RU2743755C2 - Anti-cumulative means of protection of explosive objects - Google Patents

Abstract

FIELD: means of explosion protection.SUBSTANCE: anti-cumulative means of protection of explosive facilities is intended for protection of explosive materials and articles in vehicles, in case of impact of destructive elements of conventional weapons. Most dangerous elements of the conventional weapons are cumulative jets of the corresponding ammunition. This technical solution is further improvement of protection means using new principles of cumulative jet destruction, dispersion of jet fragments at penetration into obstacles and further neutralization (combustion) of cumulative jet in original material. In particular, to implement the principle of neutralization (combustion) of the cumulative jet, an additional layer of porous ceramic is used, pores of which are filled with chemically active filler, which is arranged between two thin-walled sheets, and layer thickness is 200 mm. In this layer cumulative jet is neutralized (burnt). Directly to the layer with porous ceramic there adjoins the second layer made of high-strength ceramics plates, for example, boron carbide, silicon carbide, aluminum oxide etc., wherein ceramic plates with thickness of 15...20 mm in this layer are also fixed in form of corrugation with angle at vertex 40...60 degrees between thin-walled sheets spaced at 80...100 mm. First layer adjoins the first layer consisting of deflecting elements in the form of frequent metal meshes of voluminous braiding. Upon penetration of the jet fragmented in the first layer into the ceramic layer in contact with the ceramic plates, the jet undergoes further deviation and is neutralized (burnt) in the layer of the porous ceramic with the chemically active filler. On transport, anti-cumulative means of explosive hazardous objects protection is fixed in the form of a wall assembled from separate modules.EFFECT: as a result, the cumulative jet penetrating power is lost completely; thereby excluding excitation of explosive transformation in form of combustion or detonation in explosive material.1 cl, 2 dwg

Description

The invention relates to the field of ensuring the safety of explosive materials and products in vehicles. Such materials and products include explosives (explosives), ammunition, including chemical and nuclear, solid-propellant missiles of various classes, etc. Vehicles carrying these objects can be exposed to damaging elements of conventional weapons (OSP): fragmentation elements ammunition, small arms bullets, cumulative jets of appropriate ammunition (in particular anti-tank grenades). The impact of these damaging elements directly on explosive materials and products is possible, both in combat conditions and in peacetime when attacked by sabotage units, terrorist groups, attacks by extremists. The most dangerous means of destruction are cumulative ammunition, which, as a rule, are available in sufficient quantities for saboteurs and terrorists. A special danger of the impact of cumulative munitions on explosive materials and products in vehicles is that a cumulative jet penetrating into an explosive or a solid propellant charge, initiates an explosive transformation in the latter in the form of detonation, which is fraught with catastrophic consequences for a transport vehicle. means, and in which they are located, and in the environment, and surrounding objects. Therefore, vehicles in which explosive materials and products are transported must be reliably protected, at least from cumulative ammunition, with which sabotage and terrorist units can be armed.

The closest analogue of the claimed technical solution (prototype) can be considered a patent (RU No. 2627917, 17.02.2016). This device according to the specified patent has insufficient protection against cumulative ammunition with a caliber of more than 30 mm.

The objective of the present invention is to develop a device that makes it possible to increase security by using a third layer of porous ceramics saturated with a reactive filler (CAF), fixed between two sheets of a cage made of thin sheet metal, which provides neutralization (combustion) in a layer of porous ceramics with CAF of a cumulative jet. As a result, the penetrating power of the jet is completely lost and thus the excitation of an explosive transformation in the form of combustion or detonation in the explosive material is excluded.

The essence of the invention is illustrated by the drawing, where in FIG. 1 shows a diagram of the construction of the main part of the protection. Position 1 - designates the wall of the vehicle to which the protective device is attached, position 2 - a thin-walled front sheet of the holder, position 3 - corrugation from a frequent metal mesh, position 4 - pins fastening corrugations from mesh, ceramics and porous ceramics with HAN, position 5 - intermediate thin-walled sheets, position 6 - inclined ceramic elements (plates), position 7 - porous ceramics with HAN, position 8 - back sheet of the holder. FIG. 2 shows a diagram of the attachment of the protective equipment modules to the vehicle. Position 9 - vehicle wall, position 10 - protective equipment module, position 11 - wall of the container of an explosive product, position 12 - explosive product.

The functioning of the invention is as follows. When a shaped charge acts on the surface of the vehicle wall, and then on the protective device holder, the charge fuse is triggered and a shaped charge jet is formed, which passes through the corrugation wall of the deflecting mesh, is fragmented and partially deflected. Further, the fragmented jet meets an inclined ceramic plate, undergoes further fragmentation and scattering of fragments, which are neutralized (burned out) in a layer of porous ceramic with a reactive filler, losing its penetrating and initiating ability.

The presented design of the anti-cumulative means of protecting explosive objects can also solve the problem of protecting against bullets of small arms and fragmentation elements.

Claims (2)

1. Anti-cumulative means of protection of explosive objects, including deflecting elements in the form of frequent metal nets of volumetric weaving, high-strength ceramic elements, characterized in that a layer consisting of porous ceramics is used as the main anti-cumulative agent, the pores of which are filled with a reactive filler, placed in a shell made of thin sheet metal and fixed as part of the anti-cumulative module to the inner side of the wall using metal pins, and the back sheet for the mesh corrugation serves as an inner sheet for the ceramic corrugation, and the back sheet for the porous ceramic layer together with the front sheet of the mesh corrugation forms a cage for placement it contains both corrugations and a layer of porous ceramics with a reactive filler and is a separate module, the modules are fixed on the side surfaces of the vehicle. 2. A protective agent according to claim 1, characterized in that the porous ceramic layer saturated with a reactive filler, forming the third layer of the protective agent, has a thickness of 200 mm.

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