KR101107643B1 - Method for constructing emp protection facilities - Google Patents

Abstract

PURPOSE: A construction method of an EMP protection system is provided to rapidly and securely couple protection panels to each other and to effectively cut off gaps between the coupled protection panels. CONSTITUTION: A construction method of an EMP protection system is as follows. Plane-type protection panels, corner-type protection panels, open-type protection panels, seal members, coupling members, shields, and a door are prepared(S100). The plane-type protection panels are arranged on the ground, and the seal members are arranged between the plane-type protection panels(S102). A bottom plane is completed by coupling the plane-type protection panels using the coupling members(S104). The plane-type, corner-type, open-type protection panels are vertically arranged on the bottom plane, and the seal members are arranged between the protection panels(S106). Front, side, and rear planes are completed by coupling the protection panels using the coupling members(S108). A ceiling is formed by arranging the plane-type protection panels on the top and inserting the seal members between the plane-type panels(S110).

Description

METHOD FOR CONSTRUCTING EMP PROTECTION FACILITIES}

The present invention relates to an EMP protection facility construction method for protecting electronic equipment, communication equipment, and computing systems from electromagnetic pulses (EMP) or high electromagnetic pulses (HEMP), and more specifically, The present invention relates to a method for constructing an EMP protection facility that can easily, quickly and firmly combine panels, and effectively prevent gaps when joining protective panels.

In general, most companies and households use a variety of electronic products, and most of the work is done using a corporate or personal computer, and a variety of electronic equipment, telecommunications equipment, finance, etc. The system is used, and most of the work is performed using a computer.

However, these various electronic devices, communication equipment, financial systems, etc. are very sensitive or vulnerable to electromagnetic pulses or high electromagnetic pulses called EMPs or HEMPs. Such EMPs or HEMPs are naturally generated by lightning strikes or nuclear bombs. It is generated during the explosion of an electronic bomb.

On the other hand, some countries are developing nuclear bombs or electronic bombs, and there is a concern about the use of nuclear bombs or electronic bombs in future wars or in case of emergency. EMP or HEMP-producing weapons generate powerful electromagnetic pulses in the event of an explosion, destroying or damaging basic and important national, defense, and industrial facilities such as electrical equipment, electronic equipment, communications equipment, computers, operational control systems, and financial systems. Paralyzing the entire operating system can lead to chaos or paralyze national and industrial functions.

As a result, in recent years, the EMP or HEMP, which may occur in case of emergency or future wars, protects and protects important facilities or security facilities of individuals as well as national or local governments. The scheme is being researched and developed, and one embodiment of the concept of protection of such various equipment is known from patent 10-0990828.

EMP protective cabinet of the Patent No. 10-0990828, the enclosure formed integrally by connecting assembled steel plate made of a conductive galvanized iron plate and the hinge is formed on the open side of the enclosure made of the conductive galvanized iron plate A door to be coupled, installed on one side of the enclosure, a vent for passing air and blocking electromagnetic pulses, and a power line inlet of a power supply mounted on an outer surface of the enclosure to be introduced into the enclosure through a power line; A filter for filtering electromagnetic pulses, a connector installed in the enclosure and an EMP limiter for connecting an antenna or a video signal to the protected electronic equipment inside the enclosure and blocking the pulse, and penetratingly attached to the enclosure. Optical cable that protects EMP of optical cable by preventing pulse inflow and its length is more than 5 times its diameter Including the introducer sheath, and; Female gaskets are formed on the outer circumference of the optical cable guide tube through which the gasket for improving conductivity is bonded to both sides of the enclosure, and the optical cable guide tube penetrates the housing, and the optical cable guide tube is connected to the housing by a nut screwed from both sides to the female screw unit. It is characterized by being installed.

According to this configuration, the EMP protection cabinet is to block the unexpected powerful electromagnetic pulse in advance to protect the necessary main electronics, and at the same time to provide the effect of preventing important electronic information from being intercepted by the electromagnetic emission.

However, in the conventional EMP protective cabinet as described above, when welding to interconnect each of the six protective plates constituting the enclosure, a gap may be generated due to a poor welding, so that the EMP may not be introduced to achieve complete protection and shielding. There is a problem.

In addition, the workability is lowered because the connection or coupling operation of each of the protection plates is not easy, there is a problem in that productivity and economical efficiency is reduced because it requires a proficiency in coupling the protection plates.

The present invention is to solve the above problems, the object of the present invention can be combined easily and quickly and firmly each protective panel without the need for additional skilled, effectively blocking the gap between each protective panel By providing a method of constructing an EMP protection facility that can improve the EMP protection performance.

The present invention has been made to achieve the above object, the construction of EMP protection facility for protecting electronic equipment, communication equipment, computer systems from Electromagnetic Pulse (EMP) or High Electromagnetic Pulse (HEMP) A method comprising the steps of: manufacturing and preparing each planar protection panel, corner protection panel, opening protection panel, seal member, coupling member, shield, door, etc. by setting the size or scale of the overall EMP protection facility; Arranging the planar portion of the planar protection panel in contact with the ground or the floor at a location or a region where the EMP protection facility is to be installed, and facing each other with a sealing member interposed between the supports of each planar protection panel; Inserting bolts of the coupling member from one side of the fixing hole in communication with each other and fixing nuts at the other side to combine the respective planar protection panels to complete the bottom surface of the body for the protection facility; In the state where the seal member is disposed at the end of each planar protection panel forming the outer side of the bottom surface, a corner type protection panel is arranged at the corner portion, and a plurality of other planar protection panels are arranged at the remaining portion. An opening-type protective panel is disposed in the part for the support, and the support portion of each flat protective panel forming the side, the back and the front, between the finishing portion of the flat protective panel forming the bottom surface and the supporting portion of each corner-shaped protective panel. And a sealing member interposed between the support portion of the corner protection panel and the support portion of each corner protection panel and the support portion of the opening protection panel; A communication hole between the fixing hole formed in the support hole and the through hole of the end portion of the planar protective panel inserting the bolt of the coupling member from each side of the fixing hole communicating with each other and fixing the nut on the other side to form the bottom surface Combining the bolts and nuts of the coupling member to the front, the side, and the rear; With the seal member disposed on each support portion facing the upper portion of each of the protective panels forming the front surface, the respective side surfaces, and the rear surface, the finish portions of the plurality of other flat protective panels face each other and each of the other flat protective shields. After the sealing member is disposed between the supporting portions of the panel so as to face the bottom surface, each fixing hole of each supporting portion facing the upper portion of the protective panel and the corresponding through space of the finishing portion of the planar protective panel corresponding thereto. The bolts, washers, elastic pieces and nuts of the coupling member are coupled to the communicating holes using the bolts, washers, elastic pieces and nuts of the coupling members, and the coupling members bolts, washers, elastic pieces and nuts are connected to the respective fixed fixing holes of the neighboring planar protection panels. Combining to form an upper surface (ceiling); Inserting an auxiliary plate into each protection panel and arranging each finishing plate to finish a bottom surface and an exterior to complete a basic body of an MPP protection facility; Installing a shield in the coupling groove of the opening-type protection panel to complete a body for an MPP protection facility; And installing the door by rotatably fixing the plurality of fixing pieces provided on the upper and lower sides of the door to the hinge portions of the plurality of hinges fixed to the opening protection panel, thereby completing an MPP protection room. It features.

According to the main body of the EMP protection facility according to the present invention, it is possible to combine each protective panel easily, quickly and firmly without any additional skills to improve workability, and effectively and easily block the gap between the protective panels. There is a remarkable effect that the reliability can be improved.

1 is a perspective view showing an MPP protection system to which the MPP construction method according to the present invention is applied.
Figure 2 is an exploded perspective view and cross-sectional view showing in detail the planar protection panel of the MPP protection facility of FIG.
3 is an exploded perspective view and a cross-sectional view of a corner protection panel.
4 is a perspective view and a cross-sectional view showing in detail the opening protection panel.
5 is a perspective view and a cross-sectional view of the sealing member.
6 is a perspective view and a cross-sectional view of the coupling member.
7 is a perspective and sectional view showing the shield in detail.
8 is an exploded perspective and cross-sectional view showing the door in detail.
Figure 9 is a block diagram showing the construction method of another MPP protection facility in the present invention.

Hereinafter, preferred embodiments of the MPP protection facility construction method according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an MPP protection facility applied to the method of construction of the MPP protection facility according to the present invention, Figure 2 is an exploded perspective view and a cross-sectional view showing a planar protection panel of the MPP protection facility of Figure 1, Figure 3 4 is an exploded perspective view and a cross-sectional view of a corner protection panel, FIG. 4 is a perspective view and a cross-sectional view showing in detail an opening type protection panel, FIG. 5 is a perspective view and a cross-sectional view of the sealing member, FIG. 6 is a perspective view of the coupling member, and FIG. 7 is a shield. Figure 8 is a perspective view and a cross-sectional view showing in detail, Figure 8 is an exploded perspective view and a cross-sectional view showing the door in detail, Figure 9 is a block diagram showing a construction method of another MPP protection facility in the present invention.

In the drawings, it has been described that the MPP protection facility constructed by the MPP protection facility construction method according to the present invention is formed in a rectangular shape, the MPP protection facilities are variously designed and built or built underground bunkers, buildings, It may be formed to correspond to the shape or installation area of the PROTECTION SECTOR, such as a basement, and described below in an example of a rectangle for ease and clarity of description, the difference or design change of such a shape is It will be apparent to those skilled in the art that the scope of the right will not be exceeded.

First, in Figures 1 to 9, according to the MPP protection facility to which the MPP protection facility construction method according to the present invention is applied, reference numeral 10 denotes the floor and ceiling of the main body, and the flat and ceiling of the front, rear and side surfaces. It is a planar protection panel which forms a flat part. The planar protective panel 10 is formed of a galvanized metal plate having protection against and resistance to EMP or HEMP.

The planar protective panel 10 basically includes a planar portion 11 which forms all or part of one surface of each of the surfaces of the main body. The flat portion 11 is preferably set to an appropriate size and shape according to the size or size of the protective facility to be installed.

On each side of the planar portion 11 is formed a support 12 which is bent vertically from each side of the planar portion 11. That is, four support portions 12 are formed perpendicular to the plane portion 11,

Meanwhile, at least one or two to four support parts 12 of the respective support parts 12 may be coupled to one of the other planar protection panels adjacent to each other, a corner protection panel to be described later, or an opening protection panel. A plurality of fixing holes 122 are drilled at predetermined intervals so as to be coupled by the fixed holes 122.

In addition, each support 12 is formed at a right angle to the respective support 12, and bent inwardly of the planar protection panel 10 itself, the finishing portion facing each other with respect to the flat portion 11 ( 13) is integrally formed.

Optionally, one or two to three finishes 13 of the finishes 13 of the planar protective panels 10 forming a bottom surface and a ceiling of the main body of the planar protective panels 10. The through hole 132 communicating with the fixing hole 122 to be coupled to the other planar protection panel 10 or the corner-shaped protection panel or the opening-type protection panel to be described later by a coupling member at a predetermined interval It is perforated.

In addition, a plurality of reinforcing members 14 may be fixed to the planar portion 11 of the planar protective panel 10 so as to maintain and reinforce the rigidity of the planar portion 11 as well as the planar protective panel 10 itself. It may be provided at intervals.

Inside the planar protection panel 10, that is, in each space formed by the planar part 11, the support part 12, the finishing part 13, and each reinforcing member 14, the planar protection panel is provided. An auxiliary plate 15 having soundproofing, soundproofing, or sound absorbing, as well as reinforcing and protecting the MP10 is provided. The auxiliary plate 15 may be formed of wood, synthetic resin, or the like.

In addition, the planar protection panel 10 is provided with a closing plate 16 which forms the inside of the floor, the outside of the ceiling, and the outside of the side wall, and forms an overall appearance.

The shape and size of the closing plate 16 is formed corresponding to the shape and size of the flat portion 11, the periphery of the closing plate 16 is formed to be welded or bolted to the finishing portion (13). .

Reference numeral 20 denotes a corner protection panel which is combined with each of the planar protection panels 10 to form a corner portion of the protection facility.

The corner protection panel 20 includes a plurality of planar protection panels 20 forming side surfaces of the protection facility and curved surfaces 21 forming corners and forming inner surfaces of the protection facility. The curved portion 21 is kept horizontal with the flat portion 11 of the planar protection panel 10 and is set to an appropriate size and shape according to the size or size of the protection facility to be installed.

On each side of the curved portion 21, there is formed a support portion 22 which is bent vertically from each side of the curved portion 21. That is, four support parts 22 are formed perpendicular to the curved part 21. In addition, the support portion 22 of each corner-shaped protection panel 20 is formed to correspond to each other as well as to the support portion 12 of each of the planar protection panel 10 neighboring.

Meanwhile, at least one or two to four support portions 22 of each support portion 22 continuous to the curved portion 21 are formed in the support portion 12 of each of the planar protective panels 10 adjacent thereto. The fixing hole 222 corresponding to each of the through holes 132 formed in the fixing hole or the finishing part 13 is formed. Accordingly, each support portion 22 of the corner protection panel 20 is coupled to the corresponding support portion 12 and the finishing portion 13 of the planar protection panel 10 by a coupling member to be described later.

In addition, the support 22 is formed at right angles to the respective support 22, and bent to the inside of the corner-shaped protection panel 20 itself, the finishing portion facing each other against the curved portion 21 23 is integrally formed.

In addition, optionally, the curved portion 21 of the corner type protective panel 20 includes a plurality of reinforcing members 24 to maintain and reinforce the rigidity of the curved portion 21 as well as the corner type protective panel 20 itself. ) May be provided at regular intervals.

Inside the corner-shaped protection panel 20, that is, each corner formed by the curved portion 21, the support portion 22, the finishing portion 23, and each of the reinforcing members 24 has the corner. As well as reinforcing the type protection panel 20, an auxiliary plate 25 having a soundproofing, soundproofing, or sound absorbing function is provided. The auxiliary plate 25 may be formed of wood, synthetic resin, or the like.

In addition, the corner type protection panel 20 is provided with a closing plate 26 that forms the front, rear and outer sides of each side of the protection facility.

The shape and size of the closing plate 26 is formed corresponding to the shape and size of the curved portion 21, the periphery of the closing plate 26 is formed to be welded or bolted to the finish 23. .

Reference numeral 30 denotes an opening type protection panel which is integrally installed on the flat type protection panel 10 and / or the corner type protection panel 20 in order to open and close the door in front or side of the protection facility configured as described above. . The opening protection panel 30 is integrally between, for example, planar protection panels 10 that form the front or side of the main body for the protection facility, or between the planar protection panel 10 and the corner protection panel 20. Are combined and installed.

The opening protection panel 30 is formed to be the same as or similar to each of the protection panels 10 and 20. That is, the opening protection panel 30 is formed of a galvanized metal plate having protection and resistance to EMP or HEMP, and basically the entire surface of one of each of the surfaces of the main body for EMP protection facility according to the present invention or A flat part 31 is formed to form a part, and the flat part 31 has an opening 312 which is opened and closed by a door to be described later and which an entrance and exit can be made to have an appropriate size and shape.

In addition, each side of the planar portion 31 is formed with a support portion 32 bent vertically from each side of the planar portion 31, of each of the support portion 32 of the planar portion 31 At least one or two to four support portions 32 are provided with a plurality of fixing holes 322 to be coupled to the adjacent planar protection panel 10 or the corner protection panel 20 by a coupling member described later. It is formed at fixed intervals. That is, the fixing holes 322 correspond to the fixing holes 122 and 222 formed in the support parts 12 and 22 of the protective panels 10 and 20 and / or the through holes 132 formed in the finishing part 13. Perforated.

On the other hand, each of the support portion 32 is formed at a right angle to the respective support portion 32 and bent inward to form a finishing portion 33 facing each other with respect to the flat portion 31 integrally.

In addition, optionally, the auxiliary plate 35 having the sound insulation, sound insulation, or sound absorption function as well as the MPP protection may be installed inside the opening-type protection panel 30, and the auxiliary plate 35 may be made of wood, synthetic resin. Or the like.

In addition, the opening type protection panel 30 is provided with a closing plate 36 for closing the inner surface thereof, and the shape and size of the closing plate 36 correspond to the shape and size of the flat part 31. It is formed, the periphery of the closing plate 36 is formed to be welded or bolted to the finish 33.

On the other hand, one side of the flat portion 31 is provided with a plurality of hinges 37 for installing a door to be described later. The hinge 37 includes a fixing part 372 fixed to the flat part 31, and a hinge part 374 installed to be hinged or rotatable to the fixing part 372 and fixed to a door to be described later. .

On the other hand, the coupling groove 38 is formed in the part spaced apart from the periphery of the opening portion 312 of the flat portion 31 by the door to be closed without a gap.

The coupling groove 38 includes a base surface 382 facing from the front and a side surface 384 formed perpendicular to both sides of the base surface 382.

Reference numeral 40 denotes a gap between the protection panels when the planar protection panel 10 is connected or coupled to each other and the planar protection panel 10, the corner protection panel 20, and the opening protection panel 30 are coupled to each other. It is a sealing member for blocking the inflow of EMP or HEMP by shielding.

The seal member 40 is interposed between the support portions 12 or interposed between the support portions 12 and the finishing portion 13 when the neighboring flat shielding panels 10 are coupled to each other. Blocking the inflow, and when the flat protective panel 10, the corner protective panel 20 and the open protective panel 30, respectively, the closing portion 13 of each of the flat protective panel 10, It is interposed between the support part 22 of the corner type protection panel 20 and the support part 32 of the opening type protection panel 30 to block the inflow of EMP or HEMP therebetween.

In particular, the seal member 40 includes a support part 12 or a finish part 13 of each of the planar protection panels 10, a support part 22 of the corner protection panel 20, and the opening protection panel. A first shield portion 41 disposed to shield the inner portion between the support portions 32 of the 30, the support portion 12 or the finishing portion 13 of the planar protection panel 10, and the corner protection. A second shielding portion 42 disposed to shield an outer portion between the support portion 22 of the panel 20 and the support portion 32 of the opening-type protection panel 30, and the first shielding portion 41 and the first shielding portion 42; It is integrally provided with a connecting portion 43 which interconnects the second shielding portion 42 and shields the central portion of the support portion 12; 22; 32 or the finishing portion 13.

The seal member 40 is formed of a metal having protection performance and rigidity of EMP or HEMP, and the first and second shielding portions 41 and 42 of the seal member 40 have a circular cross section. Is formed, the connecting portion 43 is preferably formed in a band shape. In particular, each of the first and second shielding portions 41 and 42 and the connecting portion 43 has elasticity, so that each of the first and second shielding portions 41 and 42 and the connecting portion 43 is elastic by a coupling member to be described below when the respective protection panels 10 and 20 and 30 are coupled. When the support portion 12; 22; 32 or the finish portion 13 of the contact is pressed while being in close contact with each of the support portion 12; 22; 32 or the finish portion 13, stable EMP and HEMP protection effect and solid protection The panel can be combined.

Reference numeral 50 is a coupling member used for coupling the respective protection panels 10; 20; 30. The coupling member 50 is typically formed in a bolt and nut method.

That is, the coupling member 50 is each of the fixing hole 122 formed in each of the support portion (12; 22; 32) or the finishing portion (13; 23) of each of the protection panel (10; 20; 30); 222; 322 inserted into the through hole 132; 232; 332 and penetrates through the connecting portion 43 of the seal member 40, and is inserted into the bolt portion of the bolt 51 head portion The washer 52 is in contact with, and the bolt portion of the bolt 51 is inserted into one side is in contact with the washer 52 and the other side to the support (12; 22; 32) or the finishing portion (13; 23; 33) Compression force is exerted upon engagement between the elastic piece 53 having some elasticity so as to be in contact with the support part 12; 22; 32 or the finishing part 13; 23 of each of the protective panels 10; 20 and 30. Since the bolt 51 and the nut 54 are prevented from loosening, a firm coupling between the protective panels 10 and 20 and 30 can be maintained.

Reference numeral 60 denotes an MPP protective contact between the respective surfaces 382 and 384 of the coupling groove 38 of the opening protection panel 30 and the coupling portion of the door, which will be described later, around the coupling groove 38. Shield. The shield 60 is preferably formed of a metal, such as brass, excellent in the EMP protection performance.

The shield 60 may be connected to the first shield 61 and the side surfaces 384 of the coupling groove 38, which are joined to or attached to the base surface 382 of the coupling groove 38. And a second shield 62 attached to the side.

The first shield 61 is integrally provided with a flat adhesive surface 612 attached to the base surface 382 of the coupling groove 38 by an adhesive means such as a double-sided tape, and the adhesive surface 612. And a plurality of curved contact members 614 each having elasticity. Here, each of the contacts 614 is preferably fixed to one side end of the adhesive surface 612, while the other end is formed to be separated from the adhesive surface 612.

Due to the structure of the first shield 61, when the engaging portion of the door, which will be described later, is inserted into the engaging groove 38, each of the contact bodies 614 is contacted with the engaging portion of the door and pressed and contacted. By increasing the area, it is possible to provide more stable and reliable EMP protection performance.

In addition, the second shield 62 is in contact with each side 384 of the coupling groove 38 of the opening-type protection panel 30 and the planar portion 31 connected to the side 384 at the same time. A plurality of curved contact members 624 connected to the bent support portion 622 formed at right angles and the support portion 622 integrally disposed on the side surface 384 and in contact with the engaging portion of the door to be described below. And a metal band 626 formed of brass or copper to fix the support part 622 to the flat part 31 around the coupling groove 38 with a bolt 628.

Reference numeral 70 denotes a door for opening and closing the opening 312 of the open protective panel 30. The door 70 is formed of a metal for EMP protection and is formed to correspond to the size of the opening 312.

The door 70 is preferably configured as follows to improve the EMP or HEMP protection performance as well as ease of manufacture.

That is, the door 70 has an outer panel 71 corresponding to the overall size of the door 70. The outer panel 71 has a first vertical portion 711 having a predetermined height therein, a connecting portion 712 extending perpendicularly outward from the first vertical portion 711, and a right angle from the connecting portion 712. A second vertical portion 713 is integrally formed to face the first vertical portion 711 and form an outer surface of the door 70.

In addition, the door 70 includes an inner panel 72 disposed inside the outer panel 71. The inner panel 72 is formed to be perpendicular to the outer side of the vertical portion 721 corresponding to the first vertical portion 711 of the outer panel 71 and integrally bent to the vertical portion 721 A flat portion 722 forming a central portion of the inner surface of the door 70 is integrally provided.

In addition, the door 70 has a coupling portion 73 that is releasably attached to the coupling groove 38 of the opening-type protection panel 30. The coupling portion 73 is actually accommodated in the coupling groove 38 of the opening-type protection panel 30, and at the same time, each of the first shield 61 and the second shield provided in the coupling groove 38 ( The contact members 614 and 624 of 62 are elastically compressed in contact with the coupling portion 73 to completely block the inflow of the EMP through the opening 312 of the opening protection panel 30. In particular, the coupling portion 73 is a junction portion 731 is inserted between the first vertical portion 711 of the outer panel 71 and the vertical portion 721 of the inner panel 72 and integrally bonded; The body portion 732 is formed integrally with the junction portion 731 and is formed to correspond to the coupling groove 38 to be releasably inserted into the coupling groove 38. The coupling portion 73 is preferably formed by bending and welding a single plate.

In addition, the door 70 is provided with an outer panel 74 that forms the outer surface of the door 73, the outer panel 74 is provided with a handle 75.

In addition, a plurality of fixing pieces 76 are provided on one side of the door 70, that is, on the upper and lower portions of the second vertical portion 713 on one side of the outer panel 71, so that the opening-type protection panel 30 is provided. Is rotatably fixed to the hinge portion 574 of the plurality of hinges (37) fixed thereto, and a plurality of reinforcements (not shown) are integrally provided inside the door 70 for reinforcement and rigidity of the door. Can be.

According to the configuration of the door 70 as described above, the engaging portion 73 is actually accommodated in the engaging groove 38 of the opening-type protection panel 30 and at the same time each of the provided in the engaging groove 38 The contacts 614 and 624 of the first shield 61 and the second shield 62 are elastically compressed in contact with the engaging portion 73, thereby opening the opening 312 of the opening-type protective panel 30. It is possible to completely block the inflow of EMP through.

Hereinafter, the construction method of the MPP protection facility configured as described above will be described in detail with reference to FIGS. 9 and 1 to 8.

First, the operator sets the size or scale of the overall protection facility and sets the number of protection panels, and then each of the planar protection panels 10, the corner protection panels 20, the opening protection panels 30, and the sealing member ( 40), the coupling member 50, the shield 60, the door 70 is prepared (S100).

In addition, the planar portion 11 of the planar protection panel 10 is disposed in contact with the ground or the floor at a location or a region where the EMP protection facility is to be installed, and a seal is provided between the support portions 12 of each planar protection panel 10. It arrange | positions so that it may mutually oppose in the state through the member 40 (S102). In this case, the fixing holes 122 formed in the support portions 12 that face each other are positioned in a straight line with each other.

Thereafter, the worker inserts from one side of the fixing hole 122 to the bolt 51 of the coupling member 50 and mutually secure the nut 54 on the other side to combine and protect each of the planar protection panel 10 Complete the bottom surface of the main body for the facility (S104). Wherein the bolt 51 is coupled to the washer 52 and the elastic piece 53 to improve the bonding force.

Next, the corner-type protection at the corner part in the state which arrange | positioned the said sealing member 40 in the finishing part 13 of each planar protection panel 10 which forms the outer side of a bottom surface after completing a bottom surface as mentioned above. The panel 20 is disposed, and a plurality of other planar protective panels 10 are disposed in the remaining portions, and the opening type protective panels 30 are disposed in the portions for entrance and exit, and the respective protective panels 10; 20; 30 are disposed. Between the ends 13 of the planar protective panel 10 and the support 22 of each corner protective panel 20, each of which forms a side, a back and a front, between the contacts between the ends. Between the support part 12 of the flat protection panel 10 and the support part 22 of the corner protection panel 20, the support part 12 of each corner protection panel 20 and the support part of the opening protection panel 30. The sealing member 40 is interposed between the 32 (S106). The fixing holes 122; 222; 322 formed in the support portions 12; 22; 32, which face each other, are positioned in a straight line with each other, and finish of the planar protective panel 10 forming the bottom surface. The through-holes of the part 13 and the fixing holes 122; 222; 322 formed in the support parts 12; 22; 32 are located in a line with each other.

Thereafter, the operator inserts from one side of each of the fixing holes 122; 222; 322 which communicate with the bolt 51 of the coupling member 50, and fixes the nut 54 on the other side, and also the bottom surface Bolts of the coupling member 50 in the communication hole between the through hole of the finishing portion 13 of the planar protective panel 10 to be formed and the fixing holes 122; 222; 322 formed in the support portions 12; 22; 51) by using the nut 54 to complete the front, side and rear of the main body (S108). Here, each of the bolts 51 couples the washers 52 and the elastic pieces 53 together to improve the coupling force.

Next, the operator places the seal member 40 on each support portion 12; 22; 32 facing the top of each of the protection panels 10; 20; 30 forming the front side, each side, and the rear side. The bottom surface of the plurality of different planar protection panels 10 in the state facing the finishing portion 13 and the sealing member 40 between the support portion 12 of each of the other planar protection panel 10, the bottom surface And the fixing holes 122; 222; 322 of the support portions 12; 22; 32 facing the top of the protection panel 10; 20; 30, and the planar protection corresponding thereto. A bolt 51, a washer 52, an elastic piece 53, and a nut 54 of the coupling member 50 are used to communicate with each through hole 132 of the finish portion 13 of the panel 10. And the bolts 51, washers 52, elastic pieces 53 and nuts of the coupling member 50 to the communicating holes 122 of each of the neighboring planar protection panels 10, respectively. Using 54 W combine to form the top surface (ceiling) (S110).

Subsequently, the auxiliary plates 15 and 25 and 35 are inserted into the respective protection panels 10 and 20 and 30, and the finishing plates 16 and 26 and 36 are disposed to finish the bottom and the exterior to protect the MPP. Complete the basic body of the facility (S112). Here, the coupling of the finishing plate (16; 26; 36) can be achieved by using bolting, welding or other coupling or bonding means.

Next, the shield 60 is installed in the coupling groove 38 of the opening-type protection panel 30 to complete the main body of the EMP protection facility (S114). Here, the first shield 61 is bonded to the base surface 382 of the coupling groove 38, and the second shield is provided at the side of the coupling groove 38 from each side 384 of the coupling groove 38. 62 is joined.

Finally, the plurality of fixing pieces 71 provided above and below one side of the door 70 are rotatably fixed to the hinge portions 374 of the plurality of hinges 37 fixed to the opening protection panel 30. By installing the door 70 to complete the EM protective room (S116).

Of course, after that, it is possible to install the power, air pipes, filters, etc. necessary for the EMP protection facility.

When the main body for the EMP protection facility is configured as described above, the shield is provided between the respective protection panels, the door is completely in close contact with the shield, and even if the nuclear bomb or the electron bomb explodes and the EMP or HEMP is generated, the EMP or HEMP is Not only can it completely prevent the inflow into the protection facility, but also can be manufactured by standardizing each protection panel can be effectively improved workability and productivity.

10: flat protective panel 20: corner protective panel
30: opening protection panel 40: sealing member
50: coupling member 60: shield
70: door

Claims (4)

In the method of construction of EMP protection facility for protecting electronic equipment, communication equipment, computer system from electromagnetic pulse (EMP) or high electromagnetic pulse (HEMP),
By setting the size or size of the overall EMP protection facility, each of the planar protection panel 10, the corner protection panel 20, the opening protection panel 30, the seal member 40, the coupling member 50, the shield 60, manufacturing and preparing a door 70, etc. (S100);
The planar portion 11 of the planar protection panel 10 is disposed in contact with the ground or the floor at a location or a region where the EMP protection facility is to be installed, and a seal member (between the support portions 12 of each planar protection panel 10). Disposing to face each other in the state of interposing 40 (S102);
Each of the planar protective panels 10 is coupled by inserting from one side of the fixing hole 122 of the support part 12 communicating the bolt 51 of the coupling member 50 with each other and fixing the nut 54 on the other side. Comprising the step of completing the bottom surface of the main body for the protective facility (S104);
In the state in which the seal member 40 is disposed at the finish portion 13 of each planar protective panel 10 forming the outer side of the bottom surface, the corner type protective panel 20 is disposed at the corner portion, and the remaining portion. A plurality of different planar protection panel 10 is disposed in the door, and an opening type protection panel 30 is disposed in the part for entrance and exit, and each of the finishing portions 13 of the planar protection panel 10 forming the bottom surface. Between the support portions 22 of the corner-shaped protection panel 20, between the support portion 12 and the support portion 22 of the corner-shaped protection panel 20. Interposing the sealing member 40 between the support part 12 of each corner protection panel 20 and the support part 32 of the opening protection panel 30 (S106);
Insert the bolt 51 of the coupling member 50 from one side of the fixing hole (122; 222; 322) of each of the support portions (12; 22; 32) to communicate with each other and fix the nut (54) on the other side And a coupling member in a communication hole between the through hole of the finishing part 13 of the planar protective panel 10 forming the bottom surface and the fixing holes 122; 222 and 322 formed in the support parts 12; 22 and 32. Combining by using the bolt 51 and the nut 54 of the 50 to complete the front, the side and the rear (S108);
A plurality of seal members 40 are disposed in the support members 12; 22 and 32 facing the upper portions of the protection panels 10; 20 and 30, which form the front surface, the respective side surfaces, and the rear surfaces. Facing the finishing portions 13 of the other planar protective panel 10 of the other and arranged to face the bottom surface via the sealing member 40 between the support portion 12 of each of the other planar protective panel 10 Afterwards, each of the fixing holes 122; 222; 322 of each support 12; 22; 32 facing the top of the protection panel 10; 20; 30 and the planar protection panel 10 corresponding thereto. To the communication hole between the through hole 132 of the finishing portion 13 of the coupling member 50 using the bolt 51, the washer 52, the elastic piece 53 and the nut 54, In addition, the bolt 51, the washer 52, the elastic piece 53 and the nut 54 of the coupling member 50 are connected to the fixing hole 122 in communication with each of the neighboring planar protection panels 10, respectively. By using the upper part To form a (roof) (S110);
Insert the auxiliary plates (15; 25; 35) in each of the protection panels (10; 20; 30) and place the respective finishing plates (16; 26; 36) to finish the bottom and exterior of the MPP protection facility. Completing the basic body (S112);
Installing a shield (60) in the coupling groove (38) of the opening protection panel (30) to complete the main body of the EMP protection facility (S114); And
The plurality of fixing pieces 71 provided on the upper and lower sides of the door 70 are rotatably fixed to the hinge portions 374 of the plurality of hinges 37 fixed to the opening-type protection panel 30. EMP protection facility construction method comprising the step (S116) to install the 70 to complete the EMP protection room.
The method of claim 1, wherein the step S114 is a step of joining the first shield 61 to the base surface 382 of the coupling groove 38 formed in the planar portion 31 of the opening protection panel 30. And installing a second shield (62) on the side of the coupling groove (38) from each side (384) of the coupling groove (38).
3. The first shield (61) according to claim 2, wherein the first shield (61) is integral with the flat adhesive surface (612) attached to the base surface (382) of the coupling groove (38) by double-sided tape, and the adhesive surface (612). A plurality of curved contacts 614 provided with and each having elasticity;
The second shield 62 is perpendicular to the side surfaces 384 of the coupling grooves 38 of the opening-type protection panel 30 and to the planar portions 31 connected to the side surfaces 384 at the same time. A plurality of curved contact members 624 formed integrally connected to the bent support part 622 and the support part 622 and disposed on the side surface 384 to be contacted and compressed to be joined to a door to be described later; EMP protection facility construction method characterized in that consisting of a metal band 626 made of brass or copper to secure the support 622 to the flat portion 31 around the coupling groove 38 with a bolt 628. .
The method of claim 1, wherein the door 70,
A first vertical portion 711 having a predetermined height toward the inner side of the EMP protective chamber, a connecting portion 712 extending perpendicularly outward from the first vertical portion 711, and a right angle from the connecting portion 712 An outer panel formed integrally with a second vertical portion 713 facing the first vertical portion 711 and forming an outer surface of the door 70;
The vertical portion 721 corresponding to the first vertical portion 711 of the outer panel 71 and the flat portion formed integrally bent to the vertical portion 721 to form a central portion of the inner surface of the door 70 An inner panel 72 having a unit 722 integrally therewith;
The shield 60, which is accommodated in the coupling groove 38 of the opening protection panel 30 and is provided in the coupling groove 38, is elastically compressed in contact with each other so that the opening of the opening protection panel 30 is formed. A coupling portion 73 formed to block inflow of the EMP through 312; And
Forming an outer surface of the door 70, the method of construction of the MPP protection facility, characterized in that it comprises an outer panel (74) having a handle (75).

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