UA18897U - Method for capsule extraction from rifle cartridge shells - Google Patents

Abstract

The utility model relates to utilization of ammunition. In the method for capsule extraction from rifle cartridge shells the inner cavity of the shell is filled with fluid medium in which increased pressure is formed, enough for capsule extraction. The utility model makes it possible to take out the capsule from shell without ignition of initiation explosive substance.

Description

Description of the invention

The useful model relates to the field of ammunition disposal, in particular, to the technology for separating 2 (disarming) ammunition cartridges of rifle calibers.

Ammunition disposal is an urgent task, because every year a large number of rifle cartridges expire, cartridges can become unusable due to external influences, and it is also periodically necessary to destroy stocks of unused cartridges for obsolete and decommissioned weapons. From an economic point of view, it is preferable to keep the components of spent cartridges intact, which 70 will allow them to be used both for reloading cartridges and for other purposes. The best preservation of these components is ensured by sequential separation of cartridges into components without burning gunpowder and initiating explosive, which, however, significantly increases the requirements for processing technology from the point of view of safety.

One of the key tasks in this technology is the extraction of capsules from casings that have already been freed from gunpowder and bullets. 72 In known methods, the capsules are first neutralized by scalding or by burning under the influence of an electric current |see Sevastyanov B.V., Lysyna E.B. "Automated devices for separation of unitary charge shots": Armament. Policy. Conversion. M: Voyentekhlit, Mo5, 1999, pp. 35-371.

Currently, there are no methods of removing capsules from rifle cartridge cases without detonating the initiating explosive substance of the capsule.

The purpose of the claimed useful model is to create a method for extracting capsules from rifle cartridge cases without detonating the initiating explosive substance of the capsule.

The problem is solved by the fact that the method of extracting capsules from rifle cartridge cases is that the inner cavity of the cartridge case is filled with a fluid medium, in which an increased pressure is created, sufficient for the extraction of the capsule. 29 It is advisable to use a liquid, in particular, water, as a fluid medium. -at

Preferably, the increased pressure of the fluid in the cavity of the sleeve is created by introducing into this cavity through the socket of the sleeve a cylindrical piston, which adjoins its outer surface to the inner surface of the socket of the sleeve.

For an effective effect on the capsule, the cylindrical piston can be introduced into the sleeve cavity with a pulse - a shock that causes a short shock wave that knocks the capsule out of the sleeve nest. Ge")

The use of a liquid, in particular water, as a working medium for impacting the capsule ensures effective removal of the capsule from the sleeve nest. co

The essence of the useful model is explained in more detail with the help of a drawing, which shows a fragment of one of the options for the installation for extracting capsules from rifle cartridge cases, which implements this method. --

The device for extracting capsules from rifle cartridge cases contains a conveyor 1 with a set of grippers 2 for placing cartridges 3. At the base of the gripper, there is a hole 4, the size and location of which is such that a capsule passes through it 5. The fluid filling unit is adjacent to the conveyor, made in the form of container 6 for liquid, mainly water, a pipeline 7 and a nozzle 8, also a movable piston 9 in the axial direction, the outer diameter of which 50 is close to the inner diameter of the socket of the sleeve 3. Below the conveyor there is a collector 10 for collecting capsules and spent liquid, which through the filter 11, accumulator 12, and pump 13 is connected to the container 6. z» Conveyor 1 can be made in the form of a rotor installed with the possibility of rotation, with which the mentioned nozzle 8 and piston 9 are connected.

Sleeves with capsules, which have been previously freed from bullets and powder charges, are placed in sockets 2 and are brought to the nozzle 8, which is transferred to the filling position in such a way that its filling channel - through the pipeline 7 is connected to the container 6 and the liquid enters into the cavity of the sleeve 3. The movement of the conveyor 1 and the nozzle 8 are synchronized using known solutions in such a way that from the moment of the beginning of pouring until the moment of its completion, the nozzle 8 is exactly opposite the mouth of the sleeve 3. After the end of pouring, the nozzle 8 is transferred to the waiting position and connection with capacity 6 (Te) 20 is terminated. The liquid-filled sleeve is moved to a position coaxial with the piston 9, and another empty sleeve Z is brought to the nozzle 8. The piston 9 is set in motion and enters the mouth of the liquid-filled sleeve 3, due to which the pressure of the medium in the sleeve cavity increases until the liquid will squeeze the capsule 4 out of the socket of the sleeve 3. At the same time, the liquid of the sleeve connected to the nozzle 8 takes place. Fig. not shown), and the liquid flows into the accumulator 12, from where it is returned to the container 6 with the help of the pump 13.

After that, the piston 9 is returned to its initial position, the sleeve C free from the capsule is moved further along the conveyor, synchronously with which another sleeve 3 filled with liquid is brought to the piston 9, and the next empty sleeve is brought to the nozzle 8. 60 Thus, this method ensures the removal of capsules from rifle cartridge cases in the complete absence of mechanical impact on the shock-flammable mixture of the capsule and its neutralization due to the phlegmatizing effect of water on the rattling mercury, which is the initiating substance in the shock mixture. At the same time, the environmental safety of the process is ensured by eliminating the release of harmful substances in a vapor state and neutralization of the initiating explosive substance of the capsule in a liquid medium with subsequent demercurization of the neutralized mixture at a specialized enterprise.

The utility model is not limited to the examples provided and includes any variations and modifications that are covered by the formula of this utility model.

Claims (4)

2 Formula of the invention 1. The method of extracting capsules from rifle cartridge cases, which is characterized by the fact that the inner cavity of the case is filled with a fluid medium, in which an increased pressure is created, sufficient for the extraction of the capsule. 70 2. The method according to claim 1, which differs in that a liquid is used as a fluid medium. 3. The method according to claim 2, which differs in that the liquid is water. 4. The method according to claim 1, which is characterized by the fact that the increased pressure of the fluid in the cavity of the sleeve is created by introducing a cylindrical piston into this cavity through the socket of the sleeve, which adjoins its outer surface to the inner surface of the socket of the sleeve. that 2 cha (o) (ee) (ee) yo - with . and? - (ee) (ee) se) that c 60 b5