed so that the portion is formed toward the space where the concrete is to be cast and cured after the concrete is integrated Letting method.
In the method of placing the dustproof material in the center and placing concrete on both sides of the dustproof material to improve the adhesion performance of the dustproof material and concrete,
The dustproof material 100, 200 is formed of a foamed polyurethane material, while forming a plurality of grid surfaces (G, 20, 100 ') on both sides, one side that is in contact with the wall side wall is an elastic layer 210 having good vibration absorption force It is made of, the other side is made of a protective layer 220 so as not to interfere with the insertion of the reinforcing bar (300), after the concrete is placed on both sides of the anti-vibration material 100, 200 produced by curing and integrated Method to improve adhesion performance of dustproof material and concrete.

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