KR101250903B1 - Composite Wall using Aluminum Foam Panel and Concrete Panel, and Constructing Method thereof, and Shield Structure using such Composite Wall - Google Patents

Abstract

The present invention has a structure in which a concrete plate is integrally synthesized on one side of an aluminum foam panel having a thickness in which aluminum foam is filled between the outer covering materials arranged at intervals, and the construction is easy and economical, The present invention relates to a composite explosion-proof wall having excellent explosion-proof performance and anti-penetration performance, a construction method thereof, and a protective structure that can be safely evacuated by using such a composite explosion-proof wall.
In the present invention, at one side of the aluminum foam panel (1) consisting of two outer shell material 10 and the aluminum foam 20 is filled between the outer shell material 10 and absorbs the external pressure at intervals with the outer shell material. Placing the formwork 70a; Placing a wire mesh 71 between the formwork 70a and the aluminum foam panel 1; Install the thickness reinforcing rods 80, the inner end of the thickness direction reinforcing rods 80 is bent, the steel wire 71 between the formwork 70a and the aluminum foam panel 1 is reinforced in the thickness direction Positioned at the corner of the bent end of the rod 80; It is produced by pouring concrete into the gap between the formwork 70a and the aluminum foam panel 1, and integrally synthesizing and forming the concrete plate 3 on the outer surface of the interior of the aluminum foam panel 1 A composite explosion-proof wall having a cross-sectional configuration in which a concrete plate 3 having a thickness is disposed on an outer surface of the outer cover material 10 of the aluminum foam panel 1, a method of constructing the same, and a protective structure using the same. do.

Description

Composite wall using Aluminum Foam Panel and Concrete Panel, and Constructing Method, and Shield Structure using such Composite Wall}

The present invention relates to a composite explosion-proof wall made of a composite of aluminum foam panels and concrete plates, a method of constructing such a composite explosion-proof wall, and an explosion-proof structure using such a composite explosion-proof panel. An explosion-proof wall that has a structure in which a concrete plate is integrally synthesized on one side of an aluminum foam panel having a thickness filled with aluminum foam, thereby providing excellent explosion-proof performance and anti-penetration performance while being easy to construct and economical. It is about the construction method and the protective structure which is constructed using such a composite explosion-proof wall, and can be evacuated safely.

Explosion-proof performance that can effectively absorb the explosion pressure generated during an explosion is very important in a protective structure constructed to prepare for terrorism and direct attack by weapons in case of emergency. In addition to this explosion-proof performance, the penetration resistance against direct impact of debris or explosives is also very important.

The protective structure is generally constructed in the form of an architectural structure consisting of a ceiling slab, a wall, and a floor foundation, which has an evacuated interior space. Such conventional protective structures are designed to respond to the extent of blasting and the anticipated weapon system. Slabs and walls are simply built of thick concrete walls. Thick concrete structures cause additional costs, such as the increase of foundations, as well as control of heat of hydration during casting. Recently, according to the improvement of the material of concrete, high-performance materials such as fiber reinforced concrete are used for the construction of protective structures.

The loads caused by explosions ("blasting loads") not only act as high pressures in a very short time, but because the requirements for the scale of the explosion are not clear, the concrete itself, which forms the protective structure, withstands the blast loads, that is, the explosion pressures. In order to achieve this, the concrete walls of the protective structure must have a considerable thickness, which leads to a significant increase in cost and lower economic efficiency.

In addition, the impact of a rigid body such as a bomb directly hits the concrete wall may damage the exterior of the concrete wall of the protective structure, or the concrete fragments may fall off from the inner surface of the concrete wall, causing scattering. Countermeasures are required to prevent secondary damage caused by fly ash.

The present invention was developed in order to overcome the limitations of the protective structure that is simply constructed as a concrete wall as above, specifically, to improve the economics and constructability by reducing the thickness of the concrete forming the wall of the protective structure while having sufficient explosion-proof function, The impact caused by the impact of explosives or the pressure of explosion is absorbed by the aluminum foam foam panels installed on the outside to reduce the effect of the transfer to the inner wall. Its purpose is to ensure that the protective structure does not cause damage to the target to be protected by acting to restrain it from causing it.

In particular, it is an object of the present invention to provide a composite explosion-proof wall which is manufactured by synthesizing an aluminum foam panel and concrete as a wall suitable for the construction of the above-described protective structure, which can be very usefully used for the construction of the protective structure.

In order to achieve the above object, in the present invention, the aluminum foam panel is formed by a plate-like outer shell material disposed facing each other with an interval, and the aluminum foam filled between the outer shell material and absorbing external pressure; On the outer surface of the interior shell material of the aluminum foam panel, a concrete plate having a thickness is provided in contact with; The composite explosion-proof wall is provided having a configuration in which the aluminum foam panel and the concrete plate are integrally coupled.

In the composite explosion-proof wall of the present invention, the aluminum foam panel has a structure in which a plurality of aluminum foam panels are connected to the side, between the sides of the aluminum foam panel is connected to each other, H having a first flange, a web and a second flange Arrange the connecting beam of the cross section, and sandwich the sides of both aluminum foam panels between the first flange and the second flange on both sides of the web of the connecting beam, and penetrate the first flange, the aluminum foam panel and the second flange. By inserting and fastening the fastening member so as to have a structure in which the aluminum foam panels are continuously connected to each other laterally.

Also in the composite explosion-proof wall of the present invention, a thickness reinforcing rod is disposed through the aluminum foam panel in the thickness direction of the composite explosion-proof wall; A steel mesh is disposed on the concrete plate; An inner end portion located between the formwork and the aluminum foam panel among the end portions of the thickness reinforcing rods is formed as a bent end portion; The wire mesh disposed in the concrete plate is located at the corner of the bent end of the thickness direction reinforcing rod, the structure is restrained by the bent end of the wire mesh disposed in the concrete plate to limit the movement in the thickness direction May have

In the present invention, as a method of constructing the composite explosion-proof wall, the formwork is disposed at intervals from the interior skin of the aluminum foam panel; A wire mesh is disposed between the formwork and the aluminum foam panel; The steel wire between the formwork and the aluminum foam panel and the thickness reinforcing rod is inserted to pass through the aluminum foam panel, wherein the inner end of the end of the thickness direction reinforcing rod located between the formwork and the aluminum foam panel is bent The wire mesh between the formwork and the aluminum foam panel is positioned at a corner of the bent end of the thickness reinforcing rod; An outer end of the thickness reinforcing rod is fixed to an outer surface of the outer shell material of the aluminum foam panel; The construction method of the composite explosion-proof wall is provided by placing concrete in the gap between the formwork and the aluminum foam panel, by integrally synthesizing the concrete plate on the outer surface of the interior shell material of the aluminum foam panel.

In addition, in the present invention, having a floor base, a wall, and a ceiling slab, which has an interior space, is a protective structure that protects people or objects in the interior space from an external explosion or shock, and the wall or ceiling slab of the protective structure is explosion-proof. A protective structure consisting of walls is provided.

According to the present invention, it is possible to reduce the thickness of the concrete constituting the wall of the protective structure while having sufficient explosion-proof function, thereby greatly improving the economics and workability, damage to the outside of the concrete wall due to the impact or explosion pressure caused by the impact of the explosives Or when concrete fragments fall off and scatter from the interior of the concrete wall, secondary damage can be prevented. Therefore, it is possible to build a protective structure with excellent stability.

1 is a schematic perspective view of a composite explosion-proof wall according to the present invention.
FIG. 2 is a schematic exploded perspective view showing a state of constructing the composite explosion-proof wall of the present invention shown in FIG.
3 and 4 is a schematic exploded perspective view and a combined perspective view showing the connection structure of the aluminum foam panel according to the present invention, respectively.

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.

FIG. 1 is a schematic perspective view of a composite explosion-proof wall 100 according to the present invention, that is, a composite explosion-proof wall 100 having a composite cross section in which a concrete plate 3 and an aluminum foam panel 1 are integrally coupled to each other. It is.

As shown in the figure, the composite explosion-proof wall 100 according to the present invention has a composite cross-sectional structure in which the concrete plate 3 is integrally formed to have a thickness on one side of the aluminum foam panel (1). The aluminum foam panel 1 is a panel having a sandwich-shaped cross-sectional structure composed of two plate-like shells 10 spaced apart from each other and an aluminum foam 20 filled therebetween. The envelope 10 may be made of steel plate or fiber reinforced plastic (Fiber Reinforced Plastic). For solid unity with the concrete plate 3, the outer skin material 10 of the outer skin material 10 of the aluminum foam panel 1 which is in direct contact with at least the concrete plate 3 is a corrugated steel sheet. It may be configured.

The aluminum foam 20 basically has a shock absorbing performance. That is, when the pressure is applied through the shell 10, the aluminum foam 20 is compressed to absorb energy due to impact or explosion. The density, thickness, etc. of the aluminum foam are determined according to the level of explosive energy required for the intended use, thereby making it possible to construct a panel having sufficient energy absorption performance to meet the required performance.

Concrete is poured into the outer surface of the outer cover material 10 located on one side of the aluminum foam panel 1 as described above to form a concrete plate 3 having a predetermined thickness integrally with the aluminum foam panel 1. Synthetic explosion-proof wall 100 is produced. Synthetic explosion barrier 100 may be used in the protective structure as described later, the protective structure is divided into indoor and outdoor, when the composite explosion barrier 100 is used in the protective structure, the concrete plate 3 is placed on the indoor side Since it is located, for convenience in the present specification, the outer shell material in the direction to be combined with the concrete plate 3 is called "interior shell material", the outer shell material is called "outer shell material".

Specifically, FIG. 2 is a schematic exploded perspective view showing a state of constructing the composite explosion-proof wall 100 of the present invention shown in FIG. As described above, the composite explosion-proof wall 100 according to the present invention is in contact with the outer surface of the interior shell 10 of the aluminum foam panel 1, and the concrete plate 3 is integrally synthesized with the aluminum foam panel 1. Has a configuration. To this end, each gap formed between the formwork 70a and the aluminum foam panel 1 in a state in which the formwork 70a for manufacturing the concrete plate 3 is located side by side with the aluminum foam panel 1 spaced apart from each other. Concrete is poured in to form a concrete plate (3).

In the interior of the concrete plate (3) is placed a wire mesh 71 for the reinforcement of concrete and the improvement of the inner width performance. In the present invention, when manufacturing the composite explosion-proof wall 100, the thickness direction reinforcing rods 80 are used as described later.

Specifically, the thickness direction reinforcing rods 80 are arranged in the thickness direction of the composite explosion-proof wall 100, as shown in Figure 2, the outer end of the thickness direction reinforcing rods 80 is the aluminum foam panel ( It penetrates 1) and is fixed at the outer surface of the outer skin material of the aluminum foam panel 1. For example, a screw portion is formed on an outer surface of the thickness direction reinforcing rod 80, and a nut is coupled to an outer end of the thickness direction reinforcing rod 80 that penetrates the aluminum foam panel 1 so that the aluminum foam panel 1 It can be fixed to the outer surface of the outer skin material.

Meanwhile, the thickness direction reinforcing rods 80 pass through the wire mesh 71 disposed on the concrete plate 3 before passing through the aluminum foam panel 1. In other words, the steel wire net 71 to be reinforced to the concrete plate 3 is to span the thickness direction reinforcing rod (80). In particular, the inner end portion of the end portion of the thickness direction reinforcing rod (80) between the formwork 70a and the aluminum foam panel 1 is formed as a bent end, the wire mesh network disposed on the concrete plate (3) 71 is located at the corner of the bent end of the thickness direction reinforcing rod (80).

Of course, without installing the thickness direction reinforcing rods 80 in the aluminum foam panel (1) in the field, and manufactured in the state in which the thickness direction reinforcing rods 80 in the factory in advance in the factory, As described above with respect to the thickness direction reinforcing rods 80, the aluminum foam panel 1, through which the thickness direction reinforcing rods 80 are penetrated and installed, is installed so as to span the wire mesh 71. After the formwork 70a is installed, concrete can be poured to produce the concrete composite explosion-proof wall 100 as described above.

As such, the thickness direction reinforcing rods 80 are installed, and concrete is poured in the state where the steel wire net 71 is positioned by the thickness direction reinforcing rods 80 so that the concrete plate 3 is the interior side of the aluminum foam panel 1. It is formed by integrally contacting the outer skin material. When the concrete plate 3 is formed, the formwork 70a is removed.

In the state where the protective structure is formed by using the composite explosion-proof wall 100 of the present invention having such a structure, a bomb or the like blows on the outdoor side of the protective structure, that is, the outer side shell material direction of the aluminum foam panel 1 to explode. When this occurs, stress is applied to the concrete plate 3 in the room-side direction by the explosion pressure. At this time, the wire mesh 71 disposed on the concrete plate 3 also receives a force in the room direction by the explosion pressure. As described above, the wire mesh 71 disposed on the concrete plate 3 reinforces in the thickness direction. Since it is located at the bent edge of the bent inner end of the rod 80, the wire mesh 71 is constrained by the bent inner end to restrict movement in the thickness direction. Therefore, even when the explosion pressure occurs, the wire mesh 71 is not moved toward the indoor side, thereby minimizing the destruction of the concrete plate 3 is exerted.

In order to ensure a strong shear synthesis between the concrete plate 3 and the aluminum foam panel 1 as described above, a plurality of shear studs 18 are integrally provided on the outer surface of the interior shell material 10 of the aluminum foam panel 1 as necessary. You may.

On the other hand, in the production of the composite explosion-proof wall 100 of the present invention, when the height and width of the composite explosion-proof wall 100 is large, it is used to connect a plurality of the aluminum foam panel (1). In this case, in the present invention, by connecting and using the aluminum foam panel 1 in the following structure, it is possible to freely design the size, such as the height and width of the composite explosion-proof wall (100).

3 and 4 schematically show an exploded perspective view and a combined perspective view showing the connection structure of the aluminum foam panel 1 according to the present invention, respectively. 3 and 4, the connecting beam 30 of the H-shaped cross-section is arranged on the side where the two aluminum foam panels 1 are connected to each other, and both sides of the web 33 of the connecting beam 30 Side surfaces of both aluminum foam panels 1 are sandwiched between the first flange 31 and the second flange 32, and the first flange 31, the aluminum foam panel 1, and the second flange 32 By inserting the fastening member 40, such as a bolt to penetrate) and fastened with a nut 41, both aluminum foam panels 1 can be firmly and simply continuously coupled. If necessary, it is also preferable to form a through hole 11 into which the fastening member 40 is inserted in advance in the aluminum foam panel 1 and the connection beam 30.

After connecting the aluminum foam panel 1 to the required size using such a connection structure, by pouring concrete on one side of the aluminum foam panel 1 in the manner described above by integrally synthesizing the concrete plate 3, According to the size it is possible to freely manufacture the composite explosion-proof wall 100 according to the present invention.

The protective structure according to the present invention is a structure having an interior space consisting of a floor base 200, a wall and a ceiling slab, and a structure for protecting a person or an object in an indoor space from an explosion or shock from the outside. The protective structure is constructed by the synthetic explosion-proof wall 100 having the above-described configuration. That is, the slab and the wall of the ceiling constituting the protective structure is composed of the synthetic explosion-proof wall 100 of the present invention described above. At this time, the concrete plate 3 of the composite explosion-proof wall 100 is located in the interior direction of the protective structure

1: aluminum foam panel
10: shell material
20: aluminum foam

Claims (5)

An aluminum foam panel (1) is formed by a plate-like shell material (10) spaced apart from each other and an aluminum foam (20) filled between the shell material (10) and absorbing external pressure;
On the outer surface of the interior shell material of the aluminum foam panel (1), a concrete plate (3) having a thickness is provided in contact;
Composite explosion-proof wall, characterized in that the aluminum foam panel (1) and the concrete plate (3) has a configuration that is integrally coupled.
The method of claim 1,
The aluminum foam panel (1) has a structure in which a plurality of side connected to each other,
Between the sides where the aluminum foam panels 1 are connected to each other, a connecting beam 30 having an H-shaped cross section having a first flange 31, a web 33, and a second flange 32 is disposed,
Both sides of the aluminum foam panel 1 are sandwiched between the first flange 31 and the second flange 32 on both sides of the web 33 of the connecting beam 30.
By inserting and fixing the fastening member 40 to penetrate the first flange 31, the aluminum foam panel 1, and the second flange 32, the aluminum foam panel 1 is continuously connected to each other in a side surface. Composite explosion-proof wall having a.
The method according to claim 1 or 2,
A thickness direction reinforcing rod (80) is disposed through the aluminum foam panel (1) in the thickness direction of the composite explosion-proof wall;
The steel wire net 71 is arrange | positioned at the concrete board 3;
Inner end portion of the thickness direction reinforcing rods 30, which is located between the formwork 70a for manufacturing the concrete plate 3 and the aluminum foam panel 1, among the ends of the thickness direction reinforcing rods 80. Is formed with bent ends;
The wire mesh 71 disposed in the concrete plate 3 is located at an edge portion of the bent end of the thickness direction reinforcing rod 80, so that the steel wire net is disposed in the concrete plate 3 by the bent end. Composite explosion-proof wall, characterized in that the wire mesh 71 is constrained to have a structure in which movement in the thickness direction is restricted.
An aluminum foam panel (1) is formed by a plate-like shell material (10) spaced apart from each other and an aluminum foam (20) filled between the shell material (10) and absorbing external pressure; On the outer surface of the interior shell material 1 of the aluminum foam panel 1, a concrete plate 3 having a thickness is provided in contact with each other; To construct a composite explosion-proof wall (100) having a configuration in which the aluminum foam panel (1) and the concrete plate (3) are integrally coupled;
Placing the formwork (70a) at intervals from the interior side shell material of the aluminum foam panel (1);
A wire mesh 71 is disposed between the formwork 70a and the aluminum foam panel 1;
A thickness reinforcing rod 80 is disposed to pass through the wire mesh 71 between the formwork 70a and the aluminum foam panel 1 and the aluminum foam panel 1;
An inner end portion of the end portion of the thickness direction reinforcing rod 80 located between the formwork 70a and the aluminum foam panel 1 is bent, and a wire mesh between the formwork 70a and the aluminum foam panel 1 is formed. (71) is positioned at the edge of the bent end of the thickness reinforcing rod (80);
An outer end of the thickness reinforcing rod (80) is fixed to an outer surface of the outer shell material of the aluminum foam panel (1);
The concrete is poured into the gap between the formwork 70a and the aluminum foam panel 1, and the concrete plate 3 is integrally formed on the outer surface of the interior shell of the aluminum foam panel 1, thereby forming a composite. Construction method of composite explosion proof wall.
As a protective structure to protect people and objects in the indoor space from the explosion or impact from the outside by having an interior space consisting of a floor foundation 200 and walls and ceiling slabs,
The wall or ceiling slab of the protective structure,
An aluminum foam panel (1) is formed by a plate-like shell material (10) spaced apart from each other and an aluminum foam (20) filled between the shell material (10) and absorbing external pressure; On the outer surface of the interior shell material 1 of the aluminum foam panel 1, a concrete plate 3 having a thickness is provided in contact with each other; Protective structure, characterized in that the aluminum foam panel (1) and the concrete plate (3) is composed of a composite explosion-proof wall (100) having a configuration that is integrally coupled.

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