RU201862U1 - DEVICE FOR TRANSPORTATION, STORAGE AND DETONATION OF EXPLOSIVE CHEMICAL COMPOUNDS OR MIXTURES - Google Patents

Abstract

The utility model relates to the field of safe transportation, storage and detonation of explosive chemical compounds or mixtures in regions with increased social tension and sabotage danger, as well as in emergency situations in which the device with explosive chemical compounds and mixtures may be subject to access by unauthorized persons or authorized and unauthorized detonation. The problem to be solved by the utility model is to create a device for repeated use, which allows, in the event of an authorized or unauthorized detonation, to reflect the blast waves inside the capsule. The technical result to which the utility model is directed is the preservation of the capsule in the event of an authorized or unauthorized detonation. To achieve the technical result, a device is proposed for transportation, storage and detonation of explosive chemical compounds or mixtures, including a body in the form of a pipe with flanges at the ends, equipped with a lid, a capsule is located in the body, equipped with a bottom plug and a lid, the capsule contains an outer, inner, variable layer, the outer layer of the capsule is inseparably connected to the inner wall of the body, obtained by the "pipe in pipe" casting technology, a cavity of the capsule is formed between the walls of the inner layer, and the capsule contains two inner layers made in the form of pipes of different diameters, two variable layers filled with hollow glass microspheres , the cavity of the capsule is layer-by-layer filled with hollow glass microspheres, explosive chemical compounds or mixtures.

Description

The utility model relates to the field of safe transportation, storage and detonation of explosive chemical compounds or mixtures in regions with increased social tension and sabotage danger, as well as in the conditions of emergency situations in which a device with explosive chemical compounds and mixtures may be subject to access by unauthorized persons or authorized and unauthorized detonation.

Similar devices are known from the prior art for transporting, storing and detonating explosive chemical compounds or mixtures.

The disadvantages of these devices include its complete destruction and destruction of chemical compounds or mixtures in the event of an authorized or unauthorized detonation, i.e. single use.

The closest in essence to the proposed device, adopted as a prototype, is a container for transportation, storage and detonation of explosives of a cast glass-crystalline material obtained from a composition based on gabbrodelite with the addition of chromium ore [Ignatov A.M. Physicochemical laws of obtaining and using glass-crystalline materials of spinel-pyroxene composition from natural and technogenic raw materials: dis. ... doct. those. Sciences: 05.17.11 / A.M. Ignatova - Tomsk: National Research Tomsk Polytechnic University. - 2019. - 153 p.], Including a body, which is a pipe made of high-strength steel with flanges at the ends, in which a capsule is located, consisting of a bottom plug in the form of a disc made of a cast glass-crystalline material with a diameter that matches the inner diameter of the body, and attached using a hermetically sealed solder joint based on frit solder, the outer layer, which is a monolithic pipe permanently connected to the inner wall of the body, obtained by the pipe-in-pipe casting technology, a conical inner layer with a slope of 11 ° made of cast glass-crystalline material, a variable layer - a gap for filling with a powder from a cast glass-crystalline material or other dissipative material or a liquid obtained during assembly from the loading side between the ends of the outer and inner layers, and the lid with a handle and a groove, and the bottom plug is attached to the capsule layers using a hermetically sealed solder joint based on solder frit, device also e equipped with a flange plug and a cover.

A disadvantage of the known device is the destruction of the capsule in the event of an authorized or unauthorized detonation, i.e. single use.

The problem to be solved by the utility model is to create a device for repeated use, which allows, in the event of an authorized or unauthorized detonation, to reflect the blast waves inside the capsule.

The technical result to which the utility model is directed is the preservation of the capsule in the event of an authorized or unauthorized detonation.

To achieve the technical result, a device is proposed for transportation, storage and detonation of explosive chemical compounds or mixtures, including a body in the form of a pipe with flanges at the ends, equipped with a lid, a capsule is located in the body, equipped with a bottom plug and a lid, the capsule contains an outer, inner, variable layer, the outer layer of the capsule is inseparably connected with the inner wall of the body, obtained by the "pipe-in-pipe" casting technology, a capsule cavity is formed between the walls of the inner layer, and the capsule contains two inner layers made in the form of pipes of different diameters, two variable layers filled with hollow glass microspheres, the capsule cavity is layer-by-layer filled with hollow glass microspheres, explosive chemical compounds or mixtures.

The claimed device differs from the prototype in that the capsule contains two inner layers made in the form of pipes of different diameters, two variable layers filled with hollow glass microspheres, the capsule cavity is layer-by-layer filled with hollow glass microspheres, explosive chemical compounds or mixtures.

The multilayer design of the capsule creates conditions for multiple reflections of blast waves, especially in variable layers with hollow glass microspheres. In the event of an unauthorized explosion, the second inner layer of the capsule is destroyed and after cleaning it can be used again without additional installation. The two inner layers of the capsule, made in the form of pipes of different diameters and the flange plug, are made of pyroxene sitall, therefore, the device has greater reliability due to higher compressive and bending strengths. Hollow glass microspheres effectively reflect blast waves, so the variable layers are not destroyed and are recyclable.

From the above list of features of the claimed device, it is clearly seen that the claimed technical solution is a new set of features that provide a new technical result that is not known at the date of filing the application.

The technical solution of the claimed device meets the "novelty" criterion, since it is unknown from the prior art at the date of filing the application.

The proposed device is illustrated by the figure.

The device consists of a body 1, made in the form of a pipe with flanges at the ends, with a cover 2 and a plug 3 attached to bolted connections 4 and 5. In the body 1 there is a capsule 6, consisting of five layers: the outer layer 7, inseparably connected with the inner wall of the housing, two inner layers 8 and 9, made in the form of pipes of different diameters, and two variable layers 10 and 11, filled with hollow glass microspheres. Between the walls of the two inner layers 8 and 9, a cavity 12 of the capsule 6 is formed, which is layer-by-layer filled with hollow glass microspheres 13, explosive chemical compounds or mixtures 14. The capsule 6 also has a bottom plug 15 and a lid 16.

An example of using the device.

For the preparation of devices for transporting and storing explosive chemical compounds or mixtures from the body 1 remove the plug 3 by unscrewing the bolted connections 4 and 5, and then remove the cover 2 from the body 1 and the cover 16 from the capsule 6. Hollow glass microspheres 13 are poured into the cavity 12 of the capsule 6 layer by layer , explosive chemical compounds or mixtures 14. The filled cavity 15 of the capsule 6 is closed with a lid 16. Then the lid 16 is covered with a layer of hollow glass microspheres. Then the body 1 is closed with a lid 2 and the plug 3 is fixed with bolted connections 4 and 5.

Claims (1)

Device for transportation, storage and detonation of explosive chemical compounds or mixtures, including a body in the form of a pipe with flanges at the ends, equipped with a lid, a capsule is located in the body, equipped with a bottom plug and a lid, the capsule contains an outer, inner and variable layers, the outer layer of the capsule is inseparably connected with the inner wall of the body, obtained by the "pipe-in-pipe" casting technology, a capsule cavity is formed between the walls of the inner layer, characterized in that the capsule contains two inner layers made in the form of pipes of different diameters, two variable layers filled with hollow glass microspheres, the capsule cavity layer-by-layer filled with hollow glass microspheres, explosive chemical compounds or mixtures.

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