RU133278U1 - EXPLOSION CONTAINER - Google Patents

Abstract

1. Explosion-proof container, including a housing located on the base, sealed with bayonet-type connection with a cover, on which a loading platform is fixed, placed inside the housing after moving the cover along the guides to align with the housing, characterized in that the housing is made in the form of a cylinder with elliptical bottoms, one of which is equipped with a neck, at the end of which there are elements of a tight bayonet connection of the case with the cover. 2. The explosion-proof container according to claim 1, characterized in that part of the internal volume of the body and the volume of the lid is filled with an energy-absorbing material selected from the group: porous concrete, vermiculite, expanded clay, glass microspheres, aluminosilicate microspheres. 3. The explosion-proof container according to claim 1, characterized in that the lid movement guides are made in the form of full extension telescopic rails connected to the base of the body and lid.

Description

The utility model relates to the field of safety during transportation and liquidation of explosive devices, which may include highly toxic substances, and can be used in the manufacture of mobile means of transportation and liquidation of explosive devices.

The closest in technical essence and the achieved result is a gas-tight container for transportation, storage of explosives, the design of which ensures the tightness and stability of the container in case of detonation of the explosive. The design of the container consists of a housing and a lid that are connected and sealed by turning the locking ring of the bayonet lock (bayonet connection). The housing includes a spherical bottom and a cylindrical part with a bayonet lock element being placed at its end, and the lid is made in the form of a hemisphere with a bayonet lock mating element placed at its end. In this case, the housing is mounted on a base, which is equipped with two external guides along which the frame moves with a lid placed on it. A loading platform in the form of a box for laying an explosive device or ammunition is connected to the inside of the movable cover.

(US 20088314903Al, F42B 39/14, F42D 5/045, published 12/25/2008) The well-known container is a complex and expensive device, which makes it unsuitable for repeatedly detonating discovered ammunition or explosive device in the field. It is also difficult and expensive to produce large-bayonet shutter elements (according to the diameter of the cylindrical part of the container body), which should ensure the tightness of the container when undermining. Therefore, the bayonet connection in the known container is additionally reinforced with gas seals, which makes the structure difficult to operate.

The objective and technical result of the utility model is to reduce the cost of manufacturing and operating a reusable explosion-proof container for transporting and eliminating explosive devices.

The technical result is achieved in that the explosion-proof container includes a housing located on the base, sealed with a bayonet connection with a lid, on which a loading platform is fixed, placed inside the housing after moving the lid along the guides to align with the housing, the housing being made in the form of a cylinder with elliptical bottoms, one of which is equipped with a neck, at the end of which there are elements of a tight bayonet connection of the housing with the cover.

The technical result is also achieved by the fact that part of the internal volume of the body and the volume of the lid is filled with an energy-absorbing material selected from the group: porous concrete, vermiculite, expanded clay, glass microspheres, aluminosilicate microspheres; guides for moving the cover are made in the form of telescopic guides with full extension, connected to the base of the housing and cover.

The design of the explosion-proof container according to a utility model is shown in Fig. 1, where:

1 - housing;

2 - elliptical bottom;

3 - a locking ring of a bayonet connection;

4 - cover;

5 - neck;

6 - end of the neck;

7 - boot platform;

8 - foam polymer;

9 - explosive device;

10 - base;

11 - telescopic guides.

The housing of the explosion-proof container according to a utility model was made of high-strength steel. The container body 1, made in the form of a cylindrical part interconnected by welding and elliptical bottoms 2, is mounted on a frame base 10, with which the container can be mounted on a vehicle (car body or car trailer).

The container is equipped with guides for moving the cover 4, which are made in the form of telescopic guides 11 with full extension and have a connection with the base 10 of the housing and the cover 4.

One of the bottoms of the casing is equipped with a neck 5, on the end of which there are elements of an airtight bayonet connection of the casing 1 with the cover 4, ensuring the tightness of the connection before and after the detonation of the explosive device 9. Additionally, the casing is equipped with a sealed electrical input for initiating detonation (not shown). To reduce the effect of the shock wave during undermining, part of the internal volume of the body and the volume of the lid is filled with an energy-absorbing material selected from the group: porous concrete, vermiculite, expanded clay, glass microspheres, aluminosilicate microspheres. The energy absorbing material may be placed in containers or bags that fill the interior of the container. An explosive device 9 to be eliminated is placed on a loading platform 7 connected to the cover 4. Then, the cover 4 is moved along the guides 11 until the cover is combined with the body. As a result, the loading platform with the explosive device 9 is placed inside the housing.

After that, the container is sealed by turning the locking ring 3 of the bayonet connection. After blasting, release the pressure by opening the bayonet connection of the housing and the cover, remove the deformed elements of the loading platform, fragments of the explosive device and the remains of energy-absorbing material. After a visual inspection of the elements of the containers and the decision on the possibility of reusing the container for the intended purpose, the loading platform and the anti-shatter filling of the housing with the foam polymer are restored.

The result of the detonation of the ammunition placed inside the container showed that the container withstands the effects of an explosive device weighing up to 3.5 kg without loss of tightness, which allows its reuse as intended. The cost of containers was significantly reduced due to the manufacture of a bayonet joint of small diameter.

Thus, the container according to the utility model ensures the achievement of the technical result: reducing the cost of manufacturing and operating an explosion-proof container for repeated use for transportation and liquidation of explosive devices.

Claims (3)

1. Explosion-proof container, including a housing located on the base, sealed with bayonet-type connection with a cover on which a loading platform is fixed, placed inside the housing after moving the cover along the guides until it is aligned with the housing, characterized in that the housing is made in the form of a cylinder with elliptical bottoms, one of which is equipped with a neck, at the end of which there are elements of a tight bayonet connection of the housing with the cover. 2. The explosion-proof container according to claim 1, characterized in that part of the internal volume of the body and the volume of the lid is filled with an energy-absorbing material selected from the group: porous concrete, vermiculite, expanded clay, glass microspheres, aluminosilicate microspheres. 3. The explosion-proof container according to claim 1, characterized in that the guides for moving the cover are made in the form of telescopic guides with full extension, connected to the base of the body and cover.

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