RU95821U1 - STABILIZED CARTRIDGE - Google Patents

Abstract

 A stabilized cartridge, including a sleeve, a capsule, a powder charge and a missile projectile, characterized in that the powder charge is separated from the projectile by a fixed, securely fixed wall that prevents the premature movement of the projectile, which is destroyed when the powder gases reach the working pressure.

Description

The proposed utility model relates to cartridges of firearms, primarily for cartridges of traumatic action for smooth-bore weapons having rubber shells much lighter than metal. The most applicable cartridge for barrelless traumatic weapons.

Modern ammunition for hunting weapons, for example, a conventional cartridge containing a shell with a shell, behind which there is a powder charge in contact with the detonator capsule 4, are described in the section “Hunting ammunition” M. M. Blum, I. B. Shishkin, Hunting rifle : Reference. - 3rd ed., Revised. and add. - M.: Ecology, 1994 .-- 288 p.: Pp. 165-183. Illustrations are also given there: Fig. 136 p. 166, Fig. 137 p. 167, Fig. 143 p. 182.

In rifled weapons, a bullet, leaving the sleeve, penetrates into rifling with significant resistance - this ensures a rapid and stable ignition of gunpowder. And in smooth-bore weapons, the absence of the above delay negatively affects the stability of the combustion of the powder charge. In paper or plastic sleeves, shell fixation is widely used by ring rolling or an asterisk press fitting. So, even a slight slowdown of the projectile improves the combustion mode. The "asterisk" gives a slightly greater resistance to the opening of the cartridge, but even such a small difference has tangible results (see M.M. Blum, I. B. Shishkin, Hunting rifle: Handbook. - 3rd ed., Revised and ext. - M .: Ecology, 1994 .-- 288 p.: Ill., P. 247). As a result, under equal conditions of equipment for a batch of cartridges of 12 calibers - gunpowder and shot of one batch, gunpowder 2.3 g, shot No. 7 34 g, with ring rolling V ₁₀ = 341 m / s, when rolling with an asterisk V ₁₀ = 361 m / sec, and the pressure P _cf - 718 kgf / cm ² and 837 kgf / cm ^2, respectively.

The fact is that the nature of the burning of gunpowder in open space is similar to the burning of poplar fluff and has nothing like it with an explosive effect. To accelerate the combustion of gunpowder, it is necessary to increase the pressure in the space where this combustion occurs. Different types of gunpowder are available for different types of weapons. Gunpowder for rifles, the shells of which have significant resistance to penetration into the rifling of the barrel and a relatively long barrel, are slow-burning. Revolving gunpowders are designed for use in short-barreled weapons - they have medium burning speeds. For smoothbore guns, quick-burning gunpowder is produced. The most quick-burning gunpowders are used on sporting cartridges of smooth-bore weapons. When traumatic cartridges with rubber shells are used in smooth-bore weapons, even when using different types of liner rolling, light and elastic rubber shells begin to move before optimal pressures for existing gunpowders are reached. The industry does not produce special gunpowders for rubber shells. When the projectile begins to move, the volume of the combustion chamber begins to grow. The pressure growth slows down and, accordingly, the burning rate grows slowly.

The disadvantage of braking missiles of various kinds of rolling, in addition to the low stability and the force of these delays, in addition, with respect to "rubber" shells, the instability of elasticity of rubber is added, especially when temperature fluctuates.

When firing heavy lead shells, the inertia of the shell exerts counter-pressure; when firing light and soft rubber shells, braking the projectile in the front will be ineffective. In addition, on metal sleeves, where the above methods are not applied, the quality of the battle with rifles and conventional shells is reduced in comparison with plastic and paper. If the above problems of boosting the combustion of gunpowder in the initial period of the internal ballistic of the projectile are significant for long-barreled weapons, then for barrelless traumatic, where the internal ballistics proceeds within the length of the sleeve, the maximum forced combustion of the gunpowder is of paramount importance.

The task to which the creation of the proposed utility model is aimed is to create a cartridge design that provides high-speed stable combustion of gunpowder and, as a result, rapid acceleration of the projectile.

In addition, with respect to traumatic cartridges, it is necessary not only to obtain a given shot energy, but there is a need for the shot energy not to exceed medical restrictions for traumatic weapons, i.e. it should lie in a fairly narrow range.

The problem is solved in that in a stabilized cartridge having a sleeve, a capsule, a powder charge and a projectile, according to a useful model, the powder charge is separated from the projectile by a motionless, securely fixed wall that prevents the projectile from moving prematurely and is destroyed when the powder gases reach the working pressure.

In the proposed utility model, the stable nature of the combustion of gunpowder is provided by locking the powder charge in the bottom of the liner with an immovable wall. The installation of this wall provides a constant volume of the combustion chamber that does not increase during the combustion of gunpowder. This provides a rapid increase in pressure and the completeness of combustion of gunpowder. In this case, the effect of powder gases on the projectile begins after the destruction of the above wall.

The utility model is illustrated by drawings, where in Fig.1 shows a diagram of a conventional cartridge, Fig.2 is a diagram of the proposed stabilized cartridge.

A conventional cartridge contains a sleeve 1 with a projectile 2, behind which there is a powder charge 3 in contact with the detonator capsule 4.

The proposed cartridge (figure 2) includes a sleeve 5 with a projectile 6 and a powder charge 7. The detonator capsule 8 is in contact with the powder charge 7. The non-movable wall 9 separates the powder charge 7 from the projectile 6. The non-movable wall 9 can be made of various materials and fixed in various ways: spring clip, threaded connection, adhesive connection, etc.

The proposed utility model operates as follows: after the operation of the capsule 8, the powder burns inside the constant volume combustion chamber formed by the installation of the wall 9, while the pressure increases, the burning rate increases, this occurs until the wall 9 breaks down, after which the powder gases have already gained working pressure intense acceleration of the projectile 6.

Claims (1)

A stabilized cartridge, including a sleeve, a capsule, a powder charge and a missile projectile, characterized in that the powder charge is separated from the projectile by a fixed, securely fixed wall that prevents the premature movement of the projectile, which is destroyed when the powder gases reach working pressure.