RU2240492C2 - Method for destruction of explosive products with simultaneous salvaging - Google Patents

Abstract

FIELD: ammunition, in particular, methods for salvaging of explosive extracted from ammunition subject to salvaging because of expiration of the storage life.

SUBSTANCE: working medium is fed to the surface of the explosive product, subsequent processing of the products of destruction of explosives is performed, the liquid phase of high explosives and/or products of destruction of the explosive products distributed in the melt of trinitrotoluene is used as the working medium, the product is heated to a temperature close to the explosive melting point, the working medium, the product is heated to a temperature close to the explosive melting point, the working medium is fed to the end face of the explosive on the circular surface, whose diameter is close to the maximum diameter of the explosive product screening of its central part is performed at simultaneous rotation of the product, the working medium at a positive pressure is imparted to the opposite end face of the explosive product.

EFFECT: enhanced labour capacity at salvaging of explosive products.

1 dwg, 1 ex

Description

The invention relates to ammunition, and more particularly to methods for the disposal of explosives extracted from ammunition to be destroyed due to expiration of storage periods.

A known method of destruction of products from explosives with the simultaneous disposal of the latter, consisting in the supply to the surface of the product (BB) of the working fluid and subsequent processing of the destruction products (see Russian patent No. 2045744, IPC ⁶ F 42 B 33/00).

The disadvantage of this method is the low productivity of the process of extracting explosives from the shell of the munition and, in addition, this method is not applicable to all blasting explosives and requires processing when removing explosives from the shell of the munition of the entire volume of explosives.

These disadvantages are partially eliminated in the method of destruction of products from explosives with the simultaneous disposal of the latter, which consists in feeding the working fluid to the surface of the explosive, subsequent processing of the destruction products, and the liquid phase of the blasting explosive and (or) explosive destruction products distributed in the melt is used as the working fluid. trinitrotoluene (see Russian patent No. 2055824 for IPC ⁶ F 42 B 33/00).

The disadvantage of this method is the low productivity of the process associated with the need to process the entire volume of explosives and subsequent disposal of the entire volume of explosives enclosed in the munition chamber.

The objective of the invention is to increase the productivity of the process of extracting explosives from the ammunition chamber due to the formation of the main part of the explosive during the disposal of a smaller part.

The problem is solved in that in the method of destruction of products from explosives with the simultaneous disposal of explosives, which consists in supplying a working fluid to the surface of the product from explosives, subsequent joint processing of the products of destruction of explosives, while the liquid phase of blasting explosives is used as the working fluid substances and / or destruction products from explosives distributed in the TNT melt, the product being heated to a temperature close to the melted temperature I explosives, the supply of the working fluid is carried out on the end surface of the explosive product along the annular surface, the maximum diameter of which is close to the maximum diameter of the explosive product, shielding its central part while rotating the product and applying the working fluid with excess pressure to the opposite end of the product from explosive.

The essence of the proposed method for the destruction of products from explosives with the simultaneous disposal of explosives consists in the fact that the equipped explosive product, heated to a temperature close to the melting point of the explosive, is mounted on mandrels rotatably relative to the axis of the product, both mandrels being connected to high-pressure cavities, whence the working fluid in the form of a melt of a blasting explosive, preferably similar to that utilized, in a mixture with the products of destruction of the utilized explosive enters the end surfaces of the explosive checkers. In this case, the working fluid coming from the high-pressure cavities falls into the gap between the screen and the inner surface, i.e. the surface of the checker is eroded along the ring in one case, and with the translational movement of the product, for example, downward, a checker BB is formed smaller with respect to the initial diameter, which, given the excess pressure applied to the opposite end of the checkerboard BB, and at a given process temperature, leads to expulsion formed explosive checkers from the body of the product, and only in the worst case, no more than 1/3 of the volume of the initial checker goes into processing, and 2/3 of the volume form a new checker, ready to equip ammunition of a smaller caliber. Thus, not only increases the productivity of the recycling process, but also due to the formation of a new checker, the production time of a new checker for equipping products of a smaller caliber is reduced.

Example

This method was modeled on the installation, a diagram of which is shown in the drawing.

Installation for the destruction of products from explosives contains an upper mandrel 1, on which, with the possibility of rotation ω, an ammunition housing 2 with equipment 3 is mounted relative to it. At the bottom of the device there is a high-pressure chamber 4 with a working fluid in liquid state connected with the cavity of the lower mandrel 5, in a glass 6 of which a flexible elastic element 7 is placed, installed between the end of the mandrel 5 and the flat surface of the screen 8 located on the lower end of the equipment 3, as well as a low-pressure chamber 9.

When the working fluid is supplied from the high-pressure chamber p in the cavity 5 of the glass 6, it interacts with the end face BB 3 along the ring, which is formed as a result of the working fluid entering the gap between the cylindrical surface of the screen 8 and the inner surface of the glass 6, which leads to the bending of the end surface of the glass 6 and ingress of the melt of the working fluid into the low-pressure chamber 9. This results in an annular groove and the formation of a cylindrical surface of the newly formed checker BB. When passing through the entire surface of the glass 6 the mandrel 5 until it stops in the head portion of the inner surface of the housing 2 pusher pushes the top of the mandrel 1 p ₁ obtained checker 3 of the projectile body 2, then the process is repeated.

Tests of this installation showed its reliable operation, high productivity and the ability to fully automate this process, especially when taking into account the possibility of rotation of the munition shell, which not only smooths the processing process, but allows you to create rotor lines based on this design.

Claims (1)

The method of destruction of products from explosives with the simultaneous disposal of explosives, which consists in feeding to the surface of the product from explosives a working fluid, subsequent joint processing of the products of the destruction of explosives, while the liquid phase of blasting explosives and / or products of the destruction of products is used as the working fluid from explosives distributed in the TNT melt, characterized in that the product is heated to a temperature close to the melting point of the explosive substance, the supply of the working fluid is carried out on the end surface of the explosive product along an annular surface, the maximum diameter of which is close to the maximum diameter of the explosive product and shielding its central part while rotating the product and applying the working fluid at excess pressure to the opposite end of the explosive product substances.