RU18767U1 - HUNTING CARTRIDGE Bullet for rifled weapons - Google Patents

Abstract

1. The bullet of a hunting cartridge for rifled weapons, having an animated head part, a leading part and a tail part made in the form of a truncated cone tapering to the rear end, and containing a metal shell made with a cut in the head part and the tail part open from the end, and placed a lead core is pressed in with it, and longitudinal grooves are made on the surface of the head part of the shell from its slice, characterized in that the inner surface of the shell at the slice is cylindrical with a diameter of explicitly 0.35-0.8 of the maximum diameter of the core and is conjugated to the inner vivid surface of the head of the shell, the surface of the shell at its front end is conical and conjugated to the vivid outer surface of the shell, and the core partially protrudes from the shell at a distance of 0 3-0.7 caliber bullets, the lateral surface of the protruding part of the core mating with the outer surface of the head of the shell. 2. The bullet according to claim 1, characterized in that the conical surface of the shell at its front end is made with a taper angle of 90.3. The bullet according to claim 1, characterized in that the protruding part of the core at the apex passes either into a flat front nose. or in a spout made in the form of a spherical segment. 4. The bullet according to claim 1, characterized in that the longitudinal grooves are made on the inner surface of the head of the shell at a distance from its end not exceeding 0.9 of the length of the head of the shell. The bullet according to claim 1 or 5, characterized in that the longitudinal grooves are made of variable depth with decreasing shear thickness of the shell in the groove.

Description

HUNTING CARTRIDGE Bullet for rifled weapons

The invention relates to bullets for hunting cartridges intended for firing from weapons with a rifled bore, namely, expansive bullets deforming when they enter animal tissue. These bullets are widely known, mass production and steady use.

The nature of the deformation of the bullets during operation depends, first of all, on the design of the shell of the bullet. Recently, due to the simplicity of manufacturing technology, deformable ones have spread; there are bullets in which the shell is open from the side of both the head and tail parts.

Known bullet for a hunting cartridge for rifled weapons (options) according to the patent of the Russian Federation No. 2087842, MPKb F42B 30/02, 12/02, 08/20/97, It contains a metal shell with longitudinal grooves and with a cut at the top in the head and open from the side the rear end of the tail. A core is placed in the shell with the formation of free volume in the head part under the cut. Alternatively, the bullet may have a lead shirt.

The disadvantages of this bullet include its tendency to dismantle when leaving the barrel and in flight due to the fact that the edge of the shell is open and therefore powder gases can penetrate between the shell and the core during a shot. The open front end of the bullet and the presence of free volume behind the shear cut degrade the aerodynamic properties of the bullet, which, in turn, affects the accuracy of the battle. And the execution of the core of a more durable material than lead degrades the expansive properties of the bullet.

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The most widely used are deformable bullets containing a lead core and a harder metal shell than the core. When a bullet hits the target, its head part increases in diameter by 1.5 ... 2.5 times relative to the diameter of the leading part of the bullet (caliber), which increases the parameters of the damage compared to bullets that are not deformed in the case of other conditions being equal for bullets before falling into target.

Known bullet for a hunting cartridge for rifled weapons according to the patent of the Russian Federation No. 2138008, IPC6 F42B 30/02, 12/34, 09/20/99, the bullet contains a metal shell with longitudinal grooves and with a slice of a vertex in the head and a composite lead core placed therein. A recess is made in the rear end of the composite core, and the bullet is provided with a washer, on which the edge of the shell is compressed. The execution of the shell open from the side of the warhead and the presence of free volume under the cut of the shell bring this bullet the same drawbacks as the above.

As a prototype for the largest number of coincident land reasons, a bullet for a hunting cartridge for rifled weapons was selected according to the patent of the Russian Federation No. 215703, IPC6 F42B 12/34, 01/27/99. The bullet contains a metal shell with a cut in the head and a lead core located in the shell with a flat front end. Grooves of variable depth are made in the head part of the shell with the thickness of the shell decreasing toward the cut in the groove. In addition, cuts are made at the cut of the shell, and the tail of the shell is bent to the rear end of the core, in which the recess is made.

When installing this bullet, it is not possible to clamp the lead core inside the head of the shell to the limit state, without the presence of local micro-gaps, leading to the destruction of the shell during installation. Small degrees of deformation of the shell in the head of the bullet do not provide a tight installation of the bullet. In addition, this leads to the fact that for these bullets the front flat end has a significant diameter, worsening the aerodynamic properties of the bullet - increasing drag, reducing the range of effective damage.

The utility model solves the problem of increasing the range of reliable destruction, increasing the lethal action of the bullet, as well as increasing the accuracy of shooting and the persistence of the trajectory of the bullet when firing at medium and long ranges. The design of the bullet allows sushi, significantly reduce the marriage during its manufacture.

The problem is solved in that in the pool of a hunting cartridge for rifled weapons having an animated head part, a leading part and a tail part made in the form of a truncated cone tapering to the rear end, and containing a metal shell made with a cut in the head part and open from the end the tail part, and the lead core placed therein, the inner surface of the shell at the slice is made cylindrical with a diameter equal to 0.35 -: - 0.8 of the maximum diameter deep of the central part of the core and is paired with the inner her lively surface of the head of the shell. The surface of the shell at its front end is conical and paired with the lively outer surface of the shell. In the bullet head part, the core partially protrudes from the shell to a distance of 0,, 7d, where d is the bullet caliber. Moreover, the lateral surface of the protruding part of the core is conjugated with the outer surface of the head part of the shell and at the apex passes either into a flat front spout or into a spout made in the form of a spherical segment.

The conical surface of the shell at its front end is more appropriate to perform with a taper angle of 90 °.

On the inner surface of the head of the shell at a distance LK from its end, not exceeding 0.9 of the length Lro of the head of the shell, grooves of variable depth are made with the thickness of the shell decreasing towards the shear in the groove.

In FIG. 1 is a longitudinal section through a shell prior to mounting a bullet; FIG. 2 - bullet assembly.

The bullet of a hunting cartridge for rifled weapons has a revitalizing head part 1, a leading part 2 and a tail part 3 tapering along the cone to the rear end 4. The bullet consists of a metal shell 5 and a tightly pressed lead core 6 placed in it. Shell 5 is made with a cut 7 in the head part 1 and the tail part 3 open from the end 4 of the tail 3. Pa of the inner surface of the head part of the shell 5 at a distance LK from its slice 7 not exceeding 0.9 length Lro of the head part of the shell, grooves 8 of variable depth are made with decreasing towards the cut 7, the thickness of the shell 5 in the groove 8. The inner surface 9 of the shell 5 at its slice 7 is made cylindrical with a diameter equal to 0.35 h-0.8 of the maximum diameter deep of the central part of the core 6 and is conjugated with the inner animated surface of the head part 1 of the shell 5. Surface 10 the shell 5 at the front end of its slice 7 is made conical and mated with the lively outer surface of the head part 1 of the shell 5.

In the head part 1 of the bullet, the core 6 partially protrudes through the slice 7 from the shell 5 to a distance equal to 0.3h-0.7ё, where d is the caliber of the bullet. Moreover, the side surface 11 of the protruding part 12 of the core 6 is conjugated with the outer surface of the head part 1 of the shell 5 and at the top 13 passes either into a flat front spout or into a spout made in the form of a spherical segment.

The conical surface 10 of the shell 5 at the end of its slice 7, it is advisable to perform with a taper angle of 90 °.

During the installation of the bullet in a pre-stamped shell 5 with grooves 8 made on the inner surface of the shell in the head part 1 of the bullet, a lead core 6 is installed with external contours close to the profile of the inner surface of the shell 5. Moreover, in the head part of the pre-stamped core 6

a cylindrical conical protrusion was made with a diameter of the cylindrical part not exceeding the diameter of the inner cylindrical surface of the shell 5 at the slice 7. By means of profile dies, to which an axial pulling force is applied, the shell 5 is crimped and the plastic lead core 6 is deformed while the core top profile 11 is formed in its protruding parts and tail conical part 3 bullets. The shell 5 open on the tail side side allows for additional re-stamping of the core 8 for a denser installation by compressing lead to the ultimate state, which reduces the dispersion diameter of bullets along the flight path in the group of shots.

The conical tail portion 3 of the bullet ensures the retention of the core 6 in the shell 5 without dismantling the bullet from the effects of inertial loads when the bullet moves along the bore during a shot.

The above quantitative relations of the design of the bullet are optimal for increasing the range of reliable destruction of hunting targets.

The implementation of the inner surface of the shell 9 at its slice 7 with a diameter of less than 0.35 deep, although it provides reliable fixation of the core 6 from moving it relative to the shell 5 towards the side of the vertex 13, however, it is problematic from the point of view of technological execution and leads to marriage in the manufacture of the shell 5 and mounting a bullet. When the diameter of the inner surface of the shell 9 at its slice is more than 0.8 deep, the difference between the maximum diameter of the core deep and the diameter of the inner surface 9 of the shell at its slice becomes so small that the head of the shell 1, softened to the same by longitudinal grooves 8, It will not provide strong retention of the core 6 in the shell 5, which may affect, for example, when sending the cartridge from the magazine to the chamber of self-loading weapons.

The length of the longitudinal grooves 8 in the shell 5 should not exceed 0.9 the length of the head part 1 of the shell. With the length of the grooves 8 more than the specified length, the probability of dismantling the bullet during firing from the action of axial stresses in the shell and the frictional force of the shell against the surface of the barrel channel during firing appears.

The distance 0, .7 gauge, which protrudes the core 6 from the shell 5 on the one hand, is due to the technological capabilities of forming, from the point of view of aerodynamics, the optimal shape of the bow of the bullet to reduce its drag. On the other hand, the size of the protruding part of the core is due to the necessary expansiveness of the bullet during its operation.

The execution of the conical surface 10 of the shell 5 at the end face with an angle of 90 ° facilitates the coupling of the outer surfaces of the head part of the shell 5 and the protruding part of the core 6 when it is deformed.

When a bullet hits the target, at the first moment, before deformation begins without deformation, it penetrates into the animal tissue to the required depth, which is determined by the strength characteristics of the bullet, or rather the strength characteristics of the protruding part of the core 6 due to the fact that the core 6 is not covered by the sheath 5 on the tip side. However, due to kinetic energy under the influence of inertial loads of the core 6 and the reaction force of resistance from the side of the animal tissue, which is transmitted to the core 6, both axial and radial apryazheniya. Under the influence of radial stresses transmitted from the plastic lead core 6 to the shell 5, the latter in the zone of grooves 8, which are stress concentrators, is destroyed. After the destruction of the shell 5 in the area of the grooves 8, the head part 1 of the bullet is deformed. In this case, the bullet dramatically changes its shape and size, increasing the diameter of the cross section of the bullet.

depending on the purpose, the bullet is destroyed partially or completely, showing the required parameters of the defeat, which determine its lethal effect.

The proposed bullet design expands the range of cartridges and increases the possibility of choosing the cartridge necessary and suitable for the planned type of hunting, and from the technical point of view, it increases the likelihood of reliable destruction of the animal - the hunting object - at longer ranges than when shooting with the prototype, in the same initial conditions shots.

Claims (5)

1. The bullet of a hunting cartridge for a rifled weapon, having an animated head part, a leading part and a tail part, made in the form of a truncated cone tapering to the rear end, and containing a metal shell made with a cut in the head part and the tail part open from the end, and placed a lead core is pressed into it, and longitudinal grooves are made on the surface of the head part of the shell from its slice, characterized in that the inner surface of the shell at the slice is cylindrical with a diameter of explicitly 0.35-0.8 of the maximum diameter of the core and is conjugated with the inner vivid surface of the head of the shell, the surface of the shell at its front end is conical and conjugated with the vivid outer surface of the shell, and the core in the head of the bullet partially protrudes from the shell to a distance of 0 , 3-0.7 caliber bullet, and the lateral surface of the protruding part of the core is conjugated with the outer surface of the head part of the shell. 2. The bullet according to claim 1, characterized in that the conical surface of the shell at its front end is made with a taper angle of 90 ^o .  3. The bullet according to claim 1, characterized in that the protruding part of the core at the apex passes either into a flat front nose. or in a spout made in the form of a spherical segment.  4. The bullet according to claim 1, characterized in that the longitudinal grooves are made on the inner surface of the head of the shell at a distance from its end, not exceeding 0.9 of the length of the head of the shell. 5. The bullet according to claim 1 or 5, characterized in that the longitudinal grooves are made of variable depth with decreasing shear thickness of the shell in the groove.