RU154055U1 - AMMUNITION UNIT - Google Patents

Abstract

Ammunition demarcation installation, comprising a housing, a platform for securing ammunition, a container for collecting the extracted explosive, characterized in that said housing is made in the form of a cooling chamber of a compressor refrigerator, and the ammunition fixing platform is a vibrating stand with a conical opening to which a local suction.

Description

The utility model relates to installations for the demilitarization of ammunition (PSU) to be disposed of, and is intended for the extraction of components of explosives (EXPLOSIVES), their subsequent processing into products, and the further use of materials of structural elements and enclosures of the PSU, purified from explosives, in industry.

A known installation for the unloading of ammunition, which implements a method of unloading ammunition (RF patent No. 2142419 "Method for unloading ammunition" F42B 33/00, 1999). It contains: a container with a refrigerant (for example, liquid carbon dioxide or liquid nitrogen), a cooling chamber ending with a diffuser, a channel for supplying compressed gas, a channel for supplying a process liquid (water). With the help of which a stream of water ice granules is obtained and fed to the surface of the explosive of a discharged PS. A stream of ice granules is formed by pre-forming an aerosol stream and then cooling it, or by pre-cooling the gas stream and then mixing the resulting cooled gas stream with a stream of water. Then, using this flow of explosives, they are washed out of the PSU case, after which the explosives are collected and sent for recycling or processing.

The disadvantage of this device is the content in the design of the elements that create a stream under pressure, an excessive amount of moisture formed during the melting of ice granules in the extracted explosive. This method has an increased danger, due to the use of high pressure as well as a complex design to ensure this mode.

Also known installation for the demilitarization of ammunition, which implements the method of demilitarization of ammunition (patent RU 2444695 "Method of demilitarization of ammunition"), comprising: a compressor that delivers air through the duct into the Laval nozzle; a spray nozzle through which carbon dioxide crystals are supplied from a cylinder of liquid carbon dioxide; fine-mesh reflective grid; a screw granulator, which consists of a screw, a housing and a cone seal, a die hole and a movable knife, and are used for compaction by pressing and fragmentation of carbon dioxide granules of the required size, a funnel for collecting granules. From the mixer, picked up by the air flow through the duct, the granules fall onto the surface of the explosive power supply unit. A container is intended for collecting the extracted explosive. With the help of this installation, carbon dioxide pellets pre-densified by pressing cylindrical carbon granules preformed in a screw granulator, which allows to obtain carbon dioxide granules with a diameter of d = 1.7 ÷ 3.5 mm and a length l = (1 ÷ 3) d, are fed to the explosive surface. The formed flow of granules is fed to the surface of the explosives. Granules of carbon dioxide, falling on the surface of the explosive, due to the temperature difference provoke a "thermal shock". Carbon dioxide granules quickly sublimate into CO ₂ gas, increasing the previously occupied volume, which is a microexplosion on the explosive surface, which destroys it. To collect the extracted explosives, a special container is designed located under the projectile into which the explosives are poured. The explosives collected in a special container are sent for recycling or recycling.

However, this installation is an object of increased danger, because it contains structural elements with high pressure (a container with liquefied carbon dioxide), as well as this installation has a complex structure due to the large number of components.

The task (technical result) of the proposed device is to increase safety and simplify the design of the installation.

This object is achieved by the fact that in the known installation for the ordnance demarcation, which contains a housing, a platform for securing the ammunition, a container for collecting the extracted explosive, the specified housing is made in the form of a cooling chamber of the compressor refrigerator, and the platform for securing the ammunition is a vibration stand with a conical hole to which the local suction is supplied.

The drawing shows the proposed device for the demilitarization of ammunition. The device contains: 1 - a cooling chamber of the compressor refrigerator, 2 - a vibrating stand, 3 - a conical hole for installing a power supply unit, 4 - a local suction, 5 - a container for collecting explosives.

The installation works as follows: the BP is placed in the cooling chamber of the compressor refrigerator 1 and has a hole for the fuse down on the vibrating stand 2 in the conical hole 3 to ensure a stable position and the most complete transmission of vibration to the discharged BP, due to cooling and the difference in density of explosives, a binder - paraffin and the BP case - steel is stratified and separated from the PSU walls, it is destroyed by the vibration of the explosive, a local suction 4 is attached to the hole for the fuse with a special Adhesive, the created reduced pressure creates an additional destructive effect and removes explosives from the power supply unit into a container for collecting explosives 5 for further processing and reuse.

Thus, the disarmament of BP using the proposed device has a low level of danger, because in its design there are no elements that create high pressure, as well as the design for discharging BP becomes simpler due to the exclusion from it of elements for storing additional substances, a device for forming a high-speed flow, granulator and knife in connection with the use of a cooling chamber.

The technical result of the proposed device is to reduce the level of danger during unloading and simplify the design of the device for unloading.

Claims (1)

Ammunition demarcation installation, comprising a housing, a platform for securing ammunition, a container for collecting the extracted explosive, characterized in that said housing is made in the form of a cooling chamber of a compressor refrigerator, and the ammunition fixing platform is a vibrating stand with a conical hole to which a local suction.

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