RU2449236C2 - Propellant charge of mortar round - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: main ignition charge comprises an extended paper cartridge with a metal base with the ratio of length to diameter equal to 5.5÷6.5, where an igniting cap is installed. In the cartridge there is a part of the igniter charge from a gunpowder with weight of 60-70% of total mass, separated from the igniting cap by membranes from a nitrate film, and two bundles of thin-dome ballistit powder. Between bundles of thin-dome ballistit strip powder there is the second part of the igniter charge from gunpowder in a cloth powder bag, and a wad compensator is installed above the upper half-charge. With the ratio of charge length to the extended cavity of the mine stabiliser equal to 0.75÷0.9 there is also a paper tube installed into the stabiliser tube.

EFFECT: higher reliability of propellant charge operation.

2 cl, 1 dwg, 1 tbl

Description

The invention relates to the field of military equipment, and more particularly to a device for propelling charges of a mortar shot. The currently known propelling charges of mortar rounds consist of the main ignition charges placed in the perforated tube of the mine stabilizer and additional charges in fabric shells or in rigid combustible shells mounted on the stabilizer tube. The main igniter charge is placed in a paper sleeve with a metal base in which the igniter capsule is installed. The main igniter charge consists of a thin composite ballistic gunpowder belt, a sample of the igniter from smoky gunpowder, separated from the sample ballast gunpowder by a nitro film diaphragm. The sleeve is covered with cardboard wad and rolled up on the end (see "Temporary firing tables of 82-mm mortar 2B14-1 (2B14) for flat and mountain conditions of military-technical cooperation No. 96", Military Publishing House of the Ministry of Defense of the USSR, 1984, p. 211-212 ( prototype); “120-mm mortar model 1938. Service manual.” Military Publishing House of the USSR Ministry of Defense, M., 1969, p.142-143).

The shot process is as follows. When a fast igniter capsule is pricked, it fires, as a result of which a hitch of an igniter from smoky gunpowder is ignited. Under the influence of powder gases and hot particles, ignition and burning of tape ballistic gunpowder occurs in a confined space of a paper sleeve. When a certain pressure level is reached, the liner walls break through the stabilizer holes and ignite an additional charge installed on the stabilizer tube. Under the influence of the generated powder gases, a mine moves along the bore.

At present, when developing new propelling charges for mortar rounds of increased power, it is necessary to increase the mass of both additional charges and the main ignition charges in order to provide enhanced tactical and technical characteristics. An increase in the mass of the main igniter and additional charges leads to an increase in the length of the mine stabilizer, and, accordingly, in the length of the shell with the main charge.

Attempts to use ballistic tape gunpowder with an ignitor from smoky gunpowder, placed at the igniter capsule in an elongated cartridge case according to the prototype (propellant charge with the main igniter charge to the 82-mm propellant charge ind. 54-Zh-832DU), did not give positive results.

There is a large scatter in the values of maximum and average pressures, as well as cases of individual surges of maximum pressure, which lead to a rupture of mine stabilizers when firing from a mortar at a temperature of "minus" 50 ° C.

Such phenomena of increased pressure are explained in the book of M.E.Serebryakov "Internal Ballistics". M .: Oborongiz, 1949, by the occurring shock waves of pressure during the combustion of a charge concentrated at one end of a long chamber.

In addition, for tape charges from ballistic gunpowder, it is possible to increase the pressure level in the stabilizer tube as a result of crushing it, which can even lead to the rupture of the stabilizer tube when firing with the main igniter charge at a temperature of minus 50 ° С.

At the same time, such charges are characterized by a decrease in the pressure level in the tube of the mine stabilizer at a temperature of 50 ° C compared with a temperature of 15 ° C, which leads to a decrease in ballistic characteristics when fired only by the main igniter charge and to an increase in the dispersion of ballistic characteristics when fired with an additional charge due to the destabilization of its ignition.

The aim of this invention is to create a propellant charge design, in which 2 times longer than the standard (prototype) main igniter charge provides in the temperature range 50 - "minus" 50 ° C in the mine stabilizer:

- elimination of pressure surges;

- reducing the spread of maximum and average pressure;

- alignment of the maximum pressure level in the temperature range of 50 ° C - "minus" 50 ° C.

Ensuring the above requirements allows you to stabilize the ignition conditions of the additional charge and, as a consequence, the operation of the shot as a whole, including when firing only with the main igniter charge in the operating temperature range.

A technical solution is proposed that ensures the reliable operation of an elongated main igniter charge from tape ballistic gunpowder, with the ratio of the length of the sleeve to the diameter being in the range 5.5-6.5.

A positive effect is achieved:

- dividing the weight of the gunpowder into 2 bundles (semi-charge);

- separation of the igniter from the smoky gunpowder into two parts, one of which weighing 60-70% is placed at the igniter capsule between two diaphragms from nitro film, and the second - in a fabric cap between two bundles (half-charges) of tape ballistic powder;

- the use of wad-compensator made of polyethylene or expanded polystyrene, placed in the upper part of the main igniter charge;

- placement in the inner cavity of the stabilizer of a paper tube overlapping the upper holes in diameter and wall thickness equal to the wall thickness and the diameter of the paper sleeve of the main igniter charge, in the case when the length of the main charge is 0.75 ÷ 0.9 of the length of the inner cavity of the stabilizer.

The combination of these features allows to eliminate the disadvantages of the prototype due to the following factors:

- reducing the intensity of the effect of the ignitor on the sample of tape ballistic gunpowder in the initial stage of ignition of the main igniter charge due to the separation of the ignitor into two parts, providing sequential ignition of two half-charges of fine ballistic gunpowder;

- damping of emerging pressure waves in the initial stage of ignition of the main igniter charge through the use of wad-compensator;

- maintaining a stable level of pressure in the initial period as a result of placing in the free zone of the internal cavity of the stabilizer a mine of a paper tube blocking the perforation holes.

The figure (Fig.) Shows the design of the proposed propelling charge of a mortar shot.

In this design, the main igniter charge consists of an elongated paper sleeve 4, in the metal base of which is installed an igniter capsule 1, a sample of fine-composite ballistic gunpowder, divided into two half-charges 5, between which a part of an additional ignitor 6 from smoke gun powder is installed. The main sample of additional igniter 3, weighing 60-70% of the total mass, is located near the igniter capsule 1 and is separated from it and the lower half charge by 5 diaphragms from nitro film 2. The sleeve is covered with a compensating wad 7. In the upper part of the inner cavity of the stabilizer 9, a paper tube 8 is installed 8 , according to the diameter and wall thickness corresponding to the dimensions of the elongated sleeve 4. Outside on the stabilizer additional packages of 10 mortar propelling charge are installed.

The work of the proposed propelling charge of a mortar shot is as follows.

When a fast igniter capsule 1, located in the metal cap of an elongated paper sleeve 4, is punched, it triggers, after which hot particles and gases break through the diaphragm 2 from the nitro film and ignite a sample of 3 smoke gunpowder weighing 60-70% of the total ignitor mass. Gases and hot particles generated by ignition with some delay associated with a breakthrough of the diaphragm 2 separating a sample of smoky gun powder from a sample of fine ballistic gunpowder 5 ignite it and, moving through a layer of powder ballistic gunny tape, reach a second sample of smoke gun powder ignites the second sample of fine-bulk tape powder 6. The resulting pressure wave from the products of the ignition of the powder and the combustion of the ignitor mounts is suppressed by wad-compensated RA 7 from polyethylene or expanded polystyrene. At the same time, the liner is stripped out and the combustion products flow out into the free cavity of the stabilizer tube. The presence of a paper insert 8 allows you to maintain the pressure level in the cavity to the pressure value at which the perforation holes are punched. After breaking through the perforation, the outflow of powder gases generated during the combustion of the main igniter charge into the mortar barrel and ignition of the additional charge 10 begins. As a result, the movement of the mine along the bore begins.

The separation of the igniter into two samples and the placement of the lower sample between two diaphragms made of nitrofilm provides a steady gradual ignition of the sample of tape ballistic powder, and the presence of the second additional sample of the igniter in the fabric cap supports a stable ignition mode of the upper half charge of the tape ballistic powder.

As a result of the use of two beams of fine ballistic gunpowder separated by a hinge of smoky gunpowder in a fabric cap, gradual ignition is carried out and the degree of crushing of fine ballistic gunpowder is reduced, especially at low temperatures, and a stable pressure level in the stabilizer tube is ensured.

The introduction into the design of the main igniter charge of the wad-compensator made of polyethylene or expanded polystyrene can reduce the intensity of the shock wave that occurs when igniting an elongated charge in the initial stage of the ignition process.

In the process of bench tests of the developed design, it was found that with a ratio of the length of the sleeve to the diameter of 5.5 ÷ 6.5 and the length of the igniter charge 0.75 ÷ 0.9 of the length of the internal cavity of the stabilizer, there are no pressure surges in the stabilizer chamber in the operating temperature range of 50 - minus 50 ° C. The levels of maximum and average pressures in the stabilizer were equalized in the temperature range of 50 - “minus” 50 ° C and the dispersion of the values of maximum and average pressures in the stabilizer of the mine decreased, as evidenced by the data presented in the table.

Bench Test Results Temperature ° C Pressure, kgf / cm ² r _Pm , kgf / cm ² fifteen P _m.av. = 639 P _m.nb. = 778 68.6 P _m.nm = 488 (10.7%) ΔP _m. = 290 fifty P _m.av. = 666 P _m.nb. = 844 75.3 P _m.nm = 475 (11.3%) ΔP _m. = 369 minus 50 P _m.av. = 608 P _m.nb. = 857 60.7 P _m.nm = 488 (10.0%) ΔP _m. = 369

Verification of this design of the propelling mortar charge by firing from the 2B24 mortar confirmed its operability in the entire range of operating temperatures and ballistic stability both before and after operational tests. The design of the propellant charge meets the technical requirements.

Claims (2)

1. The propellant charge of a mortar shot containing an additional charge of gunpowder in fabric or hard burning cartridges mounted on a tube of a mine stabilizer, and placed in a perforated tube of a mine stabilizer, the main igniter charge of fine ballistic gunpowder in a paper sleeve with a metal base in which is mounted the igniter capsule and the igniter from the smoky gunpowder located at the igniter capsule and separated from the beam of the gunpowder by the diaphragm and nitro films, the sleeve is pressed with wad, characterized in that the main igniter charge is placed in an elongated paper sleeve with a ratio of sleeve length to diameter of 5.5 ÷ 6.5, the weight of the gunpowder is divided into two bundles, the igniter of the smoky gun powder is divided into two parts , one of which weighs 60–70% at the igniter capsule between two diaphragms made of nitrofilm, the second - in a tissue cap between two bundles of tape ballistic gunpowder, and above the upper bunch of fine-composite tape ba sheet powder installed wad compensator made of polyethylene or expanded polystyrene. 2. The propellant charge according to claim 1, characterized in that the length of the main igniter charge is 0.75 ÷ 0.9 of the length of the inner cavity of the stabilizer, in which a paper tube is installed that overlaps the upper holes of the stabilizer, equal in diameter and thickness to the diameter and thickness the walls of the paper sleeve of the main igniter charge.