RU2224211C2 - Bullet with container - Google Patents

Abstract

FIELD: ammunition, in particular, the design of a bullet provided with a container of quick-burning material. SUBSTANCE: the container inside diameter corresponds to the bullet caliber, and its outside diameter corresponds to the bullet of a larger diameter. EFFECT: provided a repeated use of already once shot bullet. 8 cl, 2 dwg

Description

 The invention relates to ammunition, namely bullets equipped with a combustible container when fired.

 The prior art is the use of sub-caliber shells. In a standard sleeve 30-06 springfield of caliber 7.62, a soft bullet of caliber 5.6 is placed in a plastic cup of caliber 7.62. After the shot, the glass detaches, and the bullet continues flying (Master Gun magazine, 1998, 26, pp. 23-26). The known design of high-speed ammunition does not provide for the reuse of a single bullet.

 Closest to the proposed one is a bullet placed in a container whose inner diameter corresponds to the caliber of the bullet, while the container is made of solid quick-burning material (US 2423453, 08/08/1947). The disadvantage of this bullet is the ability to identify the weapon from which it was shot.

 The objective of the invention is to increase the country's defense capability and solve external state problem situations in delicate cases in which there is a need for unidentifiable weapons from which the bullet was fired, by making it possible to reuse a shot already fired once without damaging its rifling left by the first shot, or by providing the ability to preserve the surface of the bullet without traces of rifling.

 In addition, with good preservation of the used bullet, fairly accurate shooting at certain distances is available, comparable to shooting from standard (sniper) weapons of medium accuracy. The latter is possible only with good selection, balancing and geometry of the used bullets.

 The essence of the invention lies in the fact that the bullet is placed in a container made of solid quick-burning material, the inner diameter of which corresponds to the caliber of the bullet, and the outer diameter corresponds to a larger caliber bullet, while the bullet is placed in the container by pouring or the bullet that has already been shot once is placed in the container .

 A bullet can be poured into a solid, quick-burning material forming a container, possibly reinforced with cellulose fibers.

 The bullet container may be made in the form of a glass formed of at least two parts. All parts of the container can be made identical (having equal area and volume).

 The part of the container corresponding to the bow of the bullet may be narrowed.

 An expansive cavity is formed at the end of the narrowed part of the container, in which a hole can be made. In this case, at least one stop is formed on the inside of the container, configured to prevent the bullet from falling out of the container opening. In the case of several stops, they can be placed at the same distance from one another.

 In this embodiment, the container is made of magnesium or an alloy, which includes magnesium.

 The invention is illustrated by drawings, where in Fig.1 shows a bullet in a container (General view with a partial section); figure 2 is a section aa in figure 1.

 Bullet 1 is placed in a container 2 made of quick-burning material (nitrocellulose or a composite material consisting of gunpowder and polymer), while the inner diameter d of the container corresponds to the caliber of bullet 1, and its outer diameter D is made corresponding to a larger caliber pool (Fig. 1) .

 The bullet container according to one of the variants of the invention is made in the form of a glass, consisting of at least two halves 3 (figure 2), but may have several identical (equal in area) or not identical parts.

 The part of the container corresponding to the bow of the bullet is narrowed, and an expansive cavity having a through hole 5 exposing the bow of the bullet 1 can be formed at its end. In this embodiment, stops are provided to prevent the bullet from falling out of the container’s opening on the inside (protrusions) ) 6, which are spaced from each other at the same distance (figure 2).

 According to the first embodiment of the invention, the container into which the bullet is poured corresponds to a larger caliber, for example 7.62, and the bullet corresponds to a smaller caliber - 5.45 (automatic bullet (5.45 • 39)) and is equipped with a cartridge (7.62 • 39 ); (7.62 • 51); (7.62 • 54R) or any other, and a 7.62-caliber bullet fired from a 7.62 • 39 or 7.62 • 54R cartridge is placed in a container corresponding, for example, to a 9 mm caliber, which is equipped with cartridge 9 • 54R.

 When fired, a bullet with a container behaves as a whole, and the usual process of firing occurs, when you leave the barrel in flight, the container burns out, and the bullet hits the target. To prove that this bullet was used a second time is extremely difficult. In addition, it is difficult to determine which weapon the second shot was fired from. With good alignment of the bullet and correct alignment of the bullet in the container, good ballistic characteristics of the bullet are achieved, lying in the range between the characteristics of the original cartridge from which the bullet is released, and a cartridge of a larger caliber, in which it is loaded instead of a standard bullet. If there is a composition for the container (the development of which is necessary in a rather large laboratory), the production of such bullets in a container can be arranged in any fairly small laboratory with equipment for casting reinforced plastics, in rather large quantities in a short time.

 According to the second embodiment of the invention, the already shot bullet is once placed in a container corresponding to the caliber of the bullet in inner diameter, and to the larger caliber in outer diameter. The shape of the container is a glass divided along the central centerline into 2 or more symmetric or asymmetric parts. From the bottom of the bullet’s bottom is the bottom of the glass, which transfers the pressure of the powder gases at the bottom of the bullet and the container wall and prevents the bullet from wedging the container in the barrel of the weapon. The protrusion in the front of the container ensures that the bullet does not fall out of the container when the structure is equipped with a cartridge.

 On the front side of the container, a narrowing was made for better entry into the rifling and the reliability of automatic reloading of weapons.

 When fired in a barrel bore, a bullet with a container behaves like an ordinary bullet, and the normal process of firing takes place. When leaving the proposed design of the bullet channel of the barrel of the weapon, the container disintegrates and separates it from the bullet. This process occurs due to centrifugal force and air pressure on the nasal cavity of the container. The bullet continues its flight, and the container elements heated in the surface layers (bottom due to powder gases and walls due to friction against the inner surface of the barrel), due to their lightness and high aerodynamic drag, quickly lose speed and fall, after which they burn out without leaving evidence that the bullet is reused. For the manufacture of a container according to this variant of the bullet, only a medium-precision lathe is needed, measuring devices present in almost every mechanical workshop, as well as a bar of magnesium not less than 1 mm larger than the diameter of the caliber of the container. Compared to the first version of the design, shooting at a target with such a bullet can be conducted from at least 2-3 meters.

Claims (8)

1. A bullet placed in a container whose inner diameter corresponds to the caliber of the bullet, wherein the container is made of solid quick-burning material, characterized in that the outer diameter of the container corresponds to a larger caliber bullet, and the bullet is placed in the container by filling or one shot is already placed in the container times a bullet. 2. The bullet according to claim 1, characterized in that the container is molded from a material reinforced with cellulose fiber. 3. The bullet according to claim 1, characterized in that the container is made in the form of a glass formed of at least two predominantly identical parts. 4. The bullet according to any one of claims 1 to 3, characterized in that the part of the container corresponding to the bow of the bullet is made narrowed. 5. The bullet according to claim 4, characterized in that the narrowed part of the container at the end is configured to form an expansive cavity with an opening. 6. The bullet according to claim 5, characterized in that at least one emphasis is made on the inside of the container with the possibility of preventing the bullet from falling out of the opening of the container. 7. The bullet according to claim 6, characterized in that on the inside of the container there are several stops placed at the same distance from one another. 8. The bullet according to any one of claims 1 to 7, characterized in that the container is made of magnesium or an alloy, which includes magnesium.

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