KR101884607B1 - Concrete wall structure for shielding electromagnetic wave - Google Patents

Abstract

A concrete wall structure for electromagnetic shielding is disclosed. According to another aspect of the present invention, there is provided a concrete wall structure for shielding electromagnetic waves, comprising: a concrete wall; And a steel permanent mold which is used as a mold for casting the concrete to form the concrete wall, and is provided as a structure for shielding electromagnetic waves in a state of being connected to the concrete wall without being disassembled even after the curing of the concrete is completed. According to the present invention, it is possible to greatly improve the electromagnetic wave shielding performance of the stretched concrete wall and the installed concrete wall, and the construction cost can be reduced in comparison with the technique of conventionally constructing the electromagnetic wave shielding structure separately from the concrete wall.

Description

TECHNICAL FIELD [0001] The present invention relates to a concrete wall structure for electromagnetic wave shielding,

The present invention relates to a concrete wall structure, and more particularly, to a concrete wall structure capable of shielding electromagnetic waves.

In recent years, nuclear weapons have been developed not for the purpose of damaging existing heat, storms, and radiation but for the purpose of disabling electronic devices by generating high-altitude electromagnetic pulses (HEMP). In fact, when high-altitude electromagnetic pulses (HEMP) occur, it is possible to paralyze national infrastructure facilities such as power grid, communication network, and the like, as well as electronic equipment over a radius of several hundred km at a moment and cause fatal damage.

Conventional high-altitude electromagnetic pulse (HEMP) shielding facilities for military purposes use shielding plates of metal plates, such as galvanized plates, copper plates and steel plates, which are known to have excellent electromagnetic shielding performance. However, when a shielding plate using a metal plate such as a zinc-plated plate, a copper plate, or a steel plate is used, there is a possibility that electromagnetic waves may flow into the assembly site of the welding or bolt after processing. In addition, since galvanized plates, copper plates, steel plates and the like are expensive to manufacture, the construction cost of the shielding facility is increased.

Accordingly, there is a need to develop a shielding method and a shielding material for shielding electromagnetic waves on a concrete member such as a wall of a structure so that national facilities such as electronic equipment, a power network, and a communication network are not damaged when high altitude electromagnetic pulse (HEMP) is generated.

The present applicant has proposed the present invention in order to solve the above problems, and as a prior art document related thereto, Korean Patent Registration No. 10-0943721 (entitled "Electromagnetic wave shielding concrete member using metal foil" , Registered Date: Feb. 16, 2010).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a concrete wall structure capable of significantly improving electromagnetic shielding performance of a stretched concrete wall and a pre-installed concrete wall.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

The above object is achieved according to the invention by a concrete wall; And a steel permanent mold used as a mold for casting the concrete to form the concrete wall and provided as a structure for shielding the electromagnetic wave in a state of being coupled with the concrete wall without being disassembled even after the curing of the concrete is completed, Concrete wall construction for shielding is achieved.

Preferably, a material containing a metal component is mixed into the concrete for shielding electromagnetic waves, and a binding part for increasing the strength of the concrete to the concrete wall during the curing of the concrete may be provided on the inner surface of the permanent material.

Preferably, the electromagnetic wave shielding concrete wall structure further includes a metal thermal spray coating formed on the outer surface of the steel permanent mold by a metal spraying method to shield electromagnetic waves.

Preferably, the electromagnetic wave shielding concrete wall structure further comprises an electromagnetic wave shielding layer formed by applying a plaster mixed with metal powder to the outer surface of the steel permanent mold.

Preferably, the concrete wall structure for shielding electromagnetic waves further includes a metal thermal spray coating formed on the outer surface of the electromagnetic shielding layer by a metal spraying method to shield electromagnetic waves.

Further, the object is achieved according to the invention by a concrete wall; An electromagnetic wave shielding layer formed by coating an outer surface of the concrete wall with a plaster mixed with metal powder; And a metal thermal spray coating formed on the outer surface of the electromagnetic wave shielding layer by a metal spraying method to shield the electromagnetic wave.

Preferably, the plaster may be prepared by blending cement, sand, metal powder and polymer fibers with water.

Preferably, the metal powder may be provided in a granular form in which each grain is formed into a rugged irregular surface.

Further, the object is achieved according to the invention by a concrete wall; A metal plate coupled to the concrete wall and covering an outer surface of the concrete wall to shield electromagnetic waves; And a metal thermal spray coating formed on the outer surface of the metal plate by a metal spraying method to shield electromagnetic waves.

Preferably, the electromagnetic wave shielding concrete wall structure further comprises an electromagnetic wave shielding layer formed by applying a plaster mixed with metal powder to the outer surface of the concrete wall, Respectively.

The present invention can be applied to an electromechanical device using an electromagnetic wave shielding layer formed of a plaster material mixed with a steel permanent formwork, a metal thermal spray coating and a metal powder on a stretch concrete wall, or a metal plate, a metal thermal spray coating, By applying a stepwise electromagnetic wave shielding structure to a concrete wall by applying an electromagnetic wave shielding layer formed as a ash, it is possible to remarkably improve the electromagnetic wave shielding performance of a stretched concrete wall and a previously installed concrete wall. In addition to the conventional electromagnetic wave shielding The construction cost can be reduced in comparison with the technique of constructing the structure.

1 to 6 are views showing a concrete wall structure for shielding electromagnetic waves according to embodiments of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

The drawings are schematic and illustrate that they are not drawn to scale. The relative dimensions and ratios of the parts in the figures are shown exaggerated or reduced in size for clarity and convenience in the figures, and any dimensions are merely illustrative and not restrictive. And to the same structure, element or component appearing in more than one drawing, the same reference numerals are used to denote similar features.

The embodiments of the present invention specifically illustrate ideal embodiments of the present invention. As a result, various variations of the drawings are expected. Thus, the embodiment is not limited to any particular form of the depicted area, but includes modifications of the form, for example, by manufacture.

Hereinafter, a concrete wall structure for shielding electromagnetic waves according to embodiments of the present invention will be described with reference to the accompanying drawings.

First, referring to FIG. 1, a concrete wall structure 100 (hereinafter, referred to as 'concrete wall structure') for shielding electromagnetic waves according to a first embodiment of the present invention will be described.

As shown in FIG. 1, the concrete wall structure 100 according to the first embodiment of the present invention is used as a formwork for forming the concrete wall 110 and the concrete wall 110, And a steel permanent mold 120 that is joined to the concrete wall 110 without being joined.

The concrete wall body 110 is formed by pouring concrete. Here, the concrete wall 110 is used to mean a panel that is a building material for partitioning a space. At this time, a metal component is mixed into the concrete wall body 110. Portia cement, 0.5% steel fiber, 0.8% steel fiber, 0.5% steel fiber + 30% magnetite mineral, 0.8% steel fiber + 30% magnetite mineral, magnetite coarse aggregate + PS Ball (Precious Slag Ball), oxide slag coarse aggregate, and PS ball. Since the steel fiber is mixed with the concrete wall member 110, the concrete wall member 110 has an electromagnetic shielding performance, and at the same time, the strength against the tensile strength, bending strength, crack resistance, shear strength, ductility and impact resistance of the concrete is improved It is also possible to overcome the brittleness, which is the maximum vulnerability of concrete.

On the other hand, when casting concrete to form the concrete wall body 110, a formwork is used. At this time, it is general that the concrete is dumped from the concrete laid when the concrete is cured after the concrete is laid.

However, in the concrete wall structure 100 according to the first embodiment of the present invention, the concrete wall structure 110 is combined with the permanent steel formwork 120 which is used to cast concrete.

The steel permanent formwork 120 is used as a formwork for casting the concrete to form the concrete wall body 110. The steel permanent formwork 120 is not disassembled after the completion of curing of the concrete but is combined with the concrete wall body 110 State to perform the electromagnetic wave shielding function.

Referring to FIG. 1, a binding part 122 is provided on the inner surface of the steel permanent mold 120. The binding part 122 is a member for increasing the bonding strength between the steel permanent formwork 120 and the concrete wall body 110. At this time, the binding portion 122 may be formed of a shear key, but it may be formed by embossing or the like, but is not limited thereto.

For reference, when the binding part is provided as a shear key, the adhesion force between the concrete wall body 110 and the permanent material formwork 120 increases, and at the same time, shear fracture of the concrete wall body 110 is prevented. In contrast, the embossing forms a convexly convex shape on one side of the steel permanent form 120 contacting the concrete wall 110, thereby increasing the adhesion of the steel permanent form 120 to the concrete wall 110 as described above .

Referring to FIG. 1, the concrete wall structure 100 according to the first embodiment of the present invention further includes a metal thermal spray coating 130 formed on the outer surface of the steel permanent form 120.

The metal thermal spray coating 130 is formed on the outer surface of the steel permanent mold 120 by a metal spraying method. In this case, metal straying means that the molten metal is sprayed onto the metal surface in a fine spray state with high-pressure air to make a film. In other words, the wire or powder of metal is blown by blowing to dissolve the metal, and the arc or the oxygen-acetylene flame is used to dissolve metal wire or labor.

Here, the metal spraying method according to the first embodiment of the present invention forms a metal thermal spray coating 130 on the surface of the steel permanent mold 120 using an arc metal spraying method (ATMSM). For reference, the arc metal spraying method is a method in which a metal wire rod is melted by generating an electric arc by a sprayer, and a film is formed on the surface of a substratum through compressed air. The metal solution diffuses and solidifies while forming a film by colliding with the underlying material. Through this process, a porous metal thermal spray coating 130 is formed on the outer surface of the steel permanent mold 120. Accordingly, the concrete wall structure 100 according to the first embodiment of the present invention is formed by the metal thermal spray coating 130 formed on the surface of the steel permanent formwork 120 and the concrete wall structure 110, the steel permanent formwork 120, Then, the electromagnetic wave shielding is performed stepwise.

The metal wire used in the metal spraying method for forming the metal thermal spray coating 130 on the outer surface of the steel permanent mold 120 includes at least one of copper (Cu), zinc (Zn), and aluminum .

A sandblast surface treatment may be applied to the outer surface of the steel permanent mold 120 to secure the adhesion of the metal thermal spray coating 130 to the steel permanent mold 120.

Accordingly, the concrete wall structure 100 according to the first embodiment of the present invention has a stepwise electromagnetic shielding structure of the metal components, the steel permanent mold 120, and the metal thermal spray coating 130 in the concrete wall 110 So that the electromagnetic wave shielding performance of the concrete wall structure 100 is greatly improved.

Referring to FIG. 2, a concrete wall structure 200 (hereinafter, referred to as 'concrete wall structure') for shielding electromagnetic waves according to a second embodiment of the present invention will be described focusing on the difference from the above embodiment.

2, the concrete wall structure 200 for shielding electromagnetic wave according to the second embodiment of the present invention includes a concrete wall 210, a steel permanent form 220 provided in a state of being coupled with the concrete wall 210 An electromagnetic wave shielding layer 240 formed on the outer surface of the steel permanent mold 220 and a metal thermal spray coating 230 formed on the outer surfaces of the electromagnetic wave shielding layer 240 by a metal spraying method.

Since the concrete wall structure 200 according to the second embodiment of the present invention is substantially the same as that of the first embodiment described above, the same components are given the same names, and the description thereof will be omitted. The example will be applied in a similar way.

2, the electromagnetic wave shielding layer 140 is formed on the outer surface of the steel permanent mold 220. The electromagnetic wave shielding layer 240 is formed by applying a cementitious material mixed with a metal powder, that is, a plaster mixed with a metal powder, onto the outer surface of the steel permanent mold 220.

On the other hand, the plaster may be prepared by blending polymer fibers together with water such as cement, sand, iron (Fe), copper (Cu), nickel (Ni) As described above, by blending the polymer fibers with the plaster, it is possible to prevent the concrete wall structure 200 from being cracked as well as shielding the electromagnetic wave from the concrete wall structure 200. For reference, the amount of polymer fibers blended into the plaster may vary depending on the concrete wall structure 200 to be applied.

The plaster is prepared by mixing cement, sand, and metal powders such as iron (Fe) / copper (Cu) / nickel (Ni) with water. Although not shown in the drawing, the plaster material applied to the steel permanent mold 220 may further include conductive fibers. The conductive fibers may be, but are not necessarily, steel fibers, carbon fibers, nickel fibers, and the like.

Further, the metal powder of iron (Fe) / copper (Cu) / nickel (Ni) blended in the plaster is provided as granular powder. In other words, each grain of the metal powder of iron (Fe) / copper (Cu) / nickel (Ni) mixed with the plaster may be formed of a granular powder having a rough surface or a roughened surface instead of a smooth surface. This is to induce multiple scattering of electromagnetic waves.

On the other hand, a metal thermal spray coating 230 is formed on the outer surface of the electromagnetic wave shielding layer 240. The metal thermal spray coating 230 is formed on the outer surface of the electromagnetic wave shielding layer 240, unlike the first embodiment described above.

Accordingly, the concrete wall structure 200 according to the second embodiment of the present invention can prevent the electromagnetic interference (EMI) of the concrete wall 210, the permanent steel formwork 220, the electromagnetic wave shielding layer 240, The electromagnetic wave shielding performance of the concrete wall structure 100 is greatly improved.

3, a concrete wall structure 300 for shielding electromagnetic waves according to a third embodiment of the present invention will be described with reference to the points different from the above embodiment.

3, the concrete wall structure 300 according to the third embodiment of the present invention is formed by applying a plaster mixed with metal powder to the outer surfaces of the concrete wall 310 and the concrete wall 310 And a metal thermal spray coating 330 formed on the outer surfaces of the electromagnetic shielding layer 340 and the electromagnetic shielding layer 340 by a metal spraying method.

Since the concrete wall structure 300 according to the third embodiment of the present invention is substantially the same as the first and second embodiments described above, the same names are given to the same configurations, One embodiment will be applied mutatis mutandis.

The concrete wall structure 300 according to the third embodiment of the present invention is different from the concrete wall structures 100 and 200 of the first and second embodiments described above by the steel permanent molds 120 and 220, .

Further, an electromagnetic wave shielding layer 340 is formed on the outer surface of the concrete wall 310. At this time, the electromagnetic wave shielding layer 340 is formed in the same process as the electromagnetic wave shielding layer 240 in the second embodiment described above.

In other words, the concrete wall structure 300 according to the third embodiment of the present invention includes the concrete wall body 310, the concrete wall body 310, and the concrete wall body 310 in which the metal components are mixed, except for the steel permanent molds 120 and 22, An electromagnetic wave shielding layer 340 formed by applying a coating material containing metal powder such as iron, copper, and nickel to the outer surface of the electromagnetic wave shielding layer 340 and an electromagnetic wave shielding layer 340 formed on the outer surface of the electromagnetic shielding layer 340, And a metal thermal spray coating 230 for shielding.

That is, the concrete wall structure 300 according to the third embodiment of the present invention is different from the concrete wall structures 100 and 200 according to the first and second embodiments described above in that the steel permanent mold 120 The electromagnetic wave shielding layer 340 is formed on the outer surface of the concrete wall 310 and the electromagnetic wave shielding layer 340 and the electromagnetic wave shielding layer 340 is formed on the outer surface of the concrete wall 310 and the concrete wall 310, The electromagnetic radiation shielding structure of the concrete wall structure 300 is formed to have a stepwise electromagnetic wave shielding structure of the metal thermal spraying film 230. [

The concrete wall structure 300 according to the third embodiment of the present invention does not use the steel permanent molds 120 and 220, so that the electromagnetic wave shielding performance is lower than that of the first and second embodiments. However, it has the effect of reducing the construction cost or the material cost of the concrete wall structure 300.

In the above-described embodiments, the concrete wall structure to be stretched and contracted is intended. However, in the embodiments described below, the concrete wall structure constructed in the past is applied. That is, the concrete wall structure for shielding electromagnetic waves in the embodiments described below is a reinforcing structure for improving the electromagnetic wave shielding performance against the previously installed concrete wall.

4, a concrete wall structure 400 for shielding electromagnetic waves according to a fourth embodiment of the present invention (hereinafter, referred to as a 'concrete wall structure') will be described focusing on differences from the above-described embodiment.

4, the concrete wall structure 400 according to the fourth embodiment of the present invention includes a concrete wall 410 and a metal wall 430 covering the outer surface of the concrete wall 410 and shielding the electromagnetic wave. And a metal thermal spray coating 430 formed on the outer surfaces of the plate member 420 and the metal plate 420 by a metal spraying method to shield electromagnetic waves.

As shown in FIG. 4, the concrete wall structure 400 according to the fourth embodiment of the present invention is formed with a metal plate 420 on the outer surface of the concrete wall 410. At this time, the metal plate 420 is made of steel plate and corresponds to the steel permanent molds 120 and 220 of the above-described embodiment.

The metal plate 420 is formed to have a structure that engages with the previously-installed concrete wall 410 and covers the outer surface of the concrete 410 wall.

Here, as shown in FIG. 4, a coupling means 422 is formed on the inner surface of the metal plate 420. The joining means 422 is intended to make the joining of the previously installed concrete wall 410 and the metal plate 420 more rigid. At this time, the coupling means 422 may be provided in various forms such as a bolt, a steel stick, and the like, but is not limited thereto.

On the other hand, a metal thermal spray coating 430 is formed on the outer surface of the metal plate 420. In other words, the metal thermal spray coating 430 is formed on the outer surface of the metal plate 420 by a metal spraying method, that is, an arc metal spraying method to shield electromagnetic waves. The metal thermal spray coating 430 according to the fourth embodiment of the present invention is formed by the metal thermal spray coatings 130, 230, and 330 according to the first, second, and third embodiments of the present invention, Are formed in the same manner.

Accordingly, the concrete wall structure 400 according to the fourth embodiment of the present invention includes the concrete wall 410, the metal plate 420 and the metal plate 420, which are already poured and cured, joined to the concrete wall 410, Shielding structure of the metal thermal spray coating 430 formed on the outer surface of the concrete wall structure 400, thereby significantly improving the electromagnetic wave shielding performance of the concrete wall structure 400. [

5, a concrete wall structure 500 for shielding electromagnetic waves according to a fifth embodiment of the present invention will be described with reference to the points different from the above-described embodiments.

5, a concrete wall structure 500 according to a fifth embodiment of the present invention includes a concrete wall 510 and a concrete wall 510. The electromagnetic wave shielding 500 is formed by applying a plaster mixed with metal powder to the outer surface of the concrete wall 510, A layer 540 and a metal plate 520 that covers the outer surface of the concrete wall 510 and shields the electromagnetic wave by being joined to the concrete wall 510 and the metal plate 520, And a metal thermal spray coating (530).

5, the concrete wall structure 500 according to the fifth embodiment of the present invention further includes an electromagnetic wave shielding layer 540, unlike the fourth embodiment described above. The electromagnetic wave shielding layer 540 is interposed between the concrete wall 510 and the metal plate 520. This electromagnetic wave shielding layer 540 is formed in the same manner and in the same manner as the electromagnetic wave shielding layers 140 and 240 in the second and third embodiments described above.

At this time, when the coupling means 522 formed on the metal plate 520 is coupled to the concrete wall 510, it is coupled to the concrete wall 510 through the electromagnetic wave shielding layer 540. That is, the concrete wall structure 500 according to the fifth embodiment of the present invention includes the concrete wall 510, the electromagnetic wave shielding layer 540 formed on the outer surface of the concrete wall 510, the electromagnetic wave shielding layer 540, Shielding structure formed by the stepwise electromagnetic shielding structure of the metal plate 520 formed on the outer surface of the metal plate 520 and the metal thermal spray coating 530 formed on the outer surface of the metal plate 520 combined with the concrete wall 510, do.

6, a concrete wall structure 600 for shielding electromagnetic waves according to a sixth embodiment of the present invention will be described with reference to the points different from the above-described embodiments.

6, a concrete wall structure 600 according to a sixth embodiment of the present invention includes a concrete wall 610, an electromagnetic wave shielding 610 formed by applying a plaster mixed with metal powder to the outer surface of the concrete wall 610, Layer 640 and a metal thermal spray coating 630 formed on the outer surfaces of the electromagnetic wave shielding layer 640 by a metal spraying method to shield electromagnetic waves.

As shown in FIG. 6, the concrete wall structure 600 according to the sixth embodiment of the present invention lacks the metal plates 420 (520) unlike the fourth and fifth embodiments described above.

Accordingly, the concrete wall structure 600 according to the sixth embodiment of the present invention includes the concrete wall 610 already constructed as a concrete, the electromagnetic wave shielding layer 640 formed on the outer surface of the concrete wall 610, Shielding structure of the metal thermal spraying coating 630 formed on the outer surface of the concrete wall structure 640, the electromagnetic wave shielding performance of the concrete wall structure 600 is greatly improved.

According to the above-described structure, the electromagnetic wave shielding concrete wall structure according to the embodiments of the present invention can be applied to the stretched concrete wall by applying an electromagnetic wave shielding layer formed of a steel permanent formwork, a metal thermal spray coating, By applying a stepwise electromagnetic wave shielding structure to the concrete wall by applying the electromagnetic wave shielding layer formed of the concrete material with the metal plate, the metal thermal spray coating and the metal powder mixed, the electromagnetic shielding performance of the stretched concrete wall and the installed concrete wall And it is possible to reduce the construction cost in comparison with the technique of conventionally installing the electromagnetic wave shielding structure separately from the concrete wall.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100, 200, 300, 400, 500, 600: Concrete wall structure for electromagnetic shielding
110, 210, 310, 410, 510, 610: concrete wall
120, 220: Steel permanent formwork
122, 222:
420, 520: metal plate material
422, 522: coupling means
130, 230, 330, 430, 530, 630: metal thermal spray coating
240, 340, 540, 640: electromagnetic wave shielding layer

Claims (10)

Concrete wall; And
A steel permanent form used as a mold for casting concrete to form the concrete wall and provided as a structure for shielding electromagnetic waves in a state of being coupled with the concrete wall without being disassembled even after curing of the concrete is completed;
An electromagnetic wave shielding layer formed by coating an outer surface of the steel permanent mold with a plaster mixed with metal powder; And
A metal spray coating formed on the outer surface of the electromagnetic wave shielding layer by a metal spraying method to shield electromagnetic waves;
/ RTI >
A material containing a metal component is mixed into the concrete for shielding electromagnetic waves,
In order to increase the bond strength with the concrete and prevent the shear failure of the concrete wall during the curing process of the concrete to form the concrete wall, the inner wall of the permanent material formwork is formed in a form of shear or embossing on the inner surface of the concrete permanent wall, A binding portion that is directly coupled to the inside is provided,
Wherein the metal powder of the electromagnetic wave shielding layer is provided in a granular form in which each grain is formed as a rugged irregular surface in order to induce multiple scattering of electromagnetic waves flowing into the electromagnetic wave shielding layer.
delete delete delete delete delete The method according to claim 1,
[0030]
Cement, sand, metal powder, and polymer fibers are mixed with water to form a concrete wall structure for electromagnetic wave shielding. delete delete delete

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