KR101313425B1 - A protection facility connecting construction method by bolting using materials having vibration and hemp protection function - Google Patents

Abstract

PURPOSE: A protective facility connection construction method by bolting materials which functions as a vibration and HEMP protector is provided to connect electromagnetic wave shielding facilities without allowing electromagnetic waves to flow in. CONSTITUTION: A protective facility connection construction method by bolting materials which functions as a vibration and HEMP protector comprises the following steps: preparing connection structures (100); positioning the connection structures between the connection parts of electromagnetic wave shielding facilities (200); and bolting the connection structures to the connection parts. A connection structure is made of a plurality of network structures to overlap each other. A network structure is made of wires which cross each other. A wire is made of an uncoated conductive wire. The network structure is shaped into zigzags to obtain flexibility.

Description

A PROTECTION FACILITY CONNECTING CONSTRUCTION METHOD BY BOLTING USING MATERIALS HAVING VIBRATION AND HEMP PROTECTION FUNCTION}

The present invention relates to a method of installing a connection structure for connecting an electromagnetic wave shielding facility and an electromagnetic wave shielding facility provided with a connection structure by such a method.

Electromagnetic waves are waves generated by the interaction between electricity and magnetism. Naturally, electromagnetic waves occur naturally in all electromagnetic products such as telecommunications devices from electric household appliances to civilization.

Electromagnetic Pulse (EMP) is a powerful and instantaneous electromagnetic shock wave that can physically destroy electronic equipment. There are high-intensity electromagnetic pulses (HEMP) caused by nuclear explosions occurring above 40 above the ground, and high-power electromagnetic waves (NNEMP: NON-NECLEUS ELECTROMAGNETIC PULSE) that intentionally cause electromagnetic interference on the ground.

Electronic devices exposed to HEMP can be severely damaged due to the impact of large energy pulses, resulting in malfunctions or breakdowns. Means for protecting the HEMP from unexpected unexpected external devices for electronic devices that function as important tasks It is an urgent reality to do.

In order to prevent communication equipment and electronic equipment used by military units, national institutions, various industrial research institutes, hospitals, etc. from being disturbed or malfunctioned by external undesired electromagnetic waves, electromagnetic shielding rooms are installed and operated. It is the main equipment that stores and manages all the communication electronic equipments in the battlefield, the state, night, and all-weather weather conditions that change rapidly in (iii).

Therefore, the electromagnetic shielding room should be able to completely protect all communication and electronic equipment installed therein from being disturbed or malfunctioned from the external unnecessary electromagnetic waves.

Such electromagnetic shielding rooms or shielding facilities may need to be connected to each other. For example, the vents may be connected to each other, or a connecting passage between the two buildings may be required.

In the installation of the connection structure for the connection between the electromagnetic shielding facilities, when the installation of the connection structure, the electromagnetic wave may be introduced through the connection portion, etc., a method of connecting between the electromagnetic shielding facilities while excluding the possibility of the electromagnetic wave inflow. There is a demand for

According to one embodiment of the invention, there is provided a method of installing a connection structure for connecting an electromagnetic shielding facility, the method comprising the steps of preparing a connection structure; Positioning the connection structure between the connection sites between the electromagnetic shielding facilities to be connected; Bolting the connection structure to a connection site of the electromagnetic shielding facility.

At this time, for the bolted connection, the connection portion of the electromagnetic shielding facility is an external non-plated conductive iron plate; And an inner non-plated conductive iron plate structure forming a predetermined space therein, wherein the bolting connection is made only of the outer non-plated conductive iron plate.

In addition, for the bolted connection, the end of the connection structure is formed with a guide portion that is bolted with the connection portion of the electromagnetic shielding facility, the guide portion bolted connection to the external non-plated conductive iron plate of the connection portion of the electromagnetic shielding facility It is characterized by.

On the other hand, according to an embodiment of the present invention, the connection structure, the wire structure is made of a wire structure intersecting with each other, the wire is a non-plated conductive wire having flexibility, the net structure is a net plane of the net structure Zigzag form up and down and left and right as a reference to ensure the flexibility, by which the connection structure is not damaged unless it receives a certain amount of force when the external force is applied, the connection structure is a plurality of the net structure It is characterized by being made overlap.

Figure 1 shows a perspective view of the appearance of the net structure according to an embodiment of the present invention.
Figure 2 is a schematic diagram of the bolting connection of the connection structure to the connection site of the shielding facility according to an embodiment of the present invention.
3 is an enlarged view of a bolting connection structure between the shielding facilities according to an embodiment of the present invention.
Various embodiments are now described with reference to the drawings, wherein like reference numerals are used throughout the drawings to refer to like elements. For purposes of explanation, various descriptions are set forth herein to provide an understanding of the present invention. It is evident, however, that such embodiments may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing the embodiments.

The following description provides a simplified description of one or more embodiments in order to provide a basic understanding of embodiments of the invention. This section is not intended to be a comprehensive overview of all possible embodiments, nor is it intended to identify key elements of all elements or to cover the scope of all embodiments. Its sole purpose is to present the concept of one or more embodiments in a simplified form as a prelude to the more detailed description that is presented later.

The present invention provides a connection structure for the connection between electromagnetic shielding facilities, in order to achieve this object, the connection structure must be made of a net structure consisting of wires cross each other and the net structure must be made of a special shape and material. The connection structure for connecting between electromagnetic shielding facilities according to an embodiment of the present invention, the wire structure is made of a cross-wire structure, the wire is a non-plated conductive wire having flexibility and elasticity.

Figure 1 shows a perspective view of the appearance of the net structure according to an embodiment of this invention. As shown in Figure 1, the net structure has a wire structure intersecting with each other to form the shape of the net structure.

In this case, the wire is made of a material having flexibility and elasticity, and is made of an unplated conductive wire. A representative example is brass.

These non-plated conductive wires are flexible and flexible so that the connection structure made of the net structure can be maintained without damage even though there are external influences (wind, impact, etc.) when connecting the shielding facility with the facility.

Such a net structure is zigzag up, down, left and right with respect to the net plane of the net structure. As shown in FIG. 1, the net structure is zigzag up and down based on the net plane, and also zigzag from side to side. In addition to the flexibility of the wire itself due to the characteristic shape of the structure itself, additional flexibility is secured, so that when the external influence is applied, the structure can be kept unbroken or damaged unless subjected to a force of a certain size or more. .

The flexibility obtained by additional geometrical features in addition to the flexibility of the wire itself can be obtained by the shape of the mesh structure of FIG. 1. In this case, since the force applied from the outside may not be applied in which direction, a structure capable of securing flexibility with respect to forces in all directions is very important, and the shape of the net structure made as such a structure may be the shape of FIG. 1.

On the other hand, such a net structure can be used by overlapping a plurality of layers, thereby ensuring a shielding effect of electromagnetic waves. Preferably four or more overlapping net structures are preferred.

This connection structure connects the electromagnetic shielding facility, the method consists of the following steps. First prepare a connection structure as described above (multiple overlapping zigzag or embossed netting structures), and place it between the connection sites between the electromagnetic shielding facilities to which it is to be connected, and then connect the electromagnetic shielding facility. Bolting the connecting structure to the site is performed.

2 is a connection between the electromagnetic shielding facilities 200 by the connecting structure 100 in accordance with an embodiment of the present invention, the bolting connection is shown by reference numeral 300.

The bolting connection bolts the unplated conductive iron plate at the connection site of the shielding facility and the guide portion of the connection structure.

The non-plating conductive iron plate is a material for shielding electromagnetic waves, and is a basic material for electromagnetic shielding facilities.

In this case, since the non-plating conductive iron plate of the electromagnetic shielding facility is drilled by the bolting connection, electromagnetic waves may be introduced into the electromagnetic shielding facility through the bolting part. Therefore, there is an additional need for a structure that can prevent the possibility of electromagnetic waves flowing through the bolting portion.

Therefore, the connection portion of the electromagnetic shielding facility according to an embodiment of the present invention has a special structure.

3 is an enlarged view of a bolted connection structure to a connection portion of the electromagnetic shielding facility according to an embodiment of the present invention.

As shown in FIG. 3, the connection portion of the electromagnetic shielding facility 200 includes an external non-plating conductive iron plate 210 and an internal non-plating conductive iron plate 220. In this case, a predetermined space 250 is formed inside the outer non-plated conductive iron plate 210 by the inner non-plated conductive iron plate 220. As will be described later, when the bolting connection is made to this space 250, the bolts and nuts are located in the space.

As shown in the enlarged view of FIG. 3, the bolting connection 300 is made only on the outer non-plated conductive iron plate 210.

First, the guide portion 110 at the end of the connecting structure 100 is positioned at the external connection portion of the external non-plated conductive iron plate 210, so that the external non-plated conductive iron plate 210 and the guide portion 110 of the connection portion are mutually different. Overlap.

In this overlapped state, the bolt 310 is fastened through the external non-plating conductive iron plate 210 and the guide part 110 from the outside, and the nut 320 is fastened therein so that the bolt 310 is firmly fixed to the connection portion. do.

The end of the bolt 310 is located in a predetermined internal space 250 made by the internal non-plating conductive iron plate 220, the nut 320 is also located in the corresponding space at the same time.

Thus, by making the connection portion of the electromagnetic shielding facility into the external and internal double non-plated conductive iron plate structure, even if the external non-plated conductive iron plate is penetrated by the bolt by the bolt connection, the internal non-plated conductive iron plate 220 is intact. Since it is maintained, the shielding of electromagnetic waves can still be surely maintained.

In addition, the connecting structure is also not directly bolted to the net structure, by being connected through the guide portion 110 can be made more rigid fastening, and also can be connected to the electromagnetic shielding facility while maintaining the flexibility of the connection structure.

The description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features presented herein.

Claims (5)

delete delete delete As a method of installing a connecting structure for connecting electromagnetic shielding facilities,
In a step of preparing a connection structure, the connection structure is made of a net structure consisting of wires intersecting with each other, the wire is a flexible non-plated conductive wire, the net structure is based on the net plane of the net structure Forming a zigzag shape down and to the left and right to thereby secure flexibility, thereby maintaining the connection state of the connection structure when the external force is applied, wherein the connection structure comprises a plurality of the net structures overlapping each other;
Positioning the connection structure between the connection sites between the electromagnetic shielding facilities to be connected;
Bolting the connection structure to a connection site of the electromagnetic shielding facility;
Method of installing connecting structures connecting electromagnetic shielding facilities. delete

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