RU2104474C1 - Chamber for disposal of ammunition - Google Patents

Abstract

FIELD: disposal of ammunition containing chemical high explosives. SUBSTANCE: the chamber has a vessel of several layers of materials with a detachable cover and bottom. The vessel has a cavity, whose shape and dimensions correspond to the outer surface of the ammunition body, and it is oriented to receive the ammunition with the hole in the cover for the fuze. Holes connecting the cavity to the vessel- blast products trap are made in the vessel on the side of the cover and in the cover coaxially with the cavity. The chamber is furnished with an extractor - grip of the ammunition body. EFFECT: enhanced safety. 4 cl, 1 dwg

Description

 The invention relates to means for the disposal of ammunition, mainly artillery, containing chemical blasting explosives (BB) and to be destroyed due to expiration dates, reduction or modernization of weapons.

 Known devices for the disposal of ammunition. For example, a device is known, which is a bunker with two cameras for light and heavy charges [1]. Two containers for light and heavy charges, respectively, pass through the chambers. The conveyor for light charges serves to burn them. There is an ash conveyor for collecting ash. To neutralize heavy charges there is an explosive chamber. The device also contains sensors for the presence of charges in the chambers, burners, heating devices, triggering time relays, temperature sensors, sound wave sensors.

 The disadvantage of this device is the complexity of its design, the complexity of the separation of the material of the case and components formed during the explosion of heavy charges, the possibility of only partial disposal during the disposal of light charges, because only ammunition shells are reused. The device has an increased risk due to the low resource of the explosive chamber. In addition, it is difficult to fully mechanize and automate the process of neutralizing heavy charges, because after the explosion, exposure is necessary to precipitate the products of the explosion for an indefinite time, fragments of the shells and products of the explosion are intermixed, and manual labor is required to separate them.

 Another known device has an external heat and sound insulating casing, and an inner casing [2]. For the supply of ammunition in the inner case there is a system of gutters and reflective plates. In the lower part of the inner case there are transverse plates connected to a power source and designed to engage the ammunition circuit. Here is his self-destruction.

 The disadvantage of this device is the complexity of its design, the complexity of the separation of recyclable materials, the complexity of the complete mechanization and automation of processes. Due to the latter, as well as due to the low resource of the inner case, there is an increased danger of operation.

 The closest set of essential features and the achieved result is a blasting chamber used in the method for destroying objects or buildings with explosive filler [3]. The camera contains a hardened container with a lid and a bottom. Destroyed object is dumped into the chamber and at the moment of free fall they initiate with a high-energy laser pulse or a projectile.

 In another embodiment, the detonation is carried out by a delayed charge previously introduced into the chamber.

The disadvantages of the known camera are:
- low camera life due to the complex effects of fragments and explosion products on its walls;
- the complexity and low productivity of disposal, as well as the complexity of mechanization and automation of the process associated with the pollution of fragments by explosion products and their location mixed after the completion of the technological cycle;
- environmental pollution is possible due to the release of gases generated during the explosion into the atmosphere, loss of utilized explosion products suspended in the air.

 The objective of the invention is the creation of an explosive chamber for the disposal of ammunition, providing increased productivity, mechanization and automation of the process, preventing environmental pollution and loss of utilized explosion products.

 The essence of the invention lies in the fact that in an explosive chamber for disposal of ammunition containing chemical (blasting) explosives, consisting of a container with a lid and a bottom, according to the invention, the lid of the bottom is made removable, the cavity of the container made of material that prevents the walls of the munition shell from moving when the explosive charge is detonated, in shape and size it corresponds to the shape and dimensions of the outer surface of the munition shell and is oriented in the body of the container, ensuring scheniya munition fuze hole to the lid in the container by the lid and the lid coaxially to the cavity are provided with holes connecting the cavity with the container-trap explosion products.

 In addition, the capacity of the camera can be multilayer with the arrangement of layers with a gap relative to each other.

 For the convenience of removing the shell of the ammunition after undermining the charge, the camera is equipped with an extractor - capture.

The technical effect obtained by using the camera of the proposed design is as follows. By carrying out a container of material that prevents the walls of the munition shell from moving when the explosive charge is detonated, with a cavity, in shape and size corresponding to the shape and dimensions of the outer surface of the munition shell, the body is constricted over its entire outer surface. The connection of the internal cavity of the shell of the ammunition through the hole for the fuse and through the holes in the container and the lid with the catcher vessel allows the explosion products to be removed from the cavity, and in combination with an external backwater, this reduces the bursting loads on the shell while increasing the tensile strength. This, in turn, determines the preservation of the integrity of the body, or at least the preservation of the initial position of the cracked body. This eliminates the expansion of fragments and their local impact on the walls of the tank. Due to this, the capacity resource increases. Since the shell of the ammunition after the explosion remains in its original position, there are no insurmountable obstacles to the mechanization and automation of the process of extracting it from the cavity of the container. In addition, the supply of the chamber with a vessel - catcher of explosion products, its connection through the holes in the lid of the chamber and in the shell of the munition with the internal cavity of the shell provides:
- separation of the products of the explosion and the shell of the ammunition;
- the independence of the duration of the technological cycle from the time of deposition of particles of explosion products suspended in air in the trap vessel, because the vessel-trap filled with the products of one or several explosions can be replaced with an empty one, without waiting for the particles of explosion products to precipitate, and exposure before opening the vessel and subsequent processing of the products (rendering harmless, removing UDD, etc.) can be done with the shut-off vessel located autonomously while continuing undermining ammunition in the chamber. It is only necessary to provide the vessel with a locking device.

 These technical effects allow you to increase the life of the camera, to mechanize and automate the disposal process as a whole, to increase productivity and safety.

 The implementation of the capacity of the multilayer camera further increases the resource of the camera as a whole due to the periodic replacement of its individual elements. The extractor, which can be equipped with the bottom of the chamber increases the convenience of removing the shell of ammunition, being one of the elements necessary for mechanization and automation of the process. It is known the implementation of the elements intended for the placement of ammunition corresponding to their shape. However, the technical effect obtained in known devices (see, for example, French patent N 2056666, CL F 42 B 39/00, 1971 and French application N 2317625, CL F 42 B 39/00, 1977), consists in a dense holding or elastic fastening of ammunition for transportation. No other distinguishing features were found in the known solutions.

 Thus, we can conclude that the invention meets the criteria of "novelty" (has distinctive features) and "inventive step" (for a specialist, it does not explicitly follow from the prior art).

 The drawing schematically shows an explosive chamber, a section.

 The camera contains a container 1 made in the form of several layers 2 of material. The inner layer consists of two liners 3, 4 and the capture extractor 5 of the munition housing 6. The cavity of the inner layer has dimensions and shape that match the size and shape of the outer surface of the munition 6. Layers 2 are located relative to each other with radial clearances 7. The cavity of the inner layer 3, 4 of the container 1 and the extractor 5 are oriented to ensure that the munition 6 adjoins the hole A in its body, designed to install its fuse, to the cover 8 (i.e., depending on the type of ammunition - the nose or tail to the cr Mouse 8). The lid 8 is mounted on the container 1. The lid 8 and the insert 3 have a hole B, coaxial to the hole A. In one piece with the lid 8 a vessel is made - trap 9 of the explosion products. To initiate the charge of explosive 10 of munition 6, a detonator capsule 11 (CD) was used. From the opposite cover 8 of the end face of the tank 1, a bottom is installed. The bottom consists of a shutter 12 connected to the liner 4, and a sleeve with a flange 13 connected to the shutter 12 and mounted on the tank 1.

 The camera works as follows.

 In the initial state, a liner 3 and an extractor 5 are installed in the chamber’s tank 1 until they stop in the vessel — the explosion products trap 9.

 Ammunition 6 with the detonator cap 11 mounted on the explosive charge 10 is inserted all the way into the liner 3 and fixed by the liner 4 and the bolt 12 inserted into the sleeve 13.

 When the charge BB 10 is blown up, the products of the explosion flow out of the ammunition shell 6 through the opening A into the collecting vessel.

 After sedimentation products of the explosion (solid phase) and bleed from the chamber and trap vessel 9 through a special valve (not shown) of the overpressure, the shutter 12 opens, the liner 4 is removed and (using the extractor 5) the munition case 6.

 If necessary, the vessel-trap 9 can be disconnected from the tank to extract solid residues of explosives and clean the walls of the vessel from them.

 When individual parts of the camera (inserts 2-4) reach the maximum strains leading to disruption of the camera’s performance, they are replaced with new ones, thereby achieving a significant increase in the resource of the main, most expensive parts of the camera.

 KD 11 can be not only electric, but also shock, fire, radiation, that is, its use can be carried out remotely (without direct connection with it). The design of the extractor 5 may be different, for example, in the form of a sleeve with a hydraulic drive, and maybe the ammunition 6 will be pushed due to the pressure of the explosion products when the shutter 12 is opened.

 The chamber can be used to burn explosives. Bearing in mind the possibility of the transition of combustion to detonation, the chamber should also be strong, but when burning, its resource should increase significantly.

Claims (4)

 1. Explosion chamber for disposal of ammunition containing chemical (blasting) explosives, consisting of a container with a lid and a bottom, characterized in that the lid and bottom are removable, the cavity of the container made of material that prevents the walls of the munition shell from moving when the charge is detonated explosive, in shape and size corresponds to the shape and dimensions of the outer surface of the shell of the munition and is oriented in the body of the container with the placement of the munition hole for the fuse to the lid in the container by the cover and in the cover coaxially with a cavity provided with openings connecting the cavity with the container-trap explosion products.  2. The camera according to claim 1, characterized in that the container is multilayer.  3. The chamber under item 1, characterized in that it is equipped with an extractor-capture of the shell of the ammunition.  4. The camera according to p. 2, characterized in that the layers of the container are located with radial relative to each other gaps.