RU2087842C1 - Hunting cartridge bullet for rifled weapon (variants) - Google Patents

Abstract

FIELD: bullets of hunting cartridges for rifled weapon. SUBSTANCE: in the first variant the bullet has an envelope and slug. The bullet head is made with envelope trimming in the point and free space under the cut, open on the side of the cut, and has longitudinal grooves on the envelope inner surface. The novelty in the bullet is the selection of optimum lengths of the bullet head and longitudinal grooves in the envelope, as well as of the depth of the free space and distance from the envelope trimming to the beginning of the longitudinal grooves. In the second variant the bullet has an envelope and a slug and jacket located in it at specified quantitative relations. In both variants of bullets a composite slug may be made. EFFECT: enhanced injurious effect. 4 cl, 4 dwg

Description

 The invention relates to bullets for hunting cartridges intended for firing from rifled weapons, especially to bullets that deform when exposed to animal tissue.

 For the shooting of animals that are objects of hunting, cartridges with bullets deforming and non-deforming are used. Deformation of a bullet when it enters an animal occurs due to the lower strength characteristics of the head relative to the leading and tail parts. This distinguishes semi-shell bullets (a.s. N 328319, USSR), with notched shells (US Pat. Nos. 3,138,102 and 3,143,966), with longitudinal and annular grooves (US Pat. No. 3,426,685), with a cavity in the apex (US Pat. No. 3,157,137) . A common disadvantage of these known bullets is the relatively small range of reliable destruction.

 The bullet is also known according to the patent of the USSR N 1753962. The bullet consists of a shell and a shirt and a core placed in it and contains parts: head, lead and tail. The bullet head has a sheared shell at the apex, a free volume in front of the front end of the shirt, open on the cut side, and longitudinal grooves of variable depth located from the cut on the inside of the shell, with a decrease in shell thickness in the grooves in the cut direction. The positive quality of the bullet according to the specified patent, the range of reliable destruction is increased by 2 3 times when compared with bullets, for example semi-shell, in the case of firing with the same initial conditions of the shot. But, as the practice of using this bullet showed, the calculations and tests performed when shooting large animals with a relatively thick skin-wool coat and a fat subcutaneous layer (bear, wild boar, elk, relatively large marine animals, etc.), as well as shooting animals of smaller mass (reindeer, mountain goat, etc.) with the indicated bullets with a shell of softer (plastic) materials tompac, cupronickel - the lethal effect and stopping effect are often insufficient, resulting in an increased probability of Lenia podranennyh animals. The insufficient efficiency of this bullet is due to the fact that the combination of the length of the head part and the location of the longitudinal grooves softening the head provide a relative strength of the head part of such a level that the deformation of the bullet under the influence of inertial braking loads arising from impact on animal tissue and resistance reaction forces from tissue on the bullet comes almost battle with the beginning of the penetration of the bullet into the tissue, the shell and the bullet’s shirt as they pass through the tissues of the animal destroy This occurs in the area of relatively shallow penetration into the tissues, as a result of which a significant part of the energy is expended before the bullet penetrates the vital organs of the animal. An increase in the mass or velocity of a bullet with the same caliber results in an increase in energy, and when such a bullet meets an animal, an object of hunting, the reaction force increases in resistance to moving the bullet through the animal’s tissues, which also increases the tensile force deforming the bullet’s head, those. with the available parameters of the shot, it is possible to increase the strength of the bullet head while maintaining a stable deformation of the bullet at firing ranges used in hunting practice: usually up to 300 m, but can be even more, and increasing the parameters of the bullet's impact on the target.

With increasing mass of the bullet due to the greater length of the warhead relative to the caliber, the aerodynamic properties of the bullet improve. As a result, the flight time of the bullet between certain points on the trajectory decreases, i.e. the difference in speeds measured at these two points decreases: V ₂₅ V ₁₀₀ , V ₂₅ - V ₂₀₀ , etc. This means that the loss of kinetic energy on the trajectory decreases, the trajectory of the bullet becomes more flat, the range of the direct shot and the range of the bullet increase.

 For firing to extreme ranges of reliable destruction, improving the aerodynamic qualities of the aforementioned bullet according to USSR patent N 1753962 is necessary, but subject to the dispersion of bullets along the trajectory for a group of shots within the recommended limits. Improving the aerodynamic properties of the bullet also contributes to an increase in the stopping effect of the bullet, determined by the impact of the shock state on the animal's body, since it causes an increase in the speed of deformation of the bullet in the animal's tissues.

 For firing at relatively small ranges at particularly large and dangerous animals, a bullet with high energy properties that provide reliable damage should have a small length in the head relative to the caliber when it penetrates deep into the animal’s tissue before deformation and has a high stopping effect, for example, the well-known bullet "Solid".

 Thus, the operation of the bullet, the specific execution of which is made according to the patent N 1753962, showed the need to improve it and possible ways for this.

 The bullet according to patent N 1753962 contains three elements: a metal shell and a lead jacket placed therein and a steel core, and the above semi-shell bullets contain two elements: a metal shell and a lead core. Also known are bullets in which the core is made integral, with one part of the core located behind the other and both parts are placed in the shell. At the same time, the shell in bullets with a composite core can be made both open from the apex side and closed from the tail end, and seamless, open from the tail end of the bullet. For example, bullets such as KS from Dynamit Nobel, Brenneke-Torpedo-Universal, Brenneke-Torpedo-Ideal have a composite core.

 The design of the bullet according to patent N 1753962 adopted as a prototype of the invention.

 The aim of the invention is to increase the efficiency of shooting, namely: increasing the lethal effect of the bullet, stopping effect, penetrating ability and range of reliable destruction when dispersing bullets along the trajectory for groups of shots within the recommended limits.

 This goal is achieved due to the fact that in the pool according to the first embodiment, containing the shell and the core placed in it and having a head part with a sheath of the sheath at the apex and free volume under the shear, open from the side of the shear, as well as the leading and tail parts, Longitudinal grooves are made on the inner surface of the head of the shell; according to the invention, the head has a length of not more than 3.5 calibers, the depth of the free volume is not more than 1.0 calibers, the beginning of the grooves is located at a distance of not more than 2.0 calibers from eza shell, and the length of the grooves is 0.1 3.5 caliber.

 According to a second embodiment of the invention, the bullet comprises a shell and a jacket and a core placed therein at the indicated quantitative ratios.

 In both versions of the bullets, the core can be made composite.

 Figure 1 shows a General view of the bullet containing the shell and placed in it the core; figure 2 General view of the bullet containing the shell and placed in it a shirt and core; figure 3 General view of the bullet containing the shell and placed in it a composite core; figure 4 is a General view of the bullet containing the shell and placed in it a shirt and a composite core.

In the drawings, the following notation: L _{1 the} length of the bullet head; L _{2 the} depth of the free volume in the pool; L ₃ is the distance from the cut of the shell at the tip of the bullet to the beginning of the longitudinal grooves; L _{4 the} length of the longitudinal grooves on the inner surface of the head of the shell of the bullet; d caliber.

 The bullet of FIG. 1 contains a shell 1 and a core 2 located therein. The shell at the apex has a slice. The head part of the bullet has a length of not more than 3.5 caliber and is made with a free volume open from the side of the cut. The depth of the free volume does not exceed 1.0 caliber. The front end of the core is the bottom of the free volume. On the inner surface of the head of the shell, along a length of 0.1 to 3.5 gauges, there are longitudinal grooves, as shown in FIG. 1, of variable depth with decreasing shear thickness of the shell in the groove. Grooves begin at a distance of not more than 2.0 calibers from the cut of the shell. The leading part of the bullet is made smooth, but if necessary, may have a transverse groove, used in cases of crimping or rolling of the section of the barrel of the sleeve during the installation of the cartridge. The tail portion can be of any shape that ensures the core is retained in the shell without dismantling the bullet from inertial loads when the bullet moves along the bore during a shot.

 The bullet shown in Fig. 2 contains a shell 1, a core 2 and a shirt 3, i.e., differs from the bullet in Fig. 1 by the presence of a shirt, which enables the bullet to cut into the grooves of the barrel channel and reduces the abrasion of the surface of the barrel channel in cases when the core has a relatively low ductility and relatively high hardness of the material (for example, a steel core). The shirt material is usually lead, plastic. The front end of the core can be closed with a shirt (as shown in figure 2) or not closed with it. A core with enhanced strength characteristics is required for deeper penetration into animal tissue with a devastating effect on bone tissue. According to other design features, the bullet of FIG. 2 does not differ from the bullet of the first embodiment (FIG. 1).

 In both versions of the bullets, the core can be made composite (Fig.3 and 4), i.e. consist of several parts (pos. 2 and 4), for example, of two located one after another. The core composition, design, size, weight and material of its constituent parts, plasticity and hardness of the material are selected depending on the purpose of the bullet with a deformable warhead or completely collapsing when passing through the tissues of an animal, a bullet with increased aerodynamic qualities for firing in open areas (steppe , tundra, etc.) or with a high stopping effect at relatively short ranges (forest area, shooting at large and dangerous animals), etc.

 The above quantitative ratios according to the invention are optimal to ensure improved firing efficiency, confirmed by theoretical and experimental studies and tests and selected from the following conditions.

For L ₁ > 3.5d and for L ₂ > 1.0d, the value of the bullet stability margin, which should have a value of 0.75 0.85 to ensure the gyroscopic stability of the bullet on the trajectory, goes beyond the set values, which leads to loss of stability bullets on the trajectory, increases the diameter of the dispersion of bullets on the trajectory in the group of shots, reduces the aerodynamic quality of the bullet, increases the energy loss of the bullet on the trajectory and does not meet the purpose of the invention. In addition, at L ₁ > 3,5d, the manufacturability of the bullet is significantly reduced.

The smallest values of L ₁ , L ₂ and L _{3 are} not set and are selected for a specific design of the bullet depending on its purpose, stiffness of the head part, the required penetration depth into the tissue of the animal before deformation and the required aerodynamic qualities in conjunction with the mass of the bullet and stability along the trajectory .

For example, as shown by the analysis of the results of research and testing, in a pool having a larger mass than the prototype, with the same gauge, grooves directly at the cut of the shell [L ₃ = 0,0 d] leads to a decrease in the relative rigidity of the head, which when struck on the animal’s tissues from the influence of resistance forces and inertial braking loads, the bullet is deformed from the very beginning of penetration into the animal’s tissues, although such bullets can be used to shoot so-called “red game” [European deer, fallow deer, etc.

When L ₃ > 2.0d, the strength of the warhead increases to the extent that the kinetic energy does not provide the required breaking force to deform the bullet when it hits the target at long ranges, the range of reliable damage decreases, i.e. the object of the invention is not achieved.

When the groove length L ₄ <0.1d, the stiffness of the bullet head also increases to a degree that reduces the firing range, at which a stable deformation of the bullet from its impact on the target is observed.

Increasing the length of the grooves ₄ before L> 3,5d leads to the output grooves in the leading part, reduce the strength characteristics of the shell, and hence the possibility of dismantling bullets while passing through the rifling of the barrel from the effects of stress occurring due to pressure on the shell faces combat rifling. Dismantling bullets dramatically reduces firing efficiency and is an unacceptable deviation from the norm.

 The presence of a composite core in the pool (FIGS. 3 and 4) does not change the nature of the onset of bullet deformation upon meeting with the tissues of the animal, although the presence of, for example, a steel core or a steel component increases its penetrating ability.

 It should also be added that the quantitative relations in the inventive bullets of Fig.1 to 4 in comparison with the prototype can increase the range of limit values of the mass of the bullet for any of the common in practice calibers of bullets for hunting cartridges.

 The claimed designs of bullets with a weakened warhead and free volume in it significantly expand the capabilities of the hunter’s consumer: they provide highly effective firing results both at small and at firing ranges extremely used in hunting. So, according to the calculated and experimentally confirmed data, the design pools of Fig. 1, used in the experimental hunting cartridge 7.62 x 51 and having a mass of 9.7 13.0 g, retain the lethal effect up to 500 600 m when shooting an animal weighing up to 200 kg (at shorter ranges, the mass of the shot animal increases significantly) with the average maximum pressure of the powder gases as a result of the shot being 18% lower than the established PMK of the Brussels Convention for the similar cartridge .308 Winchester. At the same time, the dispersion cross-section of bullets at a distance of 100 m was reduced by 44–55% when compared with half-shell bullets of the standard cartridge 7.62 x 51, A GOST 21169-75 and almost 2 times when compared with the prototype cartridge 7.62 x 39 8, CRAG . 771882. 004 TU, serially manufactured by industry (comparison with the results of acceptance tests of quality control of serial batches); the speed of exposure to damaging factors in the initial stage of bullet deformation when it enters soft tissues is increased, and the beginning of bullet deformation occurs after some deepening in a mastic target that mimics the soft tissues of an animal, and the lethal effect of bullets is increased when compared to semi-shell serial bullets of 7.62 x 51 , A GOST 21169-75. So, at a distance of 300 m, the total area of the mastic target’s lesion with the bullet of the experimental cartridge is almost 20% larger and the volume of the bullet channel is 50%. Comparative firing of bullets according to this invention and half-shell serial was carried out under the same initial conditions of the shot.

 Bullets for hunting cartridges, the execution of which was carried out using a combination of features within the stated quantitative relations for each of the claimed designs, by the magnitude of the hydrodynamic effect on the tissues of the animal and the parameters of the wound canal in combination with the bursting, fragmentation (with at least partial destruction of the bullet in the tissues of the animal) and energy properties, depending on the specific design, will provide for the shooting of large, medium and relatively m Christmas animals.

Claims (4)

 1. A bullet for a hunting cartridge for a rifled weapon, comprising a shell and a core placed therein and having a head part with a cut of the shell at the apex and a free volume under the slice open from the cut side, as well as a lead and tail part, and on the inner surface of the head part of the shell longitudinal grooves are made, characterized in that the head part has a length of not more than 3.5 calibers, the depth of the free volume is not more than 1.0 caliber, the beginning of the grooves is located at a distance of not more than 2.0 calibers from the sheath cut at the apex, and the length of the grooves is 0.1 to 3.5 caliber.  2. The bullet according to claim 1, characterized in that the core is made integral.  3. A bullet for a hunting rifle cartridge cartridge containing a shell and a core and a shirt placed therein and having a head part with a shell section at the apex and free volume under the section open from the side of the section, as well as a leading and tail section, and on the inner surface of the head part of the shell is made of longitudinal grooves, characterized in that the head part has a length of not more than 3.5 calibers, the depth of the free volume is not more than 1.0 calibers, the beginning of the grooves is located at a distance of not more than 2.0 calibers from the cut of the shell in top, and the length of the grooves is 0.1 to 3.5 caliber.  4. The bullet according to claim 3, characterized in that the core is made integral.

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