RU2119640C1 - Bullet for plain-barrel gun - Google Patents

Abstract

FIELD: ammunition for plain-barrel guns. SUBSTANCE: body 1 has spherical head part 2 and hollow passage 3 ending in tail part with cone 4. Leading ribs 5 are manufactured in the form of alternating recesses and protrusions made at angle with reference to axis of bullet and form concave surface. At least one pair of opposite nozzles 6 arranged radially is located on tail part of bullet. EFFECT: bullet demonstrates increased ballistic characteristics and hitting capabilities. 2 dwg

Description

 The invention relates to ammunition for smoothbore guns.

 A turbine-type bullet for smoothbore guns is known (see ed. St. N 226 435, F 42 B 07/10 of 1967) containing a body and a wad-shaft, the cylindrical body having an axial recess in the central part and inclined ribs with a centering belt outside, in addition, the housing is equipped with tangential channels made with an inclination from the bottom of the recess to the leading girdle.

 Signs of a well-known bullet, common with the claimed one, are the execution of a bullet with an axial recess in the central part of the body turning into tangential channels, in addition, the execution of inclined ribs with a centering girdle from the outside.

 The disadvantages of this bullet include its weak stopping ability, because the cylindrical body, due to its uniform stiffness along the length, is slightly deformed into a “cake” upon impact with the target.

 Known bullet selected as a prototype (see and.with. N 1 809 286, F 42 B 10/34 from 1990), containing a core fixed in a plastic container-stabilizer, longitudinal ribs made on the outer surface of the bullet, and the core has a through axial channel, ending in a stabilizer container with a nozzle, the core is made in the form of a step-shaped body of rotation with a decrease in diameter towards the bottom of the bullet, and the ribs are formed by a plane tangent to the cylindrical part of the outer surface of the stabilizer container, and a plane cutting in half the angle between the tangent plane and the radial plane drawn through the point of intersection of the tangent plane with the circle of the nominal caliber, moreover, the bullet core is made with radial slots on the side of the head, and the stabilizer container is made with protrusions corresponding to the slots, in addition, the core is made of segments with transverse annular recesses on one of the steps of not the largest diameter, equipped with an annular groove in the steps of the smallest diameter and a spring ring mounted in the ring oh groove for fastening segments.

 Common features of the claimed object with the well-known are: longitudinal ribs made on the outer surface of the bullet, a through axial channel ending in a nozzle.

 The disadvantages of the known bullet include its relative complexity and, as a consequence, more labor-intensive manufacturing technology, which can reduce its competitiveness.

 The aim of the invention is to increase the ballistic properties and the striking capabilities of the bullet.

 This goal is achieved by the fact that the cavity of the bullet body communicates with at least one pair of opposed cone-shaped nozzles radially placed in the rear of the body, the axes of which are pairwise parallel, and the depressions between the leading ribs form a concave surface.

 In FIG. 1 shows a bullet - a general view with a partial section; in FIG. 2 is a section A-A of FIG. one.

 A bullet for a smooth-bore gun consists of a body 1 with a spherical head part 2 and a hollow channel 3, in the tail of the bullet ending with a guide cone 4. The body 1 is equipped with driving ribs 5 made in the form of alternating depressions and protrusions at an angle to the axis of the bullet and forming a concave surface B. In the tail of the bullet, at least one pair of radially opposed opposed nozzles 6 is made on one of the leading girdles 7.

 The action of the bullet is as follows. At the time of the shot when the bullet passes through the bore, it does not receive rotation, because in the confined space of the barrel, the bullet pushes air and there is no flow around it along the body. When departing from the barrel bore, the bullet is introduced into the air, which, resisting its introduction, acts on the leading ribs 5 located at an acute angle to the axis of rotation of the bullet, enters the channel 3 and, passing along the channel, encounters a guide cone 4, changes the direction of movement , and goes through the nozzle 6 outside the bullet. The axis of the nozzles are parallel to each other and form, when air flows through them, a pair of reactive forces on the bullet body, twisting it around the axis. The conical shape of the nozzle expanding towards the outlet contributes to a more complete use of the energy of the air flowing through it, because as the air velocity in the expanding nozzle decreases, its pressure on the nozzle wall increases, and the resulting force tends to move outward, because the pressure is higher at the end of the channel, therefore, to increase the shoulder, forming a pair of forces. The hollow between the leading ribs 5 forms a concave surface B, flowing along which the air passes a longer path than the one that flows along the outer surface of the leading ribs, and a rarefaction zone occurs (pressure increases according to the Bernoulli law with increasing flow velocity), which the surrounding air tends to fill, while simultaneously acting on the side walls of the surface of the leading ribs, thereby creating a moment of forces that rotate the bullet around the axis. Together with the resulting pair of forces that rotate the bullet around the axis, the effect of air on the leading ribs 5 enhances the moment of its rotation. The leading belts 7, located in the head 2 and tail parts of the bullet body, give a stable position in the initial period of its movement in the barrel of the gun, which, when exiting it, ensures the optimal position of the bullet relative to its path. The spherical head of the bullet body in cross section and in conjunction with the cross section of surface B form a profile identical to the profile of the wing, and this leads to the appearance of forces in the channel 3 that act on its walls from the inside, i.e. they form a pseudo-rod along which, like a guide, a bullet moves - this increases its stability on the trajectory, stabilizes the flight of the bullet along the optimal trajectory, i.e. increases the accuracy of the battle of the gun.

 When it hits the target, part of the object’s substance enters the bullet’s channel and, weakened by the hollows between the leading ribs, the section located near the tail part, as a result of its weakening, “swells”, which, combined with the head part torn from the impact, increases radial bullet body dimensions. After hitting the target, the bullet “swells”, takes the form of a cake, instantly loses speed, and its kinetic energy is transferred to the object, i.e. stopping and damaging properties of the bullet are increased.

 The implementation of the cavity of the bullet’s body with a guide cone turning into opposed, cone-shaped nozzles radially located in the tail of the body, the formation of hollows between the leading ribs of the concavity, determine the difference between the claimed object and the prototype and ensure that it meets the criterion of “Novelty”, which does not explicitly follow from the prior art, therefore, the claimed solution meets the criterion of "Inventive step".

 The claimed bullet can be made by casting in coquila or a one-time mold for cortical casting, for the manufacture of which can be used commercially available technological equipment, which determines the compliance of the object with the criterion of "Industrial applicability".

Claims (1)

 A bullet for a smoothbore gun containing a body with a through cavity, a spherical head and leading ribs made on the outer surface between the leading belts, characterized in that the body cavity communicates with at least one pair of opposed cone-shaped nozzles radially placed in the rear of the body, whose axes are pairwise parallel, and the depressions between the leading ribs form a concave surface.

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