RU2123660C1 - Bullet of low-pulse cartridge - Google Patents

Abstract

FIELD: ammunition, loading of cartridges for automatic and self-loading weapons of both combat and sports and hunting use. SUBSTANCE: structure of proposed bullet for small arms includes caliber case in the form of sleeve with hole in bottom that houses core in the form of needle. In agreement with invention core is provided with tray mounted in case for axial movement. Tray area is bigger or equal to area of end face ring of bullet case. EFFECT: increased efficiency of action on target including armor-piercing and stopping effects, improved stability on trajectory and diminished dimensions. 6 dwg

Description

 The invention relates to the field of military equipment and can be used to equip cartridges for automatic and self-loading weapons of both combat and sporting and hunting applications.

 A known design of a bullet in the cartridge of small arms (N 1372 from 02/18/94, BPM N 12, 1996), containing a shell, a steel core and a lead shirt in the form of a glass.

 The disadvantage of this type of bullet is that the shape and design make it extremely undesirable to use it as part of a cartridge, which allows to obtain high kinetic parameters at the cut of the gun barrel (bullet speed greater than Mach 2-3), especially smooth-bore, due to high aerodynamic drag, as well as unsatisfactory total bullet balancing.

 The above disadvantages lead to an extremely rapid drop in the speed of the bullet, its instability on the trajectory, an increase in the dispersion ellipse, and therefore to a reduction in the accuracy of fire and, in general, to a decrease in the effectiveness of the bullet on the target.

 Closest to the proposed technical solution is the pistol bullet described in the invention RU N 2046282 (F 42 B 30/02, BI N 29, 1995), containing the body and the core in it in the form of at least one needle. The body of the bullet is closed by a fairing permeable to the core, the core itself is fixed by a latch.

 The disadvantage of this design is that it also cannot be used to complete low-pulse high-kinetic cartridges due to the non-optimal shape and balance of the bullet, which leads to the above-described disadvantages. The prototype bullet also has a number of difficulties of the technological plan at the assembly stage, which is associated with ensuring the necessary accuracy of component placement inside the case for proper bullet balancing.

 The task is to develop a bullet design that would provide greater effectiveness on the target, including armor penetration and stopping effect, stability on the trajectory, including flatness, downsizing for use in high-speed weapons, including smooth-bore weapons, with a high initial speed bullets and rate of fire.

 The solution to this problem is achieved by the fact that the design of the proposed bullet of small arms, containing a calibrated housing in the form of a glass with an opening in the bottom with a core in the form of a needle, according to the invention is equipped with a pallet, the latter being installed in the housing with the possibility of axial movement, and the area the pallet is greater than or equal to the area of the end ring of the bullet body.

 The invention is illustrated by the accompanying drawings, where in FIG. 1 shows the proposed bullet, in FIG. 2 - the beginning of the conversion of the shape of the bullet at the stage of the start of movement, in FIG. 3 shows the configuration of the bullet at the end of the conversion process, FIG. 4 shows the shape and position of the bullet on the path, in FIG. 5 shows the effect of the proposed bullet on “soft” barriers; FIG. 6 shows the effect of the proposed bullet on "protected" targets.

 The bullet consists of a housing 1, in which a core 2 is placed, having a pallet 3 with an area greater than or equal to the area of the end ring of the housing. The bullet in the "folded" form together with the cartridge 4 are placed in the barrel 5.

 In the initial position, the tip of the core is located in the bottom hole of the body, and the pallet inside the body is on the cut of the glass, and the dimensions of the latter provide the ability to move the core inside the body of the bullet until the core extends beyond the dimensions of the body on the accelerating section of the path.

 The device operates as follows. After pricking the igniter capsule and starting the burning of the powder charge (Fig. 2), the bullet body 1 together with the core 2 and the pallet 3 are separated from the sleeve 4 and begin to move along the barrel 5. At the same time, since the area of the pallet 3 of the core 2 greater than or equal to the area of the annular component surface of the bullet body, and the friction force between the pallet and the body is less than the friction force between the body and the barrel, the core with the pallet begins to move inside the housing 1. As the action of the powder gases continues, e bullet to the muzzle, and the core 2 with the pallet 3 - to the bottom of the cup body 1 to stop the pallet in the bottom of the glass (Figure 3.). In such an extreme “forward” position, the structure leaves the barrel 5; the bullet is laid out. On the trajectory, being in the "unfolded" position (Fig. 4), the bullet is stabilized by the fact that the center of mass is maximally spaced from the center of aerodynamic drag and is located in front of the last along the bullet. Thus, stabilization of the bullet takes place even in the case of throwing from a smooth barrel.

A distinctive feature of this invention is that the process of extending the core with the pallet from the bullet body begins and ends at the first stage of the shot, i.e., when the bullet is still in the barrel of the weapon, which is provided by the difference in the reference areas, i.e.:
S _to ≤ S _p ,
Where
S _p - the area of the core;
S _to - the area of the annular end of the glass of the housing.

Considering that the body cup and the core with the pallet are made of approximately equally dense materials, S _k ≤ S _p , and the friction force of the bullet body against the walls of the barrel of the weapon is many times greater than the friction force of the cylindrical component of the surface of the pallet against the inner surface of the bullet body, the reliability of the above movements is ensured.

 When a bullet enters “soft” barriers, the scheme of the forces acting on it is basically the same as that which describes the acting forces on the trajectory with the difference that the density and viscosity of the medium increase many times. Moreover, in the barrier material after a puncture of its upper layers by the core 2 by the bullet body 1, a region of the shock seal 5 in the form of a ring is generated (Fig. 5). The outer diameter of such a seal corresponds to 5-7 caliber bullets, which allows you to get a guaranteed high stopping effect on this type of targets.

 When the proposed bullet enters a protected (for example, bulletproof vest) target, a damage mechanism is implemented based on the sub-caliber effect, that is, having low drag, high speed and reduced density, core 2 “punctures” the protective layer. Case 1, having the same speed as the core, but with greater drag, drastically slows down with the pallet 3, without breaking through the barrier, causing general shaking of the system and ensuring the separation of the pallet 3 with the core 2 and, as a result, the subsequent movement to the target, as shown in Fig.6.

 The design of the proposed bullet, containing a gauge body in the form of a glass with a hole in the bottom with a core in the form of a needle, equipped with a pallet with an area greater than or equal to the area of the end ring of the bullet body, installed in the body with the possibility of axial movement, can improve aerodynamics at speeds 2-3 Mach and higher, increase the effective firing range on protected targets, reduce the dispersion ellipse when throwing even from smooth-bore weapons, simplify manufacturing.

Claims (1)

 A small arms bullet including a caliber case in the form of a glass with a hole in the bottom and a needle-shaped core placed therein, characterized in that the core is provided with a pallet and mounted in the housing with axial movement, the area of the pallet being greater than or equal to the area of the end bullet body rings.

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