UA22593U - Method for neutralization of cassette explosive ammunition through mechanical destruction - Google Patents

Abstract

The utility model relates to military science. Method for neutralization of cassette explosive ammunition through mechanical destruction includes cassette with ammunition feeding by conveyor to unit for cassette opening. For possibility of utilization of anti-personnel fougasse mines cassette is opened, and ammunition liberated is supplied to bunker where it is dispersed and supplied to unit for destruction of ammunition, there it is held by one of pistons and moves towards other piston till compression and complete mechanical destruction of ammunition.

Description

Description of the invention

A useful model relates to the field of military affairs, in particular to the disposal of explosive ordnance and 2 relates to the disposal of anti-personnel mines.

The development of technologies for the disposal of ammunition has specifics that must be taken into account when carrying out work. First of all, this is the use in ammunition of substances sensitive to mechanical and thermal effects, which have a significant potential danger, primarily due to explosiveness. Even the accidental explosion of one projectile in a place of their significant concentration can lead to tragic consequences. The second feature 70 is related to the fact that ammunition as a product to be disposed of is, as a rule, a non-disassembleable structure that did not involve dismantling. Thus, obtaining secondary resources from it is associated with additional difficulties. The third feature is that, along with metal, which can be easily disposed of, the original ammunition contains a significant proportion of explosives (EXP) and other components.

The disposal process should include the recycling of all elements of the ammunition, including warheads, 12 projectile charges and engines. Means of initiation, control systems, packaging, etc.

Disposal in a number of cases is more dangerous than charging, both for objective reasons (a wide variety of designs concentrated in one production, various conditions of storage and operation of specific products, difficulties of disassembly and removal of VR, etc.), and and due to subjective reasons (little experience with disposal, organizational issues of supplying ammunition for disposal, etc.). Therefore, it is preferable to create a whole special set of methods (technologies and specialized equipment) depending on the type of BP, gunpowder and fuel, dimensional and weight characteristics of products and their structures, as well as solved issues of controlled delivery of products for disposal, design and operation of production facilities, technological discipline and personnel training.

Disposal processes must be ecologically clean, exclude poisoning of the biosphere. During direct burning in the open air or blasting, a large amount of toxic oxides, cyanides, and salts of heavy metals enter the environment. In this way, air, water and soil are polluted.

The used disposal processes must be economically acceptable, with minimal costs, and in the case of in-depth secondary processing of the obtained raw materials, they must be economically profitable.

These features are the cause of a number of additional problems in the process of developing ammunition disposal technology. Ge")

To date, existing technologies are able to effectively dispose of almost the entire palette and range of ammunition, with the exception of cluster products, small shots and exotic explosive materials. at

After the collapse of the USSR, the arsenals of the former republics left, according to estimates, more than 1 bOmln. mine type Ha

PFM (anti-personnel high-explosive mine). In Ukraine, the number of such mines is estimated in billions. units 3o Z (patent OA Mo703881 a known method of disposal of engineering ammunition. p

From (US patent Mo70388) a method of disposal and disposal of ammunition is known, which consists in the fact that in the cavity of the ammunition, intended for placing or ensuring the activation of the means of bringing the ammunition into action or for moving the elements of its design during its activation or necessary for "standard functioning of the ammunition, a substance capable of solidification is introduced, ensuring the safe demilitarization of the ammunition. At the same time, the solidifying substance is fed into the cavity in a liquid state, and at the same time as the solidifying substance is fed, gas is removed from the cavity. After supplying the required amount of hardening substance into the cavity, conditions for its hardening are created.

From (patent of the Russian Federation Mo2154800 | a known method of disposal and disposal of ammunition, which also consists in filling the internal voids in the ammunition case with a hardening substance after holes are made in it. The method can be used for the disposal of cluster ammunition. o From (patent OA Mo4643) known installation for the thermal disposal of ammunition. The installation contains a conveyor for supplying ammunition, which is connected to a hopper, which, in turn, is connected to a tray. The tray is connected to a device for adjusting the tilt of the tray. In the tray, shutters are installed, made with the possibility and -th automatic opening under the mass of ammunition. The tray is connected to the emasculation chamber, which is a (Te) 20 thick-walled pipe, inside which a blade device is placed. The emasculation chamber is made with the possibility of rotation with the help of a mechanism. A heating unit is connected to the emasculation chamber. At the exit c" of the emasculation chamber, there are longitudinal through-grooves for the outflow of melt. The emasculation chamber The exhaust is connected to the discharge device, and near its inlet is a gas extraction device that connects the inlet of the emasculation chamber and the inlet of the heating unit to the recuperative heat exchanger. 29 The useful model provides disposal of various types of ammunition - cartridges for small arms, detonators, as well as explosives and gunpowder.

From (patent of the Russian Federation Mo2244248 | a known method of neutralization and disposal of ammunition containing hexane

BP by crushing the BP charge by simultaneous action on the central part of the casing of the ring cutter projectile and a jet of high-pressure liquid, on the peripheral part of the projectile - a jet of high-pressure 60 liquid.

From (patent of the Russian Federation Mo2195630) a method of decontamination of military equipment and ammunition is known, which consists in the destruction by cavitating jets of BP charges in projectiles and their subsequent washing out.

From Ipatent OB Mo54198621| a well-known detonating device for destroying explosive, poisonous and similar products, consisting of a hermetic detonating chamber and a closed chamber with a partition between them, in which case the explosive mixture is placed in the closed chamber, a vacuum environment is created, the partition is opened, the mixture is moved from the closed chamber to the detonating chamber .

From (patent 5 Мо55742031| a known method of neutralizing military ammunition containing poisonous substances by detonating them in a medium of liquid poison is neutralized.

From Ipatent SHA Mo39063| a known method of disposal of cluster engineering ammunition, in which, after performing technological operations on unpacking cluster engineering ammunition of the type of mine cartridges

KSF-1S/KFS-1, equipment for hydroacoustic location, a device for recording 7/0 bignals of hydroacoustic location and a portable mining kit of the PKM-1 type are installed on the shore of the reservoir. Using equipment for hydroacoustic location, they receive the sounds of explosions of anti-personnel mines of the PFM-1/1FM-1C type and record with the help of a device for recording signals of hydroacoustic location the number of explosions, wait for the end of mine explosions that are detonated under the action of the pressure of the water column of the reservoir on the mine body, count the number of recorded explosions, compare the number of recorded explosions with the number of flooded anti-personnel mines of the PFM-1/PFM-1C type, /5 Withstand the time necessary for the activation of anti-personnel mines of the PFM-1/PFM-1C type, immerse in the area of flooding of anti-personnel mines of the type PFM-1/PFM-1C detonating charge made of TNT with an electric detonator attached to it. The method makes it possible to completely dispose of the structural elements.

From (patent OA Mo59165) a known method of disposal of artillery ammunition containing an explosive substance includes mechanical disassembly of the ammunition (preliminary separation of the means of initiation from the ammunition, 2o, for example, a detonator), separation of the projectile from the sleeve, unscrewing the transitional sleeve or cutting off the nose part of the projectile body, removing of the copper lead wire from the projectile body. Extraction of the explosive substance from the projectile is carried out by burning it from the projectile body.

From (SHA patent Mo39063)| a known method of disposal of ammunition by removing the explosive substance from artillery shells or the warhead of other munitions, from which the means of initiation are previously separated, for example: disruptors, in which the artillery shell or the warhead is mechanically cut into parts, and the extraction of the explosive substance is carried out by pressing it out of each parts separately using appropriate equipment.

The task of the useful model is to develop a method and device for the disposal of PFM cluster mines (anti-personnel high-explosive mines). c zo The task set in the method of disarming cluster explosive ammunition by mechanical destruction, which includes feeding the cartridge with ammunition along the conveyor to the device for opening the cartridges, is solved as follows: the cartridge is opened, and the released ammunition is fed into the bunker, in which they are dispersed and fed to the ammunition destruction device, where they are alternately captured by one of the pistons and moved towards the second piston until compression and complete mechanical destruction of the ammunition. with

The mine itself is an 80-gram, two- or three-section balloon made of polyethylene or glass, containing 40-45 ml of a two-component explosive substance. They are of two types: without a self-liquidating mechanism (PFM-1) and with such a mechanism (PFM-1C). Additionally, as another striking factor, the mine can be used as a sprayer of toxic substances (cyanide or a number of heavy metals).

Usually, mines are placed in a cassette: "- a KSF cassette - contains 72 PFM-1 mines. c - cassette KSF-1C-0.5 contains 36 min PFM-1 and 36 min PFM-1C. - the KSF cassette contains 64 PFM-1S mines. ;" The mine contains a stabilizer wing, which ensures stability of its flight after ejection from the cartridge and uniform distribution, and at the same time creates a so-called anti-personnel minefield.

Installation of anti-personnel minefields can be carried out with the help of portable mining kits "Sveter-M"), as well as helicopters and special rockets.

All known analogues for solving the problem of disposal of ammunition contain at least one of the following disadvantages: c - the suitability of the analogue for disposal of ammunition of only one type or with only one type of BP; - the impossibility of using an analogue for disarming cartridge-type ammunition; and, - harmfulness of the analog for the environment and/or human health; 4) - insufficiently safe disposal process; - impossibility of automating the disposal process; - large economic, time and labor costs for ammunition disposal; - complete or insufficient mobility of analogue devices for the disposal of ammunition;

The proposed method of disarming cluster explosive ammunition by mechanical destruction differs in that the cartridge is opened, and the released ammunition is fed into a hopper, in which they are dispersed and fed to the ammunition destruction device, where they are alternately captured by one of the pistons and moved towards the second piston to be compressed and complete mechanical destruction of ammunition. The method can be implemented using a device for destruction (disposal) of cluster anti-personnel mines, mainly of the PFM-1 and PFM-1C type, consists of: - a prefabricated engineering and construction structure; - several conveyors for receiving and supplying cassettes and mines; - bunkers for receiving and dispersing mines; 65 - cassette opening machine; - the main working state, consisting of a trunk with two technological holes, inside which two pistons with a hydraulic drive and a damping system move; - evacuation systems of destroyed mines; - ventilation and air conditioning systems of industrial premises; - automated complex management system;

In addition, the device may contain: - installations for hydroabrasive cutting of ammunition; - systems of deactivation or neutralization of toxic substances (if available);

Taking into account the specifics and nature of the works, the building for the complex is a prefabricated structure of 70 reinforced concrete products, where the main working area is protected by double walls and a ceiling. The internal walls and ceiling must be able to withstand the explosion of any charge with a capacity of up to 1.5-2 kg in TNT equivalent and the reduction of the power of the shock wave and significant muting of the noise produced at the same time. The outer contour of the walls, in addition to its natural purpose, is sufficiently airtight at the joints and has an additional role - containment and direction of the explosion products, passed through the inner walls to the filtration and ventilation system. On the roof of the building /5, a system of forced exhaust ventilation with mechanical drive of increased power is installed, with the aim of quick and high-quality suction of gases and pumping them through the filter system, as well as maintaining significant air dilution in the building.

The machine for opening cassettes is an analogue of the PKM-1 "Viter-M" portable demining kit. When connecting the cassette to the machine, the contacts of the cassette and the machine are shorted together. When an electric impulse is applied, the ejecting powder charge in the cassette is triggered, which ejects the mines into the bunker.

The hopper is made of steel and is quite voluminous. Catchers are installed inside the bunker, which extinguish the speed of mines, while preserving their integrity. Catchers direct the mines to the lower part of the bunker, where the mines are dispersed along the cells of the conveyor, for further supply to the state. Simultaneously with the release of mines into the bunker, if necessary, the system for supplying a deactivating solution (in the form of a shower) is turned on. The powder and gases of the ejector charge are sucked out through a special hole on top of the hopper.

The main working condition (the main working body) is a massive mechanism consisting of a trunk with t two technological holes, inside which two pistons with a hydraulic drive and a damping system move. At the beginning of the technological cycle, a mine is fed into the barrel through one of the technological holes, which is captured by one of the pistons and moves with it towards the other piston. At the same time, the first technological hole hermetically closes the piston itself. At a certain stage, the mine is compressed from both sides by pistons and is completely destroyed. A mine inside the barrel may detonate, and in this case, due to a sharp increase in pressure, the damping system is activated and the second piston shifts to the opposite side, MU, which with a certain effort moves towards the second technological hole and opens it. If the mine contains toxic substances (cyanides or some heavy metals), the supply and spraying system is turned on under s with5 pressure directly into the trunk of the deactivating solution. The remains of the mine, possible products from the explosion of the mine (su (small fractions, gases)) are washed out of the barrel and taken to a special tank filled with process water, for final deactivation and neutralization of toxic substances. The cycle of destruction of the first mine is finished. The pistons return to their initial position, and can the cycle of destruction of the next mine should be started.

In real time, the entire cycle takes no more than 1-1.5 seconds, and the contents of one cassette (72 mines) can be destroyed in 1.5-2 minutes. If we take into account that after being ejected from the cartridge, the mine reaches the combat platoon after 10-15 minutes, then pt) s is enough time for its destruction without an explosion. . For carrying out work related to the necessity of cutting the casings of recycled products, included in the the complex includes equipment for hydroabrasive processing. This equipment is capable of cutting various materials, while the temperature in the cutting zone does not exceed 60 degrees, which guarantees absolutely safe performance of such work. This equipment can be used for washing BP from ammunition. The technical result for this useful model is the following: - the possibility and effectiveness of using the useful model for disarming cluster ammunition; у - the possibility of quick application of a useful model for the disposal of other types of mines and ammunition c (for example, F-1 grenades, RGD-5, RG-42, RKG-3, etc.); - environmental safety of the device and method due to strict compliance with all norms and rules for the protection of nature and the environment; 4) - minimization of the presence of the human factor on the basis of full automation and computerization of work processes; - automated accounting of destroyed or disposed ammunition; 5B - high productivity and waste-free production; - security of the ammunition disposal process; c - small economic, time and labor costs for ammunition disposal; - use of systems, nodes and units of domestic production; - High mobility of the device according to the invention (minimum labor costs and time for relocation of the complex);

Claims (1)

The formula of the invention A method of disarming cluster explosive munitions by mechanical destruction, which includes feeding the Cassette with ammunition along a conveyor to the device for opening the cartridges, which is distinguished by the fact that the cartridge is opened, and the released ammunition is fed to the bunker, in which they are dispersed and fed to the device for the destruction of ammunition, where they are alternately captured by one of the pistons and moved towards the second piston until compression and complete mechanical destruction of the ammunition. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 5 04/25/2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - (ze) (o) IS) s s - with . and? име) име) 1 с сю» с 60 b5