RU2219479C2 - Bullet - Google Patents

Abstract

FIELD: ammunition of small arms designed for firing, for example, from sniper's rifles for hitting of manpower positioned behind and armored shelter or individual armored protection, as well as for hitting of armored objects of military equipment. SUBSTANCE: the bullet has an envelope positioned in which one after the other are two slugs, one of which is made of lead and the other of steel. The steel slug is provided with a stem positioned in the body of the lead slug and made in the form of a cylindrical lug, whose diameter makes up 0,55÷0,70 d_out, and the length 0,30÷0,40 d_out, where d_out - the lug outside diameter. The cylindrical lug may be provided with a cone, the angle at whose vertex is within 110 to 150 deg. EFFECT: improved indices of the close grouping of shots. 1 dwg

Description

 The invention relates to ammunition for small arms intended for firing, for example, from sniper rifles, for hitting manpower located behind an armored shelter or for individual armor protection, as well as for hitting armored objects of military equipment.

 A bullet is known (see the Handbook of Ammunition and Special Grenades of Foreign Armies. Military Publishing House of the Ministry of Military Forces of the USSR, Moscow, 1946, p. 28, Fig. 14, Fig. 2), containing a steel clad plated cupronickel shell, in which a steel the core, and a lead jacket located between the shell and the core.

 The disadvantage of this bullet is the relatively low accuracy of the battle due to the location of the center of mass closer to the head, and not to the tail, since the bulk of the lead shirt is located in the head of the bullet.

 A known bullet for small arms (see ibid., P. 28, fig. 14, figure 1), containing a steel clad cupronickel clad shell in which a lead core and an aluminum nose (core) are mounted.

 This bullet has a higher combat accuracy in comparison with the analogue, since the placement of a lead core in the rear part contributes to the displacement of the center of mass in the rear part and, therefore, improves the accuracy of the battle.

 However, such a bullet does not have armor penetration (it is not able to penetrate bulletproof vest) due to the presence of an aluminum core and has a relatively low rate of accuracy due to the fact that the two cores touch each other with planes and when the bullet passes through the cuts of the barrel bore they can radially shift relative to each other.

 In addition, the bullet has a worse aerodynamic shape due to the cylindrical tail, which also affects the accuracy of the battle.

 A known bullet (see RF patent 2075036), containing a shell in which there are two cores, one of which is made of lead, and the other is made of steel.

 This bullet has a relatively high armor penetration and better aerodynamic shape, and therefore, better accuracy of the battle.

 However, such a bullet has a relatively low rate of accuracy of the battle compared to the proposed one due to the fact that the two cores touch each other with planes and, when the bullet passes through the cuts of the barrel channel, have the possibility of radial displacement relative to each other.

 This bullet is taken as a prototype, because it has the most common features with the proposed solution.

 The objective of the invention is to increase the accuracy of the battle due to the prevention of radial displacement of the lead core relative to the steel during the passage of the bullet through the grooves of the barrel of the weapon.

The problem is achieved in that in a pool containing a shell in which two cores are arranged one after the other, one of which is made of lead and the other of steel, the steel core is equipped with a shank placed in the body of the lead core, made in the form of a cylindrical protrusion whose diameter is 0.55 ... 0.70 d _n , and the length is 0.30 ... 0.40 d _n , where d _n is the outer diameter of the core.

In addition, the cylindrical protrusion is equipped with a cone, the angle at the apex of which is in the range 110 ... 150 ^o .

Experimental work and target shooting with bullets found that the best results were obtained when performing a cylindrical protrusion with a diameter of 0.55 ... 0.70 of the outer diameter of the core and a length of a cylindrical protrusion of 0.30 ... 0.40 of the outer diameter of the core at the angle of the top of the cone within 110 ... 150 ^o .

 If the diameter of the cylindrical protrusion is less than 0.55 of the outer diameter of the core, then the contact area of the core in the body of the lead core is reduced, which can lead to a radial displacement of one core relative to another.

 If the diameter of the cylindrical protrusion is greater than 0.70 of the outer diameter of the core, then this diameter approaches the outer diameter of the core and, therefore, there is the possibility of a radial displacement of the steel core relative to the lead.

 If the length of the cylindrical protrusion is less than 0.30 of the outer diameter of the core, then the radial displacement of one core relative to the other is not excluded.

 Perform the length of the cylindrical protrusion of more than 0.40 of the outer diameter of the core is impractical for technological reasons.

For technological reasons, the manufacture and installation of the bullet is impractical to make the angle at the apex of the cone of the cylindrical protrusion of less than 110 ^o and more than 150 ^o .

 The drawing shows a General view of the bullet.

 The proposed bullet contains a shell 1, in which are placed successive steel 2 and lead 3 cores. To prevent radial displacement of one core relative to another, the steel core 2 is made with a shank 4, which, when the bullet is assembled, enters the body of the lead core 3, i.e., the shank 4 is placed in the body of the lead core 3. The shank 4 is made in the form of a cylindrical protrusion that ends cone 5 with an angle at the vertex α.

 The dimensions of the cylindrical protrusion were selected empirically when firing from a 12.7 mm rifle.

The diameter of the cylindrical protrusion (d _in ) is selected in the range of 0.55 ... 0.70 of the outer diameter of the core (d _n ), which for 6.7 mm bullets was 6 ... 7.6 mm.

The length of the cylindrical protrusion l is selected in the range of 0.30 ... 0.40 of the outer diameter of the core (d _n ), which for 12.7 mm bullets was 3.5 ... 4.5 mm.

The angle α at the top of the cone 5 is selected within 110 ... 150 ^o .

 The bullet works as follows. When the igniter capsule is pricked, the impulse is transferred to the powder, the resulting powder gases push the bullet out of the sleeve into the grooves of the gun barrel, passing through which it acquires its original speed and flies out of the barrel onto the trajectory.

 At the time of entry of the bullet into the grooves of the barrel of the weapon, the shank 4 of the steel core 2 does not allow the lead core 3 to shift in the radial direction. Moreover, due to the lighter steel core 2 located in the bullet head, with respect to the heavy lead core 3 placed in the tail, the center of mass of the bullet is shifted closer to the tail. All this makes it possible to obtain high efficiency in accuracy. Therefore, when a bullet exits the barrel, it hits the target with high accuracy, breaking through an armored shelter or individual armored personnel protection.

 Thus, the advantage of the proposed bullet in relation to the prototype is to increase the accuracy of the battle due to the prevention of radial displacement of one core relative to another when passing through the rifling of the barrel of a weapon.

Claims (2)

1. A bullet containing a shell in which two cores are located one after another, one of which is made of lead, and the second of steel, characterized in that the steel core is equipped with a shank placed in the body of the lead core and made in the form of a cylindrical protrusion, diameter which is 0.55 ÷ 0.70 d _n and a length of 0.30 ÷ 0.40 d _n , where d _n is the outer diameter of the core. 2. The bullet according to claim 1, characterized in that the cylindrical protrusion is provided with a cone, the angle at the apex of which is within 110 ÷ 150 °.