RU199081U1 - BULLETS OF THE SNIPER CARTRIDGE - Google Patents

Abstract

The utility model relates to the field of production of ammunition intended for shooting from smooth-bore or rifled weapons, as well as for sniper shooting, including at ultra-long distances, where a bullet is used as a striking element. weapons, especially when shooting at ultra-long distances. The technical result of the utility model is to increase the stability of the trajectory of the bullet by creating an additional gyroscopic effect. The task is achieved by the fact that the bullet of the cartridge for sniper shooting, which has an internal cavity and a hole in its bottom, in the internal the bullet cavity contains an inner rotating part, fixed on two spherical supports located along the axis of symmetry of the bullet, symmetrically tangentially to the outer surface of the inner rotating part there are 2 ... 4 rotational charges, and in the bottom of the bullet there are 2 ... 4 through holes symmetrically located relative to the bullet axis.

Description

The utility model relates to the field of production of ammunition intended for firing from smooth-bore or rifled weapons, as well as for sniper shooting, including at ultra-long distances, where a bullet is used as a striking element.

Known cartridge for smooth-bore or rifled weapons, consisting of a sleeve, a primer-igniter, a propellant charge and a striking element (bullet), while the charging chamber is located in the body of the striking element. The outer surface of the striking element contains a stress concentrator in the form of an annular groove located closer to its aft part, where a protective screen made in the form of a cartridge case is put on, with the possibility of overlapping this groove. The protective screen can have a different design solution [Ukrainian patent No. 45270, F42B 5/02, C2, 15.03.2002].

The main disadvantage of the described design is the irrational use of the mass of the striking element, since the bottom part of the element always remains after the shot and is not used to hit the target.

Known cartridge with a reactive bullet [RU No. 2150074, F42B 5/10, C1, 25.03.1999], which is a cartridge with a reactive bullet containing a sleeve, with a primer and a bullet installed in it, in the cavity of which the main part of the propelling charge. The peculiarity of the cartridge is that the sleeve is made with a shorter length, and the bullet, respectively, with a length greater than the standard dimensions of the sleeve and bullet of the classic cartridge, which allows you to place the required amount of propellant charge. In this case, the total length of the cartridge remains without increasing its dimensions in relation to the classical samples of the same type.

The main disadvantage of the described design is the low efficiency of the shot and the absence of obturation in the area of the sleeve during the shot, since after the bullet is separated from the sleeve, a gap is formed between the walls of the sleeve and the chamber, and just at the moment when the pressure of the powder gases reaches its maximum.

Closest to the claimed utility model is a bullet having an internal cavity and a hole in its bottom [RU No. 2372581, F42B 5/10 (2009.11), F42B 5/067 (2009.11), 11/26/2008] - a prototype. The bullet is placed in a cartridge with a primer, a propellant charge is placed in the inner cavity of the bullet, the hole in the bullet is made in the form of a nozzle. The bullet is made with a length of 0.6-0.8 cartridge length, and the propellant charge consists of at least two parts made of components with different burning rates and completely placed in the bullet cavity with the possibility of their sequential ignition and combustion from slowly burning components to rapidly burning components, while the bullet is mounted in the sleeve with an interference fit of 0.003-0.01 bullet caliber. The said gap is 0.05-0.4 caliber. The cavity in the pool is made of parabolic or conoidal shape, or in the form of a truncated cone. The nozzle is made in the form of a calibrated hole with a diameter of 0.5-0.8 bullet caliber. The front wall of the bullet cavity is made flat, or with a depression, or with a protrusion. Parts of the propellant charge with a horizontal arrangement of the cartridge are separated among themselves along the vertical plane by easily combustible partitions.

The disadvantage of the prototype is a decrease in the accuracy of fire, since even a small deviation of the direction of the reactive force from the axis of the bullet, depending on the natural error of its manufacture and external conditions, causes a deviation of the trajectory of the bullet.

The objective of the proposed utility model is to increase the accuracy and accuracy of the weapon's combat, especially when firing at ultra-long distances.

The technical result of the utility model is to increase the stability of the bullet's flight path by creating an additional gyroscopic effect.

The task is achieved by the fact that the bullet of the cartridge for sniper shooting, which has an internal cavity and a hole in its bottom, an internal rotating part is located in the internal cavity of the bullet, fixed on two spherical supports located along the axis of symmetry of the bullet, symmetrically tangentially to the outer surface of the inner the rotating part contains 2 ... 4 rotational charges, and in the bottom of the bullet 2 ... 4 through holes are made, symmetrically located relative to the bullet axis.

Since an internal rotating part is located in the inner cavity of the bullet, fixed on two spherical supports located along the axis of symmetry of the bullet, and 2 ... 4 rotational charges are located symmetrically along the tangent to the outer surface of the inner rotating part, then when rotational charges burn, the inner rotating part of the bullet receives rotation at high speed, which creates an additional gyroscopic effect and stabilizes the trajectory of the bullet. This provides a solution to the task at hand, increasing the accuracy and accuracy of weapon combat, especially when shooting at ultra-long distances. Several holes in the bottom of the bullet ensure the ignition of rotational charges from the main powder charge of the cartridge when fired and for the outflow of powder gases formed in the bullet cavity.

The utility model is illustrated by a drawing - Fig., Which shows a bullet of a cartridge for sniper shooting in section.

The drawing uses the following designations: 1 - outer shell, 2 - support pins, 3 - inner rotating part, 4 - rotational charges, 5 - bottom part, 6 - through holes, 7 - support plates.

The bullet of the cartridge for sniper shooting consists of an outer shell 1, an inner rotating part 3, located in the inner cavity of the outer shell 1 and fixed on two spherical supports located along the axis of symmetry of the bullet. The spherical supports consist of support pins 2 having a spherical head and support plates 7 having a spherical cavity mating with the spherical head of the pins 2. Symmetrically tangentially to the outer surface of the inner rotating part 3 there are 2 ... 4 rotational charges 4. In the bottom part 5 there are 2 ... 4 through holes 6, symmetrically located relative to the bullet axis.

The outer shell 1 can be made, for example, of structural mild steel by stamping from sheet metal; the inner rotating part 3 can be made, for example, of lead, tungsten or depleted uranium; two support pins 2 and support plates 7 can be made, for example, from special grades of tool steel. To ensure stable rotation on the surface of the spherical bearings 2, a solid high-temperature lubricant is applied, for example, based on molybdenum disulfide.

The proposed bullet cartridge for sniper shooting works as follows. In the process of firing the force of fire from the capsule through the ignition hole of the sleeve (not shown) and through holes 6 in the bottom part 5 of the bullet enters the inner cavity of the outer shell 1 and ignites rotational charges 4. As a result of the ongoing progressive decomposition of rotational charges 4, the energy of gaseous compressed products combustion increases, which leads to an accelerating rotational movement of the inner rotating part 3 on the support pins 2 in the support plates 7. In this case, gaseous compressed combustion products flow out at high speed through the through holes 6 made in the bottom part 5. Rotation of the inner rotating part 3 creates additional gyroscopic effect and stabilizes the trajectory of the bullet. This provides a solution to the task of increasing the accuracy and accuracy of weapon combat, especially when firing at ultra-long distances.

As a rule, when fired, the average time a bullet is in the barrel of a small arms is 0, 001 ... 0.0015 (sec). Therefore, the flammable rotational charges 4 are covered on the outside with highly combustible protective coatings, for example, based on nitrocellulose varnish, the thickness of which is selected in such a way that the ignition of rotational charges 4 occurs after 0.0007 ... 0.0009 (sec) from the start of the shot, that is, when the bullet located at the muzzle of the rifle barrel - just before its exit from the barrel. Additionally, when rotational charges 4 are ignited under the pressure of combustion products arising in the inner cavity of the bullet, its outer shell 1 expands and presses tightly against the inner surface of the barrel bore, copying its configuration, and also due to the pressure of combustion products inside the sleeve, the walls of the latter are reliably pressed against the surface of the chamber, which ensures reliable obturation during the shot and the safety of using the cartridge in all operating conditions of small arms.

As an example, consider the proposed design of a bullet cartridge for sniper shooting from a Dragunov sniper rifle (SVD). SVD has a caliber of 7.62 (mm), barrel length 620 (mm), rifling pitch 240 (mm); the initial frequency of rotation of the bullet is 3458 s ^-1 , the initial velocity of the bullet is 830 (m / s), the mass of the bullet is 9.6 (g) - (when using a cartridge of the 7.62 PS (7N1) type); the mass of the powder charge is 3.1 (g), the mass of the cartridge is 21.8 (g), the range of the bullet, up to which its lethal effect is maintained, is 3800 (m).

On the basis of elementary calculations, it can be established that when using the inner rotating part 3 of a cylindrical shape with a diameter of 4 (mm) and a height of 36 (mm) made of lead (density 11.3 g / cm ³ ) weighing 4.8 (g) and when selecting a mass four rotational charges 4, for example, based on pyroxylin powder, each weighing 0.1 ... 0.15 (g), the inner rotating part 3 is driven into rotation with a frequency of 3200 s ^-1 , i.e. close to the speed of the bullet. Thus, the rotation of the inner rotating part of the bullet significantly increases the gyroscopic effect and increases the stability of the bullet's flight path, improving the required ballistic characteristics of the flight. As a result of this, the accuracy and accuracy of the weapon is significantly increased, which makes it possible to use the proposed design of the bullet cartridge for sniper shooting at ultra-long distances. In addition, the presence of an internal rotating part contributes to an increase in the damaging factors of the weapon in general.

Claims (1)

A bullet of a cartridge for sniper shooting, having an internal cavity and a hole in its bottom, characterized in that an internal rotating part is located in the internal cavity of the bullet, fixed on two spherical supports located along the axis of symmetry of the bullet, symmetrically tangentially to the outer surface of the internal rotating part 2 ... 4 rotational charges are located, and 2 ... 4 through holes are made in the bottom of the bullet, symmetrically located relative to the bullet axis.

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