KR20170066031A - Emp protection rack system - Google Patents

Abstract

The present invention provides an EMP protected rack system. The EMP protection rack system includes a main body part; A first installation area formed in the main body and having a rack server driven by receiving an external main power; A second installation area formed in the main body and having an emergency power supply; A third installation area in which the emergency generator is partitioned from the first installation area to be hermetically sealed from the outside and in which the emergency generator for driving the operation device is disposed; And an emergency operation part installed in the main body part and operating the emergency power supply for a predetermined time before driving the emergency generator when the external main power is cut off in an EMP situation.

Description

EMP PROTECTION RACK SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an EMP protection rack system, and more particularly, to an EMP protection rack system capable of efficiently driving an emergency power source unit installed in a main body and driving an emergency generator, EMP protection rack system.

Most companies and households use a variety of electronic products. In addition, most of their work is handled by IT equipment such as computers. In the country, the military, and financial industry, various types of electronic equipment, communication equipment, System, and most of the work is processed using a computer.

However, these various electronic equipments, communication equipments, financial systems, etc. are very sensitive or vulnerable to electromagnetic pulses or high electromagnetic pulses called EMPs or HEMPs, and such EMPs or HEMPs are naturally generated by lightning, Or explosion of electronic bombs.

On the other hand, recently, despite the efforts of suppressing the great powers, some countries are developing nuclear bombs or electronic bombs, and there is concern about the use of such bombs or electronic bombs in the future or in case of need.

Such EMP or HEMP-generating weapons can 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, It can paralyze the entire operating system, causing chaos, or paralyzing national functions and industrial functions.

Accordingly, it is necessary to protect and protect important facilities or security facilities of national or local governments as well as individuals from EMP or HEMP, which may occur in times of need or in the future, and to protect and protect the computer network or important equipment of financial institutions And an embodiment of the protection concept of such various equipments is known from Korean Patent Registration No. 10-0990828 (entitled "EMP protection cabinet").

According to the patent, it is possible to prevent unexpected strong electromagnetic pulses in advance to protect the necessary main electronic devices, while preventing important electronic information from being eavesdropped at the same time.

However, in the EMP situation, when the external power source is unexpectedly blocked, the server installed in the cabinet and processing important information such as computer information is immediately shut down, thereby losing important information.

An object of the present invention is to provide an EMP protection rack system capable of efficiently driving an emergency power supply such as a UPS power supply installed in a main body and driving an emergency generator to effectively prevent data loss when the external power is cut off in an EMP situation .

In a preferred aspect, the present invention provides an EMP protected rack system.

The EMP protection rack system includes a main body part; A first installation area formed in the main body and having a rack server driven by receiving an external main power; A second installation area formed in the main body and having an emergency power supply; A third installation area formed inside the main body part to be hermetically closed from the first installation area and having an emergency generator for driving the operation device; And an emergency operation part installed in the main body part and operating the emergency power supply for a predetermined time before driving the emergency generator when the external main power is cut off in an EMP situation.

The emergency operation unit includes a sensor for detecting whether the external main power source is shut off, and a controller for activating the emergency power source for a predetermined time period before the signal is transmitted from the sensor to the external main power source, .

The set time may be variably set in the controller.

Preferably, the second installation area is included in the first installation area.

The second installation area may be included in the third installation area.

It is preferable that a sealing plate is provided between the third mounting region and the first mounting region.

And the third mounting region is preferably isolated from the first mounting region by the sealing plate.

Preferably, the third mounting region is surrounded by a sealing member so as to be hermetically sealed with the outside of the main body.

It is preferable that a pair of electromagnetic wave shielding doors for opening and closing the inside of the main body are provided at the front and rear of the main body.

Preferably, any one of the pair of electromagnetic wave shielding doors is provided with an auxiliary electromagnetic wave shielding door for opening and closing the inside of the third installation area.

Preferably, the main body includes a first ventilating portion for ventilating the first mounting region, and a second ventilating portion for turning the third mounting region.

The main body may be provided with a power filter for transmitting the external main power.

Preferably, the power filter is disposed inside the main body, and is inserted and removed from the outside of the main body.

INDUSTRIAL APPLICABILITY The present invention has the effect of effectively preventing the loss of data by driving an emergency power supply unit installed in the main body and driving the emergency generator when the external power supply is cut off in the EMP situation.

In addition, the present invention has the effect of stably driving the rack server by preventing the soot generated in the state where the emergency generator is driven from leaking to the rack server side.

Further, the present invention has the effect of making it possible to individually ventilate the area in which the emergency generator is disposed and the area in which the rack server is disposed.

Further, the present invention has an effect that only the emergency generator can be opened to the outside, and maintenance of the generator is smoothly performed.

1 is a perspective view showing an EMP protected rack system of the present invention.
2 is an exploded perspective view showing the EMP protected rack system of the present invention.
3 is a block diagram for explaining the operation of the emergency operation unit according to the present invention.
4 is a perspective view showing the first, second and third installation areas according to the present invention.
5 is a flow chart showing the operational process of the EMP protected rack system of the present invention.
6 is a perspective view showing a state in which another example of the sealing plate according to the present invention is applied.
7 is a view showing an arrangement state of the emergency power supply and the emergency generator according to the present invention.
8 is a view showing another arrangement state of the emergency power supply and the emergency generator according to the present invention.

Hereinafter, an EMP protected rack system of the present invention will be described with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, the EMP protection rack system of the present invention mainly comprises a main body, a first installation area, a second installation area, a third installation area, and an emergency operation part.

Each configuration will be described in detail.

In the main body 100,

The main body 100 according to the present invention includes a frame 110, a pair of side plates 130 installed on the left and right sides of the frame 110, The electromagnetic wave shielding doors 120 and 121 of FIG.

The frame 110 includes four vertical frames 111 and upper and lower frames 112 and 113 connecting upper and lower ends of the four vertical frames 111.

The pair of electromagnetic wave shielding doors 120 and 121 are composed of the first and second electromagnetic wave shielding doors 120 and 121.

The first electromagnetic wave shielding door 120 is disposed in front of the frame unit 110 and hinged to the frame unit 110 so as to be rotatably opened and closed.

The second electromagnetic wave shielding door 121 is disposed behind the frame unit 110 and is hinged to the frame unit 110 to be rotatable.

Here, an auxiliary electromagnetic wave shielding door 121 'is provided at the lower end of the second electromagnetic wave shielding door 121 to be opened and closed. The auxiliary electromagnetic wave shielding door 121 'can open / close the third mounting area A3 described later.

However, the second electromagnetic wave shielding door 121 is formed with a plate 122 which is not opened.

The first mounting region A1, the second mounting region A2, the third mounting region A3,

The first mounting area A1, the second mounting area A2 and the third mounting area A3 according to the present invention are provided in the inner space of the main body 100. [

The first installation area A1 may be an area where the rack server 30 (see FIG. 7) is disposed.

The second mounting region A2 may be a region in which the emergency power supply 10 is disposed

The third installation area A3 may be a region in which the emergency generator 20 is disposed.

The frame part 100 may be provided with a sealing plate 200 for separating the second mounting area A2 and the third mounting area A3.

A pair of side plates 130 are disposed on the left and right of the first, second, and third mounting areas A1, A2, and A3, and a pair of electromagnetic wave shielding doors 120 and 121 are disposed on the front and rear sides.

Therefore, the third mounting area A3 defined by the sealing plate 200 is independent from the second mounting area A2. In addition, the third mounting region A3 may be hermetically closed.

With this configuration, the soot generated during operation of the emergency generator 20 is not leaked to the first and second installation areas A1 and A2 where the rack server 30 and the emergency power supply 10 are disposed, Can be safely protected.

In the meantime, the main body 100 according to the present invention is provided with the first and second ventilation parts 400 and 500.

The first ventilation part 400 serves to ventilate the first and second installation spaces A1 and A2.

The first ventilation part 400 includes first and second honeycombs 411 and 421 and first and second exhaust fans 412 and 422.

The first honeycomb 411 and the first exhaust fan 412 are installed at the upper end 140 of the main body 100 and the second honeycomb 421 and the second exhaust fan 422 are installed at the upper end 140 of the main body 100, And is installed in the door 121.

The second ventilation part 500 serves to ventilate the third installation space A3 where the emergency generator 20 is disposed.

The second ventilation part 500 includes third and fourth honeycombs 510 and 522 and third and fourth exhaust fans 521.

The fourth honeycomb 510 and the third exhaust fan are installed at the lower end 150 of the main body 100 and the fourth honeycomb 522 and the fourth exhaust fan 521 are installed at the lower end 150 of the main body 100, And is disposed on the plate 122 which is located below the shielding door 121 and seals the third installation space A3.

In addition, a power filter 600 is installed on the plate 122. The power filter 600 is disposed inside the main body 100 and is installed and detached from the outside of the main body 100, do.

Meanwhile, the third installation area A3 in which the emergency generator 20 according to the present invention is disposed can be selectively opened to the outside.

That is, as described above, the auxiliary electromagnetic wave shielding door 120 'is provided at the lower end of the first electromagnetic wave shielding door 120 according to the present invention.

Here, the auxiliary electromagnetic wave shielding door 120 'opens and closes to open the third installation area A3.

Therefore, in the present invention, when maintenance of the emergency generator 20 is performed, only the third installation area A3 as the corresponding area can be opened.

In the emergency operation unit 300,

Referring to FIG. 3, the emergency operation unit 300 according to the present invention is installed in the main body 100. When the external main power is interrupted under the EMP, 10) for a predetermined period of time.

The emergency operation unit 300 may include a sensor 310 and a controller 320 and may be disposed in the second installation area A2.

The sensor 310 may sense whether the external main power is cut off.

The controller 320 can operate the emergency power supply 10 for a predetermined time before driving the emergency generator 20 when receiving a signal from the sensor 310 to cut off the external main power .

Here, it is preferable that the set time is variably set in the controller 320.

Next, the operation of the EMP protection rack system of the present invention having the above configuration will be described.

5 is a flow chart showing the operational process of the EMP protected rack system of the present invention.

1 to 5, an external main power source (not shown) may be supplied to the rack server 30 through the power filter 600.

In addition, the sensor 310 according to the present invention monitors in real time whether or not an external main power is supplied.

At this time, when the EMP situation is reached, the external main power source may be abnormally blocked.

At this time, the sensor 310 immediately senses the state of the external main power source being shut off, and transmits a signal to the controller 320 when detecting the external main power source shutdown.

Then, the controller 320 drives the emergency power supply 20 to supply the auxiliary power to the rack server 30. The emergency power supply 20 may be charged with a battery (not shown) for its own operation.

Here, the time at which the auxiliary power is supplied to the controller 320 is set, and the time may be variably set.

Thus, the rack server 30 can be operated for a set time.

The controller 320 may drive the emergency generator 20 while the auxiliary power is being supplied and may stop driving the emergency power supply 10 after the emergency generator 20 is driven.

Accordingly, in the EMP situation in which the external main power is shut off, the operation of the rack server 30 and the actuating device 40 (see FIG. 3) provided in the main body 100 can be normally carried out as the emergency generator 20 is driven .

In the present invention, since the emergency generator 20 is disposed in the third installation area A3, which is a space isolated from the first and second installation areas A1 and A2, the emergency generator 20 is driven A substance such as soot generated along with the liquid may not leak into the first and second mounting areas A1 and A2 where the rack server 30 and the emergency power supply 10 are disposed.

Thus, the rack server 30 and the emergency power supply 10 can be stably driven without being exposed to soot.

Examples of an arrangement region of the emergency power supply and the emergency generator according to the present invention and an example of a configuration capable of selectively opening the third installation region will be described below.

6 is a perspective view showing a state in which another example of the sealing plate according to the present invention is applied.

Referring to FIG. 6, the sealing plate according to the present invention may be formed in a box shape in which a space is formed therein.

The inner space of the sealing plate 201 formed in a box shape is substantially formed as a third mounting region A3 in which the emergency generator 20 is disposed.

Accordingly, the third mounting region A3 forms an independent space isolated from the first and second mounting regions A1 and A2.

The box-shaped sealing plate 201 is exposed to the fourth exhaust fan 521 provided on the lower side plate 122 of the second electromagnetic wave shielding door 121 described above.

That is, the third installation area A3 may be ventilated by the second ventilation part 500. [

7 is a perspective view showing a state in which another example of the sealing plate according to the present invention is applied.

7, the first and second mounting regions A1 and A2 and the third mounting region A3 can be kept isolated from each other by the sealing plate 200, This is the same example.

8 is a view showing still another arrangement state of the emergency power supply and the emergency generator according to the present invention.

Referring to FIG. 8, the first mounting region A1 and the second mounting region A2 and A3 according to the present invention may be kept isolated from each other by the sealing plate 200. FIG.

That is, since the second and third installation areas A2 and A3 can be formed as one area, the emergency power supply 10 and the emergency generator 20 can be disposed in the same area.

As described above, according to the above-described configuration and operation, the embodiment of the present invention can efficiently and efficiently drive the emergency power source unit installed in the main body unit and prevent the loss of data by driving the emergency generator when the external power source is cut off in the EMP There is an advantage that it can be prevented.

Further, the embodiment according to the present invention has an advantage that the smoke generated in a state in which the emergency generator is driven is not leaked to the rack server side, and the rack server can be stably driven.

Further, the embodiment according to the present invention has an advantage that the area in which the emergency generator is arranged and the area in which the rack server is arranged can be individually ventilated.

Further, the embodiment according to the present invention has an advantage in that only the emergency generator can be opened to the outside, and maintenance of the generator can be smoothly performed.

Although the embodiments of the EMP protection rack system of the present invention have been described above, it is apparent that various modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: Emergency power supply
20: Vault generator
30: Rack Server
100:
200, 201: sealing plate
300: Emergency operation part
400: first ventilation part
500: second ventilation part
600: Power filter
A1: First installation area
A2: second installation area
A3: Third installation area

Claims (9)

A body portion;
A first installation area formed in the main body and having a rack server driven by receiving an external main power;
A second installation area formed in the main body and having an emergency power supply;
A third installation area in which the emergency generator is partitioned from the first installation area to be hermetically sealed from the outside and in which the emergency generator for driving the operation device is disposed; And
And an emergency operation part installed in the main body part and operating the emergency power supply for a predetermined time before driving the emergency generator when the external main power is cut off in an EMP situation.
The method according to claim 1,
The emergency operation unit includes:
A sensor for detecting whether the external main power is cut off,
When receiving a signal for interrupting the external main power from the sensor,
And a controller for operating the emergency power supply for a predetermined time before driving the emergency generator,
Wherein the set time is variably set to the control unit.
The method according to claim 1,
And the second mounting area is included in the first mounting area.
The method according to claim 1,
Wherein the second mounting area is included in the third mounting area.
The method according to claim 1,
A sealing plate is provided between the third mounting region and the first mounting region,
And the third mounting region is isolated from the first mounting region by the sealing plate.
The method according to claim 1,
Wherein the third installation area comprises:
Wherein the EMP protection rack system is formed so as to be surrounded by a sealing member to seal the outside of the main body unit.
The method according to claim 1,
And a pair of electromagnetic wave shielding doors for opening and closing the inside of the main body part are provided at the front and rear of the main body part,
Wherein one of said pair of electromagnetic wave shielding doors is provided with an auxiliary electromagnetic wave shielding door for opening and closing the inside of said third installation area.
The method according to claim 1,
Wherein,
A first ventilation part for ventilating the first installation area,
And a second ventilation part for venting the third installation area.
The method according to claim 1,
In the main body portion,
A power filter for transmitting the external main power is provided,
Wherein the power filter is located inside the main body and is installed to be inserted and removed from the outside of the main body.

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