RU149906U1 - SHOCK FOR WEAPONS - Google Patents

Abstract

1. Bullet for smooth-bore weapons, made in the form of a cylinder with a head and tail parts and with a profiled annular groove, characterized in that the groove is made in the middle part of the bullet, while the front wall of the groove is located at an angle of 92-95º to the longitudinal axis of the bullet, this length of the bullet is 1.5-1.8 of the diameter of the bullet, the width of the head and tail parts of the bullet is 0.3-0.45 of the diameter of the bullet. 2. The bullet according to claim 1, characterized in that it is made of a hard metal alloy, for example steel.

Description

The utility model relates to ammunition for smooth-bore, for example, hunting weapons. The bullet is designed for use in weapons of various calibers for hunting large and medium animals and sport shooting.

Known bullet for smooth-bore hunting weapons (patent for invention No. 2497068, IPC F42B 30/02, publication date 10/27/2013), consisting of a solid metal shell, subdivided into the head and tail, with a four-leaf plastic stabilizer fixed to the end, located in a plastic shell - a 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, which has the shape of a truncated cone, The larger base of which is facing forward to the head. On the outer surface of the tail of the projectile around the longitudinal axis of the bullet there are transverse circular grooves consisting of two side walls and a bottom, while the front wall of the grooves is at right angles to the longitudinal axis of the bullet, the rear wall of the grooves is located at an angle of less than 90 ° to the longitudinal axis bullets, and the bottom of the gutters has a cylindrical shape around the longitudinal axis of the bullet.

Known bullet has the following disadvantages:

- the complexity of the design of the bullet, in particular the shape of the tail of the projectile in the form of a truncated cone, the larger base of which is facing forward to the head, does not allow to fully increase the mass of the bullet using the entire volume of the sleeve, which has a cylindrical shape. In addition, the large length of the bullet reduces the possibility of placing elements of equipment in the cartridge, for example, elastic wads or other shock-absorbing equipment, which allows a higher muzzle energy of the bullet to be achieved without compromising comfort.

- unstable accuracy, which is due to the complexity of separating the container from the projectile due to the presence of sections of the interface of the container with the front walls of the grooves perpendicular to the axis of the projectile. When the container is separated by a turn around the tail part, the protruding parts of the container are mated, which are interfaced with the bottom of the projection grooves, and the shape of the bullet stabilizer prevents the container from slipping, which can lead to the detachment of the stabilizer from the projectile. This complexity of separating the container from the projectile leads to instability of the trajectory of the bullet, which reduces the accuracy of fire.

Known means of destruction in a bullet shell Ivanov for a smoothbore hunting rifle (patent for the invention No. 2308672, IPC F42B 30/02, publication date 10/20/2007), taken as a prototype, made in the form of a cylinder with a head and tail zones and with a profiled annular groove made in the annular zone of the weapon (bullet), the groove profile has the form of an equilateral trapezoid, while the groove width is 0.5-0.8 of the diameter of the bullet, the inner diameter of the groove is 0.63-0.69 of the diameter of the bullet, distance from the central transverse axis anavki to the head end means of destruction zone is 0.5-0.8 bullet diameter, and the angle of inclination of the sides of the annular groove with respect to the longitudinal axis of the means of destruction is in the range of 45 degrees.

A disadvantage of the known means of destruction is the large width of the leading bullet belts. When passing a muzzle narrowing of a weapon with a known bullet placed in a container, the container is crimped and crushed. With a significant width of the leading bullet belts, the conditions for crushing the container wall deteriorate. The width of the leading belts of the specified bullet does not allow the use of guns with muzzle contractions of more than 0.25 mm, which reduces the functionality of the bullet.

Placing a profiled annular groove in the head zone of the weapon reduces the stability of the bullet during flight.

The objective of the invention is the development of a bullet design for smooth-bore weapons, providing improved ballistic characteristics by improving the conditions for the passage of a bullet located in a plastic container through the muzzle narrowing of a smooth-bore weapon.

The technical result obtained by solving the problem is to increase the energy of the bullet, stabilize it in flight, increase the accuracy of fire and expand the functionality.

The technical result is achieved by the fact that in the pool for smooth-bore weapons, made in the form of a cylinder with a head and tail parts and with a profiled annular groove, according to the utility model, the groove is made in the middle part of the bullet, while the front wall of the groove is located at an angle of 92-95 degrees to the longitudinal axis of the bullet, the length of the bullet is 1.5-1.8 diameter of the bullet, the width of the head and tail parts of the bullet is 0.3-0.45 diameter of the bullet.

The implementation of the annular grooves in the middle part of the bullet allows you to evenly distribute the mass of the head and tail parts of the bullet, which ensures maximum stability of the bullet, its stabilization and minimal fall of the flight path at the operating firing ranges.

Performing the front wall of the groove at an angle of 92-95 degrees to the longitudinal axis of the bullet leads to a disruption of the incoming air flow in the groove zone during the flight of the bullet, reduces resistance, optimizes the flow of the bullet into the incoming air flow, which allows to increase the energy of the bullet. In addition, the implementation of the front wall of the groove at an angle of 92 - 95 degrees to the longitudinal axis of the bullet ensures the correct separation of the container from the bullet after departure from the barrel.

The shape of the annular groove provides the optimal ratio of the rarefaction zones, the frontal wave and the rarefaction zone in the tail, providing maximum longitudinal stability of the bullet and minimal drop in flight path.

Performing the length of the bullet within 1.5-1.8 of the diameter of the bullet improves the stability of the bullet during flight, as well as the accuracy of firing from smooth-bore weapons. Reducing the length of the bullet from the specified minimum limit leads to a loss of stability of the bullet during flight. Increasing the length of the bullet from the specified maximum limit affects the parameters of the equipment of the cartridge.

The implementation of the width of the head and tail parts of the bullet component 0.3 - 0.45 of the diameter of the bullet allows the bullet with less energy loss to push through the plastic container when passing through the muzzle narrowing of the barrel.

Giving the bullet made of hard metal alloy the optimal ballistic shape, reducing the contact area of the side surfaces of the bullet with the container by reducing the width of the leading belts, increases the energy of the bullet, its stability, accuracy of fire, and also allows you to expand functionality due to the use of rifles with muzzle contractions of more than 0.25 mm.

The presence of these signs allows us to conclude that the novelty of the technical solution.

The compliance of the claimed utility model with the criterion of "industrial applicability" is shown on the example of a specific implementation of the bullet for smooth-bore weapons.

The figure shows a cross section of a bullet.

Bullet for smooth-bore weapons contains a head part 1 and a tail part 2, an annular groove 3, made in the middle part of the bullet. The front wall 4 of the groove 3 is made at an angle a equal to 92-95 degrees to the longitudinal axis of the bullet. The rear wall 5 of the groove 3 can be made at an acute angle to the transverse axis of the bullet.

The length L of the bullet is 1.5-1.8 of the diameter D of the bullet, the width h of the head and tail parts of the bullet is 0.3-0.45 of the diameter D of the bullet. The bullet is made of a hard metal alloy, such as steel.

The bullet design was developed taking into account the results of virtual modeling of external ballistics - virtual purging in a conventional wind tunnel. Based on the simulation results, optimal limits for the proportions of the elements of the bullet’s geometry have been worked out. The simulation results are confirmed by experimental firing.

The bullet works as follows.

Previously, the bullet is placed in a plastic container, fixing it by the entry of the protrusions of the container into the groove of the bullet (not shown). The container, made by the size of the barrel, moving inside the barrel, is sandwiched between the bullet and the walls of the barrel. After the bullet projectile takes off from the barrel, the container is easily separated from the bullet by an incoming air flow and loses its speed. With the further movement of the bullet around it, compression and rarefaction zones are formed, providing a minimum deviation from the trajectory and minimum resistance to movement when the maximum action on the target is achieved. The flat front surface of the bullet provides minimal deviation from the trajectory when encountering minor obstacles, such as shrubs, due to penetration by an acute edge of the material of the obstacle and a sufficient margin of the bullet's own stability.

Claims (2)

1. Bullet for smooth-bore weapons, made in the form of a cylinder with a head and tail parts and with a profiled annular groove, characterized in that the groove is made in the middle part of the bullet, while the front wall of the groove is located at an angle of 92-95º to the longitudinal axis of the bullet, this length of the bullet is 1.5-1.8 of the diameter of the bullet, the width of the head and tail parts of the bullet is 0.3-0.45 of the diameter of the bullet. 2. The bullet according to claim 1, characterized in that it is made of a hard metal alloy, for example steel.

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