KR100691521B1 - Electro-magnetic wave shielding steel plate form for wall - Google Patents

Abstract

The present invention relates to a formwork for electromagnetic wave shielding steel sheet for walls,

It is made of electromagnetic shielding steel sheet, the inside is formed with projections and is characterized in that it consists of formwork panels 10 installed on both sides spaced apart from each other,

The formwork panel is made of electromagnetic shielding steel sheet so that it can be used as a finishing material to shield the electromagnetic wave by remaining as it is after pouring and curing of concrete, and the protrusions can be installed inside the formwork panel to increase the bonding strength with the concrete. Formwork ties are installed on both sides of the formwork panel to prevent the formwork panel from coming off at a predetermined position due to the pressure during concrete placement, and to construct accurate walls, and to combine a plurality of formwork according to the structure of the building. Provide usable effects.

Electromagnetic waves, walls, building structures, formwork

Description

Electromagnetic wave shielding steel plate form for wall             

1 is a perspective view schematically showing the configuration of a conventional electromagnetic shielding steel sheet formwork for walls.

Figure 2 is a perspective view schematically showing the configuration of the electromagnetic shielding steel sheet formwork for the wall according to an embodiment of the present invention.

Figure 3 is an exploded perspective view schematically showing the coupling configuration of the electromagnetic shielding steel sheet formwork for the wall according to an embodiment of the present invention.

Figure 4 is a perspective view schematically showing a configuration for coupling the electromagnetic shielding steel sheet formwork for the wall according to an embodiment of the present invention.

Figure 5 is an enlarged view schematically showing the side coupling configuration of the electromagnetic shielding steel sheet formwork for the wall according to an embodiment of the present invention.

Figure 6 is an enlarged view schematically showing the upper and lower coupling structure of the electromagnetic wave shielding steel sheet formwork for the wall according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10 formwork panel 11 fastening hole

12: inner side 13: vertical projection

14: horizontal projection 15: fastening hole

16: groove 20: tie bar

21: fastening hole

The present invention relates to a formwork for electromagnetic wave shielding steel sheet for walls, and more particularly, to form a formwork panel with an electromagnetic shielding steel sheet, which can be used as a finishing material to shield electromagnetic waves by remaining as it is after pouring and curing of concrete. By installing protrusions on the inside, it is possible to increase the bonding force with the concrete when placing concrete, and the form tie is installed on both sides of the formwork panel to prevent the formwork panel from being separated from the predetermined position due to the pressure when placing the concrete. It can be constructed, and relates to electromagnetic shielding steel sheet formwork for walls that can be used in combination with a plurality of formwork according to the structure of the building.

In general, electromagnetic waves are electromagnetic energy having a wide range of frequencies in the flow of electricity and magnetism. When vibrations occur in electricity, electric and magnetic forces are generated at the same time. It is classified into ultra low frequency (0 to 1,000 Hz), low frequency (1 to 500 KHz), communication frequency (500 KHz to 3,000 MHz), and microwave (3,000 MHz to 300 GHz) including 60 Hz.

In accordance with the recent revitalization policy for the semiconductor and information electronics sectors, the intelligent building of old buildings, new buildings, and the computerization of schools due to the government's continuing education innovation policy, the use of electronic devices has increased and harmful electromagnetic waves are generated from transmission lines and distribution lines. As a result, the harmfulness has emerged as a social problem.

When the human body is exposed to low frequency electromagnetic waves having magnetic properties for a long time, an induced current is generated in the human body, resulting in imbalance of various ions such as Na +, K +, and Cl- in the cell membrane, affecting hormone secretion and immune cells. Has been reported to be associated with insomnia upon prolonged exposure by altering the amount of melatonin secreted in human sleep.

Recently, as the harmfulness of electromagnetic waves is reported, legal regulations on electromagnetic waves have been made. Due to the exposure of electromagnetic waves, the probability of miscarriage of pregnant women, the incidence of leukemia and cancer, and changes in immune cells and hormones have emerged as social problems.

In general, electromagnetic waves harmful to the human body are generated from electronic products such as TVs and refrigerators that are commonly used in houses and buildings. The electromagnetic wave can be said to be the most preferable way to suppress the occurrence in the electronics themselves, but most electronic products have not been subjected to such a shielding treatment.

Therefore, in the case of large home appliances such as TVs and refrigerators, the necessity of research on how to properly block electromagnetic waves generated from the products separately from the products itself has emerged.

In particular, the rear direction of the wall where most home appliances are installed is the place where the influence of electromagnetic waves is the greatest, and the existing materials such as concrete walls have almost no ability to shield them. Therefore, when living in the rear direction of the wall where the home appliances are installed, it can be seen that it is directly affected by electromagnetic waves, and the need for research on how to properly block it has emerged.

Therefore, in recent years, in order to shield electromagnetic waves by transmission lines, distribution lines, electronic devices, etc., a method of separately installing electromagnetic shielding steel sheets having electromagnetic shielding functions in buildings has been proposed.

That is, as shown in Figure 1 by manufacturing the formwork of the concrete structure with a panel (1) made of electromagnetic shielding steel sheet, the concrete is poured and cured to form a concrete structure having an electromagnetic shielding function.

However, since the surface of the panel on both sides of the form is flat, there is a problem that the bonding force with the concrete is lowered.

In addition, it is not easy to fix both sides of the formwork panel (1) in the correct position, even if it is fixed in the correct position by the load or pressure of the concrete when the concrete is placed on both sides of the predetermined position There was an issue to break out of.

According to the design form of the building structure, the formwork system is divided into one formwork or a plurality of formwork per wall, and each formwork is connected to each other and assembled. There was a problem that the coupling operation is difficult.

The present invention has been made in order to solve the conventional problems as described above, can be used as a finishing material that can shield the electromagnetic waves by making the formwork panel made of electromagnetic shielding steel sheet as it is to remain as it is after pouring and curing of concrete, the formwork panel By installing protrusions on the inside, it is possible to increase the bonding force with the concrete when placing concrete, and the form tie is installed on both sides of the formwork panel to prevent the formwork panel from being separated from the predetermined position due to the pressure when placing the concrete. It can be constructed, and to provide a electromagnetic shielding steel sheet formwork for the wall that can be used in combination with a plurality of formwork according to the structure of the building.

The present invention for achieving the above object is made of an electromagnetic shielding steel sheet, characterized in that the projection panel is formed on the inner side formed of the formwork panel 10 installed on both sides spaced apart from each other.

Preferably, in the present invention, grooves 16 are formed at both ends of the formwork panel 10, and fixed to the grooves 16 and a plurality of fastening holes 21 are formed to form the both sides of the formwork. It is characterized in that it further comprises a tie bar 20 for fixing the panel 10 in a state of maintaining a predetermined distance from each other.

Preferably, in the present invention, the formwork panel 10 has a locking jaw is formed in the upper end and the lower end and the fastening hole 11 is formed, the fastening hole 15 is formed on both sides of the cross section. It is done.

Preferably, in the present invention, the protrusion is characterized in that made of at least one of the vertical protrusions 13 and the horizontal protrusions (14).

Preferably, in the present invention, the formwork panel 10 is characterized in that the outer surface is surface-treated by at least one of the surface pattern, coating treatment and painting treatment of various shapes.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

As shown in Figures 2 and 3, the electromagnetic wave shielding steel sheet formwork for the wall of the present embodiment is made of electromagnetic shielding steel sheet, the inner surface 12, the projection panel is formed and spaced apart from each other by a predetermined distance from each other to form a vertical panel ( 10).

Therefore, the formwork of the present embodiment is increased by the protrusions and the bonding force with the concrete, and after the concrete is poured by curing, the formwork is left as it is without separating it to be used as a building structure such as walls, so the projections such as walls The frame role of the structure is to improve the strength of the structure.

For example, the projections formed on the inner surface 12 of the formwork panel 10 made of the electromagnetic shielding steel sheet vertical channel 13 formed in the vertical direction or the channel-shaped horizontal projections formed in the horizontal direction 14 It is preferably made of a) but is not limited to this, both the vertical projections 13 and the horizontal projections 14 may be formed, and also serves as at least one reinforcing frame of the horizontal frame and vertical frame, respectively, formwork and structure It will improve the strength of.

In addition, grooves 16 are formed at both ends of the formwork panel 10, and fixed to the grooves 16 and a plurality of fastening holes 21 are formed so that the both formwork panels 10 are separated from each other by a predetermined distance. It is preferable to further comprise a tie bar 20 for fixing in a state of keeping the distance.

Since the plurality of fastening holes 21 are formed in a line at the side of the tie bar 20, the sides of the tie bars 20 are changed according to the design specifications of the building structure by changing the position of the fastening holes 21 to which the fastening means such as bolts are fastened. It is possible to change the separation distance between the panels (10).

In addition, as shown in Figures 4 and 5, the formwork panel 10 has a locking jaw is formed in the upper end and the lower end and the fastening hole 11 is formed. Therefore, when the formwork panel 10 is installed in the vertical direction in accordance with the design specifications of the building structure, the upper and lower ends are formed in a substantially "b" shape at the upper end and approximately "a" shape at the lower end. The coupling force between the die channels 10 is prevented from being separated due to the pressure of concrete poured into the form panel 10 by the jaw, and the coupling force is improved by being coupled to each other through the fastening hole 11.

Therefore, the vertical coupling between the formwork panel 10 is facilitated by the locking jaw and the fastening hole 11 of the upper end portion and the lower end portion of the formwork panel 10, and the bonding force is also improved.

In addition, only the fastening hole 11 is formed at the upper end and the lower end of the formwork panel 10 so that it can be installed in the vertical direction overlapping, and the shape of the locking jaw is also limited to the "a" shape and "b" shape. It is not possible to form a concave-convex shape so that the upper and lower panels can be fitted to each other and joined.

As shown in Figure 4 and 6, both sides of the formwork panel 10 has a fastening hole 15 is formed, according to the design specifications of the building structure to overlap the formwork panel 10 in the horizontal direction to install If so, the horizontal coupling between the formwork panel 10 is facilitated by the fastening hole 15 formed in the side cross-section and the coupling force is also improved. In addition, since the fastening hole 15 is formed in the groove 16, the fastening hole 15 is fixed to the tie bar 20 and serves to horizontally couple the formwork panel 10.

In addition, the electromagnetic wave shielding steel sheet formwork of the present embodiment is to form the building structure by remaining as it is without removing the form after curing by pouring concrete, the outer surface of the formwork panel 10 is a surface pattern of various shapes, coating treatment And it is preferable to add a surface treatment process such as painting treatment to have an electromagnetic shielding function by using as a finishing material.

As the electromagnetic wave shielding steel sheet used in the above embodiment, for example, it is preferable to use a bio-wave steel plate (bio-wave steel plate) described in Korean Patent Publication No. 10-0454746 of the applicant.

The biowave steel sheet contains far-infrared radiation powder having a far-infrared radiation efficiency of 0.9 or more on a steel sheet containing 0.02% by weight or less of carbon, balance Fe and other unavoidable impurities, and having a maximum permeability of 2000 or more by time varying magnetic wave at 60 Hz. Since the coating layer is formed in the range of 15 to 60 micrometers, there is an advantage of shielding a low frequency magnetic field and simultaneously emitting far infrared rays.

In addition, the biowave steel sheet has been commonly used as a case forming the outer shell of various electronic products, but when using the biowave steel sheet in the building structure, regardless of the use of the electronic product consisting of biowave steel sheet More fundamentally, it is possible to effectively block electromagnetic waves.

Therefore, it is preferable to manufacture and use the formwork from the biowave steel sheet having electromagnetic wave shielding ability to the building structure such as the wall or floor, ceiling.

The present invention described above can be embodied in many other forms without departing from the spirit or main features thereof. Therefore, the above embodiments are merely examples in all respects and should not be interpreted limitedly.

As described above, the present invention can be used as a finishing material to shield the electromagnetic waves by making the formwork panel made of electromagnetic wave shielding steel plate and remaining as it is after concrete casting and curing, and installing the projection inside the formwork panel It can increase the bonding force with concrete at the time of construction, and formwork tie is installed on both sides of formwork panel to prevent detachment of formwork panel at a certain position due to pressure when placing concrete, and to construct accurate walls. It provides an effect that can be used by combining a plurality of formwork according to the structure.

Claims (5)

A coating layer containing far-infrared radiation powder having far-infrared radiation efficiency of 0.9 or more on a steel plate containing 0.02% by weight or less of carbon, residual Fe and other unavoidable impurities, and having a maximum permeability of 2000 or more by time varying magnetic wave at 60 Hz. A formwork panel 10 formed of electromagnetic shielding steel sheet formed in the range of ˜60 micrometers, with protrusions formed on the inner side and spaced apart from each other; Horizontal grooves 16 are formed at both ends of the formwork panel 10, fixed to the grooves 16, and a plurality of fastening holes 21 are formed so that the both formwork panels 10 are predetermined to each other. It comprises a tie bar 20 for fixing while maintaining the separation distance, The formwork panel 10 has locking jaws formed at upper and lower ends thereof, and fastening holes 11 are formed, and fastening holes 15 which horizontally couple the formwork panel 10 while fixing the tie bars 20 at both end surfaces thereof. ) Is formed electromagnetic shielding steel sheet formwork for walls. delete delete The method of claim 1, Forming the electromagnetic shielding steel sheet for the wall, characterized in that the projection is made of at least one of the vertical projection (13) and the horizontal projection (14). The method of claim 1, The formwork panel 10 is a wall electromagnetic shielding steel sheet formwork, characterized in that the outer surface is surface-treated by at least one of the surface pattern, coating treatment and painting treatment of various shapes.

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