RU2372580C1 - Small arms cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed cartridge comprises cartridge case with primer, propellant charge and bullet consisting of lead core and jacket. Bore is made along the lead core axis, on its tail part, bore diametre making 12.0% to 28.0% of caliber and depth exceeding 1.0 of bullet caliber. Note that bore extends to jacket front part.

EFFECT: reduced probability of rehitting by rebounding bullet fragments.

2 cl, 1 dwg

Description

The invention relates to the field of small arms ammunition intended for use by law enforcement agencies in various conditions, including in the conditions of settlements of limited space. The invention is aimed at reducing the likelihood of secondary damage from ricochet fragments of bullets.

Known 9-mm pistol cartridge with a bullet with a steel core, index 57-N-181C (drawing No. 4-27147, holder of the original documents in military unit 64176), the bullet of which consists of a bimetallic shell, lead shirt and steel core. The bullet has a high penetration ability, but has a high rebound ability. When a bullet encounters a solid barrier at various angles, the bullet is divided into fragments of a shell, a lead shirt, and a steel core, which is deformed, but does not lose its integrity and is reflected from the obstacle in different directions. When ricochetting, penetration of a sheet of five-layer plywood (which is the equivalent of demi-season clothing in strength) installed at a distance of 3 m from the obstacle occurs with each shot, which is a disadvantage of the known bullet.

The prototype of the invention is a 5.45 mm cartridge with a bullet with a lead core PRS - low rebound ability (drawing IZHMV 771811.005, the holder of the original documents - closed joint-stock company "Barnaul cartridge factory"). See RF patent No. 225508 "Bullet cartridge small arms." The bullet of the known prototype cartridge consists of a bimetallic shell and a lead core. An annular ledge is made on the inner surface of the head of the shell, restricting the movement of the lead core in the shell. The wall thickness in the place of the ledge is made from 30 to 65% of the wall thickness before the formation of the ledge. In general, the bullet has good indicators of accuracy of fire and fragmentation of the shell when meeting with solid obstacles at different angles, but low indicators of fragmentation of the lead core.

The ledge on the inner surface of the shell is a stress concentrator. Upon impact on the barrier, the shell nose is torn off with the formation of a torn edge thereof, which with further movement of the lead core contributes to the separation of the shell into a large number of longitudinal fragments.

The core of a bullet is a solid body without concentrators breaking it into parts. When the bullet core meets a solid barrier, the core is destroyed with the formation of parts having an uneven mass. When reflected from an obstacle, the largest fragments of the core retain high speed and energy. Those. in this bullet design, the issue of fragmentation of the lead core when meeting with an obstacle is not resolved, which is a disadvantage of the known construction.

The problem to which the present invention is directed, is the creation of a bullet having a reduced rebound ability compared with the prototype.

The technical problem posed by the invention is achieved in that a hole with a diameter of 12.0 ... 28.0% caliber and a depth of 1.0 caliber bullets and more to the inner surface of the head of the shell is made along the axis of the lead core from the side of the tail.

The hole is made in the form of a truncated cone or a truncated pyramid with three, four, five or more faces.

The novelty of the proposed technical solution is the execution along the axis of the lead core from the side of the tail of the hole with a diameter of 12.0 ... 28.0% caliber and a depth of 1.0 caliber bullets or more to the inner surface of the head of the shell.

These signs are established experimentally, in our opinion, are new, non-obvious, industrially feasible and aimed at achieving the objectives of the invention to obtain a bullet with reduced rebound ability, in particular to obtain small fragments of a lead core that have low energy and destructive ability after encountering solid obstacles .

Thus, the execution of a longitudinal hole with a diameter from 12.0 to 28.0% of the caliber from the tail end in the center axis of the lead core significantly reduces its strength and allows the bullet to fragment (divide) the core into smaller parts when it encounters an obstacle, which, when meeting with an obstacle and being reflected from it, they quickly lose speed and energy.

The signs of a longitudinal hole along the axis of the core in the form of a truncated cone or a truncated pyramid with three, four, five or more faces are additional signs that contribute to the achievement of the objectives of the invention.

The drawing schematically shows the proposed cartridge small arms.

The cartridge contains an encapsulated sleeve 1 with a propelling charge 2 and a bullet 3 containing a lead core 4 with a longitudinal hole made in it, for example, in the form of a truncated cone 5 and the shell 6.

After the core 4 is pressed into the shell 6 and the geometry of the bullet is formed, the hole 5 in the core 4 is pierced along the axis of the core and the bullet with a punch with a diameter of 12.0 to 28.0% caliber. The piercing of the hole in the lead core additionally provides a denser installation of the bullet in comparison with the usual pressing of the core, since the piercing punch has an effect from the inside of the core 4, and all available gaps between the outer surface of the core 4 and the inner surface of the sheath 6 are selected. This leads to an improvement in accuracy firing, which is one of the main characteristics of the cartridge.

The proposed cartridge small arms works as follows:

- when a bullet 3 hits a solid barrier, its head deforms initially, then under high pressure created by the lead, the shell is divided into several fragments,

- the freed core, in contact with the barrier and shell fragments, opens due to the longitudinal hole and breaks up into fragments of at least half the mass, compared with a bullet that does not have a longitudinal hole in the core,

- core fragments, reflected from an obstacle, quickly lose speed and energy.

When firing the proposed cartridges at a solid obstacle at various angles to the normal, a significant increase in the number of core fragments having, correspondingly, less mass and energy, was obtained, unlike combat and sporting and hunting cartridges with shell bullets.

The introduction of the operation of forming holes in the core does not require significant additional material costs and allows the use of existing technological equipment.

The experiments established that the diameter of the longitudinal hole in the core, equal to from 12.0 to 28.0% of the caliber of the core, retains the optimal characteristics of the cartridge and provides a significant reduction in the effect of rebounding.

With a longitudinal hole diameter of less than 12% of the core diameter, its design is not technologically advanced due to the weakness of the firmware punch. With a longitudinal hole diameter of more than 28% of the core diameter, a significant shift in the center of gravity of the bullet occurs and, as a result, the accuracy of firing is worsened - one of the main characteristics of the cartridge.

Currently, the Barnaul cartridge plant developed drawings of the proposed cartridge. Research work has been carried out, pilot batches of cartridges of the proposed design have been manufactured and tested, which confirm the prospects and effectiveness of their use. It was decided to organize the production of the proposed cartridges.

Claims (2)

1. A small arms cartridge containing an encapsulated sleeve with a propelling charge and a bullet consisting of a lead core and a shell, characterized in that a hole with a diameter of 12.0-28.0% caliber and a depth of more than 1 is made along the axis of the lead core from the side of the tail .0 caliber bullet and to the inner surface of the head of the shell. 2. The cartridge according to claim 1, characterized in that the hole is made in the form of a truncated cone or a truncated pyramid with at least three faces.