KR20130034117A - Door for shield from exposure using aluminum foam panel - Google Patents

Abstract

PURPOSE: An explosion door using an aluminum foam panel is provided to include sufficient explosive resistance by supporting the explosive power with the inner reinforcing frame while the foam absorbs the impact. CONSTITUTION: An explosion door using aluminum foam panel comprises an external coating material(10), an inner reinforcing frame(20), and an aluminum foam(30). The inner reinforcing frame comprises a frame material(21) and a center latticed material(22). The aluminum foam fills the internal space of the external coating material. The aluminum foam is compacted by the pressure applied through the external coating material and absorbs the impact.

Description

Explosion-proof door with aluminum foam panel {Door for Shield from Exposure using Aluminum Foam Panel}

The present invention relates to an explosion-proof door that is installed to block the pressure and noise caused by the explosion in a place where there is a risk of explosion, such as explosives reservoir, gas cylinder reservoir, and the like, specifically, between the outer material arranged at intervals The internal reinforcement frame made of the beam member is arranged, and the space between the beam member and the outer shell material is filled with foamed aluminum, so that the explosion pressure can be effectively absorbed when the explosion occurs and at the same time, it can effectively block the noise generated during the explosion. Explosion-proof door using a novel aluminum foam panel.

There is always a risk of explosions in reservoirs that store explosives or gas cylinders. The wall of the reservoir is made of concrete or the like, and the wall of the concrete can be prepared for explosion by increasing its thickness. By the way, there is a door (door / door) that is opened and closed so that the user can enter and exit the inside of the store, and eventually, when the explosion occurs inside the store (door) is bound to be vulnerable to the explosion. In order to prevent the door from becoming vulnerable to explosion, the door should be manufactured to have sufficient strength against explosion pressure like the wall of the reservoir. The easiest way to ensure that the door has a large load capacity, such as explosion pressure, is to make it from concrete or steel. However, when the door is made of such a scary material, it becomes difficult for the user to open and close the problem that the usability is degraded. Therefore, the door provided in the explosive storage needs to be configured to be easily opened and closed by the user while having a large strength against explosion pressure.

On the other hand, the present inventor proposed an aluminum foam panel having a shock absorbing structure through the Korean Patent No. 10-1045432 (June 30, 2011). The aluminum foam panel disclosed in Korean Patent No. 10-1045432 described above has a very excellent ability to absorb impact due to explosion while being lightweight. Therefore, the aluminum foam panel of Korean Patent No. 10-1045432 proposed by the present inventors has great value that can be utilized as an explosion-proof door.

Republic of Korea Patent No. 10-1045432 (announced June 30, 2011).

The present invention has been developed in accordance with the above needs, and specifically, as a door provided in the explosive storage, an object of the present invention is to provide an explosion-proof door configured to be easily opened and closed by the user while having a large strength against the explosion pressure.

In order to achieve the above object, in the present invention, as the explosion-proof door to resist the explosive force, the outer shell material forming the skin of the door; An internal reinforcing frame disposed in the inner space of the shell material to reinforce the rigidity of the explosion-proof door; An aluminum foam filling the inner space of the shell material; When the explosion occurs, the aluminum foam is compressed by the pressure applied through the outer shell material to absorb the shock and at the same time the explosive force due to the explosion is supported by the internal reinforcing frame to withstand the impact of the explosion Explosion proof doors are provided.

In addition, in the present invention, as a specific embodiment of the explosion-proof door as described above, the inner reinforcing frame is composed of a border member disposed on the edge of the explosion-proof door, and the intermediate grid member disposed in a grid shape in the space partitioned by the border member; ; The beam member constituting the internal reinforcing frame is made of a steel H beam having an H-shaped cross section or a steel c-shaped bending beam having a c-shaped cross section; The outer shell material is wrapped around the front and rear of the inner reinforcing frame to form an explosion-proof door; The aluminum foam is provided with an explosion-proof door, characterized in that the interior of the shell material is filled in the space between the rim member and the intermediate grid member of the inner reinforcing frame.

In a further specific embodiment of the present invention, a roller mounting plate is provided at an upper end of the explosion-proof door, and a rotatable roller is installed at an inner surface of the roller mounting plate, so that the width of the explosion-proof door is at the front wall of the structure in which the roller is installed. It is disposed in the rail member that is installed long in the direction; The edge member installed at the bottom of the explosion-proof door has a U-shaped cross section and is provided with an open side facing downward, so that the rotatable bottom ground roller installed on the ground is located in the frame member; An explosion-proof door is provided, characterized in that the roller is rolling in the rail member and the ground roller is opened and closed in a sliding shape as the ground roller rotates in the frame member.

In addition, in another embodiment of the present invention, two explosion-proof doors are formed in a pair, and the outer side of each explosion-proof door is provided with a rotating shaft for rotation during opening and closing, each of the vertical direction of the rotating shaft is an upper rotary device And it is rotatably coupled to the lower rotating device is provided an explosion-proof door, characterized in that the opening and closing in the form of a case.

The explosion-proof door according to the present invention is filled with an aluminum foam having a large impact absorbing performance in the inner space of the shell material, the inner reinforcement frame made of a beam member is disposed inside the shell material, the explosion-proof door of the present invention is installed in the explosive storage In this case, even if an explosion occurs inside the reservoir, the aluminum foam is compressed by the pressure applied through the outer shell material to absorb the impact of the explosion, and the explosion force is supported by the internal reinforcing frame to explode the explosion-proof door. The effect of being able to have a sufficient resistance to the impact caused by.

In particular, the explosion-proof door according to the present invention uses an aluminum foam, and since the aluminum foam is a lightweight material, the explosion-proof door according to the present invention is very lightweight, and thus has the advantage of being easily opened and closed by the user.

1 is a schematic front view of a sliding door-type explosion-proof door as a first embodiment using an explosion-proof door according to the present invention.
2 is a schematic cross-sectional view taken along line AA of FIG. 1.
3 is a schematic cross-sectional view taken along line BB of FIG. 2.
4 is a schematic exploded perspective view of the explosion-proof door according to the present invention.
5 is a schematic partial cross-sectional view taken along line CC of FIG. 1.
6 is a schematic partial cross-sectional view taken along the line DD of FIG. 1.
7 is a schematic front view of the explosion-proof door according to the present invention in the form of a case.
8 is a schematic cross-sectional view taken along line EE of FIG. 7.
FIG. 9 is a schematic cross-sectional view taken along the line FF of FIG. 7.
FIG. 10 is a schematic enlarged view of a portion G of FIG. 8.
FIG. 11 is a schematic enlarged view of a portion H of FIG. 9.
12 is a schematic enlarged view of a circle J portion of FIG. 9.

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 first embodiment using the explosion-proof door according to the present invention, a schematic front view of a sliding-type explosion-proof door is shown, Figure 2 is a schematic cross-sectional view taken along the line AA of FIG. 3 shows a schematic cross sectional view along line BB of FIG. 2. 4 is a schematic exploded perspective view of the explosion-proof door according to the present invention. As shown in the drawings, the explosion-proof door 1 according to the present invention is disposed in the inner space of the outer cover material 10 and the outer cover material 10 forming the outer skin of the door to reinforce the rigidity of the explosion-proof door 1 It consists of a reinforcing frame 20 and an aluminum foam 30 filling the inner space of the shell material 10.

Specifically, the outer cover material 10, which forms the front and rear of the explosion-proof door 1, it may be made of steel plate, fiber reinforced plastic (Fiber Reinforced Plastic) plate and the like. In addition, the outer cover 10 may form an outer surface of both the upper, lower, left and right sides of the explosion-proof door (1).

The inner reinforcing frame 20 is made of a beam member is disposed in the inner space of the outer cover material 10 to further reinforce the rigidity of the explosion-proof door (1). The internal reinforcing frame 20 is a border member 21 disposed at the edge of the explosion-proof door (1), and the middle grid member 22 is arranged in a grid form in the space partitioned by the border member 21 Can be done. The beam member constituting the internal reinforcing frame 20 may be formed of a steel H beam having an I-shaped cross section or a steel c-shaped bending beam having a c-shaped cross section.

The front and back and the side of the inner reinforcing frame 20, the outer shell material 10 is wrapped to form an explosion-proof door (1), the inner reinforcing frame in the interior of the outer shell material 10 as described herein The aluminum foam 30 is filled in the space between the rim member 21 and the intermediate grid member 22 of the 20. That is, when looking at the explosion-proof door 1 in front, in the state in which the aluminum foam 30 is filled in the space between the rim member 21 and the intermediate grid member 22 of the inner reinforcing frame 20, the rim member After applying an adhesive or the like to the 21, the middle lattice member 22 and the aluminum foam 30, respectively, the front, rear and side surfaces of the inner reinforcing frame 20 and the middle lattice member 22, and the aluminum foam ( It is to form the explosion-proof door (1) by wrapping 30 with the outer cover material 10 to be bonded by an adhesive.

When the explosion-proof door (1) of the present invention having the above configuration as shown in Figures 1 to 3, when installed in the form of a sliding door to open and close by sliding in the width direction of the explosion-proof door (1) to use the following configuration do.

FIG. 5 is a schematic partial cross-sectional view taken along the line CC of FIG. 1. As shown in the drawing, the roller mounting plate 101 is vertically installed on the top of the explosion-proof door 1, and the roller mounting plate ( The rotatable roller 102 is installed on the inner surface (surface in the storage direction) of the 101. On the structure facing the roller mounting plate 101, that is, the front wall of the reservoir 200, a rail member 103 on which the roller 102 travels is provided long in the width direction of the explosion-proof door 1. . Such a roller mounting plate 101 and the roller 102 may be provided in a plurality of places over the width of the explosion-proof door 1, the roller 102 is located in the rail member 103.

On the other hand, Figure 6 is a schematic partial cross-sectional view according to the line DD of Figure 1, as shown in the figure, the lower side of the explosion-proof door (1) has a cross-shaped cross-section in the width direction of the explosion-proof door (1) Longer frame member 21 is made of a C-shaped steel is provided so that the open side is facing downward. On the ground facing the lower side of the explosion-proof door (1) is provided a rotatable lower ground roller 112, the ground roller 112 is located in the frame member (21).

When opening the explosion-proof door (1) of the present invention installed in this way, the user pushes the explosion-proof door (1) in the width direction of the explosion-proof door (1), wherein the roller mounting plate on the top of the explosion-proof door (1) 101 is installed vertically, and the rotatable roller 102 is installed on the inner surface (surface in the storage direction) of the roller mounting plate 101. On the front wall of the reservoir facing the roller mounting plate 101, a rail member 103 on which the roller 102 runs is provided long in the width direction of the explosion-proof door 1. The roller 102 provided at the upper end of the explosion-proof door 1 is rolled in a state located in the rail member 103 provided at the front wall of the reservoir, and at the same time, the edge member provided at the lower end of the explosion-proof door 1. The ground roller 112 is rotated in the state where the ground roller 112 is located in 21, and the explosion-proof door 1 smoothly moves in the width direction, and the explosion-proof door 1 is opened. In the case of closing the explosion-proof door 1, the user moves the explosion-proof door 1 in the direction opposite to the above-described direction, and as described above, the roller 102 moves to the ground while simultaneously rolling the rollers in the rail member 103. The explosion-proof door 1 is closed by rolling the roller 112 along the frame member 21.

As described above, the explosion-proof door 1 according to the present invention is filled with the aluminum foam 30 in the inner space of the outer shell material 10, such aluminum foam 30 has a large impact absorption performance. Furthermore, the inner reinforcing frame 20 made of a beam member is disposed inside the outer cover material 10. Therefore, when an explosion occurs, the aluminum foam 30 is compressed by the pressure applied through the outer shell material 10 to absorb the shock and at the same time, the explosion force due to the explosion is supported by the internal reinforcing frame 20 to prevent explosion. The door 1 withstands the impact of an explosion. Therefore, it is possible to have a sufficient resistance to the explosion.

In particular, since the aluminum foam 30 is a lightweight material, the explosion-proof door 1 according to the present invention, the interior of which is filled by the aluminum foam 30 is very lightweight, and thus can be easily opened and closed by the user. There is this.

Furthermore, in installing the explosion-proof door 1 according to the present invention, since both the upper and lower portions of the explosion-proof door 1 has a roller-rail coupling structure, the upper and lower portions of the explosion-proof door 1 are reservoirs. It is possible to move in close contact with the front wall of the 200, to exhibit an additional explosion pressure supporting effect and easy opening and closing performance.

Next, a second type of explosion-proof door using the explosion-proof door of the present invention will be described with reference to FIGS. 7 to 12.

Specifically, FIG. 7 is a schematic front view of a door-type explosion-proof door, FIG. 8 is a schematic cross-sectional view taken along the line EE of FIG. 7, and FIG. 9 is schematically shown along the line FF of FIG. 7. A cross section is shown. FIG. 10 is a schematic enlarged view of the circle G portion of FIG. 8, and FIGS. 11 and 12 are schematic enlarged views of the circle H and circle J portions of FIG. 9, respectively.

Even in the case of the swing-proof door 1 shown in Figures 7 to 12, the construction of the explosion-proof door 1 itself is the same as the case of the sliding type illustrated above. That is, the case-proof explosion-proof door (1) is also arranged in the outer space of the outer skin material 10 and the inner space of the outer skin material 10, the internal reinforcement frame 20 to reinforce the rigidity of the explosion-proof door (1) ) And foamed aluminum 30 filling the inner space of the shell 10. However, two explosion-proof doors (1) form a pair so as to be opened and closed in a case shape, each of the explosion-proof door (1) is provided with a rotating shaft 50 for rotation during opening and closing, the rotating shaft Each of the vertical ends of the 50 is only different in that it is rotatably coupled to the upper rotary device 60 and the lower rotary device 61 provided in the reservoir. In particular, the case-type explosion-proof door (1) shown in Figures 7 to 12 is composed of "both doors" that are open at each side, but is not limited to this, the explosion-proof door (1) is made of a casement opening only one side. It may also consist of a "single door".

In the above description, the explosion-proof door 1 of the present invention is installed in a reservoir for storing explosives, so as to resist explosions occurring inside the reservoir, but the explosion-proof door 1 of the present invention has an explosive force from the inside. It is not limited to the case where it is used to prevent this. That is, the explosion-proof door 1 of the present invention may be used to protect the interior space from explosions from the outside. For example, the explosion-proof door 1 of the present invention may be used for the purpose of protecting a building or an interior, such as a bomb shelter, from an explosion occurring outside.

1: explosion-proof door
10: shell material
20: internal reinforcement frame
30: aluminum foam

Claims (4)

As explosion-proof door (1) which resists explosion force,
An outer shell material 10 forming the outer skin of the door;
An internal reinforcing frame 20 disposed in the inner space of the shell material 10 to reinforce the rigidity of the explosion-proof door 1;
It consists of aluminum foam (30) filling the inner space of the shell material (10);
When the explosion occurs, the aluminum foam 30 is compressed by the pressure applied through the outer shell material 10 to absorb the shock and at the same time the explosive force due to the explosion is supported by the internal reinforcing frame 20 to the explosion Explosion-proof door, characterized in that to withstand the impact caused.
The method of claim 1,
The internal reinforcing frame 20 is a border member 21 disposed at the edge of the explosion-proof door (1), and the middle grid member 22 is arranged in a grid form in the space partitioned by the border member 21 Consisting of;
The beam member constituting the internal reinforcing frame 20 is made of a steel H beam having an H-shaped cross section or a steel c-shaped bending beam having a c-shaped cross section;
The outer cover material 10, the front and rear of the inner reinforcing frame 20 is wrapped to form an explosion-proof door (1);
The aluminum foam (30) is explosion-proof door, characterized in that filled in the space between the rim member 21 and the intermediate grid member 22 of the inner reinforcing frame (20) inside the shell material (10).
The method according to claim 1 or 2,
The upper end of the explosion-proof door (1) is provided with a roller mounting plate 101, the inner surface of the roller mounting plate 101 is provided with a rotatable roller 102, the roller 102 is explosion-proof door (1) It is arrange | positioned in the rail member 103 installed in the width direction of the explosion-proof door 1 in the structure front wall to be installed;
The edge member 21 installed at the lower end of the explosion-proof door 1 has a U-shaped cross section and is provided so that the open side faces downward, so that the rotatable lower ground roller 112 is installed on the ground. Located in the frame member 21;
Explosion-proof door, characterized in that the roller 102 is rolling in the rail member 103, and the ground roller 112 is opened and closed in a sliding form as it rotates in the frame member (21).
The method according to claim 1 or 2,
Two explosion-proof doors (1) form a pair, each of the explosion-proof door (1) is provided with a rotating shaft 50 for rotation when opening and closing, each of the vertical ends of the rotating shaft (50) Explosion-proof door, characterized in that rotatably coupled to the upper rotary device 60 and the lower rotary device 61 is opened and closed in the form of a case.

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