RU45517U1 - CARTRIDGE FOR GUNS (REVOLVERS) - Google Patents

Abstract

The utility model relates to cartridges for pistols (revolvers) and is intended to immobilize offenders by non-fatal mechanical damage. The main difference between a cartridge containing a cartridge case with an igniter capsule, propellant charge and missile equipment made of elastically deformable material with an average density of up to 2 g / cm ³ from existing ones is that containerless missile equipment consists of two bullets in series, and the volume ratio the cavity of the sleeve to the total volume of bullets is 1.15 ÷ 2.45.

In special cases of execution:

propelling charge made prepressed;

bullets mounted in a sleeve with a gap;

bullets differ in weight and / or volume and / or cross-sectional area;

under the bullets and / or between them there are gaskets.

The utility model expands the arsenal of means of active self-defense of non-lethal action and, in terms of the totality of its properties, provides a more effective action on the target.

The formula contains one independent and six dependent points.

Description

The utility model relates to cartridges for pistols (revolvers) and is intended to immobilize offenders by non-fatal mechanical damage.

The prior art cartridges for pistols (revolvers) with a missile element in the form of a bullet consisting of a shell and a lead core [1]. This technical solution is due to the need to apply a living target of the most severe, possibly fatal, defeat. A similar property, objectively necessary for combat and hunting weapons, limits the distribution of these cartridges for self-defense.

The prior art also known revolving cartridge, the closest to the claimed technical solution for the totality of design features, which is selected as a prototype [2]. It contains a sleeve with an igniter capsule, propellant charge, containerless throwable equipment made of low density elastic material (up to 2 g / cm ³ ), for example, rubber. The cartridge has a ratio of the volume of the internal cavity, designed to accommodate missile equipment and propelling charge, to the volume of the bullet 2,33.

It should be noted that pistol (revolving) cartridges with bullets made of elastic light material are not widely represented in the arsenal of non-lethal (traumatic) means, while the known ones are not optimized for the effective use of the volume of the inner cavity of the cartridges. In addition, the specific muzzle energy of non-lethal bullets for ladies with short-barreled self-defense firearms, in order to avoid excessive injury to a live target, as a rule, should not exceed 0.5 J / mm ² (requirement of forensic medicine). With this limitation, it is possible to maximize the absolute muzzle energy in the prototype circuit by increasing the caliber or the initial velocity with increasing in the latter case the ductility of the bullet. The first option inevitably leads to an increase in the overall characteristics of the cartridge, and, consequently, the weapon, the effectiveness of the second is reduced to an unacceptable value if the target is protected by a layer of clothing in which the striking element is deformed and loses energy. In turn, lengthening a bullet (giving it a shape different from a ball) under conditions of its somersault on the flight is also not an optimal solution to this problem, since the position of such a missile element when meeting an obstacle is probabilistic. This circumstance can lead to unreasonably severe damage to the target when the axis of the bullet is approximately perpendicular to the surface of the target. By

the above reasons to maximize the energy of the shot, and, therefore, the effectiveness of the impact on the target is very difficult, which is a significant disadvantage of the prototype.

With acts of self-defense, situations more often than others occur where it is advisable to effectively immobilize the offender, and not cause him death. Therefore, the main task that the utility model is aimed at is expanding the arsenal of non-lethal active self-defense means, namely, creating a pistol (revolving) cartridge that most closely matches the historically prevailing dimensions of short-barreled firearms, with traumatic missile equipment, all of which, in combination their geometric, physical and ballistic properties the maximum possible immobilizing effect.

Other goals of the proposed design are stabilization of the parameters of the shot with light missile equipment (pressure of the powder gases and the initial velocity of the bullets), mainly at different angles of declination of the weapon, increasing the utilization of shot energy, especially for self-loading pistols, as well as improving the accuracy of fire for multi-bullet cartridges.

These goals are achieved by optimizing the quantitative, geometric and physical parameters of the cartridge elements, namely, by using two bullets of lightweight elastic deformable material (average density up to 2 g / cm ³ ) arranged in series, in combination with limiting the ratio of the volume of the inner cavity of the sleeve intended for placement throwing equipment and propelling charge, to the volume of two bullets (1.15 ÷ 2.45).

To maximize the positive effect, the propellant charge is pre-pressed, and the striking elements may differ in mass, volume or cross-sectional area, and are also mounted in the sleeve so that there is a gap between the bullets. In any of the options under the striking elements and / or between them may be provided gasket.

The causal relationship between the above essential features and the achieved result is explained as follows.

It is known that under the conditions of limiting the specific muzzle energy, the task of maximizing its absolute value is solved by increasing the number of affected elements that can be placed in the sleeve sequentially without changing its radial dimensions. Moreover, the probability of coincidence of the flight paths of the striking elements is negligible.

The mutual negative influence of bullets during a shot is the stronger, the more missile elements are involved in contact. In particular, the simultaneous shot of three or more bullets, if they are not in the container, is as follows. The first two elements move beyond the arms under the influence of the third. Head bullet being

made of light material, encountering a powerful frontal resistance of atmospheric air and, being at a considerable distance from the latter, naturally significantly shifts from the axis of the barrel channel. The gas flow from the low-powered powder charge of the pistol cartridge after the last missile element is launched is not enough to level the negative influence of these factors. It should be noted that the use of a container in short-barreled weapons, as provided for in rifle cartridges, in a pistol cartridge does not seem advisable due to the limited dimensions of short-barreled weapons and the need to maximize the caliber (diameter of the bullet) in these dimensions.

Experiments show that when firing with three bullets, their dispersion at a range of 3 m reaches 34 cm, while in experiments with two-bullet containerless cartridges having parameters declared in this utility model, the mutual deflection of bullets at a distance of 3 m is 2.5 ÷ 4 , 2 cm, which is quite acceptable for civilian self-defense weapons.

It is known from practice that the optimal muzzle energy of a shot from a traumatic short-barreled civilian weapon is in the range from 26 J (cartridge for a 9 mm self-defense pistol Makarych, Izhevsk) to 85 J (cartridge for the Osa self-defense complex, diameter bullets 15 mm, Sergiev Posad), while the specific muzzle kinetic energy does not exceed 0.5 J / mm ² . Thus, it is necessary and sufficient to provide the indicated values of the energy parameters. It is also known from practice that cartridges for self-loading pistols (revolvers) are characterized by a length, the maximum value of which, as a rule, is not more than 42 mm (for example, ammunition. 44 Smith & Wesson Special) and a caliber (bullet diameter), usually not exceeding 13 mm (in particular cartridge .50 Remington, M.71 Army). The internal volume of the sleeve, which actually determines the energy intensity of the cartridge, is associated with both parameters.

In turn, from theory and practice it is known that for ballistic similar systems the weights of the missile equipment, the weight of the propellant charges, the volumes of the charging chambers are referred to as cubes of calibers (in our case, the volumes of the inner cavity of the sleeve and the missile equipment, i.e. the total volume of bullets ) Thus, the ratio of the volume of the missile equipment to the volume of the inner cavity of the sleeve is a stable indicator that characterizes not only the overall, but also the energy properties of the cartridge.

According to experimental data, if the ratio of the volume of the shell cavity to the total volume of two bullets (average density up to 2 g / cm ³ ) is less than 1.15, then the volume of the charging chamber does not allow placing the amount of powder sufficient to obtain the optimal energy of the shot. In addition, there may be cases of stuck missile equipment in the bore. If the indicator in question is more than 2.45, a low charge density leads to the non-optimal use of the powder charge (decrease in pressure of powder gases, combustibility of powder, decrease

the initial speed of propelled equipment and an increase in the dispersion of these speeds). In addition, the dimensions of the cartridge (even the caliber of 9 ÷ 10 mm) become unacceptable for use in short-barreled weapons, in particular the length of the sleeve reaches 42 mm.

The materials traditionally used at present (for example, rubber), being porous and therefore having a low density, are easily compressed during the installation of a cartridge. The density may increase to 1.6 ÷ 2.0 g / cm ³ . The use of any materials with a density of more than 2.0 g / cm ³ does not seem advisable due to an increase in the lateral load of the bullet with a regulatory restriction of muzzle energy (0.5 J / mm ² ). Thus, a positive effect occurs due to the elasticity, low density and high elasticity of the material of the missile equipment. If the loading density exceeds the bulk density of the powder, the bullets are deformed, which can significantly minimize the internal cavity of the sleeve and have a smaller dependence of the maximum pressure of the powder gases on the volume of the charging chamber, i.e. self-regulation of loading parameters occurs. It agrees with the theory of ballistics and experimentally confirms that in cases where the volume of the cavity is large enough, it is advisable to use the lower gula as a wad, compacting the powder charge with it. It is preferable that the other bullet occupy its highest position (i.e., not buried in the sleeve) in order to prevent foreign particles (for example, dirt or specks) from entering the sleeve cavity. In this case, a gap is formed between the bullets, which does not have any negative effect on the ballistic parameters of the device. An alternative or auxiliary solution to the indicated problem of optimization and stabilization of ballistic parameters (in the presence of an excess volume in the sleeve) is the use of gaskets (gaskets) under and / or between bullets. They fix the exact position of the bullets, and, consequently, the scatter of various physical and geometric quantities, thereby stabilizing the parameters of the shot.

A positive effect on the accuracy of fire has a decrease in the cross-sectional area of the lower bullet in order to ensure the breakthrough of powder gases on its periphery when moving inside the weapon. With this technical solution, gases penetrate into the space between the missile elements, reducing their interaction during firing. Since the bullets are arranged in series, the difference in their initial speeds will objectively exist. In view of this, it is possible to level out the specific kinetic energy of the damaging elements necessary to affect the target by balancing ballistic coefficients, which, in turn, depend on the mass, initial velocity of the bullets and their shape, in particular the cross section. The values of the coefficients are assigned depending on the range of characteristic ranges at which it is required to level the specific kinetic energy.

The preferred form of a light elastic bullet, designed for use in civilian self-defense weapons, is a ball that does not require stabilization in flight.

However, due to the fact that the density of the material is not high (up to 2 g / cm ³ ), in small calibers (9 ÷ 13 mm) characteristic of short-barreled hand guns, in self-loading pistols, due to the low energy of the cartridge, the problem of ensuring normal automation, In the prior art to solve this problem apply a reduction in the diameter of the channel, which, in turn, reduces the efficiency of the shot. The use of two missile elements can reduce the resistance to the movement of each bullet by almost half while maintaining the conditions of forcing and recoil energy.

The design of the cartridge is presented in the figure, where:

1 - sleeve

2 - igniter capsule.

3 - propellant charge.

4 - missile equipment (two sequentially located bullets).

In the bottom of the sleeve (1) there is an igniter capsule (2), and in its cavity there is a propellant charge (3) and missile equipment in the form of two sequentially located bullets (4). Bullets (4), mainly spherical in shape, at least partially made of an elastic material, for example rubber, have an average density of up to 2 g / cm ³ .

In special cases, the charge (3) can be pressed (with the lower bullet and / or punch when mounting the cartridge), the bullets (4) are placed in the sleeve with a gap, can have different mass and / or volume, and / or cross-sectional area. Additionally, the cartridge may have gaskets between the propelling charge (3) and the missile equipment (4) and / or between the bullets.

In all cases, the ratio of the internal volume of the sleeve (1), designed to accommodate the propellant charge and the missile equipment, to the volume of two striking elements (4) is 1.15 ÷ 2.45. The elasticity of the bullet material (4) during their installation in the sleeve (1) partially compensates for the possible lack of volume of the charging chamber (sleeve cavity).

When fired, the igniter capsule (2) initiates a propellant charge (3). The increasing pressure of the powder gases compresses the missile equipment (4). In this case, the shape of the bullets (mainly a ball) and their physical properties make it possible to partially stabilize the initial conditions of the combustion of gunpowder (3), since the nature of the increase in the “projectile space” depends, among other things, on the density, elastic properties of the material and the form of execution of the missile equipment ( 4). Upon reaching the force pressure, the bullets (4) leave the cavity of the sleeve (1). Mutual deformation of the missile elements (4) is reduced when there is a gasket between them. If the cartridge design provides for a smaller cross-sectional area of the second bullet, the value of which allows breakthrough of powder gases along its periphery, the contact force of the elements is reduced. IN

in this case, the leading bullet is partially or completely carried out by powder gases, which positively affects the accuracy and accuracy of fire. After the missile equipment (4) leaves the weapon and the aftereffect of the powder gases ends, the specific energy of the striking elements can (to a certain extent and at some characteristic distance) be equalized by selecting the difference in the ballistic coefficients of the bullets (in fact, mass, volume, shape, cross-sectional area sections).

Sources of information

1. Description of the invention to copyright certificate 328319, published 02.02.72 (date of publication 23.03.72), Bulletin No. 6.

2. Traumatic cartridge revolver, assembly drawing 9TP.000-01SB, Novosibirsk cartridge factory.

Claims (7)

1. A small arms cartridge containing a sleeve with a capsule and a propelling charge, missile equipment with an average specific gravity of not more than 2 g / cm ³ , fully or partially made of elastic material, for example rubber, characterized in that the missile equipment consists of two damaging elements , in particular round bullets arranged in series, and the ratio of the internal volume of the sleeve, designed to accommodate the propellant charge and the missile equipment, to the volume of two striking elements is 1.15-2.45. 2. The cartridge according to claim 1, characterized in that the propelling charge is made prepressed. 3. The cartridge according to claim 1, characterized in that the striking elements do not touch each other. 4. The cartridge according to claim 1, characterized in that the striking elements have a different mass and / or volume and / or cross-sectional area. 5. The cartridge of claim 4, characterized in that the volume and / or cross-sectional area of the front striking element is greater than the corresponding parameter of the second striking element. 6. The cartridge according to any one of claims 1 to 4, characterized in that the bullets are separated from the powder charge by the gasket. 7. The cartridge according to any one of claims 1 to 4, characterized in that the bullets are separated from each other by a gasket.