RU2305251C2 - Bullet of small arms cartridge - Google Patents

Abstract

FIELD: ammunition, applicable for use by the organs of law and order in a close combat in the conditions of settlements and/or restricted closed space.

SUBSTANCE: the bullet is made with a dulling near the spout, cylindrical guide part and nose uniformly expanding from the dulling near the spout to the cylindrical guide part. The bullet has a metal core and an external metal envelope closed an the side of the spout and open from the rear end face. The metal core is located in the metal envelope with a stop of its front end face at the hose of the metal envelope on it's the side of its inner surface, as well as with a conjugation of its lateral surface with the inner surface of the metal envelope of the cylindrical guide part of the bullet and formation of a space equal to 30 to 85 per cent of the inner space of the bullet nose in the bullet nose between it and the inner surface of the metal envelope.

EFFECT: enhanced accuracy of fire, reduced ricochet and probability of weapon jamming in the process of fire.

9 cl, 5 dwg

Description

The invention relates to ammunition for small arms, in particular to high-precision bullets, mainly of 9 mm caliber, for use by law enforcement in close combat in populated areas and / or limited confined spaces when firing pistols, in particular for PM and PMM, GSh- 18, as well as for submachine guns "Cedar", "Cypress", "Stechkina".

Known pistol bullet according to the patent of the Russian Federation No. 2133440, MKI 6 F42B 12/04, 07/20/99, three-element bullet contains a shell in which is placed a steel core in a lead shirt. The shell of the bullet in the region of the apex is made with thinning, and the steel core has a droplet shape. This bullet has increased armor penetration, however, the use of this bullet when shooting in a limited space causes a danger to others due to the likely rebound of this bullet when interacting with obstacles in a confined space. The presence of a rebound in this bullet is due to the shape of both the head of the bullet itself and the droplet-shaped shape of the steel core of the bullet. In addition, a three-element bullet is difficult to manufacture and expensive.

Known pistol bullet according to the patent of the Russian Federation No. 2100769, F42B 30/02, 12/27/97, this two-element bullet contains a metal shell and a lead core. The bullet is made in the form of a head part, having the shape of an elongated ellipse, smoothly merging with a short cylindrical healing part, and a tail part, in the rear end of which a cavity is made along the axis. Performing a cavity in the tail of the bullet improves centering of the bullet in the barrel of the sleeve. However, the center of gravity of this bullet is shifted to its apex, which significantly worsens the stability of the flight along the trajectory and thereby worsens the accuracy of fire.

Closest to the claimed pool according to the number of matching essential features and the technical result achieved is a high precision bullet for small arms according to US patent No. 4517898, MKI 3 F42B 11/08, NCI 102/514, 102/5177, 05.21.1985, which taken as a prototype. The bullet consists of a solid core enclosed in a metal shell, closed on the side of the nose and open on the side of the rear end. This bullet is characterized by a special form of its outer contours. The leading part of the bullet body has a cylindrical surface, the rear end face is made completely flat, in the head part of the bullet the front end of the nose is made flat, and the transition section from the nose to the leading part of the bullet may have the shape of a truncated cone. The total length of the bullet is approximately 1.55 of its diameter, the leading cylindrical part of the bullet is approximately 55% of its total length or 85% of its diameter. The shape of the bullet and its geometric dimensions ensure the position of the center of gravity of the entire bullet inside its cylindrical part, and the center of aerodynamic pressure is at a considerable distance in front of the center of gravity. All this in combination provides high precision fire from small arms.

The bullet has three main disadvantages:

- the flat shape of the front end of the nose of the bullet significantly reduces the range of high-precision shooting, which limits the scope of the cartridge with this bullet;

- the shape of the bullet head and the continuity of its core become the cause of bullet ricochet when meeting with an obstacle, in cases of using cartridges with this bullet in an enclosed space;

- the execution of the core of the bullet is continuous, if it is made of antimony lead, often used in the manufacture of cores, leads to an increase in the mass of the bullet and, therefore, the cartridge as a whole. An increase in the mass of the cartridge leads to jamming of the weapon during the shooting process. This is due to the following. When firing a weapon with a semi-empty magazine, when the preload force of the feed spring is weakened, after firing the previous cartridge with the bolt in the rear position, one cartridge of increased mass gets from the magazine into the chamber by inertia. When the shutter moves forward, it captures and falls into the chamber the next (second) cartridge, which supports the first cartridge, which got there by inertia. In this case, jamming of the weapon and delayed firing.

The reduction in the mass of the bullet due to the implementation of various parts of the core of the bullet from materials of different densities, as proposed in the prototype, leads to a decrease in the manufacturability of the manufacture of bullet elements and the difficulty of its automated assembly.

The implementation of the head part of the bullet with a cavity at the nose, in order to reduce the weight of the bullet, increases its expansiveness, which prohibits its use under international law for military purposes and law enforcement agencies.

The present invention solves the problem of creating a bullet for a cartridge for small arms, providing high firing accuracy, reducing the ricochet of bullets and the likelihood of jamming weapons in the process of firing. This achieves the following technical result: improving the aerodynamic shape of the bullet head, reducing the mass of the bullet by reducing the mass of the head of the bullet, maintaining the axial stiffness of the bullet while reducing its stiffness in the radial direction.

The problem is solved in that the bullet of the cartridge for small arms is made with a blunting at the nose (nose), a cylindrical leading part and a head part that is uniformly expanding from blunting at the nose to the cylindrical leading part, and contains a metal core and an external metal shell closed from the side nose and open from the rear end. In this case, the metal core is placed in a metal shell with the emphasis of its front end on the nose of the metal shell on the side of its inner surface, as well as with the conjugation of its side surface with the inner surface of the metal shell of the cylindrical leading part of the bullet and the formation in the head of the bullet between the core and the inner the surface of the metal shell of the cavity with a volume equal to 30 ... 85% of the internal volume of the bullet head.

The bullet has a total length L equal to 1.25 ... 1.45 of the diameter D of its cylindrical leading part, and a head length l equal to (0.46 ... 0.52) L. The blunting of the nose of the bullet is performed with a radius equal to (0.42 ... 0.45) D, based on a diameter d of _ave , equal to (0.5 ... 0.65) D.

The core in the head of the bullet may have the shape of a truncated cone with a smaller base adjacent to the nose, with a diameter equal to (0.3 ... 0.35) D and a taper angle of 8 ° ... 15 °, forming an annular cavity between the core and the inner surface of the metal shell.

The maximum shell thickness at the top of the bullet nose is 2.0 ... 2.5 of the thickness of the cylindrical part of the shell, and in the head part of the bullet the shell is made with its uniform thickening from the cylindrical part to its nose.

The rear end of the lead core can be flat and an annular groove of about 8-15% of the bullet head volume can be made in it.

Preferably, the edge of the shell is rolled onto the rear end of the lead core of the bullet.

In the particular case that does not exclude other possible embodiments of the core, the core in the head of the bullet can be made in the form of a central rod with radial ribs. In this case, the end surface of the rod abuts against the bow of the metal shell of the bullet from the side of its inner surface, and at least part of the outer surface of the radial ribs is conjugated with the inner surface of the bullet head, while the shape of the core ensures the alignment of its center of mass with the axis of symmetry of the bullet.

The invention is illustrated by drawings, in which some possible embodiments of the invention are presented, where in Fig.1, Fig.2 and Fig.3 shows a cartridge bullet with a partial longitudinal section; figure 4 and figure 5 is a cross-section aa and bb in figure 3.

In the drawings, the following notation:

D is the diameter of the leading cylindrical part of the bullet;

L is the total length of the bullet, equal to 1.25 ... 1.45 of the diameter D of its cylindrical leading part;

l is the length of the bullet head, equal to (0.46 ... 0.52) of the total length L of the bullet;

R is the radius of the blunting of the nose of the bullet equal to (0.42 ... 0.45) of the diameter D of its cylindrical leading part;

d _ave - the diameter of the base of the nose of the bullet equal to (0.5 ... 0.65) of the diameter D of its cylindrical leading part.

The bullet cartridge small arms, shown in the drawings, is made with blunting at the nozzle 1, the cylindrical leading part 2 and the head part 3, uniformly expanding from blunting at the nozzle 1 to the cylindrical leading part 2.

The bullet contains a metal core 4, made, for example, of lead alloy 98.0 ... 98.5% and antimony 2 ... 1.5%, an external metal shell 5, made, for example, of bimetal based on steel grade 11kp , 08Y, closed from the side of the spout 1 and open from the rear end 6. The metal lead core 4 is placed in the metal shell 5 with the emphasis of its front end on the nose of the metal shell from the side of its inner surface, as well as with the conjugation of its side surface with the inner surface metal shell cylindrical Sky leading part 2 bullets.

The shape and geometric dimensions of the core 4 in the bullet head are selected based on the formation in the head of the bullet 3 between the core 4 and the inner surface of the metal shell 5 of the cavity 7 with a volume equal to 30 ... 85% of the internal volume of the bullet head 3, and ensuring that the center is aligned mass of a bullet with its axis of symmetry.

In order to reduce the mass of the bullet while maintaining the stability of its flight along the trajectory at the rear end of the bullet, an annular groove 8 can be made with a volume of up to about 10% of the internal volume of the bullet head 3, offset from the bullet axis as close to the side surface of the bullet as possible.

To ensure the density of installation of the bullet, the edge 9 of the metal shell 5 is rolled onto the rear end 6 of the lead core 4 of the bullet.

In order to simplify the manufacture of the core, it is advisable to perform the core 4 in the bullet head in the form of a truncated cone 10 with a smaller base adjacent to the nose, with a diameter equal to (0.3 ... 0.35) D and a taper angle of 8 .. .15 °.

However, the core can have a different shape, different from the truncated cone, but providing a cavity with a volume equal to 30 ... 85% of the internal volume of the bullet head, combining its center of mass with the axis of symmetry of the bullet and the axial stiffness of the bullet. Figure 3 shows a bullet with a core in the head of the bullet formed by the central rod 11 with radial ribs 12. The end surface of the rod abuts against the bow of the metal shell from the side of its inner surface, and at least part of the outer surface of the radial ribs is paired with the inner surface of the head of the bullet (Figure 4, aa).

The bullet functions as follows. When the bullet passes through the rifling of the barrel of the weapon, it acquires its original speed when it leaves the barrel.

The optimal shape of the bullet head: uniformly tapering from the cylindrical part to the bullet nose, the presence of a cavity in the bullet head, as well as the ratio of the lengths of the cylindrical part of the bullet and its head lead to the maximum displacement of the center of gravity of the bullet to the rear end. This, in turn, ensures a stable flight of the bullet along the trajectory and high accuracy of fire.

At the same time, the presence of a cavity in the head of the bullet and an annular groove on the rear end of the bullet, which reduces the mass of the bullet to 25% of the bullet weight if the core is solid, can prevent jamming of the weapon during firing due to the inertial feeding of an extraordinary cartridge into the chamber.

The "support" of the bullet nose from the inside of the shell by the core, as well as the thickening of the shell in the area adjacent to the bullet nose, provide axial stiffness of the bullet and preserves its sufficient penetration ability.

Testing of the claimed bullet for rebounding ability showed that the angles of interaction between the bullet and the obstacle (steel sheets St3 or reinforced concrete panels), at which a rebound is possible, are reduced by several times compared to prototypes with a solid core. The angle of a possible ricochet of the claimed bullet depends on the shape and size of the thickened nose of the shell of the bullet, the shape of the core, as well as the size and position of its contact surface with the shell, and does not exceed 10 °.

When shooting at angles to the obstacle greater than 10 °, the shell “crumbles” in the head of the bullet, which does not contact the core, and the bullet “sticks” to the surface of the obstacle, excluding the rebound.

Tests of the bullet showed the achievement of all the declared technical characteristics of the bullet, which will make it possible to find widespread use of cartridges with the claimed design of the bullet by law enforcement agencies.

Claims (9)

1. Bullet cartridge small arms, made with a blunting in its bow, with a cylindrical leading part and with a head evenly expanding from blunting the bow to the cylindrical leading part, containing a metal core and an outer metal shell, closed from the bow and open from the rear end, and the metal core is placed in a metal shell with the emphasis of its front end on the nose of the metal shell from the side of its inner surface, as well as with the interface Niemi its side surface with the inner surface of the cylindrical metal shell and a leading part of a bullet to form a head of the bullet between it and the inner surface of the cavity of the metal shell volume equal to 30-85% of the internal volume of the bullet head. 2. The bullet according to claim 1, which has a total length L equal to 1.25-1.45 of the diameter D of its cylindrical leading part, and the length l of the bullet head is (0.46-0.52) L. 3. The bullet according to claim 1, in which the blunting of the bow is performed with a radius equal to (0.42-0.45) D based on a diameter d _pr equal to (0.5-0.65) D. 4. The bullet according to claim 1, in which the maximum thickness of the shell at the top of the nose of the bullet is 2.0-2.5 times the thickness of the cylindrical part of the shell, and in the head of the bullet the shell is made with its uniform thickening from the cylindrical part to the bow. 5. The bullet according to claim 1, in which the rear end of the core is made flat. 6. The bullet according to claim 5, in which an annular groove is made at the rear end of the core. 7. The bullet according to claim 5 or 6, in which the edge of the shell is rolled onto the rear end of the bullet core. 8. The bullet according to claim 1, in which the lead core in the head of the bullet has the shape of a truncated cone with a smaller base adjacent to the bow, with a diameter of (0.3-0.35) D and a taper angle of 8-15 °. 9. The bullet according to claim 1, in which the core in the head of the bullet is formed by a central rod with radial ribs, while the end surface of the rod abuts against the bow of the metal shell from the side of its inner surface, and at least part of the outer surface of the radial ribs , is associated with the inner surface of the head of the bullet, while the shape of the core ensures the combination of its center of mass with the axis of symmetry of the bullet.

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