RU2377492C2 - Underwater cartridge with increased stop effect bullet - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to ammunition for small arms. Proposed cartridge comprises cartridge case, percussion cap, propellant powder charge and bullet with body, head and cavitation generator. Bullet head part represents a lead-filled shell with ballistic truncated-cone tip, cavitation generator being arranged on said ballistic tip. Note that bullet head part length makes (5.5 to 6.5)d, diametre of said cavitation generator makes (0.27 to 0.35)d, taper angle of ballistic tip makes (7 to 10)°, diametre of ballistic tip junction with shell makes (0.4 to 0.6)d, and radius of shell outer surface generatrix makes (7 to 12)d, where d is bullet body diametre.

EFFECT: higher bullet stop effect in underwater fire.

2 cl, 4 dwg

Description

The proposed object of the invention relates to the field of cartridges used for firing under water from a firearm.

Known 5.66-mm cartridge MPS (patent RU 2122176 C1), which contains a sleeve with a primer, a powder charge and a bullet having a head part, a guide part and a tail part. This cartridge is selected as a prototype.

A characteristic feature of the design of the bullet of the cartridge of the MPS, in addition to its large relative length (21.24 d, where d is the caliber of the bullet equal to 5.66 mm), is the presence in the head part (tip of the bullet) of a flat cut (cavitator), the diameter of which is 0, 34d. The length of the warhead (5.17d) and its shape (truncated cone) are made in accordance with the condition of ensuring fit into the boundaries of the cavitation cavity formed when elongated bodies (bullets) move in water at high speeds.

The bullet is singleton, nonexpansive, that is, its design does not provide for deformation or destruction when meeting with the target (biological tissues).

The disadvantage of using MPS cartridges, from the point of view of wound ballistics, is the insufficiently high degree of impact of a bullet on vital organs. The low velocity of the bullet (V ₀ = 360 m / s) and its large relative length contribute to the formation of a temporary pulsating cavity of small cross section in the body of the obstacle.

Also known (Russia) are hunting cartridges of 5.45 × 39; 5.6 × 39; 7.62 × 39; 7.62 × 51 etc. with semi-shell, expansive bullets, as well as 5.45 × 39 combat machine gun cartridges with a hollow in the head of bullets that, when they meet an obstacle (biological tissues), are deformed or lose their stability of movement (deviate from the normal), thereby increasing the projection area of the bullet , and, accordingly, the degree of gunshot damage. However, all these cartridges are intended only for shooting on land, that is, in the air and are absolutely unacceptable for shooting under water.

The aim of the present invention is to develop the design of the cartridge, the bullet of which would have an increased stopping effect when firing under water.

This goal is achieved due to the fact that in the underwater cartridge (figure 1) containing a sleeve 2, an igniter 4, propellant powder charge 3 and a bullet 1 with a housing and a head part. The bullet head part (FIG. 2) is made in the form of a shell 7 filled with lead 8 with a ballistic tip 5 in the form of a truncated cone. The cavitator 10 is made on a ballistic tip.

For the correct functioning of the bullet on the trajectory with its relative length l _П = 21,24d, the length of the bullet head is (5.5-6.5) d, where d is the diameter of the bullet body.

The ballistic tip is made in the form of a truncated cone, the diameter of the front flat cut (cavitator) of which corresponds to the expression

d _n = (0.27 ... 0.35) d, and the mating diameter of the rear of the ballistic tip with the front of the shirt

d _c = (0.4 ... 0.6) d.

The angle of the truncated cone of the ballistic tip is 7 ... 10 °.

The outer shape of the shell (figure 2) is formed by the rotation of an arc of a circle. The radius of the generatrix of the outer surface of the shell is (7-12) d.

The diameter of the shell base (the interface between the shell and the guiding part of the bullet) is equal to the diameter (caliber) of the bullet, that is, the diameter of its leading part.

Alternatively, to ensure the reliability of the "disclosure" of the bullet head (weakening the strength of the front of the shell), it (shell) 7 (Fig. 2) can have longitudinal both external (internal) not through and through cuts (notches) 9 ( figure 3) for a length l _n = (0.3 ... 1.0) d in an amount of three or more pieces.

At the moment a bullet exits the barrel (when fired in an aqueous medium), a flat cut (cavitator) in the head of the ballistic tip interacts with an incoming fluid flow, contributing to a change in the shape of the lines of the flow and the subsequent formation of a cavitation cavity (cavity) - Fig. 4. The dimensions of the cavity in the initial section of the trajectory are such that it completely covers the entire bullet. In turn, when moving along the trajectory, the tail of the bullet, interacting with the internal boundaries of the cavitation cavity, makes oscillatory movements in it. It is very important to choose the shape and dimensions of the individual elements of the head part, firstly, so that there is no washing out of the nose of the bullet and, secondly, so that the outer surface of the shell of the bow of the bullet does not come into contact with the inner surface of the cavity, especially when maximum deviation of the longitudinal axis of the bullet from the longitudinal axis of the cavity.

When meeting with an obstacle (biological tissues), the ballistic tip acts on the lead, pressing inward, where significant radial pressure is created, opening the shell, thereby increasing the cross section of the bullet. The effect of rupture of the membrane contributes to the application of a severe wound.

The test results showed that when firing underwater at a ballistic plasticine from a 5.66 mm APS automatic machine gun with cartridges of the proposed design (standard ammunition cartridges were fired for refinement) there was an increase in the diameter of the cross section of the cavity by more than 5 times. An increase in the damaging effect of such a bullet was also facilitated by the fact that when the head part is destroyed, the ballistic tip (made of steel and hardened by high-frequency currents) also acts as an additional damaging element, since it is displaced from the longitudinal axis to the side and causes additional damage.

Claims (2)

1. An underwater cartridge containing a sleeve, an igniter capsule, propellant powder charge and a bullet with a body, a head part and a cavitator, characterized in that the bullet head is made in the form of a lead-filled shell with a ballistic tip in the form of a truncated cone, the cavitator is made on ballistic tip, while the length of the bullet head is (5.5-6.5) d, the diameter of the ballistic tip cavitator is (0.27-0.35) d, the angle of the truncated ballistic tip cone is (7-10) °, the diameter ballistic pairing akonechnika sheath - (0,4-0,6) d, the radius of the generatrix of the external surface of the shell - (7-12) d, where d - diameter of the bullet body. 2. The cartridge according to claim 1, characterized in that at least three longitudinal through or not through cuts of a length (0.3-1.0) d are made on the front of the shell.

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