RU2169898C2 - Armor-piercing bullet - Google Patents

Abstract

FIELD: ammunition for small arms. SUBSTANCE: the bullet has a metal envelope that is stronger than lead, which accommodates a steel slug secured with its back side to a spacer of hard material, whose other side carries a lead filling occupying the whole rear and partially central regions of the envelope up to the spacer. A cavity passing from the spacer of hard material is made in the lead filling on the side of its back end surface. EFFECT: enhanced armor-piercing effect of the bullet. 6 cl, 1 dwg

Description

 The invention relates to ammunition for firearms, namely to bullets for rifled weapons.

 A known bullet for small arms cartridges, in which inside the lead case there is a steel core loosely mounted on a steel rod connecting the case with gaskets and wad and having at its front end a wedging conical section and a spherical tip (1).

 The disadvantages of such a bullet are its structural complexity, as well as the loss of kinetic energy associated with cramming the core into the body.

 Known hunting bullet in which to increase the damaging effect in the lead casing is a steel through core protruding from the front end of the casing (2). The disadvantages of this design are excessive losses of kinetic energy associated with casing of the body into the core, as well as a streamlined shape of the core, which increases aerodynamic drag and reduces the speed of the bullet.

 Known bullet for rifled weapons, containing a shell with a leading part and a conical socket and a core with a mating conical shank installed in the socket, and with a front part protruding from the shell, while a contact surface is formed between the shell and the core, and the conical shell nest may be performed through (3). In the case of a core made of solid material, the bullet can be armor-piercing, armor-piercing incendiary, armor-piercing incendiary-tracer and has high armor penetration.

 The disadvantages of this bullet include its structural complexity, since the bullet is made essentially of two elements, but no more simple solid, and the connecting pair of the conical shank of the core with the conical shell socket requires the implementation of conical surfaces with small tapers or even with two tapers. In addition, the shell of this bullet is not standard, but made profiled with annular thickenings and recesses of various shapes, which also complicates the manufacturing technology of such a bullet.

 Also known is a simpler construction bullet for small arms cartridges, containing a shell with a lead shirt placed in it and a core having a blunted head part (4). The core is located almost point-blank with the top of the shell, which makes the bullet head more “stiff”. Such a bullet is designed to engage an open, located behind a light shelter and equipped with individual armor protection of enemy manpower.

 The disadvantages of such a bullet include the presence of blunting of the top of the core, which reduces the efficiency of breaking through steel barriers, i.e. the effectiveness of the damaging effect of the bullet, and the fact that the presence of a lead shirt in contact with the core increases the loss of kinetic energy upon impact due to the partial "forcing" of the lead.

 Based on the set of essential features and the achieved result, the armor-piercing bullet known from the source (5) was selected as the closest analogue. This bullet contains a metal shell, more durable than lead, in which a steel core is placed, fixed with the back on a pad of solid material, on the other side of which there is a lead filling.

 The technical result of the present invention is to increase the effectiveness of the damaging effect of the bullet and its penetrative ability.

 The specified technical result is achieved in that the armor-piercing bullet containing a metal shell is more durable than lead, in which a steel core is placed, fixed with the back on a pad of solid material, on the other side of which there is a lead filling, according to the invention, in a lead filling the entire back and partially central region of the shell to the gasket, from the side of its rear end surface a cavity is made that extends to the distance from the gasket from solid ala.

 In a preferred embodiment, the cavity in the lead filling is made in the form of one or more cylinders, cones, truncated cones, or a combination thereof.

 On the shell in the area of lead filling, protrusions are made to fix the lead filling.

 A steel core of a standard shape with a relatively small cross section is fixed in a central position by a rod or sleeve located in the central part of the gasket.

 The area between the steel core and the inner surface of the shell is filled with oil or incendiary mixture to increase the damaging properties.

 The top of the shell is made thin or cut, or with cuts of various shapes with the possible exposure of the head or pointed part of the core.

 The invention is illustrated in the drawing, which shows a cross section of a bullet.

 The bullet contains a shell 1, in which a core 2 (preferably made of steel or another even more durable material) is placed, which abuts against the back of a gasket 3 made of a sufficiently hard material, preferably brass or steel. On the other side of the strip 3, a lead filling 4 is placed, filling the shell 1.

 A cavity 5 is made in the lead filling, extending right up to the gasket.

 The gasket 3 in the central part may be provided with a fixing element 6 of the type of rod or sleeve, which engages with the core 2.

 The top of the shell 1 of the bullet can be thinned, cut, or with cuts of various shapes to facilitate the exit of the core 2 when it hits an obstacle (not shown).

 In order to increase the engagement of the bullet with armor protection, the cut part of the shell can be filled with lead or other soft metal.

 When moving along the barrel channel, the shell in the presence of a cavity in the lead filling, expanding in diameter from the pressure of the powder gases, provides a more snug fit to the barrel channel and its cutting, which ultimately increases the speed of the bullet from the barrel of the weapon, improves the rotational effect, increases accuracy and accuracy of the battle.

 Due to the hollow bottom part and, thus, its lightness, this bullet has an additional stabilization effect to the rotational one, which in turn will increase the accuracy of the battle. The hollowing of the bottom part also leads to another important effect - an increase in tightness - due to an increase in the diameter of the hollow part as a result of the pressure arising from the shot, and accordingly to an increase in pressure in the barrel bore and an increase in bullet speed.

 Another additional effect on increasing the accuracy and stability of this bullet arises due to the fact that the pressure when the bullet leaves the barrel at its end is mainly not on its very back part, as usual, but on its approximately middle part in the case of cavities in lead filling, which increases the stability of the bullet when exiting the barrel, reduces its deviation from the desired path and, accordingly, increases the accuracy. In this case, the pressure “pulls” the bullet out of the barrel, rather than pushing it, as is usual in all other cases.

 Placing the steel core closer to the top of the shell allows you to increase its mass, which leads to an increase in kinetic energy directly for damage.

 Different cavity shapes can be selected to suit the requirements described in the priority applications mentioned below.

 When such a bullet collides with an obstacle, the lead filling 4 due to the action of the gasket 3, the thickness of which is chosen to form a sufficiently hard thrust surface, is less “bent” into the core 2 and gives the latter additional kinetic energy, which ultimately increases the effectiveness of the damaging and penetrative (in particular , armor-piercing) bullet action.

 To prevent possible premature displacement of the lead filling and, accordingly, the gasket with the core under the action of powder gases, protrusions can be made in the region of lead filling even when moving in the barrel bore on the shell.

Sources of information
1. Autosvid. USSR 403943, MKI F 42 B 30302, 1974.

 2. Autosvid. USSR 929990, MKI F 42 B 30/02, 1982.

 3. SU, 1727539 A3, MKI F 42 B 12/02, 30/02, publ. 1992.

 4. SU, 1838750, MKI F 42 B 30/02, 12/06, publ. 1993.

 5. WO 9741404 A1, F 42 B 12/06, publ. 1997.

Claims (6)

 1. Armor-piercing bullet containing a metal shell, more durable than lead, in which a steel core is placed, fixed with the back on a pad of solid material, on the other side of which there is a lead filling, characterized in that in the lead filling, which occupies the entire back and partially the central region of the shell to the gasket, from the side of its rear end surface there is a cavity extending to a distance from the gasket of solid material.  2. Armor-piercing bullet according to claim 1, characterized in that the cavity in the lead filling is made in the form of one or more cylinders, cones, truncated cones, or a combination thereof.  3. Armor-piercing bullet according to any one of claims 1 and 2, characterized in that on the shell in the region of the lead filling protrusions are made to fix the lead filling.  4. Armor-piercing bullet according to claim 1, characterized in that the steel core of a standard shape with a relatively small cross-section is fixed in the central position by a rod or sleeve located in the central part of the gasket.  5. Armor-piercing bullet according to claim 4, characterized in that the area between the steel core and the inner surface of the shell is filled with oil or incendiary mixture to increase the damaging properties.  6. Armor-piercing bullet according to any one of paragraphs.1, 4 and 5, characterized in that the top of the shell is made thin, or cut, or with cuts of various shapes with the possible exposure of the head or pointed part of the core.