RU18102U1 - HUNTING CARTRIDGE BULLET - Google Patents

Abstract

1. The bullet of a hunting cartridge, made with the lively head, leading and tail parts, consisting of a lead core placed in a metal shell with the formation of free volume at the apex in the head of the bullet, in which a cylindrical annular groove is made on the inner surface of the shell, with a diameter not exceeding the inner diameter of the shell on the leading part of the bullet, while the bottom of the cylindrical groove on one side is mated to the inner surface of the shell, and on the other hand is mated to a lateral rotation idnosti grooves forming an annular ledge, the surface of which is perpendicular to the axis of the bullet, characterized in that the annular ledge is spaced from the top of the bullet at a distance equal to 0.70-0.85 length of the head part, and the front end of the core is separated from the top of the bullet at a distance equal to 0.60-0.84 of the length of the head, subject to the condition under which the front end of the core is separated from the annular ledge towards the top of the bullet at a distance greater than or equal to 0.01 of the length of the head, with the side surface of the core in contact with the entire prof Flax inner surface of the shell at a site closed ends serdechnika.2. The bullet according to claim 1, characterized in that at least one annular groove is made on the inner surface of the shell of the free volume of the bullet head with a minimum thickness in the groove zone of 0.5-0.9 shell thickness on the leading part of the bullet .3. A bullet according to any item, characterized in that at least three longitudinal grooves are made on the inner surface of the shell of the head part of the bullet, the edge of which is remote from the top is distant from

Description

HUNTING CARTRIDGE BULLET

The utility model relates to bullets of a hunting cartridge, intended for firing from rifled weapons at medium and long ranges (more than 300 m), namely to expansive bullets deforming when they get into animal tissue.

Known two-element hunting bullets, consisting of a core, such as lead, and harder than the core of the metal shell. The weakening of the head of the expansive bullets contribute to the annular and longitudinal grooves on the shell, reducing the thickness of the shell at the top of the bullet.

Known bullet hunting cartridge according to the patent of Russian Federation №2056621, IPC6 F42B 30/02, 20.03.96. The bullet contains a metal shell and a lead core, located with the formation in the head of the bullet at its top of the free volume at a length of 0.9 length of the head part. An annular groove is made on the inner surface of the head of the shell at a distance of 0.3 gO, 7 of the length of the head. In addition, at least three longitudinal grooves intersecting the annular groove are made on the inner surface of the head of the shell.

The disadvantages of this bullet include the poor accuracy of the battle due to the unstable position of the lead core in the metal shell, leading to a change in the center of gravity of the bullet. The conical shape of the tail of the core, as well as the ability to perform a shell from the end of the bullet bent to the end of the core, eliminates the possibility of moving the core relative to the shell along the axis of the bullet from its top. The implementation of the head part of the bullet with a free volume at a distance of 0.9 lengths of the head part with the animated excised surface of the shell does not provide reliable fixation of the core from moving it relative to the shell towards the top

MPK6 F42B 12/34

bullets, which can lead to a displacement of the center of gravity of the bullet to its top during movement along the barrel and during the flight. The unstable position of the center of gravity of the bullet leads to instability of the ballistic characteristics of the bullets, to an increase in the angle of nutation of the bullet in flight, resulting in a decrease in firing accuracy, flatness of the trajectory, and as a result, a decrease in the energy of the bullet.

The closest in technical essence and the problem to be claimed is the bullet of a hunting cartridge according to the patent of the Russian Federation No. 2056620, MNKb F42B 30/02, 03/20/96, which is selected as a prototype. Scratch contains a metal shell and a lead core, located with the formation in the head part of the bullet at its apex of free volume for a length of up to 0.7 of the length of the head part. A cylindrical annular groove with a diameter not exceeding the inner diameter of the shell on the leading part of the bullet is made on the inner surface of the free volume of the shell. In addition, the bottom of the cylindrical groove is on one side mated to the inner surface of the shell, and on the other hand, mated to the side surface of the groove forming an annular ledge, the surface of which is perpendicular to the axis of the bullet. The annular ledge is spaced from the top of the bullet at a distance of 0, 5 of the length of the head.

This bullet has the same drawbacks as the bullet described above. In addition, in the manufacture of the shell of this bullet, it is technologically very problematic to ensure the minimum thickness of the shell in the annular groove zone in the range of 0.14-0.5 of the average shell thickness on the leading part of the bullet due to the possibility of breaking the shell during the execution of the ring groove on the shell or at the time of installation of the bullet under the action of axial and radial forces of compression of the shell on the lead core. This leads to a large marriage in the manufacture of this bullet. In addition, the implementation of the annular groove with the specified

minimum bottom thickness reduces its effectiveness. This is due to the fact that the location and geometry of the softening annular grooves provide the bullet head with a relative strength of a level at which the bullet starts to deform almost immediately when it hits an animal’s tissue due to inertial braking loads. When shooting large animals, animals with a thick skin coat or with a fat subcutaneous layer, the destruction of the shell of the bullet occurs on a relatively shallow layer of penetration of the bullet into the tissue of the animal. This leads to a decrease in the stopping effect of the bullet and its lethal action, which, in turn, leads to the appearance of wounded animals. An increase in the minimum thickness of the bottom of the annular shell, while maintaining its location, reduces the expansiveness of the hunting bullet, and, consequently, its lethal effect.

The utility model solves the problem of increasing the accuracy of shooting and the persistence of the bullet’s flight path when firing at medium and long ranges, by ensuring a stable position of the heavy lead core in the shell when the bullet leaves the barrel, and on the flight path, which excludes the center of gravity and the slaughter’s increase the actions of the bullet and the reduction of marriage during its manufacture.

The problem is solved in that in the pool of the hunting cartridge, made with the lively head, leading and tail parts, and consisting of a lead core placed in a metal shell with the formation of free volume at the apex in the head of the bullet, in which a cylindrical shell is made on the inner surface an annular groove with a diameter not exceeding the inner diameter of the shell on the leading part of the bullet, while the bottom of the cylindrical groove on one side is associated with the inner surface of the shell, and with the other side is associated with the side surface of the groove forming an annular ledge, the surface of which is perpendicular to the axis of the bullet, the annular ledge is separated from the top of the bullet by

a distance equal to 0.70-t-0.85 of the length of the head. In this case, the front end of the core is spaced from the top of the bullet at a distance equal to 0, .84 of the length of the head, subject to the condition under which the front end of the core is spaced from the annular ledge towards the top of the bullet at a distance greater than or equal to 0.01 of the length of the head. Moreover, the side surface of the core is in contact with the entire profile inner surface of the shell in the area closed by the ends of the core.

To increase the expansive effect on the inner surface of the shell of the free volume of the bullet head, at least one more annular groove can be made with a minimum thickness in the groove zone of 0.5 -: - 0.9 of the shell thickness on the leading part of the bullet.

For the same purpose, at least three longitudinal grooves remote from the top, the edge of which is spaced from the top of the bullet at a distance not exceeding 0.9 of the length of the head, can be made on the inner surface of the shell of the head of the bullet.

Pa on the inner surface of the shell of the head of the bullet can be made at the same time additional and annular and longitudinal grooves.

Pa FIG. 1 shows a metal sheath before mounting a bullet; in FIG. 2 - bullet assembly; in FIG. 3 is a variant of the bullet with an additional annular groove made on the inner surface of the shell of the free volume of the bullet head; in FIG. 4 - a variant of the bullet with additional and annular and longitudinal grooves.

The bullet has a steel shell 1 and a lead core 2. The bullet is made with an animated head part 3 of length LT, the leading part 4 and the tail part 5. The tail part 5 can be conical or have any other shape, as long as it ensures that the core 2 is held in

the shell 1 without dismantling the bullet from the effects of inertial loads when the bullet moves along the bore during the shot. The core 2 is installed in the shell with the formation of a free volume 6 at the vertex 7 in the head part 3. Before mounting the bullet on the inner surface of the shell 1, a cylindrical annular groove 8 is made to a length bk with a diameter bk not exceeding the inner shell diameter do.BH. on the leading part 4 bullets. In this case, the bottom of the cylindrical groove 8 is, on the one hand, mated to the inner surface of the shell 1 and, on the other hand, is mated to the side surface 9 of the groove 8 forming an annular ledge 10, the surface of which is perpendicular to the axis of the bullet. An annular cylindrical groove 8 can be obtained by extrusion by means of a punch. The formation of a cylindrical annular groove 8 leads to a decrease in the shell thickness in the bottom of the groove, while the minimum thickness of the bottom of the groove should not be less than 0.5 of the shell thickness on the leading part of the bullet to. The recommended minimum thickness of the bottom of the cylindrical groove is 0.7 -: - 0.8 to. The annular ledge 10 is spaced from the top 7 of the bullet at a distance equal to 0.704-0.85 Lp. During the installation of the bullet, the lead core 2 is installed in the metal shell 1 and, by means of profile dies, to which the axial approximating force is applied, the shell 1 is crimped and the plastic lead core 2 is deformed, pushing it to the top 7 of the bullet head 3, thereby ensuring a tight the contact of its side surface with the entire profile inner surface of the shell 1 in the area closed by the ends of the core 2. By selecting the mass of the core 2 during the installation of the bullet providing the position of the front end of the core 2 relative to the tip of the bullet 7 at a distance equal to 0.60 -: - 0.84Lr, subject to the condition under which the front end of the core is spaced from the annular ledge 10 towards the top of the bullet 7 by

a distance greater than or equal to 0.01 Lp. Thus, the lead core 2 fills the groove 10 and covers the annular ledge 10, securely fixing it in the metal shell 1 and ensuring the density of the bullet assembly.

The initial for the indicated ranges of the geometric parameters of the bullet is the free volume of the head part of the bullet 6, the length of which should be equal to 0.604-0.84Lr. The location of the front end of the core 2 in the specified range allows you to ensure optimal for ballistic characteristics of the centering of the mass of the bullet, leading to high accuracy. The choice of the geometry and position of the annular groove in the head of the shell at a distance from the apex is 0.70 -: - 0.85 LT, on the one hand, due to the fact that the groove must be completely filled with core material, and, on the other hand, with technological factors , they provide; the implementation of a cylindrical groove with a decrease in shell thickness in the groove zone and the possibility of forming an annular stop with a strength sufficient to keep the core from moving to the top when the bullet moves along the bore during firing and during mja flight.

To increase the effect of expansive action on the inner surface of the shell 1 of the free volume 6 of the bullet head 3, at least one additional annular groove of any profile can be made with a minimum thickness in the groove zone of 0.5 h-0.9 to.

At least three additional longitudinal grooves 12 remote from the top, the edge of which is spaced from the top of the bullet at a distance not exceeding 0.9 1, can be made on the inner surface of the shell 1 of the bullet head 3.

When a bullet hits the target, at the first moment, before the start of deformation without destruction, it penetrates into the animal tissue to the required depth, specified by the strength characteristics of the bullet, or rather the strength characteristics of the head part 3 of the bullet. However, due to the kinetic energy under the inertial loads of the core 2 and the reaction force of the animal tissue, which is transmitted to the shell 1, it begins to slow down, and the core 2 begins to move along the axis of the bullet to its top 7. In the shell material 1 under the influence of braking and of the moving core 2, both axial and radial stresses occur. On the one hand, due to the inhibition of the bullet, the shell 1 is crushed at its top 7, and on the other hand, in the zone of the groove 8, the shell 1 is broken. The destruction of the shell 1 in the area of the groove 8 is due to several factors: the groove 8 itself is a stress concentrator, the minimum thickness of the shell 1 in its zone, and the presence of an annular stop 10 sets the plastic lead core 2 to some axial braking and radial stress, which is transmitted to the shell 1 by destroying her. After the destruction of the shell 1 in the area of the groove 8, the head part 3 is shifted towards the core 2 and is deformed. The bullet sharply changes its shape and dimensions, while the blunting of the head part 3 increases. The ongoing deformation of the head part 3 of the shell 1 and the core 2 leads to a sharp increase in the diameter of the cross section of the bullet and increase its expansivity.

The execution on the inner surface of the head part of the shell 1 of additional (s) annular (s) grooves (s) 11 in combination with the longitudinal grooves 12 allows you to adjust the rigidity of the head part 3, i.e. set the required expansiveness of the action, and, therefore, provide the required depth of penetration of the bullet into the tissue of the animal before it begins to deform. By selecting the appropriate geometric parameters of the annular and longitudinal grooves, you can design

hunting bullets that can be used to shoot various animals.

The claimed bullet of the hunting cartridge due to the reliable fixation of the core relative to the shell (assembly density) allows, first of all, to increase the accuracy and accuracy of shooting, the trajectory to be fixed, the stability of the ballistic characteristics of the bullet, which helps to preserve the kinetic energy and increase its lethal effect of the bullet.

The proposed design of the hunting bullet provides a long-range accurate shot and minimizes the appearance of wounded animals.

Claims (3)

1. The bullet of a hunting cartridge, made with the lively head, leading and tail parts, consisting of a lead core placed in a metal shell with the formation of free volume at the apex in the head of the bullet, in which a cylindrical annular groove is made on the inner surface of the shell, with a diameter not exceeding the inner diameter of the shell on the leading part of the bullet, while the bottom of the cylindrical groove on one side is mated to the inner surface of the shell, and on the other hand is mated to a lateral rotation idnosti grooves forming an annular ledge, the surface of which is perpendicular to the axis of the bullet, characterized in that the annular ledge is spaced from the top of the bullet at a distance equal to 0.70-0.85 length of the head part, and the front end of the core is separated from the top of the bullet at a distance equal to 0.60-0.84 of the length of the head, subject to the condition under which the front end of the core is separated from the annular ledge towards the top of the bullet at a distance greater than or equal to 0.01 of the length of the head, with the side surface of the core in contact with the entire prof Flax inner surface of the shell at a site closed ends of the core.  2. The bullet according to claim 1, characterized in that at least one annular groove is made on the inner surface of the shell of the free volume of the bullet head with a minimum thickness in the groove zone of 0.5-0.9 of the shell thickness on the lead parts of the bullet. 3. A bullet according to any item, characterized in that at least three longitudinal grooves are made on the inner surface of the shell of the bullet head portion, the edge remote from the top of which is spaced from the bullet top at a distance not exceeding 0.9 of the length of the bullet head.