RU2586997C1 - Non-lethal cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: non-lethal cartridge comprises rigid case, primer, propellant charge and thrown traumatic element. Element is fixed in case with barrel circular deformation of 0.2-0.35 of case external diameter. Circular deformation of case barrel is made along generatrix described by equation of natural logarithm function.

EFFECT: higher reliability of operation and ease of use of cartridge.

1 cl, 4 dwg

Description

Traumatic cartridge.

SUBSTANCE: invention relates to traumatic cartridges containing a rigid sleeve, an igniter capsule, a propellant charge and a traumatic traumatic element made of elastic material fixed in the sleeve by a circular deformation of the sleeve barrel.

Known cartridge for pistols [RF patent for utility model No. 102781], including a sleeve with a length of not more than 25 mm, in the cavity of which a propelling charge and an elastically deformable bullet are placed, the maximum diameter of a spherical bullet before it is loaded into the sleeve refers to the maximum diameter of a bullet deformed in the sleeve as 1.21 or more, while the diameter of the sleeve is not more than 11.43 mm. In accordance with the drawing to this patent, the circular deformation of the barrel of the barrel in order to hold the missile traumatic element (rolling) is made in the form of a cone. This solution focuses on the ballistic characteristics of the cartridges and does not consider and does not take into account the influence of the circular deformation of the barrel barrel on the failure-free operation of the firing device, in particular on the failure-free operation of the automation and the elimination of misfires.

The retention of a missile traumatic element is also known by the bend of the barrel [RF patents for utility model Nos. 148429U1, 140059U1] or by the combination of the fold of the barrel and a special plug [RU 140059U1]. These patents do not examine the effect of the applied retention of the missile traumatic element on either the cartridge ballistics or the operation of the firing device. At the same time, the geometry of the deformed part of the muzzle allows us to state that the cartridge in question is characterized by a high probability of sticking it when it is sent to the chamber.

As a prototype, a traumatic cartridge [RF patent for invention No. 2348892] was selected containing a rigid sleeve, an igniter capsule, a propelling charge and a spherical traumatic element made of elastic material fixed in the sleeve with a circular deformation of the sleeve barrel. In this case, the traumatic element is made with a diameter equal to 1.1-1.3 of the inner diameter of the cylindrical part of the sleeve and 1.5-1.7 of the diameter of the outlet of the deformed part of the barrel of the sleeve, which is made rounded with a radius of curvature of 0.2- 0.4 of the outer diameter of the sleeve, the length of the deformed portion of the barrel of the sleeve of the sleeve is 0.2-0.35 of the outer diameter of the sleeve. Compared with the above-mentioned designs, the rounded shape provides better conditions for sending the cartridge into the chamber and stable operation of the mechanisms for reloading self-loading weapons, and the convenience and simplicity of loading non-self-loading weapons. For traumatic cartridges that do not have a protruding bullet and have an adverse relationship between the length of the cartridge and the diameter of the sleeve, the shape of the deformed part of the sleeve is crucial to ensure the stable operation of reloading mechanisms. The reduction of the radius of the rounding of the deformed part of the barrel barrel leads to the deterioration of the working conditions of the mechanisms for reloading self-loading weapons, the sticking of cartridges when reloading into the chamber, the unstable operation of the reloading mechanism, and delays in firing. For non-self-loading weapons, reducing the radius of the rounding of the deformed part of the barrel barrel leads to a deterioration in the loading conditions of the weapon, which in most cases is carried out in a hurry, to the touch and is accompanied by stress that is inevitable when using weapons for self-defense. The increase in the radius of curvature of the deformed part of the sleeve of the sleeve leads to an unstable position of the missile traumatic element in the sleeve. When the cartridges are equipped, deformation of a sleeve with a large radius of curvature extrudes a missile traumatic element in the direction of the bottom of the liner and prevents a stable position of the missile traumatic element in the liner in the optimal position, in which the front surface of the missile traumatic element is pressed against the inner surface of the deformed portion of the barrel muzzle. A detailed analysis of the geometric characteristics of the prototype showed that, with the optimal length of the deformed part of the barrel (0.2-0.35 outer diameter of the sleeve), the proposed geometry of the deformation of the part of the barrel is not the most successful in terms of parameters of the reliable sending of the cartridge into the chamber and proper placement in the chamber as for self-loading , and for non-self-loading shooting devices.

The problem to which the invention is directed, is to improve the geometric characteristics of the liner to ensure high reliability and (or) ease of use, in particular the failure-free operation of the automation of self-loading firing devices and the speed of reloading non-self-loading.

This problem is solved by a traumatic cartridge containing a rigid sleeve, an igniter capsule, a propellant charge and a traumatic missile element fixed in the sleeve by circular deformation of the sleeve of the sleeve with a length of the deformed part of the sleeve of 0.2 - 0.35 of the outer diameter of the sleeve, in which, according to the proposal, the circular deformation of the sleeve barrel is made according to the generatrix described by the equation of the function of the natural logarithm.

The claimed invention is illustrated by drawings.

In FIG. 1 shows examples of cartridges with options for deforming a portion of the muzzle around the circumference, cone, and in accordance with the claimed spline with a characteristic of the distance from the capsule to the striker.

In FIG. Figure 2 shows a graph of the function Y (x) = ln (x), which describes the generatrix of the deformation of a portion of the barrel barrel.

In FIG. Figure 3 shows examples of chambering a cartridge into a chamber for options for deforming a portion of a muzzle around a circle, cone, and in accordance with the declared spline.

In FIG. 4 shows examples of the placement of the cartridge in the chamber for options for deforming part of the muzzle around the circumference, cone, and in accordance with the claimed spline with the characteristic distance from the capsule to the striker.

The geometrical characteristics of the chamber comply with the regulatory documents of the Permanent International Commission for the Testing of Handguns (C.I.P).

The traumatic cartridge contains a rigid sleeve 1, an igniter capsule 2, a propellant charge (not shown) and a traumatic element (not shown) fixed in the sleeve by the circular deformation of the sleeve of the sleeve 1. The circular deformation of the sleeve of the sleeve 1 is made according to the generatrix described by the equation of function of the natural logarithm (Fig. 2). In FIG. 1, 3, 4, 9 mm cartridges are shown as an example. The position indicates the barrel of the firing device with chamber 3. For the claimed technical solution (option B), the argument of the function of the natural logarithm X is within 0.2 - 2.4 mm.

When sending the cartridge into the chamber 3 does not occur sticking only with the claimed cartridge (option B). In the other two cases (options A and B), the cartridges were buried, that is, the upper contact point Q of the sleeve 1 did not go beyond the turning point M (Fig. 3).

After placing the cartridges in the chamber 3 to the best extent, the length of the chamber corresponds to the declared cartridge (option B - Fig. 4). For this case, the distance from the capsule 2 to the striker is minimal. To the smallest extent, the length of the chamber corresponds to option B (with deformation of the barrel in the form of a cone). It is for option B that the probability of misfire is the highest, especially in the case of using a worn firing device. At the same time, the probability of misfire when using the inventive cartridge is minimal.

Prototype cartridges were manufactured and tested by the applicant company and confirmed the indicated properties and advantages.

Claims (1)

A traumatic cartridge containing a rigid sleeve, an igniter capsule, a propellant charge and a missile traumatic element fixed in the sleeve by circular deformation of the sleeve of the sleeve with a length of the deformed portion of the barrel of 0.2 - 0.35 of the outer diameter of the sleeve, characterized in that the circular deformation of the sleeve of the sleeve is made by the generator described by the equation of the function of the natural logarithm.

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