RU2597260C1 - Gyroscopic bullet "whipping-top" for shooting from smooth-bore weapon - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to hunting bullets and is intended for firing at big game from smooth-bore weapon. Bullet comprises a hollow casing inside of which with help of steel bearing is installed with possibility of rotation of oncoming air rotor, on which there is an additional element in form of three blades. Housing of bullet is made of plastic, and inner cavity of casing in upper part is cylindrical and has stepped transition to narrowing in lower part in form of truncated cone. Diameter of casing is 0.1-0.4 mm larger than diameter of gun barrel. Rotor is made in form of a solid cylinder made of brass. On its upper part in cylindrical part of casing there are series and symmetrically along circumference of three blades in form of three-dimensional polygonal lobes with cylindrical outer surface and sharp outer edges. Making part of cavity in casing cylindrical enables to place massive rotor blades therein, due to which rotor is spun from flow of oncoming air relative to external plastic casing of bullet, and narrowing to lower part in form of truncated cone creates a dense air jet, performing role of guide which additionally stabilises motion of bullet. Upon hitting target it splits into components, thereby increasing hitting effect. Making casing from plastic and with larger outer diameter than diameter of barrel, considerably reduces friction force during passage of bullet through barrel and increases muzzle velocity. During movement of bullet and rotation of rotor massive rotor blades feed oncoming air to bearing balls and rotate it, due to which bearing spins outer and inner parts of bullet in different directions, creating a gyroscopic effect, which allows bullet to retain stable balance throughout flight of bullet. During firing through reed, cane, fine shrub sharp outer edges of blades rotating rotor cut off obstacle, which reduces ricochet.

EFFECT: invention allows to create a bullet, not requiring additional control, providing firing range and shooting accuracy.

1 cl, 6 dwg

Description

The invention relates to hunting bullets and is intended for firing at a large beast from smooth-bore weapons.

Currently, there are a variety of bullets for smooth-bore weapons that have certain advantages and well-known disadvantages: they do not have sufficiently high accuracy when firing at a distance of more than 100 meters, some because they are deformed in the barrel when fired, while others quickly lose their energy due to counter air resistance.

So, the bullet described in A.S. is known USSR No. 221542 according to class F42b 11.17.66, op. 07/01/68.

The well-known turbine-type bullet for smooth-bore hunting rifles contains a continuous conical body with a gauge bottom and turbine blades made with a cylindrical caliber fairing, the length of its generatrix being less than the length of the blades.

The disadvantage of the bullet is the complexity of the design.

Known bullet "wasp" for smooth-bore weapons, described in p. RF №2465549 class. F42B 30/02, z. 05/23/2011, op. 10/27/12

The well-known subcaliber arrow type stabilization bullet contains two parts - the leading striking part made of a solid lead alloy in the form of sequentially conjugated hemispherical head fairing and a cylindrical bullet body having an end support cone and a central mounting hole;

- the tail stabilizing part made of plastic in the form of a thin tapering rod with a long cone and a cross-shaped stabilizer at the end, and from the side of the abutment of the rod to the head part, the rod is provided with a central mounting hole, while the connection of the head and tail parts together is made by a self-tapping coupling screw located inside the central mounting hole of the head and fixed in the central mounting hole of the tail, the full length of the bullet with makes 3.75-4.5 diameters of the cylindrical section of the bullet’s head, the length of the bullet’s head is 1.5–2 diameters of the cylindrical section of the bullet’s head, the maximum diameter of the bullet’s head is 0.6–0.8 of the barrel diameter, the amplitude of the stabilizer tail blades is 1.3–1.5 times the diameter of the head, but does not exceed 0.98 of the diameter of the muzzle narrowing of the bore, the maximum diameter of the cylindrical portion of the tail of the tail at the junction of the tail with the head does not exceed 0.65 dia meter of the head part, and at the beginning of the stabilizer plumage is not more than 0.5 of the diameter of the bullet head part, the sweep angle of the front edge of the stabilizer blades is 30-45 °, the bevel angle of the front edge of the stabilizer blade is 16-20 °.

A disadvantage of the known bullet is as follows.

The well-known bullet is equipped with a plastic wad-seal, which, after leaving the bore, plays the role of a stabilizer. Unfortunately, as practice shows, these wads are not well fixed in the tail of the bullet and when used at low temperatures, the bullet and wad stabilizer are separated during flight, which negatively affects the stability of the bullet. Therefore, in the known pool, the tail stabilizer is connected to the head part as a whole by means of a self-tapping screw located inside the central mounting hole of the head and fixed in the central mounting hole of the tail, which complicates the design of the bullet and the technology for its manufacture.

Known bullet for smooth-bore hunting weapons, presented in p. RF No. 2497068 class. F42B 30/02, 10/04, 7/10, c. 02/29/12, op. 10/27/13.

The well-known bullet for smooth-bore hunting weapons consists of a solid metal shell, divided into the head and tail, with a four-leaf plastic stabilizer fixed to the end, located in a plastic shell-container, divided into two, three or four equal parts along the longitudinal axis of the bullet, and the middle part of its inner surface, repeating the profile of the tail of the projectile, characterized in that the tail of the shell has the shape of a truncated cone, the larger base of which ascheno forward to the head.

Moreover, on the outer surface of the tail of the projectile around the longitudinal axis of the bullet are transverse circular grooves consisting of two side walls and the bottom; the front wall of the gutters is located at right angles to the longitudinal axis of the bullet, the rear wall of the gutters is located at an angle less than 90 ° to the longitudinal axis of the bullet, and the bottom of the gutters has a cylindrical shape around the longitudinal axis of the bullet.

The disadvantage of the bullet is the complexity of the design, due to the location of the stabilizer in the shell-container, as well as the implementation of the tail with transverse circular grooves.

Known active-rotational bullet with stabilization of rotation in flight, described in p. RF No. 2533647 class. F42B 12/34, 30/02, c. 09/24/12., Op. 11/20/14.

The active-rotation bullet contains a head ball made with a fairing and a diameter equal to the caliber, and also with the possibility of transition into the volume between it and the middle ball, which is connected by the transitional volume to the tail ball, and differs in that the diameter of the middle ball is caliber, and the diameter of the tail ball is smaller than the caliber. Moreover, in the volume between the balls, the middle and the tail, the cavity is made with the possibility of rotation of the bullet by powder gases.

The known bullet is gyroscopically stabilized by a jet of rotation from powder gases, the process of expiration of which from the channels (cavities) is completed before the tail ball exits the muzzle section, but it is not very technologically advanced to manufacture.

Known bullet described in p. RF No. 2535366 by class. F42B 30/02, z. 04/29/11, op. 12/10/14. (applicant Korea).

The known bullet has air-guiding recesses and contains a head part and a tail part, which is located on the rear side of the head part (20) and is made with an odd number of air-guiding curved recesses made on the outer and lower surfaces, each of the air-guiding recesses (32) has an inclined bottom, so that the depth of the air-guiding recess (32) gradually increases towards the lower surface of the tail part (30), each of the air-guiding recesses (32) having the same width along ruzhnoy and lower surfaces of the tail portion (30).

Moreover, each of the plurality of air-guiding recesses (32) forms an angle θ with respect to a line that connects the center point C of the lower surface of the tail part (30) and the center of the air-guiding recess (32) formed on the outer surface of the tail part (30). In addition, in the pool, three air-guiding recesses (32) can be made on the outer and lower surfaces of the tail part (30) and are separated from each other by equal intervals.

The disadvantage of the bullet is that it is difficult to manufacture, because the curvature of each of the air-guiding recesses must be carefully calculated so that the air flow guided by the air-guiding recesses 32 can provide application of a rotational force to the pool 10, as well as determining the number of air-guiding recesses 32 made on the pool 10.

The closest in design to the claimed one is the bullet described in paragraph 3 of the formula to the application No. 2013142094 by class. F41C 7/00, c. September 13, 2013, op. 03/20/2013, is currently undergoing substantive examination, and selected as a prototype.

The well-known bullet is designed for a cartridge of a two-medium automatic sniper weapon and contains a housing made of magnetically permeable material, inside of which, with the help of two bearings, a rotor is installed in the form of a rod on which a magnet is placed, that is, in fact, it is a bullet with a gyroscope inside.

At the same time, according to paragraph 1. of the formula, "the rotation unit of the bullet gyroscope consists of a series-connected battery, a first key, a drive, a second key, which is connected to a group of n keys connected to a group of n electric to magnetic converters, the control system is connected to the battery, the first and second key and a group of n keys. "

Since the design of an automatic sniper weapon is very complex and the accuracy of a bullet entering a hunting object is especially important for it, a bullet for such a weapon requires a very complex control system for it, which is a disadvantage of the known bullet.

The task is to create a bullet that does not require elements of additional control over it, while ensuring aiming range and accuracy of fire.

The problem is solved in that in a gyroscopic pool for firing from a smoothbore weapon containing a hollow body, inside of which, with the help of a steel bearing, a rotor in the form of a rod is mounted for rotation, on which an additional element for spinning the rotor with an oncoming air flow relative to the bullet body is placed, ACCORDING TO OF THE INVENTION, the bullet body is made of plastic, the internal cavity of the body in the upper part is cylindrical and has a step transition to narrowing in the lower part in the form of a whisker a cone for concentration of the oncoming air flow into the jet, while the diameter of the body is 0.1 mm larger than the diameter of the barrel of the weapon, the rotor is made in the form of a continuous cylinder of metal and on its upper part in the cylindrical part of the body are placed sequentially and symmetrically around the circumference as additional blade elements in the form of volumetric multifaceted petals with a cylindrical outer surface and sharp outer edges.

The execution in the body of the part of the cavity of a cylindrical shape allows you to place massive rotor blades in it, thanks to which the rotor is unwound from the oncoming air stream relative to the outer plastic bullet body, and its narrowing to the lower part in the form of a truncated cone creates a dense stream of air that acts as a guide, further stabilizing bullet movement. When it hits the target, it breaks down into its component parts, increasing the damaging effect.

The execution of the body of plastic and with a larger outer diameter of the body than the diameter of the barrel of the weapon, significantly reduces the friction force when the bullet passes through the barrel and increases the initial velocity of the bullet

When the bullet moves and the rotor rotates, the massive rotor blades supply oncoming air to the balls of the bearing and untwist it, so that the bearing spins the outer and inner parts of the bullet in different directions, creating a gyroscopic effect that allows the bullet to maintain stable balance throughout the entire bullet flight. When shooting through reeds, reeds, small shrubs, the sharp outer edges of the blades of the rotating rotor cut off these obstacles, which reduces the rebound.

The technical result is a stable movement of the bullet, increasing its striking ability without additional control nodes.

The inventive bullet has a novelty in comparison with the prototype, differing from it by such significant features as the execution of the bullet body made of plastic, the execution of the inner cavity of the body in the upper part of the cylindrical with a step transition to narrowing in the lower part in the form of a truncated cone, the diameter of the body is 0 1 mm larger than the diameter of the barrel of the weapon, the rotor is made in the form of a solid cylinder of metal, placed on its upper part in the cylindrical part of the body in series and symmetrically around the circumference as additionally blades elements in the form of polyhedral volumetric petals with the cylindrical outer surface and the sharp outer edges, providing a plurality of achieving the desired result.

The applicant does not know the technical solutions possessing the indicated distinctive features, therefore he considers that the claimed bullet meets the criterion of “inventive step”.

The inventive bullet can be widely used in hunting, and therefore meets the criterion of "industrial applicability".

The invention is illustrated by drawings, where shown in:

- FIG. 1 - general view of the bullet;

- FIG. 2 is a sectional view of a bullet body with a rotor;

- FIG. 3 is a sectional view of a bullet body;

- FIG. 4 - general view of the rotor;

- FIG. 5 is a drawing of a rotor;

- FIG. 6 is a top view of the rotor.

The inventive bullet comprises a hollow body 1, inside of which, with the help of a steel bearing 2, a rotor 3 is mounted to rotate from oncoming air, on which an additional element is placed in the form of three blades 4 ₁ -4 ₃ . In this case, the bullet housing 1 is made of plastic, and the inner cavity 5 of the housing 1 in the upper part is cylindrical and has a stepped transition to the narrowing 6 in the lower part in the form of a truncated cone. The diameter of the housing 1 is 0.1-0.4 mm larger than the diameter of the barrel of the weapon (not shown in the drawing). The rotor 3 is made in the form of a solid cylinder made of brass. On its upper part, in the inner cavity 5 of the body, three blades 4 ₁ -4 ₃ are arranged sequentially and symmetrically around the circumference in the form of volumetric polyhedral petals with a cylindrical outer surface and sharp outer edges.

In the process of firing a bullet behaves as follows. The internal cavity 5 with a narrowing of 6 performs the following functions: reduces the aerodynamic drag of a bullet, increases its stability in flight due to a jet of oncoming air sealed with a conical narrowing, provides high expansiveness and forms a sharp edge along the outer diameter of the bullet head, which reduces the rebound (Fig. 3 , 4) and allows the oncoming air to rotate the internal rotor 3 when the bullet exits the gun barrel. The rotor 3, made of metal, is connected to the body 1 of the bullet using a ball bearing 2, the rotor blades 4 supply counter air to the balls of the bearing 2 and untwist it, while the outer and inner parts of the bullet rotate relative to each other in different directions. When the rotor 3 is rotated from the oncoming air stream, a gyroscopic effect is created, which allows the bullet to maintain stable equilibrium throughout the bullet’s flight. The truncated cone 6 of the inner cavity 5 creates a dense stream of air, acting as an air guide, further stabilizing the movement of the bullet. When it hits the target, it breaks down into its component parts, increasing the damaging effect. This bullet has proven itself in the tests as suitable for reliable destruction of a target at a distance of up to 200 meters. Shooting through the reeds, reeds, and small shrubs showed that the bullet cuts off these obstacles with the sharp outer edge of the rotating rotor, provided for by its design, which reduces the rebound.

Compared to the prototype, the inventive bullet does not require a complex control system and at the same time provides an effective striking effect, good accuracy of fire and a good direct range.

Claims (1)

A gyroscopic bullet for firing smooth-bore weapons, containing a hollow body, inside of which, with the help of a steel bearing, a rotor is mounted in the form of a rod on which an additional element is placed for untwisting the rotor with a stream of oncoming air relative to the bullet body, characterized in that the bullet body is made of plastic, the internal cavity of the body in the upper part is cylindrical and has a stepwise transition to narrowing in the lower part in the form of a truncated cone for concentration air flow into the stream, while the diameter of the body is 0.1 mm larger than the diameter of the barrel of the weapon, the rotor is made in the form of a continuous cylinder of metal and on its upper part in the cylindrical part of the body are placed sequentially and symmetrically around the circumference as additional elements of the blade in the form volumetric multifaceted petals with a cylindrical outer surface and sharp outer edges.

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