KR101250902B1 - Box for Preventing Bomb Explosion - Google Patents

Abstract

In the present invention, it is possible to safely control phenomena such as expansion pressure, impact, heat, scattering of debris, etc., which may occur when explosives explode, and according to the present invention, it is possible to stably transport or store explosives such as organic carbon, It can protect people and property against unintentional explosions, and when the outer shell and inner shell are made of FRP, the weight can be reduced. Provided is an explosive storage box suitable for use in organic carbon containers and the like.
In the present invention consists of a main body 10 made of a cube or a cylindrical body with an upper portion open to have an inner space for containing explosives, and a lid 20 covering the upper portion of the main body 10; The wall constituting the main body 10 and the lid 20, the outer shell material (1) to maintain the appearance of the explosives storage box 100 and to protect the explosives from external impact when transporting or storing; A shock absorber (2) made of foamed aluminum, which absorbs the shock generated by the explosion and prevents the shock from propagating to the outside; A fiber bulletproof material (3) for preventing the scattering of debris generated when the explosives explode; The explosives storage box is provided, which is made of a member having a thickness by sequentially stacking the inner shell material 4 which maintains the shape of the explosive storage box 100 and primarily blocks the explosive power of the explosives.

Description

Box for Preventing Bomb Explosion}

The present invention relates to an explosives storage box, and more particularly, to an explosive storage box that can safely store explosives, such as an organic carbon container.

In military training, guns or bombs fired from artillery guns often go unexploded and remain unexploded. Such organic coals must be recovered quickly and transported to a safe place. However, there is a great risk of explosion during transport or storage of organic coal. When an organic coal explodes, it not only generates a large explosion pressure with volume expansion, but also generates debris, causing great damage to surrounding lives and objects.

In addition to these organic coals, explosives need to be transported and stored for blasting work in tunnels, and the like, and industrial explosives are always exposed to an explosion risk, so special care must be taken during transport or storage.

The present invention provides a storage box of a structure that can sufficiently cope with the explosion of the explosives, in order to protect the life and property against unintentional explosion in transporting and storing explosives such as organic coal or industrial explosives as described above For the purpose of

In order to achieve the above object, in the present invention, the upper body is opened to have an internal space for containing explosives consisting of a hexahedron or tubular body), and consists of a lid covering the upper portion of the main body; The wall constituting the main body and the lid includes: an outer cover material that maintains the outer shape of the explosive storage box and protects the explosives from external impacts during transport or storage; A shock absorber made of foamed aluminum which absorbs the shock generated by the explosion and prevents the shock from propagating to the outside; Fiber and bulletproof material to prevent the scattering of debris generated when explosives explode; An explosive storage box is provided, which is made of a member having a thickness by sequentially stacking an inner shell material which maintains the explosive storage box and primarily blocks the explosive power of the explosive material.

In the explosive storage box of the present invention, between the inner surface of the shell material and the shock absorber, and between the inner surface and the shock absorber of the fiber ballistic material, or one of the two, it has elasticity and the expansion air caused by the explosion leaks to the outside An elastic expansion cover member may be further disposed to prevent the cover from being stretched.

In addition, in the explosive storage box of the present invention, the shell material and the shell material is made of fiber reinforced synthetic resin; The elastic expansion cover material is preferably made of polyurea.

The explosives storage box according to the present invention can safely control phenomena such as expansion pressure, impact, heat, and scattering of debris that may occur when an explosive is exploded, and accordingly, the present invention stably transports explosives such as organic carbon or the like. It can be stored, protecting people and property against unintended explosions. In particular, when the outer shell material and the inner shell material is manufactured in FRP, it is possible to achieve a light weight, can be easily lifted and transported even with a small number of people, the handleability is greatly improved.

1 is a schematic perspective view showing a partially opened state of the lid of the explosives storage box according to the first embodiment of the present invention.
FIG. 2 is a schematic partial cross-sectional view taken along line AA of FIG. 1 showing a cross-sectional structure of a wall forming the explosives deposit of the present invention.
3 is a perspective view corresponding to FIG. 1, which is a schematic perspective view of an explosives storage box according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

1 is a schematic perspective view showing a state in which the lid 20 of the explosives storage box 100 according to the first embodiment of the present invention is partially opened, and FIG. 2 shows a wall of the explosive storage box 100. A schematic partial cross sectional view along line AA of FIG. 1 showing a cross sectional structure is shown. For reference, the term "inner surface" is used herein to mean a surface in a direction toward the center of the wall.

The explosive storage box 100 according to the present invention includes a main body 10 made of a hexahedron or tubular body whose upper part is opened to have an inner space capable of containing explosives, and a lid 20 covering an upper part of the main body 10. Consists of In the first embodiment shown in Figure 1, the main body 10 and the lid 20 is connected by a hinge 21, by rotating the lid 20 to open and close the upper body 10. The main body 10 and the lid 20 are provided with locking members, so that when the lid 20 is closed, the locking members are coupled to each other to prevent the lid 20 from being inadvertently opened. Since the locking member can be used by employing a variety of known, a detailed description thereof will be omitted.

In the explosives storage box 100 of the present invention, the main body 10 and the lid 20 are made of a wall. As shown in FIG. 2, the wall goes from the outside to the inside, and the outer shell material 1 and the shock absorbing material 2. , The fiber bulletproof material (3) and the inner shell material (4) are sequentially laminated and made of a member having a thickness.

Specifically, the outer shell material 1 and the inner shell material 4 disposed at intervals from each other maintain the appearance of the explosive storage box 100, and protect the explosives from external impact when transporting or storing (in the case of the outer shell material), It acts primarily to prevent the explosive power of explosives (in the case of inner skin), and can also be made of steel plate made of alloy, and for weight reduction, fiber reinforced plastic It is preferable to be produced with. The thickness of the outer shell material 1 and the inner shell material 5 is preferably about 2.3 to 2.5 mm, but is not necessarily limited thereto.

The fiber bulletproof material 3 is disposed on the inner surface of the inner shell material 4. The fiber bulletproof material 3 serves to prevent the scattering of debris generated when the explosives explode. When explosives explode, the debris contained in the explosives scatter and kill people. In the explosive storage box 100 of the present invention, the fiber bulletproof material 3 is disposed between the shell material 1 and the shell material 4, specifically, on the inner surface of the shell material 4 to prevent scattering of debris. . The fiber bulletproof material (3) has a structure in which the fibers are tightly woven, so that the fragments do not pass or the passage speed is significantly reduced even if the fragments pass. Therefore, when the fiber bulletproof material 3 is disposed on the inner surface of the inner shell material 4 as described above, even if the explosives are exploded and debris is generated, the fragments are blocked by the fiber bulletproof material 3 and cannot pass through or the passing speed thereof is extremely reduced. In the end, it will not pass through the shell material (1). In the present invention, the fiber ballistic material (3) is preferably disposed in a thickness of about 1.3 to 3.9mm. However, if necessary, the thickness of the fiber ballistic material 3 may be further increased or decreased.

The shock absorbing material 2 for absorbing the shock is disposed between the shell material 1 and the fiber ballistic material 3. The shock absorbing material 2 serves to prevent the shock from being propagated by absorbing the shock generated by the explosion, and when the shock is generated, the shock absorbing surface is recessed to absorb the shock. In the present invention, the shock absorber 2 is preferably made of foamed aluminum. The foamed aluminum is made of a structure having pores so that the shock absorbing effect due to the depression when the impact occurs, while having a strong property against heat, it is optimal to absorb the impact of the explosives explosions as described above Material. In other words, the shock absorber made of foamed aluminum exhibits a function of effectively absorbing shock without causing a phenomenon such as melting of the shock absorber even when high temperature heat is generated during explosion. The shock absorbing material 2 made of foamed aluminum preferably has a thickness of about 30 mm. However, the thickness of the shock absorber 2 may also be further increased or decreased as necessary.

On the other hand, in the present invention, the inner surface of the outer cover material (1) and the inner surface of the inner cover material (4) may be located at each of the elastic expansion cover material (5). The elastic expansion cover member 5 is made of a material having excellent elasticity, and performs a function of controlling volume expansion generated when an explosive is exploded.

When explosives explode, the air around them expands. When the air expands without any restrictions, the expansion pressure causes a great damage to the surrounding lives or objects. In order to prevent this, in the present invention, the elastic expansion cover member 5 made of a material having excellent elasticity is disposed between the inner surface of the outer shell material 1 and the shock absorber 2, and the inner surface of the inner shell material 4 and the fiber bulletproof material 3. You can place more between). When the explosives explode, the elastic expansion cover member 5 is expanded due to the expansion pressure due to the volume expansion of the surrounding air, thereby preventing the expanded air from spreading to the outside of the storage box. As the material of the elastic expansion cover member 5, it is preferable to use polyurea excellent in elasticity and durability, and its thickness is preferably about 3 mm. However, the thickness of the elastic expansion cover member 5 is not limited to the above numerical values.

In the explosives storage box 100 of the present invention in which the main body 10 and the lid 20 are formed by a wall having a laminated structure of the members, when an explosive is exploded, fragments generated and scattered by an explosion are primarily Even if the debris is penetrated by the inner shell 4, but the debris penetrates the inner shell 4, it does not pass through the fiber bulletproof material 3 disposed on the inner surface of the inner shell 4, and the scattered by the fiber bulletproof material 3 It is stopped. Even if only a fraction of the debris passes through the fiber ballistic material (3), the scattering speed is extremely reduced, so that it is stuck in the shock absorber (2).

On the other hand, the shock generated by the explosion is primarily absorbed by the inner shell 4 and the fiber bulletproof material 3, and then absorbed by the deformation (depression, etc.) of the shock absorber 2. And when the air is expanded by the explosion, the elastic expansion cover member 5, the elastic expansion cover member (5) as the elongated trapped expanded air trapped in the expanded air outside the explosives storage box (100) Will not be released.

As described above, the explosive storage box 100 according to the present invention can safely control phenomena such as expansion pressure, impact, heat, and scattering of debris that may occur when an explosive is exploded, and thus stably control explosives such as organic carbon. It can be transported or stored. In particular, when the outer shell material and the inner shell material is manufactured in FRP, it is possible to achieve a light weight, can be easily lifted and transported even with a small number of people, the handleability is greatly improved.

In the first embodiment illustrated in FIG. 1, the lid 20 has a structure of opening and closing by a hinge, but the connection between the main body 10 and the lid 20 is connected by the hinge 21. The present invention is not limited thereto, and may be modified into a fully separated structure, a sliding structure, or the like. That is, in the present invention, the coupling structure between the main body 10 and the lid 20 is not limited to those illustrated in the drawings or the specification, and may be variously modified.

Figure 3 is a schematic perspective view of the explosives storage box 100 according to the second embodiment of the present invention, as shown in the figure, the lid 20 is coupled to the sliding structure on the upper surface of the main body 10 It may be. That is, the movable jaw 22 is formed on the side surface of the lid 20, and the movable jaw 22 is formed on the upper surface of the main body 10 by forming a rail part 12 that can hold the movable jaw 22. By being bitten by the rail unit 12, the lid 20 may move along the length of the rail unit 12 so that the lid 20 may slide on the upper surface of the main body 10. And as shown in the figure may be formed on the outer surface of the lid 20 protruding reinforcement ribs (24). The reinforcing ribs 24 may be formed on the lid 20 of the explosives storage box 100 according to the first embodiment as well as the second embodiment. Since the wall structure and the like of the explosives storage box 100 according to the second embodiment is the same as the first embodiment described above, a repeated description thereof will be omitted.

1: shell material
2: shock absorber
3: fiber bulletproof material
4: inner skin
5: elastic expansion cover material
10: Body
20: lid
100: Explosive Cache

Claims (4)

delete A main body 10 made of a hexahedron or a cylindrical body having an open top to have an inner space capable of containing explosives, and a lid 20 covering an upper part of the main body 10;
The wall forming the main body 10 and the lid 20,
An outer cover material (1) which maintains the appearance of the explosive storage box 100 and protects the explosive from external shocks during transport or storage;
A shock absorber (2) made of foamed aluminum, which absorbs the shock generated by the explosion and prevents the shock from propagating to the outside;
A fiber bulletproof material (3) for preventing the scattering of debris generated when the explosives explode;
The inner shell material 4 which maintains the shape of the explosive storage box 100 and primarily blocks the explosive power of the explosive is sequentially stacked and is formed of a member having a thickness;
Explosives, characterized in that between the inner surface of the outer shell material 1 and the shock absorbing material (2), an elastic expansion cover member (5) having elasticity and preventing the expansion air from leaking to the outside is disposed locker.
The method of claim 2,
An elastic expansion cover member (5) is disposed between the inner surface of the fiber ballistic material (3) and the impact absorbing material (2), which has elasticity and prevents expansion air from leaking out due to an explosion. Explosives Locker.
The method according to claim 2 or 3,
The outer shell material 1 and the inner shell material 4 are made of fiber reinforced synthetic resin;
The elastic expansion cover material 5 is explosives storage, characterized in that made of polyurea.

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