WO2011112025A2 - Emp protection cabinet - Google Patents

Abstract

The present invention relates to an EMP protection cabinet for preventing permanent damage of electronic equipment, such as communication equipment and computer servers dealing with important data, due to a strong electromagnetic pulse generated during an explosion of a nuclear or electronic bomb, which flows into the circuit of electronic equipment via a power line or diverse signal lines depending on the magnitude of the electromagnetic pulse. The EMP protection cabinet, according to the present invention, comprises: a case formed by connecting and six-sided assembling iron plates, which are made from conductive material, into one body; a door, which is made from the same material as the case and is coupled to one side of the case with a hinge; ventilators, which are installed on another side of the case to allow the passage of air and block the electromagnetic pulse; a wave filter, which is installed at an inlet of a power line from a power device, and is mounted on the outer surface of the case to filter the electromagnetic pulse that flows into the case through the power line; and an optic cable guide pipe, which is attached by insertion into the case and protects against EMP in the optic cable by preventing the inflow of the electromagnetic pulse.

Description

EMP protective cabinet

The present invention relates to an EMP protection cabinet for preventing electronic equipment from being destroyed from strong electromagnetic pulses, and more particularly, strong electromagnetic pulses generated when a nuclear bomb or an electronic bomb explodes on a power line or various signal lines. It relates to an EMP protective (antiwavelength) cabinet to prevent paralysis or permanent destruction of electronic equipment, such as communication equipment, computer servers, etc., which enters the circuit and handles important data.

In general, electromagnetic waves refer to wavelengths generated by the interaction between electricity and magnetism, and occur naturally in all electromagnetic products such as information and communication devices ranging from electrical household appliances around us to civilization.

Electromagnetic waves as described above have been continuously raised due to the intensity of harmful and harmless controversy, and technologies for blocking and absorbing them have been continuously researched and developed, while detecting and analyzing them, and using them as various information. It is utilized.

Natural eavesdropping began to be recognized by intelligence agencies in the 1950s, and in the United States, the term TEMPEST is used as a plan code name to be free from eavesdropping. It refers to a detailed standard of safety from radiation dose and eavesdropping, and is known as a general concept of wireless eavesdropping prevention technology, eavesdropping and eavesdropping defense technology, including the concept of information leakage prevention measures, technology of obtaining and eavesdropping information from the counterpart.

Therefore, there is an urgent need to prevent the leakage of personal, corporate, public organizations, infrastructure, and national information using electromagnetic wave generation devices such as wired and wireless audio and video to be used by the other party.

In addition, electromagnetic pulse (EMP) refers to a large energy generated naturally or artificially, natural EMP is a lightning strike, artificial EMP is a powerful energy pulse generated in the explosion of nuclear bombs or electron bombs. Can be mentioned.

As such, the electronic devices exposed to the EMP may be severely damaged due to the impact of a large energy pulse, resulting in malfunction or damage. The electronic device serving as an important task may be protected from the unexpected unexpected external EMP. Finding a means is an urgent reality.

Meanwhile, interest in EMP weapons has increased since the North Korean nuclear test in 2006 and the September 11 terrorist attacks.

The EMP weapon is a weapon that paralyzes or destroys infrastructure such as communication networks, electricity, electronic devices, and computer networks by generating electromagnetic pulses of great power during the explosion of nuclear bombs or electron bombs. Can bring

Therefore, protection facilities to protect EMP weapons have been installed in key national facilities or are under construction or under construction.

However, EMP protection facilities require huge budgets and time-consuming preparations, so only a part of the country's major core facilities can be countered.

The present invention has been devised for the protection of electronic equipment in an important industrial control room, the protection of a computer network server of a bank, etc. in preparation for a future war in the future, and protects important electronic devices necessary by blocking unexpected strong electromagnetic pulses in advance. In addition, an object of the present invention is to provide an EMP protection cabinet that can prevent important electronic information from being intercepted by electromagnetic wave emission.

EMP protective cabinet according to the present invention for achieving the above object is the enclosure formed integrally by connecting and assembling the iron plate of the six-sided made of a conductive material,

A door made of a conductive material and hinged to one side of an open enclosure;

A ventilation hole installed at one side of the enclosure to allow air to pass through and to block electromagnetic pulses;

Filters provided at the power line inlet of the power supply unit mounted on the outer surface of the enclosure for filtering the electromagnetic pulse flowing into the enclosure through the power line;

It is attached to the enclosure is configured to include an optical cable guide tube for protecting the EMP of the optical cable by preventing the introduction of pulses.

According to the above-mentioned means of solving the problem, it is possible to block the unexpected strong electromagnetic pulse in advance to protect the necessary main electronic devices, and at the same time prevent important electronic information from being intercepted by electromagnetic wave emission.

1 is a perspective view of an EMP protection cabinet according to an embodiment of the present invention.

2 is an exploded view of FIG. 1.

3 is a plan view of FIG. 1.

4 is a detailed installation diagram of the optical cable induction pipe shown in FIG.

FIG. 5 is a detailed installation view of the connector shown in FIG. 1. FIG.

6 is a detailed installation diagram of the power line filter shown in FIG. 1.

FIG. 7 is a detailed installation diagram of the ventilation port shown in FIG. 1. FIG.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of an EMP protection cabinet according to an embodiment of the present invention, Figure 2 is an exploded view of Figure 1, Figure 3 is a plan view of Figure 1.

As shown, the EMP protective cabinet 1 includes a housing 10, a door 20, a ventilation opening 30, a power supply 40, a connector 50, an optical cable guide tube 60.

The housing 10 is made of a six-sided protective plate 11 to form an electromagnetic wave shielding film with a conductive iron plate, such as a galvanized iron plate, and assembled by connecting the protective plate 11 of the six-sided so that the conductive airtight is maintained without leaking electromagnetic waves Enclosure 10 is formed integrally.

The protection plate of any one of the six-sided protection plate 11 is opened, and the door 20 is attached.

The door 20 is made of a conductive material such as the enclosure 10, and hinges to be opened and closed on one side (front in the drawing) of the enclosure 10 opened for carrying in and out of the protected electronic equipment. 22) Combine.

At this time, the elastic clip 26 is formed in the housing 10 so that the door 20 does not open in the closed state, and the engaging protrusion 24 is formed in the door 20 so that the door 20 is closed and the engaging protrusion ( 24 is inserted into the elastic clip 26 is not opened.

Ventilation port 30 is a honeycomb (Honeycomb) structure is installed so that the air passes through and the electromagnetic wave is extinguished in the back of the housing 10 is well conducted to discharge the heat generated from the protected electronic equipment inside.

The power supply device 40 is mounted on the bottom surface of the enclosure 10 to supply power to the electronic device to be protected, and the filter 42 for blocking a pulse flowing through the power supply line at the power line inlet of the power supply device 40. ) Is provided to be well conducted with the enclosure (10).

The connector 50 with an EMP limiter for blocking a pulse is attached to the enclosure 10 to connect an antenna or an image signal to the protected electronic equipment therein.

* Protected electronic equipment requires a signal transmission optical cable such as an Internet line of many lines, and the optical cable guide tube 60 is attached to the enclosure 10 to prevent the pulse from entering, thereby protecting the EMP of the optical cable.

That is, when the length of the optical cable guide tube 60 is more than five times the diameter of the optical cable guide tube 60, the pulse does not enter.

Wherein the diameter of the optical cable guide tube 60 is 12 ~ 24mm, the length is preferably 600 ~ 1200mm.

The optical cable guide tube 60 can be easily installed where a plurality of optical cable connectors cannot be installed in a limited space inside the enclosure 10.

4 is a detailed installation diagram of the optical cable induction pipe shown in FIG.

As shown, both sides of the enclosure 10 are bonded to the gasket 62 for improving the conductivity and brass nuts 64 on both sides of the female thread formed on the outer periphery of the optical cable guide tube 60 penetrating the both sides. By screwing in and then tightening, the optical cable guide tube 60 is installed in the enclosure (10).

5 is a detailed view of the connector shown in FIG.

As shown, a gasket 52 for improving conductivity on both sides of the enclosure 10 is surface-bonded so that the connector 50 is installed in the enclosure 10.

6 is a detailed view of the power line filter shown in FIG. 1.

As shown in the drawing, the power line filter 42 is installed at the power line inlet portion of the power supply device 10 mounted on the bottom of the enclosure 10, and the gasket 44 for improving the conductivity on both sides of the enclosure 10 is faced. The power line filter 42 is connected to the power line guide pipe 48 penetrating the same, and the nut 46 made of brass is screwed to the female thread formed on the upper side of the power line guide pipe 48. The power line filter 42 is installed in the housing 10 by tightening.

7 is a detailed view of the ventilation port shown in FIG. 1.

As shown in the drawing, a honeycomb-shaped ventilating hole 30, into which a gasket 34 for surface conductivity is joined to both sides, is inserted between the frames 32 bent by the letter C, and the enclosure 10 is formed on one side of the frame 32. ), The ventilation hole 30 is attached to the enclosure 10 by the frame 32 is coupled to the enclosure 10 by the bolt / nut 36 in the contact state.

According to the present invention as described above it is possible to protect the electronic communication equipment, computer server equipment, bank computer equipment, etc. used in the national infrastructure industry from the EMP weapons, thereby preventing a huge financial loss.

According to the above-mentioned means of solving the problem, it is possible to protect the main electronic devices necessary by blocking the unexpected strong electromagnetic pulse in advance, and at the same time, it is possible to prevent the important electronic information from being intercepted by the electromagnetic emission, so there is industrial application.

Claims (6)

1. A housing formed integrally by connecting and assembling a steel plate made of a conductive galvanized iron plate;

   A door made of the conductive galvanized iron plate and hinged to one side of the open enclosure;

   A ventilation hole installed at one side of the enclosure to allow air to pass through and to block electromagnetic pulses;

   A filter provided at a power line inlet of a power supply unit mounted on an outer surface of the enclosure to filter electromagnetic pulses introduced into the enclosure through a power line;

   A connector attached to the enclosure, the connector having an EMP limiter for connecting an antenna or a video signal to the protected electronic equipment inside the enclosure, and blocking a pulse; And

   It is attached to the enclosure to prevent the influx of pulses to protect the EMP of the optical cable by including an optical cable induction pipe that is more than five times the length of the diameter;

   A female thread is 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 penetrates the enclosure, and the optical cable guide tube is connected to the housing by a nut screwed from both sides to the female thread. EMP protective cabinet, characterized in that the installation.
2. The method of claim 1,

   Ventilation holes are inserted into the gasket for improving conductivity on both sides of the bent frame, and the frame is coupled to the enclosure by bolting in a state in which the enclosure is in contact with one side of the frame, and the ventilation port is installed in the enclosure. EMP protective cabinet, characterized in that.
3. delete
4. The method of claim 1,

   EMP protective cabinet, characterized in that the diameter of the optical cable guide tube is 12 ~ 24mm, the length is 600 ~ 1200mm.
5. delete
6. The method of claim 1,

   EMP protective cabinet characterized in that the elastic clip is formed in the housing and the engaging protrusion is formed in the door, the door is closed and the coupling protrusion is inserted into the elastic clip so as not to open.

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