RU2108536C1 - Fixed cartridge - Google Patents

Abstract

FIELD: ammunition, in particular, small-arms ammunition, can be widely used for hitting of enemy manpower and light-armored equipment in environments with various density. SUBSTANCE: cartridge is made as an integral assembly of bullet, powder charge and primer cap combined in the cartridge case. The cartridge case has an internal annular shoulder in its bottom part and a sabot with primer seat, the bullet length is not less than 5.6 of its caliber with a through axial duct tapered off to its bottom part, stop in its bore and a wad resting on it. Nozzles are made in the bottom part of its wall. The bullet is installed in the cartridge case on its front side up to the stop against the shoulder, and the powder charge is placed between the sabot and wad. At assembling the cartridge is sealed by paraffin or cement. EFFECT: enhanced efficiency. 2 cl, 2 dwg

Description

 The invention relates to ammunition, and more particularly to cartridges for small arms, and can be widely used to destroy manpower and lightly armored enemy vehicles in environments with different densities.

 Known bullet, increasing the ballistic qualities of which is ensured by the through channel, containing a housing with a through axial channel expanding towards the tail and wad (French application N 2499709, CL F 42 B 11/00, 1982).

 However, this bullet is not structurally designed for firing under water, since the barrel of the rifled weapon, its expelling powder charge in the cartridge, is located sequentially behind the bullet, which lengthens the cartridge.

 A known turbine type bullet, stabilization on the trajectory of which is carried out by rotation around a longitudinal axis, comprising a housing with a central channel made with taper along the walls and with conical small longitudinal ribs (ed. St. USSR N 226435, class F 42 B 30/02, 1966).

 The well-known bullet is also not intended for shooting under water and cannot be used for arming combat swimmers.

 The closest technical solution to the proposed one is a weapon for combat swimmers (a pistol and a machine gun), at a depth of 5 m under water, confidently paralyzing the target with cartridges with a length of 145 mm, 4.5 mm caliber, containing a sleeve with a powder charge, a capsule, 115 mm swept bullet. (Technology of youth, 1994 N 5, p. 3 - 4).

 However, such a cartridge has large overall dimensions, due to the length of its arrow-shaped bullet, while the bullet and powder charge are sequentially located in the cartridge, therefore the large overall dimensions of the weapon, which in the underwater environment has a large windage and binds the reaction of the swimmer in battle. A long sagittal bullet is subject to the action of a moving medium on a trajectory, especially under water, has a large frontal resistance, and is not very effective against armored vehicles.

 The technical problem solved by the invention is to create ammunition for small arms to combat enemy manpower and lightly armored vehicles under water and on land, while simplifying the cartridge.

 The problem is solved in that the cartridge case is made with an inner annular flange in its bottom and a tray with a capsule socket. The bullet was made with a length of not less than 5.6 of its caliber with a through axial channel bore onto a cone to its bottom, with emphasis in the place of its bore and a wad resting against it. Nozzles are made in the bottom of the bullet wall and the bullet is installed in the sleeve from its front side until it stops against the shoulder. A powder charge is placed between the pan and the wad. The cartridge is sealed with paraffin or glue during assembly. In this case, the bullet is made of steel, has a higher initial speed than the known ones, and can be used to destroy lightly armored vehicles, and manpower, sheltered behind individual armor protection under water and in the air. Weapons (gun and machine gun) can be smoothbore and rifled. The proposed bullet works equally well in both cases, however, it is necessary to take into account the direction of the barrel cutting and the direction of rotation of the bullet from the nozzles, so that they coincide.

 The introduction of the proposed cartridge will give impetus to the further development of small arms for combat swimmers.

 In FIG. 1 schematically shows the proposed cartridge, a longitudinal section; in FIG. 2 is a section A-A in FIG. one.

 The proposed cartridge contains a sleeve 1 with a shoulder 2, a tray 3 with glue, a capsule 4 also with glue, a bullet 5, at least 2/3 of the axial channel in which to its bottom part are bored under the cone 6, nozzle 7, wad 8, sealed paraffin and abuts against an emphasis 9 formed by a conical bore. The powder charge 10 is placed in the conical bore of the bullet. 11 indicates a wall.

 The cartridge works as follows.

 When fired, the powder gases of charge 10 act on the bullet 5 through the wad 8, resting on the stop 9 of the conical bore 6 and accelerate it along the sleeve 1, and then along the smooth or rifled barrel of the weapon, telling the bullet 5 the initial flight speed and the initial speed of its rotation cutting the barrel when firing a rifled weapon. When bullet 5 exits from the barrel of wad 8, the paraffin seal of which partially burned out and partially warmed up due to the burning of gunpowder, it is thrown out into the environment through the bottom conical boring part of bullet 5, and the medium flowing through the through axial channel of the bullet 5, and working on nozzles 7, spins the bullet 5 on the trajectory in addition to the unwinding it received in the rifled barrel of the weapon, which gives the bullet 5 stability on the trajectory, especially in the underwater position. In this case, water flowing through the through axial channel of the bullet 5 when firing in an aqueous medium, in the vertex cylindrical part of it, which is about 1/3 of the length of the bullet 5, due to the fact that the pressure, density and velocity of the water is greater, and the bullet 5 rotates around its axis, works like an axis, on which a bullet 5 is put on like a taut wire and flies along it at a high speed, held by it on the trajectory. Then the water in the bottom part of the bullet 5 bored under the cone expands, its pressure drops, and the speed increases, and it is thrown out through the bottom part of the bullet under the cone with great speed, further stabilizing the bullet 5 on the trajectory and simultaneously working on the nozzles 7 of the bullet 5, the wall 11 in which the tail portion of the bullet 5 comes to naught and does not allow a vacuum to form due to the wall thickness of the bullet 5 in its bottom, and therefore reduces the drag of the bullet 5 in flight along the trajectory. The length of the bullet, made at least 5.6 of its caliber, makes it possible to best keep the trajectory of the bullet 5 in water and in air, and the powder charge 10, located in the cartridge in parallel with the bullet, makes it possible to make the cartridge short.

 Bullet 5 at full depth, located in sleeve 1, and when fired, can serve as a chamber, makes it possible for the further development of weapons of combat swimmers, and make them small-sized, multi-charged, automatic and convenient for use by combat swimmers in battle against enemy personnel and lightly armored vehicles and in different density media.

Claims (2)

 1. A unitary cartridge containing a bullet, a powder charge, a capsule connected integrally by means of a sleeve, characterized in that the sleeve is made with an inner annular collar located in its bottom and provided with a pallet with a capsule socket, the bullet is made with a length of at least 5 , 6 of its caliber with a through axial channel bore onto a cone to its bottom, with a stop in the place of its bore and a wad resting against it, nozzles are made in the bottom of its wall, the bullet is installed in the sleeve from its front to the stop in the shoulder, and gunpowder for a row is placed between the pallet and wad.  2. The cartridge according to claim 1, characterized in that it is sealed with paraffin or glue during assembly.

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