RU2367897C1 - Method to demilitarise fuse detonation grains - Google Patents

Abstract

FIELD: blasting work.

SUBSTANCE: invention relates to demilitarisation of detonation grains incorporated with fuses rated at 5 to 50 g in TNT equivalent. Proposed method consists in disconnecting detonation grains from fuses and locating each of them in cartridge seat safely spaced apart. Charged cartridges are placed in armored furnace to be heated at temperature that allow a complete burn-out of explosive without grains firing. Then cartridges are withdrawn from aforesaid armored furnace, released from unburnt remnants, charged with new grains to repeat above described cycle.

EFFECT: higher safety.

3 cl, 2 dwg

Description

The invention relates to the field of arming fuses and can be used for disposal of initiating devices with a capacity of 5 to 50 g in TNT equivalent.

Widely known are the methods of demilitarizing (destroying) ammunition by naturally destroying them in specially equipped places. However, this method is unsafe, environmentally harmful, economically imperfect. A variation of this method of unloading various types of ammunition can be considered a method in which fuses are separated from the ammunition and loaded into the armor furnace for destruction, where the combustion of explosives (explosives) goes into detonation and is explosive. At the same time, furnaces are metal-intensive, energy-intensive, and in the manufacture require appropriate material costs. However, the munition stockpile may also be of commercial interest - the disposal of ferrous and non-ferrous metal. A known method for the demilitarization of ammunition (RU 2282137) by smelting explosives, at which the temperature for its smelting is achieved by burning the charge itself, and reliable ignition of the charge is carried out by a special fire chain. To ensure completeness of burnout without transition to detonation and for leakage of molten explosives from the ammunition, the latter is placed on the tool tray at an appropriate angle relative to the filler hole. To demarcate fuses, the use of this method is irrational, because fuses contain several fire chains with varying degrees of explosion hazard, each of which requires its own optimal heating conditions. In addition, explosives are not listed as recycled components, but only metal remains.

A method that would coincide with the claimed for most essential features, is not found, therefore, the claims are made without dividing the features into known and new.

The objective of the invention is the method should allow to disassemble the fuses in the factory with maximum safety and minimum labor, not to require bulky and expensive equipment. The solution to this problem is facilitated by the detachment of the detonator blocks from the fuses and the separation of these parts separately. Detonator checkers have smaller dimensions than the fuse case, so they can minimize the cost and power of the corresponding equipment, thereby allowing to obtain a technical result in the form of reducing the cost of equipment for a given degree of safety. The safety improvement (one of the technical results obtained) is facilitated by the placement of each detonator block in a separate cartridge slot, while the slots themselves are located at a distance that excludes the transmission of the detonation pulse from product to product. Thus, if even under force majeure circumstances one of the pieces explodes, the rest will not detonate. Accordingly, the general requirements for protection are reduced, and with them the cost of equipment is reduced. The temperature regime of the method also helps to prevent the explosive nature of demarcation, according to which the temperature in the armor furnace is increased to the melting point of the explosive with a speed that excludes the occurrence of an explosion from a heat pulse, the temperature is brought to pressure from the evaporating components of the explosive, which ensures the displacement of the lid with depressurization of the volume in the glass occupied EXPLOSIVES, and the formation in it of the free surface of the molten explosives. It is in this state that explosive ignition of explosives is guaranteed with a further increase in temperature in the armor furnace and their complete burnout. Burnout occurs in a glass without pouring molten explosives and contamination of the cartridge, which gives an additional technical result in reducing the cost of cleaning the cartridge from toxins of combustion. The selected temperature increase mode (not higher than 80 ° C / min) and the mass of the cartridge simplify the design of the armor plate in that part that the necessary time delays are provided automatically, and the simplification of the design, in turn, gives a technical result in the form of a reduction in the cost of the method.

In Fig.1 shows the design of the detonator checkers of the fuse in the context, Fig.2 - design of the cartridge, in which the discharged checkers are installed in the armor, axial section, in Fig.3 - the same cartridge, top view.

The detonator checker (figure 1) contains a metal cup 1 with an external thread for fixing in the fuse housing. BB pos.2 after pressing into the glass 1 is hermetically closed with a lid 3 mounted on the adhesive. Slots 4 (figure 2) of the cartridge are made in the housing 5 at a distance t (figure 3), excluding the transmission of the detonation pulse from product to product. Eye bolt 6 facilitates the movement of the cartridge.

When unloading fuses using the inventive method, the following operations are performed. Detonator checkers are disconnected from the fuse bodies by unscrewing, and if this is difficult to accomplish, then cutting off with a mechanical tool, or using a high-pressure water jet, or by plastic deformation. Then each piece is installed in a separate slot of the cartridge with the lid up. The loaded cartridges are loaded into an armored furnace, they are turned on, and they are kept until the explosives burn out completely. Then the cartridges are unloaded from the armored furnace, the remains are poured out of them (for disposal) and reloaded.

The process of demilitarization of a checker with a product of brand GOST GOST V22321-77 (TEN) with a sample of 12.5 g of TNT occurs within 5 minutes with a rise in temperature to 400 ° C. This mode allows the explosive composition to decompose first at a temperature of 150-170 ° C with gas generation, due to gas pressure, the protective cap is displaced and depressurized, a free surface of the molten explosive is formed in the glass. With a one-time loading of explosives 100 ... 300 g in TNT equivalent, the method provides a discharge performance of up to 500 pcs. detonator blocks per hour.

Claims (3)

1. A method of demarcating detonator detonator blocks of fuses, each of which is a metal cup filled with explosives (BB) and hermetically sealed with a protective cap, characterized in that each discharged checker is placed in a separate cartridge slot, the cartridge is installed in an armored furnace, the temperature in the armored furnace is increased to the melting temperature of the explosive with a speed that excludes the occurrence of an explosion from a thermal pulse, bring the temperature to pressure from the evaporating components of the explosive, ensuring ayuschego offset with lids depressurization volume beaker employed BB and the formation therein of the free surface of the molten explosive, then the temperature is brought to ignition in each BB cassette cell, kept time to complete burnout BB cassette is removed from bronepechi and purified from the incombustible remains. 2. The method according to claim 1, characterized in that the temperature in the armored furnace is increased at a speed not exceeding 80 ° C / min, and the necessary time delays are provided due to the heat capacity of the armored furnace and the mass of the cartridge. 3. The method according to claim 1, characterized in that the nests in the cartridge are located at a distance from each other, excluding the transmission of the detonation pulse from product to product.

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