RU2601699C1 - Bullet - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to bullets of hunting cartridges for rifled weapon firing at animal weighing more than 100 kg, mainly of gross representatives of Big African Five, as well as a bear, a moose, a boar, etc. Bullet includes a head and a tail cores sequentially arranged in a shell having an ogival nose part adjacent to the head core, a leading part and a skewed at an angle rear part adjacent to the tail core, and prior to the head core there is a cavity. Head core has a Brinell hardness value smaller than that of the tail core, herewith the ratio of their masses is 0.53-0.58 and that of the specific weights is 1.05-0.95. Bullet provides high precision and maximum penetration and expanding action.

EFFECT: invention enables higher efficiency of firing at optimal for this type of hunting distance and reducing the number of wounded animals.

1 cl, 1 dwg

Description

The invention relates to the field of small arms ammunition, in particular to bullets for hunting cartridges intended for firing rifled weapons at animals weighing well above 100 kg, mainly from among large representatives of the big African five, as well as a bear, elk, wild boar, etc.

For the shooting of such animals, cartridges with deformed and non-deformed bullets are used, and, due to the specifics of this type of hunting, mainly large calibers. Due to the widespread use of high-precision rifled hunting weapons equipped with optical sights, the range of the aimed shot and the probability of hitting the aiming point have increased significantly, which requires the use of hunting cartridges with bullets that are not inferior to sniper ballistic characteristics. In this case, the bullet should have a guaranteed lethal effect when it enters both soft and bone tissues, thereby reducing the likelihood of injured animals.

Semi-shell deformable hunting bullets are known (see, for example, RF patents Nos. 328319, 2100768, 2071028, etc.) containing a shell and a lead core and made with exposure of lead in the head, as well as bullets with a cut or weakening of the head of the shell ( see, for example, patents of the Russian Federation No. 2003033, 2087842, 2141096, etc.) containing a shell and a conventional or composite core installed in it, while the head of the shell is weakened by cuts, longitudinal and annular grooves, a vertex cut, etc.

Bullets of the aforementioned designs, having a significant value of expansive (stopping) action, do not have a sufficiently high accuracy and, in addition, bullet deformation occurs in the initial section of the wound canal, almost immediately after being hit, which when hunting animals with a thick skin-wool coat or when hit in bone tissue does not provide a fatal lesion and leads to the appearance of wounded animals.

Non-deformable shell bullets are known (see, for example, hunting 7.62 × 51, Extra, etc.) containing a shell and a core; sniper bullets are also known (see, for example, RF Patent Nos. 2075036, 2133441, 2183007 and others) containing a shell with sequentially placed steel and lead cores in it.

Due to the optimal outward ballistic solution, these bullets have high accuracy in terms of accuracy, good penetration, but have a weak stopping effect, insufficient for the fatal defeat of the animal, which increases the likelihood of wounded animals.

Known two-element hunting bullets (see, for example, patents RF No. 2228507, 2544445, etc.) having head and tail cores installed in the shell, while the hardness of the head exceeds the hardness of the tail core. This design allows you to fulfill the conditions for an optimal ballistic solution at the level of a sniper cartridge, to obtain a sufficiently high value of penetration, but does not provide a sufficient amount of stopping power.

The closest of the analogues, in terms of essential features, is a bullet according to US patent No. 461920, containing the head and tail cores (the hardness of the head exceeds the hardness of the tail core) installed in a shell having an animate part adjacent to the head core and forming a cavity leading to it the part and the back part slanted at an angle adjacent to the tail core.

Within the framework of this technical solution, it is possible to obtain the necessary value of accuracy, while a bullet, meeting bone tissue, reliably pierces it with the head core, while the tail core is deformed in the radial direction, which allows the remaining kinetic energy to be transmitted to the surface of the barrier, thereby enhancing the damaging effect. The disadvantage of this bullet is that it has a weak expansive effect and, if it enters soft tissues, can pass through and not cause fatal damage to the animal.

The objective of the invention is to develop a bullet that provides high accuracy and maximum breakdown and expansive action in the event of contact with the soft and bone tissues of the animal, with the obtaining of a technical result in the form of increasing the effectiveness of a shot at an optimal distance for this type of hunting and reducing the number of wounded animals .

The problem is solved due to the fact that in the well-known pool containing the head and tail cores, sequentially installed in a shell having a lively nose, adjacent to the head core and forming a cavity in front of it, the leading part and the back part adjacent to the tail, angled at an angle core, the head core is made with Brinell hardness less than the hardness of the tail core, while their mass ratio is m ₁ / m ₂ = (0.53-0.58), and specific gravity γ ₁ / γ ₂ = (1 , 05-0,95) where γ ₁ and m ₁ mass and ude ny weight of the head core, and m ₂ and γ ₂ and the weight proportion of the tail core.

In the existing designs of bullets, this set of essential features has not been identified, which allows us to consider this technical solution to meet the criterion of "novelty."

The design of modern hunting cartridges is developing in the direction of ensuring the possibility of guaranteed destruction of the hunting object at any, including maximum distances, which makes increased demands on the lethal action and accuracy of bullets.

An analysis of known technical solutions shows that half-shell bullets provide a sufficiently high lethal effect, but do not have the necessary accuracy, while shells made as part of an optimal ballistic solution can provide the required accuracy and sufficient penetration, but do not have the required lethal effect, due to the weak expansive effect.

In the present invention, the head core is made less Brinell hard than the tail core, which makes it possible to give the shell pool a tangible expansive effect typical of a half-shell, while maintaining sufficient penetrating ability, in addition, the presence of a cavity in the bullet head and the ability to vary core characteristics (mass ratio and specific gravity, and, accordingly, the location of the center of mass), provide the prerequisites for fulfilling the conditions for an optimal ballistic solution and to obtain niya necessary accuracy.

Lead, annealed copper, tin, etc. can be used as the material of the head core; steel, hard alloys, lead with a high antimony content, etc. can be used for the tail core.

The claimed combination of distinctive features in the sources of patent and scientific and technical information is not found, which allows us to consider this technical solution satisfying the criterion of "inventive step".

In the drawing (Fig. 1) shows a General view of the bullet,

The bullet contains a Brinell less hard head 1 and tail 2 cores, sequentially installed in the shell 3, which has an animated nose 4 adjacent to the head core 1 and forming a cavity 5 in front of it, the leading part 6 and the rear part 7 beveled at an angle adjacent to tail core 2.

Hitting the target, the proposed bullet, having a sufficiently strong tip of the shell 3, overcomes the skin-wool cover and the fat subcutaneous layer, without undergoing a significant change in geometric characteristics and providing the necessary penetrating ability. As the bullet moves along the wound canal, the nasal part of the sheath 4, under the influence of inertial inhibition loads arising from an impact on the soft tissues of the animal, is crushed in the form of a corrugation due to the presence of a cavity 5, increasing the reaction force from the side of the tissue to the bullet, while the soft core 1, is deformed in the radial direction, destroys the shell 4 and, continuing to increase in diameter, provides the appearance of an expansive effect initiating the occurrence of a hydrodynamic shock wave (about it is generally accepted to consider biological tissues as a fluid-filled medium) directed along the axis of the bullet’s movement. The bullet produces an expansive effect, being deep enough in the soft tissues, and the shock wave is more likely to cause lethal damage to the vital organs of the animal, excluding the appearance of wounded animals.

When it enters the bone tissue, the head core 1 is defragmented, and the harder core 2 breaks through the obstacle and affects the vital organs of the animal located behind the bone tissue.

These significant features are interrelated and a change in any of them leads to a decrease in the characteristics of the bullet.

Brinell hardness of the head core is less than the tail.

In case of failure to comply with this requirement, the conditions for creating the maximum possible expansive action are significantly reduced or disappear.

The ratio of the mass of the head core to the mass of the tail is m ₁ / m ₂ = (0.53-0.58).

When the ratio is less than 0.53, the location of the center of mass changes, which worsens the accuracy, an increase of more than 0.58 increases the defragmentation time of the head core, which reduces the breakdown ability of the tail.

The ratio of the specific gravity of the head core to the specific gravity of the tail is γ ₁ / γ ₂ = (1.05-0.95).

With a ratio of more than 1.05, early defragmentation of the head core is possible, which reduces the expansive effect, a ratio of less than 0.95 leads to a loss of accuracy.

In the process of testing the design, comparative tests were carried out by firing cartridges with the proposed bullet at mastic targets simulating the soft and bone tissues of an animal. Tests have shown that a bullet of the proposed design, when it enters soft tissues, creates, in comparison with semi-hollowed ones, a longer wound canal with a large volume of the affected area, while the diameter of the head core increases by 1.8-1.9 times, which ensures a dynamic the transfer of kinetic energy in volumes sufficient to create the necessary expansive effect in biological tissues and to initiate the occurrence of a shock wave, which lethally affects the activity of vital organs falling into its air action. When it enters the bone tissue, the head core collapses, while a harder tail core breaks through the obstacle and creates a through transcendental wound channel, affecting the animal’s organs located behind the bone tissue.

When firing from a ballistic barrel at a distance of 300 meters, the proposed bullet showed the accuracy of P _cf = 8 cm, which is very close to the accuracy of cartridges 7H1 and OX 7.62 × 51 "Extra".

The design of the bullet allows its production to use technological processes traditional for mass production, which, together with the foregoing, confirms the compliance of the invention with the criterion of "industrial applicability".

Claims (1)

A bullet containing a head and a tail core, sequentially installed in a shell having a lively nose adjacent to the head core, a leading portion and an oblique back portion adjacent to the tail core, and a cavity is located in front of the head core, characterized in that the head core has a Brinell hardness value less than the tail core, with a mass ratio of 0.53-0.58, and a specific gravity of 1.05-0.95.

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