RU2121653C1 - Subcaliber hunting bullet - Google Patents

Abstract

FIELD: ammunition for plain-barrel hunting guns. SUBSTANCE: hunting bullet is composed of metal body and semi-jackets surrounding body. Side surface of lower part of body has protruding fins. One of their sides is parallel to axis of bullet and another one is arranged at angle with respect to it. Ring linked to body and fins is located in lower part of body. EFFECT: diminished scattering diameter by way of aerodynamic stabilization, enhanced stopping action and hitting effect. 1 dwg

Description

 The present invention relates to ammunition for hunting rifles, and more specifically to the elements of ammunition - bullets.

 Known bullet consisting of a lead head with a tip and a cylindrical non-metallic guide body surrounding the lead head [1]. The disadvantage of this design is that when a bullet passes through the barrel in the place of a muzzle narrowing or when passing through the barrel with a “paradox” cut, the non-metallic guide body will deform. After exiting the barrel, since the guide body does not separate from the lead head with the tip, due to the deformed surface, the bullet’s flight path will not be repeated from shot to shot, which will lead to a large dispersion cross-section.

 Also known is a hunting sub-caliber bullet comprising a tail housing and a plastic shell. The disadvantage of this bullet is the possibility of a breakthrough of powder gases between the shell and the bore, as well as low aerodynamic stabilization on the flight path.

 Closest to the technical solution is a sub-caliber bullet having a tail housing and a push-type driving pallet. The disadvantage of this design is that the tail is located in the area of turbulence of the air flow, since after the flow around the flat head of the bullet air turbulence will form, therefore, the axis of the bullet will oscillate relative to the direction of the flight path, thereby deteriorating the dispersion characteristics and forming a certain angle of encounter with the obstacle .

 In addition, the location of the tail ribs parallel to the axis of the bullet does not give it rotation during flight in order to stabilize the trajectory and reduce the dispersion cross-section.

 The objective of the invention is to reduce the diameter of the dispersion by aerodynamic stabilization during flight on the trajectory and increase the stopping effect and the damaging effect of the bullet.

 The drawing shows a bullet consisting of a metal body 1 and half-shells 2 surrounding the body. On the side surface in the lower part of the body there are protruding ribs 3, one of the sides of which is parallel to the axis of the bullet, and the other is located at an angle to it. In the lower part of the housing is a ring 4 connected to the housing and ribs. The diameter of the ring exceeds the diameter of the bullet body. The surface 5 of the ring facing the head of the bullet is inclined with respect to the axis of the bullet. Inside the body of the bullet there is a cavity that provides the maximum displacement of the center of gravity to the head.

 The half-shells in which the bullet body is enclosed have a bottom 6, obturating grooves 7 on the outer side surface. On the inner surface of the half-shell, there are protrusions placed between the ribs of the bullet, which do not allow the bullet body to rotate relative to the half-shells when passing through the bore of a barrel with rifling (such as a "paradox").

 When fired under the pressure of powder gases, the bullet moves along the barrel. In this case, the half-shells do not allow the bullet body and protruding ribs to come into contact with the surface of the barrel channel both when passing through muzzle contractions and when rifling in the case of firing from a barrel of the "paradox" type, eliminating the possibility of deformation of the bullet elements. Obturating grooves prevent the penetration of powder gases between the half-shells and the bore.

 After departure from the barrel, the half-shells are separated from the bullet body under the influence of an oncoming air flow. When flying on a trajectory, the air stream flowing around the bullet’s body, due to the inclined surfaces of the protruding ribs, imparts axial rotation to the bullet, preventing it from deviating due to the gyroscopic effect. In addition, due to the ring located in the lower part of the casing, into which the air flow strikes, the center of pressure is located at the rear, and the center of gravity is forward, which further increases the stability in flight due to the aerodynamic shock effect. The presence of protruding ribs and rings on the side surface of the body increases the area of damage to the animal, thereby increasing the stopping effect and the damaging effect.

Sources of information
1. Application of Germany N 2903286, MKI F 42 B 7/10, publ. January 29, 1979

 2. Application of Germany N 2444181, MKI F 42 B 5/05, publ. 1976

 3. Application of the USSR N 3210687 / 40-23, MKI F 42 B 11/02. Auth. testimonial. N 1008613.

Claims (1)

 A hunting bullet containing half shells and a metal case, on the side surface of which protruding ribs are located, and in the lower part there is a ring, the forward facing surface of which is inclined with respect to the axis of the bullet, characterized in that, in order to intensify the process of stabilization of the bullet by compressing the air the flow between the ribs and increase the force of its impact on the surface of the ring, one side of the ribs is parallel to the axis of the housing, and the other at an angle to the axis.