RU200155U1 - DEVICE FOR LOCALIZING THE IMPACT OF EXPLOSIVE MECHANISMS - Google Patents

Abstract

The utility model relates to the neutralization of explosive mechanisms and can be used to effectively suppress the fragmentation and high-explosive effects of an explosion. The device for localizing the effects of explosive mechanisms includes a closed container containing a chamber made of elastic material, filled with a non-combustible liquid, and made with a free cavity inside to accommodate a suspicious object containing an explosive mechanism. The camera is covered with a splinter shield. Vacuum fastening elements in the form of suction cups are uniformly fixed along the perimeter of the device base with the ability to hold the container during an explosion. 1 ill.

Description

The utility model refers to a special technique and can be used to effectively suppress the high-explosive, fragmentation and thermal effects of an explosion and thereby minimize damage from explosions resulting from terrorist acts.

Currently, in addition to stationary containers made of high-strength alloys, splinterproof blankets, portable devices for localizing the effects of explosive mechanisms are known. Their cameras are flexible, with a splinter shield. Has handles for delivery and installation.

So the device RU 2150669 contains a closed container with a non-combustible liquid, and the container is formed by one or a plurality of chambers, the inner volume of which is filled with a porous material, and the non-combustible liquid is in its pores. Another device RU 2125232 contains one or more containers filled with a non-combustible liquid, made of elastic, resilient material, a handle for delivery and installation on a detected suspicious object and an anti-splinter shield made in the form of a "skirt" fixed along the contour of the peripheral part of the container.

A common disadvantage of these portable devices is the need to press them to the surface with weights, sandbags, or filled containers. Sand weights are also available for splinter blankets. All this delays the installation time, or requires more participants in the affected area.

The objective of this utility model is to make a device that, having the properties of localizing explosive devices, has a significantly lower mass.

The technical result consists in reducing the mass of the device and, as a consequence, increasing its mobility.

The technical result is achieved by the fact that the base of the device is parallel to the surface. Suction cups are evenly placed and fixed along its perimeter. Their number is sufficient to hold the device in case of an explosion.

The device for localizing the effects of explosive mechanisms contains a closed container containing a chamber made of elastic material, filled with a non-combustible liquid, and a splinter shield. Vacuum suction cups are uniformly fixed along the perimeter of the device base with the ability to hold the container during explosion.

The essence of the utility model is illustrated by a figure showing a section of the device for localizing the effects of explosive mechanisms, where 1 is an explosive mechanism placed in a suitcase; 2 - container made of elastic material containing non-flammable liquid 3; 4 - anti-splinter shield; 5 - vacuum fastening elements; 6 - floor surface.

The device for localizing the effects of explosive mechanisms includes a closed container 2 containing a chamber made of elastic material, filled with a non-combustible liquid 3, and made with a free cavity inside to accommodate a suspicious object containing an explosive mechanism 1, covered with an anti-fragmentation shield 4. Vacuum elements are uniformly fixed along the perimeter of the base of the device attachments 5 in the form of suction cups with the ability to hold the container during an explosion.

The anti-splinter shield can be made of Kevlar-type material to reduce the total weight. At its base, parallel to the lower edge, vacuum plugs are evenly placed around the perimeter, for example, used for the installation of industrial and building materials, such as Sigma 51P1 (https://sigma-russia.com/434/sucker). Plugs of such a scheme do not need compressors, they are activated by pressing a button. The largest of them withstand a maximum short-term load of up to 90 kg. Calculations have shown that an explosive with a mass of 200 g in TNT equivalent and a minimum radius of 0.5 m, in the form of a truncated cone, gives an overpressure of about 1.6 kPa. Taking into account the base radius, the required mass to compensate for the shock wave is at least 40 kg. In order to withstand such a shock wave, 4 Sigma 51P1 suction cups are enough with a capacity of 10-15 kg. If necessary (to hold more pressure with a more powerful charge), the number of these suction cups is increased.

Suction cups can be used in localizers of explosion of various shapes and effects (folding, inflatable), as well as in splinter-proof blankets, which will eliminate their weighting with sand. These suction cups can be used not only on smooth surfaces, but also on corrugated ones.

The shapes of a cone, tetrahedron, truncated cone, truncated tetrahedron will reduce the storage area when they are located one on top of the other.

The device for localizing the effects of explosive mechanisms works as follows. Using the handles of the suction cups 5, the device is installed on the detected explosive mechanism 1 in such a way that the container 2 completely separates the explosive mechanism 1 from the surrounding space. In the event of a fuse, the explosive mechanism covered in this way, the energy of the explosion and most of the fragments are absorbed by the non-combustible liquid 3, delayed by the anti-fragmentation screen 4, fixed on the surface of the floor 6, by suction cups 5.

Thus, the proposed device for localizing the effects of explosive mechanisms provides effective protection of people and structures from high-explosive and fragmentation effects during the explosion of hand grenades and other explosive devices.

Claims (9)

1. A device for localizing the effects of explosive mechanisms, including a closed container with a chamber made of elastic material filled with a non-combustible liquid, and made with a free cavity inside to accommodate a suspicious object containing an explosive mechanism, covered with an anti-fragmentation shield, vacuum fasteners are uniformly fixed along the perimeter of the device base. in the form of suction cups with the ability to hold the container during an explosion. 2. The device according to claim. 1, characterized in that the container may contain a plurality of chambers made of elastic material. 3. The device according to claim. 1, characterized in that the splinter shield can be folded. 4. The device according to claim. 1, characterized in that the splinter shield can be made inflatable. 5. The device according to claim. 1, characterized in that the splinter shield has the shape of a truncated cone. 6. The device according to claim 1, characterized in that the anti-splinter shield has the shape of a truncated tetrahedron. 7. The device according to claim 1, characterized in that the anti-splinter shield has the shape of a cone. 8. The device according to claim. 1, characterized in that the anti-fragmentation shield has the shape of a tetrahedron. 9. The device according to claim. 1, characterized in that the anti-splinter screen has the shape of a parallelepiped.

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