UA22135U - Method for utilization of ammunition - Google Patents

Abstract

The utility model relates to utilization of ammunition and rocket fuel. A method for utilization of ammunition includes placement of ammunition in blasting chamber, with initiation of ammunition and discharge of blast products. To increase productivity and enlarge operation possibilities, through nozzle liquid rocket fuel is loaded to blasting chamber, through hatch of blasting chamber one loads milled explosive substances, through shaft of blasting chamber one loads solid rocket fuel, and other explosive substances. By means of fixation unit for capsule ammunition one performs shoot to blasting chamber. After initiation of ammunition and burning of rocket fuel products of burning through openings of blasting chamber come to the housing where blasting chamber is placed, and through the openings in the housing those products are moved to reducer that performs function of pressure controller in air duct through which combustion products with constant stable pressure fall on blades of electric current generator.

Description

Description of the invention

A useful model refers to the field of disposal of ammunition and rocket fuel. 2 The closest in terms of technical essence to the claimed useful model is the method of disposal of ammunition

Go application of the Russian Federation Mo97109620/02, dated 08/20/1999|, in which, with the help of a shock wave generated during an explosion in the chamber, ammunition equipped with a solid explosive substance is disposed of, followed by the removal of a crushed mass of disposal products.

Disadvantages of this method of disposal of ammunition is that there is a limited arsenal of ammunition equipped only with solid explosives. In addition, the energy of the gases and the thermal energy of the explosion products generated during the disposal of ammunition are not used

The useful model is based on the task of expanding the types and types of ammunition for disposal, which makes it universal, increases productivity, expands the operational capabilities of the method and significantly reduces the cost of disposal. In addition, the method provides an opportunity to use the thermal energy of products 72 of the explosion and combustion of rocket fuel for the production of electricity, which allows not to pollute the environment and classify the method as environmentally safe.

The task is solved by the fact that in the method of disposal of ammunition, which includes placing ammunition in the explosive chamber, detonating the ammunition and removing the explosion products, according to the useful model, with the help of the attachment unit of the capsule ammunition, a shot is fired into the explosive chamber, through the nozzle to the explosive chamber is loaded liquid rocket fuel, crushed explosives are loaded through the hatch of the explosive chamber, solid rocket fuel and other explosives are loaded through the shaft of the explosive chamber, a shot is fired into the explosive chamber with the help of the attachment unit of capsule ammunition, after the ammunition is detonated and the rocket fuel burns, combustion products through the holes of the explosive the chambers enter the housing in which the explosive chamber is placed and through the openings of the housing, these products are diverted to a reducer 22, which performs the function of a pressure regulator in the air duct, through which the products of combustion with a constant, stable pressure are fed to the blades of the electricity generator direct current.

The use of the below-described method of disposal of ammunition with the help of attachment points for capsule ammunition of different diameters, depending on the need, allows you to dispose of ammunition of different calibers by firing. at

In addition, the proposed method makes it possible to dispose of both liquid and solid rocket fuel, as well as mines, grenades, dynamite, and crushed explosives.

Thus, the proposed method of disposal of various types and types of ammunition is universal, which in general significantly expands its operational capabilities and increases productivity. Moreover, the SU method allows for continuous disposal of ammunition, which significantly reduces the cost of disposal. 3. The use of thermal energy of the products of the explosion and combustion of rocket fuel for the production of electricity makes it possible not to pollute the environment and to classify the method as environmentally safe.

To implement the method of disposal of ammunition, the claimed technological process takes place.

Through the nozzle, liquid rocket fuel is loaded into the explosive chamber and, with the simultaneous supply of oxygen /-«F, it is ignited, through the hatch of the explosive chamber, crushed explosives are loaded, and through the Z 70 shaft of the explosive chamber, solid rocket fuel and other explosives are loaded. With the help of the capsule munition attachment unit, a shot is fired into the explosive chamber, the kinetic force of which is extinguished by

With the help of a base plate placed inside the explosion chamber with their subsequent disposal and subsequent removal of thermal energy of the products of the explosion and combustion of rocket fuel through the holes on the blade of the electric current generator for the production of electric energy.

The housing includes an explosion chamber that contains holes for the removal of explosion and combustion products and rocket fuel to the reducer, which performs the function of a pressure regulator in the air duct connected to the electric current generator, and also has a common hatch for removing fragments of spent ammunition in the form of scrap metal . at 50

Claims (1)

The formula of the invention sl A method of disposal of ammunition, which includes the placement of ammunition in an explosion chamber, detonation of the ammunition and removal of the products of the explosion, which is characterized by the fact that through the nozzle to the explosion chamber is loaded 22 liquid rocket fuel, crushed explosives are loaded through the hatch of the explosive chamber, solid rocket fuel and other explosives are loaded through the mine from the explosive chamber, with the help of the attachment unit of the capsule ammunition, a shot is fired into the explosive chamber, after the ammunition is detonated and the rocket fuel burns, the products combustion through the openings of the explosion chamber enter the housing in which the explosion chamber is located, and through the openings of the housing, these products are taken to the reducer, which performs the function of a regulator 60 pressure in the duct through which combustion products with a constant stable pressure are supplied to the blades of the electric current generator. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 4, 15.04.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine.