RU2347175C2 - Finned-arrow bullet fins - Google Patents

Abstract

FIELD: weaponry.

SUBSTANCE: invention relates to ammunition, particularly to cast finned-arrow bullets for smoothbore fowling pieces. The fins cylindrical part has a bore for the bullet central rod, while the fins front face accommodates a cylindrical ledge. The fins body center is furnished with 8 ribs-ledges, while of the fins tail a gas skirt is made. Right below the aforesaid ledges, two compression flanges are arranged, while below the fins an aerodynamic cone is furnished, its center accommodating a semi-sphere-shaped ledge.

EFFECT: higher.

7 cl, 1 dwg

Description

The invention relates to the field of ammunition, and in particular to the field of design, manufacture and use of single shells that are projected using a powder charge, and can be used when throwing single shells from smoothbore handguns, in the preferred embodiment, to bullet firing from smoothbore hunting weapons.

The most used at the moment when hunting a dangerous beast are arrow bullets. The bullets of the switch group are designed as a very short arrow. Unlike other types of bullets, they have a light stabilizer shank designed for self-orientation of a bullet in flight after departure from a gun barrel.

In the simplest version (see V.P. Kostenko. Bullets for smooth-bore hunting weapons. Reutov, “Era” publishing house, 2003, p. 11), a stabilizer tail (in particular, for all variants of the Shirinsky-Shikhmatov arrow bullet) It was a salted more ordinary wad, mounted on a round leg, which is an extension of the bottom of the bullet.

A disadvantage of the known stabilizer shank is the insufficient stabilization of the bullet in flight, leading to a deterioration in the accuracy of the battle.

Similarly arranged (ibid., P. 78) is the shank-stabilizer of the Yakan arrow bullet, which has the same disadvantages.

The Brenneke arrow bullet (ibid., P. 79) as a stabilizer shank initially contained a set of three wads, screwed to the bottom of the bullet. Currently, the Brenneke arrow bullet is industrially produced with polyethylene stabilizer shanks of various designs, but all of them have a plumage, the blades of which are oriented at an angle to the axis of the bullet. The polyethylene stabilizer shank can be pressed into the body of a bullet or mounted on a lead rod protruding from its bottom.

The disadvantage of the arrow bullet Brenneke should recognize the low accuracy of the battle, especially when using smokeless gunpowder.

Ilyin's arrow bullet (“VVOO-Ilyina”) (SU copyright 201161) contains a lightweight polyethylene three-blade stabilizer shank pressed into the bullet’s body. The stabilizer shank in the upper part contains a centering girdle, and on its surface these blades are parallel to the axis.

A disadvantage of the known stabilizer shank should be recognized as its mechanical fragility, leading to crushing of the stabilizer shank during firing, leading to an unpredictable change in the trajectory of the bullet.

Also known (ibid., P. 83) is the stabilizer shank to the Vyatka switch pool. The specified shank - stabilizer is made in the form of a wad of polyethylene, attached by means of a rod emerging from the bottom of the bullet to the bottom of the bullet. The specified plastic wad contains a Central hole designed to be worn on the specified rod.

A disadvantage of the known stabilizer shank should be recognized as the complexity of the correct choice of the thickness of the wad cartridge used for equipping, which, ultimately, leads to a deterioration in the accuracy of hits.

Also known (SU copyright certificate 1141293) is the stabilizer shank for the Polev field arrow bullet. The well-known stabilizer shank is made of high density polyethylene, in the front cylindrical part of it there is a hole for the central shaft of the bullet, at the front end of the stabilizer shank there is a cylindrical protrusion designed for rolling bullet material deformed during firing. Eight protrusions-ribs are made on the lower part of the stabilizer shank, in which one face is located at an angle to the longitudinal axis, and the second face is parallel to it. An obturation skirt is made at the end of the stabilizer shank.

A disadvantage of the known stabilizer shank is the dependence of the factors stabilizing the flight of the bullet on the conditions of the equipment of the cartridge.

The technical problem solved by the present invention is to develop a universal shank-stabilizer arrow bullets for smoothbore guns.

The technical result obtained by the implementation of the developed technical solution consists in increasing the accuracy of shooting.

To achieve the specified technical result, it is proposed to use a stabilizer shank made of high density polyethylene, while in its front cylindrical part a hole is made for the central rod of the bullet, a cylindrical protrusion is made at the front end for rolling the bullet when it is deformed during firing, and protrusions made in the form of ribs, and from the side of the end made obturation skirt. The middle part of the stabilizer shank is made with a diameter equal to the diameter of the shell sleeve, the said protrusions are located in the middle of the stabilizer shank on one side of the longitudinally vertical axis of the stabilizer shank, and the other at an angle of 6-17 ° to the axis of the stabilizer shank, below the protrusions, at least one compression girdle with a diameter greater than the diameter of the stabilizer shaft, the obturating skirt is made with a cavity located at an acute angle to the center of the stabilizer shaft, cr minutes obtyuriruyuschey skirt located below the compression belt, and in the lower part of the shank-formed stabilizer aerodynamic cone, which is located in the center protrusion formed in the form of a hemisphere.

In a preferred embodiment, said rib ribs are located on one side of the longitudinally vertical axis of the stabilizer shaft and the other at an angle of 11 ° to the bullet axis. Advantageously, each compression girdle in diameter exceeds by 0.2 mm the diameter of the stabilizer shank. Typically, the edge of the obturating skirt contains a cavity, mainly 3 mm deep, at an angle of 20 ° to the center of the stabilizer shank. In a preferred embodiment, the aerodynamic cone is 45% of the caliber diameter and 63% of the caliber diameter in the lower part, and the hemisphere protrusion is 10% of the caliber diameter and with a base diameter of 37% of the caliber diameter.

In a preferred embodiment, the stabilizer shank is made of high density polyethylene. In its front part, a hole is made to accommodate the central rod of the bullet. At the end of the front of the stabilizer shank, a protrusion is made for rolling a bullet body deformed as a result of a shot and accelerated movement in the barrel channel. In the middle part of the shank, the diameter of which is equal to the diameter of the shell of the equipped cartridge, there are 8 ribs-protrusions located on one side longitudinally to the vertical axis of the bullet, and the other (preferably left) side - at an angle of 11 ° to the axis of the stabilizer shank. A similar implementation of the rib projections is intended to impart rotation to the bullet in flight. Below the rib protrusions are two compression bands, the diameter of which exceeds the diameter of the stabilizer shank by 0.2 mm. Below the compression belts is the edge of the obturating skirt, which has a depression at an angle of 20 ° to the center of the shank to a depth of 3 mm, which provides reliable obturation in the sleeve and barrel during the shot. An aerodynamic cone with a height of 45% of the caliber diameter and a diameter of 63% of the caliber diameter in the lower part is made in the lower part of the shank. In the center of the aerodynamic cone is a hemisphere protrusion 10% high from the diameter of the caliber and with a diameter of the base equal to 37% of the diameter of the caliber.

The drawing shows the stabilizer shank, with the following notation: socket 1 for the bullet rod, shock absorbing protrusion 2, cavity 3, protrusion 4 for expanding the bullet, place 5 for fixing containers to accommodate the bullet when the cartridge is equipped, rib ribs 6, the first compression girdle 7, body 8 of the stabilizer shank, second compression girdle 9, obturator skirt 10, aerodynamic cone 11, hemisphere protrusion 12.

The developed type of stabilizer shank is fundamentally new. The stabilizer shank described above creates a number of advantages when shooting from smooth-bore weapons.

When a bullet is fired, after it leaves the barrel for a distance equal to 25 calibers, powder gases act at a speed of 1,500 m / s and try to “knock over” the lighter shank of any arrow type bullet. The resulting lateral impulses are not predictable in the direction vector and are the main reason that reduces the accuracy of the battle and the accuracy of shooting, respectively, which often depends not only on the shooter’s lootiness, but also his life itself.

The developed stabilizer shank additionally contains an aerodynamic cone that performs two very important functions.

Firstly, the specified aerodynamic cone cuts through the gases generated by the combustion of gunpowder after the bullet and stabilizer shank leave the barrel of a smoothbore gun, greatly reducing the overturning effect and reducing the impact of side impact pulses, which positively affects the accuracy of shooting. So, in particular, when shooting from a machine gun from a 16-gauge smoothbore gun at a distance of 50 meters, seven bullets equipped with a developed stabilizer shank fit into a circle with a diameter of 0.06 m. This accuracy is normal for passport characteristics only for some rifled guns and hunting fittings. In a similar situation, when firing at 100 meters, five bullets fall into a circle with a diameter of 0.15 m, which is more than an excellent indicator. For comparison, the widely used Poleva bullet under similar conditions at a distance of 100 m provides a dispersion of 0.37 m.

Secondly, a rarefaction zone arises behind the bullet in flight - one of the main factors affecting the rapid loss of the kinetic energy of the bullet, which is stronger the closer the bullet is to subsonic speed. When firing using the developed stabilizer shank, the bullet speed and, accordingly, kinetic energy are reduced 25% slower than any known type of bullet shells equipped with known stabilizer shanks, which makes the bullet’s flight path more stable and, accordingly, facilitates aiming correction when long and ultra-long shots. In particular, a bullet with a developed stabilizer shank allows you to shoot without corrections at a distance of 75 meters - the range of a direct shot. This statement was verified by firing a 16-caliber bullet weighing 30.0 g with a Sokol gunpowder charge of 1.85 g.

Equipment cartridge when using the developed stabilizer shank has no features. The shank with the equipment of the cartridge is lowered directly onto the powder. In the cartridge, the bullet is centered by a container consisting of two parts flying away from the bullet at the time of departure from the barrel.

An additional advantage of the developed stabilizer shank should be the presence of a stabilizer shank, designed for the bullet shaft, in the vertical hole, a protrusion that acts as a shock absorber at the initial moment of the bullet movement and reduces the bullet deformation while reducing recoil. The indicated advantage allows the use of a charge of the Magnum type.

Using the developed stabilizer shank allows more than double the accuracy of firing, even in shrubs and high grass stands.

Claims (7)

1. The stabilizer shank for the arrow bullet, made of high density polyethylene and made in the form of a cylinder, in the front cylindrical part of which a hole is made for the central rod of the bullet, a cylindrical protrusion designed to roll the body of the bullet when it is deformed when fired, and protrusions made in the form of ribs, and from the side of the end there is an obturating skirt, characterized in that the middle part of the stabilizer shank is made with a diameter equal to the diameter of the sleeve of the equipped cartridge, mentioned in The protrusions are located in the middle part of the stabilizer shaft with one side longitudinally to the axis of the stabilizer shaft, and the other at an angle of 6-17 ° to the axis of the stabilizer shaft, at least one compression band with a diameter exceeding the diameter of the stabilizer shaft is made below the protrusions, the obturating skirt is made with a cavity located at an acute angle to the center of the stabilizer shaft, the edge of the obturating skirt is located below the compression belt, and an aerodynamic body is made in the lower part of the stabilizer shaft nus, in the center of which there is a protrusion made in the form of a hemisphere. 2. The stabilizer shank according to claim 1, characterized in that said protrusions are located on one side longitudinally to the axis of the stabilizer shank, and the other at an angle of 11 ° to the axis of the stabilizer shank. 3. The stabilizer shank according to claim 1, characterized in that the number of compression bands is equal to two. 4. The stabilizer shank according to claim 1, characterized in that the diameter of the compression belt exceeds the diameter of the stabilizer shank by 0.2 mm. 5. The stabilizer shank according to claim 1, characterized in that the cavity of the obturating skirt is located at an angle of 20 ° to the center of the stabilizer shank. 6. The stabilizer shank according to claim 5, characterized in that the depth of the cavity is 3 mm 7. The stabilizer shank according to claim 1, characterized in that the hemisphere height is 10% of the caliber diameter and the base diameter is 37% of the caliber diameter.