RU190211U1 - Bezgilzovy cartridge - Google Patents

Abstract

The utility model relates to cartridges for items that are structurally similar to firearms - rifles, pistols, revolvers, and specifically to caseless cartridges. The task of creating a cartridge for a product that is structurally similar to a firearm, a simplified design, easy to manufacture, and does not pollute the environment when firing, resolves a cartridgeless cartridge containing a hollow body-shell 1, a propelling charge 2 made of combustible material, placed in the cavity of the body-shell , and a primer-igniter 3, while the shell body is made of plastic material with the possibility of expansion in the bore to prevent gas breakthrough from combustible combustible material, and propellant charge has a muzzle energy of not more than 14.5 joules. 1 il.

Description

The utility model relates to cartridges for items that are structurally similar to firearms - rifles, pistols, revolvers, and specifically to caseless cartridges.

Known bezgilzov cartridge for firearms containing a bullet placed in a propellant charge, formed in the form of a cylindrical body of combustible material, sealing device in the form of a washer with a hole under the capsule attached to the bottom of the propellant charge (RF Patent No. 367622, IPC F42B 5/18 , published on January 23, 1973).

Known bezgilzov cartridge for firearms, which contains a cylindrical body-shell, the cavity of which is filled with a propelling charge, and the igniter of this charge. The front part of the body is made more massive to increase its damaging ability (patent CH 678889 A5, F42B 5/18, 15.11.91).

The disadvantages of the known sleeveless cartridges is the complexity of their design, and accordingly, the complexity of manufacturing. In addition, the known caseless cartridges are designed to destroy manpower, have a propellant charge with increased muzzle energy, which does not have time to burn all during ignition and after the shot its remnants leave the barrel.

The closest to the proposed solution to the technical essence is a bezgilzovy cartridge containing a bullet, a propelling charge of combustible material and primer-igniter. The bullet is made in the form of a hollow cylinder, equipped with a membrane-plug, associated with a primer-igniter stem, passing along the axis of the bullet, and a propellant charge placed in the bullet cavity behind the membrane (RF patent №2113686, F42B 5/18, publ. 20.06.98) .

The known cartridgeless cartridge is designed to defeat manpower. Its disadvantage is the complexity of the design, and accordingly, the complexity of manufacturing. In addition, after the shot, the remnants of the propellant charge and the membrane-wad leave the barrel, which is not permissible for a product “constructively similar to firearms”.

The utility model is aimed at solving the problem of creating a cartridge for a product that is structurally similar to a firearm, a simplified design that is easy to manufacture and does not pollute the environment when firing.

The problem is solved by the fact that the cartridge sleeveless contains a hollow body shell, a propelling charge of combustible material placed in the cavity of the body shell, and primer-igniter, while the body shell is made of plastic material with the possibility of expansion in the barrel to prevent gas breakthrough from flammable combustible material, and the propellant charge has a muzzle energy of not more than 14.5 joules.

Execution of the cartridge sleeveless of the hollow body, propellant charge and primer-igniter significantly simplifies the design of the cartridge and its manufacture, as it contains the minimum number of structural elements.

The implementation of the shell-shell of plastic material with the possibility of expansion in the bore to prevent breakthrough gases from ignited combustible material, allows to simplify the design of the cartridge, because without any additional structural elements such as wad, protrusions, etc., does not allow gases to pass through the bore. In addition, the prevention of gas breakthroughs directly due to the expansion of the plastic material from which the shell is made, makes it possible to fully utilize the energy of the powder gases of the ignited combustible material to impart an impulse to the shell that flies out of the barrel, and is in fact a bullet / projectile.

The muzzle energy of a propellant charge of not more than 14.5 joules allows the use of the proposed cartridgeless cartridge for a product that is structurally similar to a firearm, since when it leaves the barrel of the shell, which is actually a bullet / shell, its energy is no more than 14.5 joules, that meets the requirements for such products, namely for their muzzle energy - no more than 14.5 joules. In addition, a propellant charge with an energy of no more than 14.5 joules involves the use of a small amount of combustible material, which ensures simultaneous ignition and complete combustion, while the primer igniter remains in the chamber and, accordingly, eliminates the possibility of leaving it through the barrel.

The drawing shows a sleeveless cartridge, general view.

The sleeveless cartridge contains a casing-shell 1 filled with a propelling charge of combustible material 2, as well as a capsule 3. The casing-shell 1 can be made of such plastic material as lead, copper, brass, iron, or plastic in the form of a thin-walled cap or glass or shuttlecock, the shape of which maintains the impulse of propellant charge. To prevent gas breakthroughs from flammable combustible material, the size of the shell body is calculated depending on the diameter of the barrel of the weapon for which the cartridge is intended. As a combustible material, a pyrosol or conventional known smoky and smokeless powders can be used, the amount of combustible charge is calculated based on the mass of the bullet shell.

The cartridge bezgilzov works as follows.

The cartridge is placed in the chamber, when the capsule 3 is punctured, it is detonated and then the combustible material of the propelling charge 2 ignites. As a result, the combustible material passes into a gaseous state in a large volume. The released gases under high pressure push the shell-shell 1 out of the chamber and the barrel, which is actually a bullet / projectile. Since the shell-shell 1 is a cap or shuttlecock, it is capable, moving along a rifled barrel, to acquire a rotational motion, which gives it stability in flight.

Claims (1)

The cartridge is cartridgeless, characterized in that it contains a hollow body shell, a propellant charge of combustible material placed in the cavity of the body shell, and an igniter capsule, while the body shell is made of plastic material with the possibility of expansion in the bore to prevent gas breakthrough from flammable combustible material, and the propellant charge has a muzzle energy of not more than 14.5 joules.

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