KR102347301B1 - Wall structure for shield room with flame retardant fireproof structure - Google Patents

Abstract

The present invention relates to a wall structure having a flame-retardant, fire-proof structure for a shield room. The wall structure including a ceiling as a box supporting body for a shield room according to the present invention comprises: a main structure plate made from an aluminum material to have a structure of a honeycomb, which is applied as a support panel; and outer circumferential attached plates made from the same material (Al) attached to both surfaces of the main structure plate to constitute an integral walled- structure (a structure of a box room). Accordingly, compared to a conventional plywood, the wall structure of the present invention has a remarkably improved flame-retardant structure and fireproof performance and installation of accessories such as other fire preventing facilities, a fire detector and the like can be fundamentally excluded to save costs and ensure convenient follow-up management and maintenance. In particular, electromagnetic wave-shielding performance can be greatly increased and simultaneously safety against a fire can be drastically enhanced.

Description

Wall structure for shield room with flame retardant fireproof structure

The present invention is such that the main structural plate of the honeycomb structure made of aluminum is applied as a holding panel for the wall (including the ceiling), which is the box support of the shield room, and the outer peripheral plate of the same material (Al) is attached to both sides of the wall as an integral wall structure (box room structure), which has a significantly improved flame-retardant structure and fire-resistance performance compared to the previous use of wood plywood, as well as other fire prevention facilities and auxiliary materials such as fire detectors By doing so, it relates to a wall structure for a shield room of a flame retardant fire resistant structure, characterized in that cost reduction, convenient follow-up management and maintenance, and particularly, electromagnetic wave shielding performance is further improved and fire safety is remarkably improved.

In general, in various industrial fields such as medical, national defense, finance, and control, most tasks are processed through systems such as computerized (electronic communication, computer) equipment, and these computerized systems are destroyed by artificial or natural external factors. In order to prevent this, each industry is seeking a more active defense system by strengthening the security system or investing in security facilities.

Accordingly, electromagnetic pulse (hereinafter, referred to as EMP.) is electromagnetic energy naturally generated by lightning or artificially generated through military weapons such as an electronic bomb, and the EMP caused by such an electronic bomb is high microwave It generates energy in an instant and disables computing, electronics, communication, and computer equipment in an instant, causing damage and destruction of the defense computerized information system, administrative computerized system, financial computerized information system, etc. do.

On the other hand, the conventional shield room is a booth-type facility (such as a facility where only computer equipment such as an EMP rack is stored, etc.) It is manufactured in the form of a box structure divided on four sides based on the

At this time, in the conventional shield room wall structure, plywood is provided as a self-retaining structure for forming a wall, and GI steel sheets for electromagnetic wave blocking are adhered (attached) to both surfaces to form a series of box structures.

However, in the case of a fire (flame, heat, etc.), the structure itself is completely burned out or the fire spreads to the surroundings as the plywood material in the form of wood is used as the main material in the conventional shield room wall. It is a cause of car accidents (power outages, personal accidents, etc.).

In addition, as shown in FIG. 5, the conventional plywood structural type shield room wall is vulnerable to fire, so it is necessary to basically additionally install a fire prevention facility and a fire detector inside the shield room, thereby causing an increase in cost, and Difficulties occur (decreased productivity, economic feasibility) and, in particular, there is a problem that secondary services such as handling and maintenance must be provided.

1. Republic of Korea Patent Publication No. 10-1474911 (Registered on December 15, 2014)

The present invention is to solve the above problems, and its technical gist is that the main structural plate of a honeycomb structure made of aluminum is applied as a holding panel for the wall and ceiling, which are the box supports of the shield room, but the same material (Al ) is attached to form an integral box-type shield room structure, which has a significantly improved flame-retardant structure and fire-resistance performance compared to the previous use of wood plywood.

In addition, the present invention allows the installation of auxiliary materials such as fire prevention facilities and fire detectors to be excluded from the source, which reduces cost and facilitates follow-up management and maintenance, and particularly improves electromagnetic wave shielding performance and improves fire safety. Its purpose is to provide something that can be improved.

In order to achieve the above object, the present invention is such that the outer peripheral attachment plates 200 are respectively attached to both sides of the main structural plate 100 having a honeycomb structure to form the four-sided wall part (W) and the ceiling part (R) of the box-type shield room. However, the main structural plate 100 is made of aluminum and has a side cross-sectional width and thickness of 19 to 20 mm, and a cell size of the honeycomb is formed to be 1/4 inch.

Accordingly, the outer peripheral attachment plate 200 is formed of an aluminum material and has a thickness of about 0.5 to 2 mm, and is formed to be joined by a bonding or fusion (welding) method when attached to the main structural plate 100 .

In addition, the fire-resistant expansion sheet 300 is inserted inside the honeycomb cell of the main structural plate 100 or between the main structural plate 100 and the outer peripheral attachment plate 200, and when exposed to flame or heat in case of a fire, foaming and expansion It is formed to block the spread of the flame.

As described above, the present invention is such that the main structural plate of the honeycomb structure made of an aluminum material is applied as a holding panel, and an outer peripheral attachment plate of the same material (Al) is attached to both sides thereof to form an integral wall structure, which is the conventional wood Not only does it have a significantly improved flame-retardant structure and fire-resistance performance compared to the use of plywood, but it also allows the installation of auxiliary materials such as other fire prevention facilities and fire detectors to be excluded at the source. In particular, while the electromagnetic wave shielding performance is further improved, there is an effect that the fire safety is remarkably improved.

The present invention has the effect of reducing the cost, easy to manufacture, and convenient maintenance.

1 is an exemplary view of a wall structure for a shield room of a flame retardant fire resistant structure according to the present invention;
Figure 2 is a detailed view of Figure 1;
3 to 4 are exemplary views showing that a fire-resistant expansion sheet is inserted between the main structural plate and the outer peripheral attachment plate as an optional embodiment of the present invention.
5 is an exemplary view showing that a wooden plywood is used as a conventional shield room wall structure.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 to 4, in the present invention, the outer peripheral attachment plates 200 are respectively attached to both sides of the main structural plate 100 having a honeycomb structure, so that the four-sided wall part (W) and the ceiling part (W) of the box-type shield room ( R) is formed to achieve.

At this time, the main structural plate 100 is made of an aluminum material and has a side cross-sectional width and thickness of 19 to 20 mm, and a cell size of the honeycomb is formed to be 1/4 inch.

Accordingly, the outer peripheral attachment plate 200 is formed of an aluminum material and has a thickness of about 0.5 to 2 mm, and is formed to be joined by a bonding or fusion (welding) method when attached to the main structural plate 100 .

In addition, the fire-resistant expansion sheet 300 is inserted inside the honeycomb cell of the main structural plate 100 or between the main structural plate 100 and the outer peripheral attachment plate 200, and when exposed to flame or heat in case of a fire, foaming and expansion It is formed to block the spread of the flame.

At this time, the fireproof expansion sheet 300 is formed to be attached by attaching one layer or a plurality of layers as a thin tape (1 to 5 mm) structure. This is because, when too thick, the explosiveness is inhibited, and when too thin, the expandability is reduced.

This fireproof expansion sheet is formed to block the spread of indoor and outdoor flames while waiting from the inside when the outer peripheral plate (aluminum) melts due to heat when a fire occurs, and expands and expands by flame or heat.

At this time, it is preferable that a fixing pin 310 is formed on one surface of the fireproof expansion sheet to facilitate temporary assembly and fixing while being inserted into the cell part of the honeycomb.

These fixing pins are formed in the form of a chain in which a plurality of circular balls are connected in series, and the cross section is formed in the form of convex and convex folds to facilitate insertion and fixing by elasticity when inserted into the cell part of the honeycomb.

Accordingly, the fixing pin is prepared in a separate configuration so that it can be inserted while fixing the combined thing separated from the fire resistant expansion sheet by a wedge-shaped piece.

At this time, the fixing pin is formed to protrude several places out of the area in a set of at least four places on the top, bottom, left, and right based on the plane of the honeycomb, and is formed so that the fire-resisting expansion sheet of a large area does not flow down when inserted at the same time.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone with ordinary skill in the art to which the invention pertains without departing from the gist of the invention as claimed in the claims. Of course, such modifications are intended to be within the scope of the claims.

100 ... main structure plate 200 ... outer peripheral plate
300 ... Fireproof Expansion Sheet

Claims (3)

The outer peripheral attachment plates 200 are respectively attached to both sides of the main structural board 100 having a honeycomb structure to form the four-sided wall part (W) and the ceiling part (R) of the box-type shield room, but the main structural plate 100 is In the wall structure for the shield room of the flame-retardant fire-resistance structure, the material is aluminum, the width of the side section is 19 to 20 mm, and the cell size of the honeycomb is 1/4 inch,
The outer peripheral attachment plate 200 is made of an aluminum material and has a thickness of about 0.5 to 2 mm, and is formed to be joined by a bonding or fusion (welding) method when attached to the main structural plate 100, the main structural plate 100 A fireproof expansion sheet 300 is inserted inside the honeycomb cell of the or between the main structural plate 100 and the outer peripheral attachment plate 200, and when exposed to flame or heat in the event of a fire, it expands and expands to block the spread of the flame. , The fire-resistant expansion sheet 300 is inserted inside the honeycomb cell of the main structural plate 100 or between the main structural plate 100 and the outer peripheral attachment plate 200. A wall structure for a shield room of a flame retardant fire resistant structure, characterized in that a fixing pin 310 is formed on one surface of the fire resistant expansion sheet to promote temporary assembly and mounting and fixing while being inserted into the cell part of the honeycomb to block the spread of the flame.
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