RU2156949C1 - Cartridge - Google Patents

Abstract

FIELD: cartridges for industrial devices used in emergency-rescuing work. SUBSTANCE: the cartridge has a bottleneck case with a crimp, center-hit detonating primer and a charge of pyroxylin powder. The novelty in the cartridge is the fact that the inside diameter of the case mouth is not less than 0.11 of its length at a charge bulk density not exceeding 0.75 g/cu.cm, and the difference between the bulk density and the powder loading density being equal to or exceeding 0.05 g/cu.cm. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to cartridges for industrial devices operating on the energy of powder gases and cutting (biting) metal parts, in particular, during emergency rescue operations after traffic accidents, on the sites of collapsed buildings and in other conditions.

 Known application in industrial tools, for example for rivet guns, as an energy source for blank cartridges (US patent N 3435765, NKI 102-39, UK application N 1316784, NKI F 3 A).

However, as tests have shown, the energies of known, including domestic, empty cartridges [1] are not enough to actuate devices during emergency rescue and other operations. So, the maximum pressure of powder gases in a single rifle cartridge of 7.62 mm caliber [1] is not more than 1350 kgf / cm ² .

 Cartridge single rifle caliber 7.62 mm selected as a prototype.

The cartridge contains a sleeve with an igniter capsule and a charge of pyroxylin powder. Dulce sleeve compressed "star". The bulk density of pyroxylin powders used in idle cartridges is Δ _n ≈ 0.450 g / cm ³ , while the charge density Δ _z = 0.300 ... 0.375 g / cm ³ .

 When changing the charging conditions by increasing the mass of the charge to increase the maximum pressure of the powder gases without changing other existing conditions, incomplete combustion of the grains of the powder occurs due to the premature opening of the "star", which clogs the mechanisms of the industrial device.

 The aim of the invention is to increase the maximum pressure of the powder gases by changing the combustion conditions of the powder.

This goal is achieved by the fact that in a cartridge containing a bottle sleeve with crimped dultza, the central battle igniter capsule and pyroxylin gunpowder charge, the inner diameter of the cartridge muzzle is at least 0.11 of its length, and the bulk charge density is not more than 0.75 g / cm ³ when the difference in bulk density and charge density of the powder is equal to or more than 0.05 g / cm ³ .

 The invention is illustrated by drawings, in which in FIG. 1 shows a general view of the cartridge; in FIG. 2 - top view of the cartridge.

 The cartridge shown in the drawing contains a bottle sleeve 1 with a primer 2 of the central battle. Inside the sleeve there is a charge of 3 pyroxylin powder. The surface of the barrel muzzle adjacent to the cut is crimped in the form of an “asterisk”.

The internal diameter d dulcitol is not less than 0.11 the length of the liner, bulk density Δ _n charge in the cartridge is not more than 0.750 g / cm ^3, with the difference values of bulk density and the charging density _of the powder Δ, equal to or more than 0.05 g / cm ³ (Δ _n -Δ _s ≥ 0.05 g / cm ³ ).

 As studies have shown, with the stated dimensions of the liner, the stiffness of the "sprocket" increases compared to the prototype, so that even a slightly increased charge of pyroxylin gunpowder of high bulk density manages to burn before the sprocket opens.

 The claimed quantitative ratios are optimized experimentally.

 When the ratio of the inner diameter of the sleeve of the sleeve and its length is less than 0.11, unburned grains of gunpowder and cracks appear on the sleeve of the sleeve.

When using gunpowder with a bulk density of more than 0.750 g / cm ³ , its burning rate increases and the pressure of the powder gases opens the "star" before all the grains of the gunpowder burn.

If the difference between the bulk density and the loading density is less than 0.05 g / cm ³ , then the volume of the charging chamber will be filled with gunpowder almost completely, which also contributes to the appearance of unburned grains of gunpowder.

 With incomplete combustion of gunpowder, the maximum pressure of the powder gases is always less than expected and the difference between the highest and lowest maximum pressures in the group of shots increases several times when compared with the results of firing of cartridges in which the shot develops normally.

 The work of the cartridge is as follows. After breaking the shock mechanism, the igniter capsule ignites the charge resulting from the hot powder gases, the amount of which in a small volume creates high pressure, open the "star" and directed by the corresponding channel act on the mechanisms of the industrial device, which at the same time perform the required work.

 The proposed cartridge design, complete with an appropriate industrial device, reduces the time for disassembling damaged structures during rescue operations, and it becomes possible to destroy metal structures with a cross-sectional area of 1.5 ... 2.0 times more than at present.

Sourse of information
1. Kirillov V.M., Sabelnikov V.M. Cartridges of small arms. M .: 1980, p. 104 - 105, 258.

Claims (1)

A cartridge containing a bottle sleeve with a dule crimp, a central battle igniter and a pyroxylin gunpowder charge, characterized in that the inner diameter of the barrel muzzle is at least 0.11 of its length, and the bulk charge density is not more than 0.75 g / cm ³ with a difference in bulk density and powder loading density equal to or more than 0.05 g / cm ³ .

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