DE4238122A1 - Process for disposing of cartridge munitions - by dismantling, melting and purification of waste cases - Google Patents

Abstract

Cartridge munition with a calibre up to 40mm, having Cu alloy case is disposed of by withdrawing the shell from the case, removing the propellant from the case and decomposing it in a combustion furnace, liberated gases passing to a purification unit. The shell is melted down and the explosive is thermally decomposed, gases passing to the purification unit. Fe-base cased munitions are melted down complete. USE/ADVANTAGE - High throughput, environmentally acceptable.

Description

The invention relates to a method for disposing of cartridge ammunition by thermal or by thermal and mechanical treatment, in particular of cartridges with a caliber up to 40 mm, according to the Preamble of claim 1.

Two common methods to destroy Cartridge ammunition up to approx. 40 mm are blasting or that Burn. Experience has shown that both methods are very complex a complete destruction of the explosives is not guaranteed. It an exact follow-up inspection must then be carried out to check the scrap to be recycled. This control is one Personnel and time consuming as well as dirty activity. Also are these two methods due to environmental pollution from ecological View is no longer portable these days.

In the case of cartridges of smaller caliber with solid bullets, it is known mechanically remove the projectiles from the sleeve, for example by non-positive or positive tools or by centrifugal force, the mostly powder propellant falling out of the sleeve and is caught. See, for example, DE-PS 3 23 280. Die Sleeves, if they are not damaged during the cutting process then be reused, if necessary also the propellant powder.

In the case of larger projectiles with an explosive filling, it is known to do so mechanically or chemically, e.g. B. by an etching process, and the explosive from the shell with hot water or steam detach. See, for example, DE-PS 3 05 617 and DE-PS 3 38 420. Such methods are generally only for large calibres Shots applicable with an easily accessible interior. Of the Security and control engineering effort as well as the effort for the Separation of the explosives from the solvent is considerable.  

It is also known to explosive ammunition parts in anodic-electrolytic Bring solution and deposit cathodically, the dangerous Components are made harmless by electrolytic reduction. See DE-PS 3 42 265. Such a method is very time consuming and accordingly only with small ammunition parts in small number acceptable.

In view of these known solutions and their disadvantages The object of the invention is to provide a method for the disposal of Cartridge ammunition with explosive-filled bullets smaller to medium caliber indicate which for cartridges with sleeves on Copper and iron base is applicable and which if possible environmentally friendly, safe, largely automatable and for high Throughputs is suitable.

This object is characterized by those in claim 1 Process steps solved.

According to the invention, at least the projectile is in a hot liquid melted, the released explosive thermally decomposes becomes. The exhaust gases generated are collected and cleaned.

For cartridges with copper-based sleeves, preferably brass sleeves, the sleeve, propellant charge and Bullet. The sleeve is reused or reused that Propellant charge is thermally decomposed in an incinerator. Your Exhaust gases are collected and cleaned.

Cartridges with iron-based sleeves, preferably steel sleeves, are considered whole, that is with sleeve, detonator, propellant charge and projectile, in the hot liquid melted and decomposed.

The sub-claims 2 to 7 contain preferred embodiments of the Method according to claim 1.  

The invention will then become more apparent from the drawing explained. This shows the process flow in a schematic representation by means of the relevant work stations of a corresponding one Disposal facility.

The problem of the disposal of cartridge ammunition - and ammunition in general - currently arises in particular due to the changed global political situation due to the disintegration of the USSR, the Dissolution of the Warsaw Pact and the resulting ones Disarmament efforts. Prepares in the case of the Federal Republic of Germany particularly concerned about the takeover of NVA ammunition stocks, being large Amounts of cartridge ammunition of small to medium caliber for recycling pending disposal.

Apart from the actual disarmament, d. H. the numerical Reduction, possibly down to the value "zero", there are many more Reasons that can force disposal. So z. B. age ammunition plays an important role in terms of reliability (Failure of ignition, unexploded ordnance, etc.), safety (early ignition, Pipe shredder etc.) and the performance (range, Penetration etc.). Old ammunition can also become unusable that their dimensions, especially the caliber, are no longer are in use. Regardless of age, ammunition is also out the area of the Warsaw Pact due to constructive / geometric Differences are often not suitable for NATO weapons. H. not compatible is.

There have recently been strict requirements for the disposal itself posed. Pollution of the environment by emissions (gases, soot, noise, etc.) should be minimal. The safety of the staff and the environment must to be guaranteed. Recyclables, such as metals and their alloys, should be reused, dangerous substances should be in safe to be transferred. The technical and energetic effort remains within reasonable limits, so that even one certain economy is given.  

The present invention takes account of all these requirements, which cartridge ammunition of small to medium caliber, in particular up to approx. 40 mm. It is all about cartridges explosive-filled projectiles, which contain an explosive, splinter, May have a fire or glare effect and / or projectile or can be prickly (shaped charge principle).

The easier disposal of cartridge ammunition with massive bullets is not the subject of the invention.

The representation in the figure assumes that cartridges with Steel sleeves (St steel) and cartridges with brass sleeves (brass brass) introduced separately into the actual waste disposal system become.

The cartridges with brass sleeves are fed to an ammunition separator 1 , in which the projectile is automatically withdrawn from the sleeve and the propellant charge is removed from the sleeve. The projectiles, which are still filled with explosive and provided with appropriate ignition devices, are transported to a container 2 , in which there is an iron melt 3 with a temperature of over 1300 ° C. This temperature is sufficient to melt the metallic parts of the projectile, in particular its shell, whereby the explosives are exposed and also come into contact with the hot melt. The explosives burn off with the release of large amounts of gas. The exhaust gases are collected, treated in a cleaning unit 6 and released into the environment via a chimney 7 . The constituents remaining in the melt, such as slag, aluminum residues from detonators, etc., are removed from the container 2 at certain time intervals, which is indicated by arrows in the region of the container bottom and in the region of the melt surface. Apart from an iron melt, other sufficiently hot metal melts can also be considered. Non-metallic melts of a sufficiently high temperature may also be suitable. In addition to the function of the heat transfer medium, the melt can act as a catalyst or chemical reaction partner in the decomposition of the explosives.

The propellant charge powder (TL propellant charge) deposited in the ammunition separator 1 is transported to a combustion furnace 4 and thermally decomposed, ie burned, in the latter. The exhaust gases are also collected, cleaned and released into the open via the chimney 7 . The resulting slag can be removed in the bottom area of the incinerator 4 , as indicated by the arrow. Suitable post-treatment steps can be provided for the slag, as well as for that from the container 2 .

The brass sleeves, which are still equipped with sharp detonators, are transported to a sleeve firing device 5 , the detonators are automatically fired therein. The released gases are here - as with the other thermal decomposition processes - also collected, cleaned and released into the open via the chimney 7 . The exhaust gas flows are identified in the figure by dashed arrows with black-edged tips. In the best case scenario, the now harmless brass sleeves can be reused directly after cleaning, testing and removing the fired igniter. At least the brass is used as scrap metal.

As already mentioned - and shown in the figure - cartridges with steel sleeves as a whole are introduced into the container 2 with the iron melt 3 . The propellant charge, the explosives on the projectile and the explosives on the detonators are exposed and decomposed. Otherwise, the statements already made on the bullets made of brass cartridges apply.

Claims (8)

1. Method for disposing of cartridge ammunition by thermal or by thermal and mechanical treatment, in particular cartridges with a caliber up to 40 mm, each cartridge consisting essentially of a metallic sleeve with a propellant charge igniter, a propellant charge and a projectile filled with explosive , characterized by the following process steps:

• I. For cartridges with copper alloy sleeves
• a) the projectile is removed from the sleeve in an ammunition separator ( 1 ),
• b) the propellant charge is removed from the sleeve and thermally decomposed in a combustion furnace ( 4 ), the released gases being collected and fed to a cleaning unit (cleaning unit 6 ),
• c) the sleeve is reused or recycled,
• d) the projectile is melted in a container ( 2 ) with hot liquid, and the explosive contained is thermally decomposed, the released gases being collected and sent for cleaning (cleaning unit 6 ).
• II. In the case of cartridges with sleeves made of ferrous material, the complete cartridge with sleeve, propellant charge and projectile are melted in a container ( 2 ) with hot liquid, and the explosives contained are thermally decomposed, the released gases being collected and sent for cleaning (cleaning unit 6 ) .

2. The method according to claim 1, characterized in that the hot liquid when the explosives decompose over their Function as a heat transfer medium as a catalyst and / or chemical Reaction partner is used. 3. The method according to claim 1 or 2, characterized in that the hot liquid is a molten metal. 4. The method according to claim 3, characterized in that the hot liquid is an iron melt ( 3 ) with a temperature of over 1300 ° C. 5. The method according to one or more of claims 1 to 4, characterized in that the is in the hot liquid removing foreign substances are removed at certain intervals. 6. The method according to one or more of claims 1 to 5 for cartridges with sleeves made of copper alloy, characterized in that before re-use or further use of the sleeve, the propellant detonator still connected to it is mechanically or electrically ignited in a sleeve launcher ( 5 ), the released Exhaust gases are collected and sent for cleaning (cleaning unit 6 ). 7. The method according to one or more of claims 1 to 6 for cartridges with sleeves made of copper alloy, characterized in that the removal of the projectile from the sleeve and the removal of the propellant charge from the sleeve in the ammunition separator ( 1 ) take place automatically. 8. The method according to claim 5, characterized in that the firing of the propellant igniter in the sleeve launcher ( 5 ) takes place automatically.