RU2095735C1 - Unitary small caliber cartridge - Google Patents

Abstract

FIELD: ammunition, small caliber cartridges of unitary loading with armour-piercing subcaliber projectiles. SUBSTANCE: armour-piercing subcaliber projectile carrying heavy-alloy core is mounted in case through tray. Case includes percussion cap, stepped igniting tube which has expansion across inlet equal to (0.2-0.5) diameter of blasting hole and combined propelling charge which presents mixture of pyroxylin phlegmatized gun powders, grained and spherical ones, taken in proportion, per cent by mass: 82. 0-97.0 and 3.0-18.0 correspondingly. Length of igniting tube amounts to 0.3-0.5 height of propelling charge. Core is installed inside plastic sectorial body fastened by means of centering brushing. Tray has trough gas dynamic hole and leading belt. EFFECT: enhanced hitting efficiency of cartridge. 1 dwg, 1 tbl

Description

 The invention relates to artillery cartridges of small caliber unitary loading with armor-piercing projectiles, the core of which is made of heavy alloy, designed to fire from automatic guns that do not have an external autonomous drive for automation.

 Small-caliber cartridges are known from the patent literature in which, to increase the efficiency of the armor-piercing action of shells, in particular, to increase the initial velocity at a given maximum pressure, the ignition zone of the propellant charge is organized in the center of the sleeve by means of a fire-transfer tube inserted coaxially to the igniter in the bottom part (see, for example, US patents N 3929073 from 12.30.75, N.CL. 102/43; Germany N 1277706, CL 72d, in which the tube length is from 20 to 80% of the charge height). This increases the stability of the ballistic characteristics of the shot: the initial velocity of the projectile, the pressure in the bore, accuracy.

 Armor-piercing projectile ammunition shells with a central ignition tube are widely used in the armies of NATO countries: 30 mm cartridge for the GAU-8 / A gun mounted on the A-10 attack aircraft (USA), 30 x 173 cartridge with a 35 mm tube length for the KRL 21- gun AT "Rarden" (England), 40 mm cartridges for anti-aircraft guns MK-1, MK-2 (USA) "Bofors" (Sweden) 40L 70 with a tube length of 50. 60 mm.

 The disadvantage of these designs is that when improving existing cartridges, the free volume of the sleeve decreases, that is, the mass of the propellant charge decreases. The necessary increase in the density of the powder charge (above the maximum capacity) can be achieved by using heterogeneous, combined artillery gunpowder, which allows you to control the burning rate by selecting the content of the components (at least 80% of the main) and the size of the granules (up to 7 mm) to obtain the required projectile flight speed (see Propellants. Expl. Pyrolechn. 1982, V. 7 N 6, p. 158 and the German patent N DE3008196, C 06 D 5/00, 1982).

 The closest technical solution, which coincides with that proposed for most essential features, is a 30 mm Kerner cartridge for automatic guns 2A42 and 2A72, described in the Technical Specifications of IUBZ. 773421.002 TU, M. 1994, p.32, the peculiarity of which is that the armored ballistic of a lightweight projectile is provided with a new interconnection and excellent structural performance of the known features in the dimensions of a standard cartridge, that is, the novelty of quality.

 The constructive implementation of the head warhead of the cartridge with a quarter lightweight, compared with the standard, armor-piercing subcaliber projectile, made it possible to fire from existing automatic guns that do not have an external autonomous drive for automation, by increasing the mass of the propellant charge, the ignition of which is carried out through a central tube of step form.

To maintain the pressure pulse in the gas outlet of the gun 2A42 or recoiling parts in the gun 2A72 increased density of the bulk powder charge (1.06-1.10 g / cm ³ ). The tube of the axial igniter of large diameter is fixed in the point of the sleeve and is fixed by a flange. The inner diameter of the tube is equal to the diameter of the pilot hole 3.0 ± 0.4 mm On the side of the projectile, the tube is closed with a plug made of the material of the demulcator, which prevents the ingress of gunpowder.

 A mixture of pyroxylin phlegmatized gunpowders was used as heterogeneous propellant propellant powder: seven-channel granular 102 103% of the free sleeve volume and 6 10% of the mass of the spherical coarse fraction, total not less than 136 g. The combined propellant charge has a low gradient of ballistic characteristics in the temperature range of operation.

 A disadvantage of the known cartridge design is the limited velocity of the projectile due to aerodynamic drag losses, which reduces the main effect of armor penetration by a sub-caliber core.

 According to the experimental firing data, in the known cartridge design significant pressure develops inside the fire tube, which increases the likelihood of it breaking off in the section at the exit from the bottom of the cartridge case, which is unacceptable in the conditions of automatic firing of guns.

 The propellant charge is non-universal, which limits the possibilities for use. In practice, for the newly developed design of sub-caliber shells of various masses, an expensive and long-term development of a qualitative and quantitative composition is required that provides specified ballistic characteristics, the large dispersion of which is aggravated by the instability of ignition in the volume of the propellant charge under conditions of different bulk density under local powder compaction by dynamic action of the shot .

 The problem to which the invention is directed, is to increase the functional reliability of the cartridge and the effectiveness of armor penetration.

 The required technical result is achieved by the fact that in the well-known unitary small-caliber cartridge for automatic guns containing an armor-piercing subcaliber projectile and a sleeve, including a bulk combined propellant charge of seven-channel granular and spherical pyroxylin phlegmatized gunpowder, a central, step-shaped material closed with a plug plug , at the entrance made with broadening, a large diameter pressed into the point of the sleeve, and an igniter capsule, according to As with the invention, the broadening of the igniter tube is (0.2 0.5) d, where d is the diameter of the ignition hole and the tube length is 0.3 0.5 the height of the propellant charge, the content of the powder components of which is selected in the following ratio, wt.

Seven-channel grain 82 97
Spherical 3 18
while the heavy-alloy core of the projectile is mounted inside a plastic sector case fastened by a centering sleeve and installed in a tray made with a through gas-dynamic hole and a leading girdle secured in a sleeve.

 Distinctive features made it possible to increase the speed of the armor-piercing core, which is placed in a metal-plastic shell of a sector-type projectile, which is separated behind the muzzle.

 The organization with the help of a fire-transfer tube of uniform central ignition of the propellant charge, of an optimized quantitative composition, ensures the equalization of the pressure of the generated powder gases in the volume of the cartridge case, which ensures stable ballistic characteristics of the shot and armor penetration rates in a given range of values.

 The proposed system of power and geometrical closure of cartridge elements: a core made of a residence permit alloy plastic sector housing - a centering metal sleeve pallet sleeve, ensures its integrity during assembly, transportation, storage, operation as part of the tape during official handling and passage of the cartridge along the gun’s power paths and before trunk. At the same time, the metal centering sleeve, fastening the plastic case bearing the armor-piercing core, can withstand overloads when firing and moving along the barrel to exit the muzzle.

 The calculated cross-section of the centering sleeve grooves ensures guaranteed uniform separation of the plastic sector housing behind the muzzle section under the action of centrifugal forces of rotation of the projectile and separation of the pallet from the core by the internal pressure of the powder gases accumulated inside the projectile through the gasdynamic hole during the shot and the kinetic energy of the incoming air flow.

 The broadening of the fire-transfer sleeve acts as a receiver, where pulsations are smoothed out during gas accumulation and further uniform outflow of the gas stream from the igniter capsule is organized, which melts the plug material and disperses it in the volume of propellant charge gases, then distributing it over the entire length of the gun barrel, which increases the functional system reliability.

 The broadening of the inlet part of the tube by less than 0.2 of the diameter of the ignition hole leads to degeneration of the receiver and, as a result, possible separation of the tube due to an increase in the allowable pressure of the products of explosive transformation when the igniter capsule is triggered.

 The maximum size of the receiver (0.5 of the diameter of the pilot hole) is determined by the design of the fastening of the ignition unit at the bottom of the sleeve and is limited by the diameter of the hole for the capsule sleeve, as well as the strength of the tube under dynamic loads of the shot.

 The implementation of the receiver in the igniter tube, according to experimental data, reduces the maximum pressure by 2.4 -2.8 times. This allowed to reduce the length of the tube to 0.3 propellant charge height, releasing the volume of the sleeve to accommodate the powder.

 When the tube length is less than the specified limit, the dynamic effect of the gas stream and the flame force from the triggered capsule sleeve increases (in particular, the powder is crushed), which leads to anomalous ignition of the propellant charge in height and volume, i.e., instability of ballistic characteristics.

 When increasing the length of the tube above the maximum limit of the range, 0.5 of the height of the metal charge, it is difficult to uniformly ignite the overconsolidated charge (to preserve the mass of gunpowder), which leads to a decrease in the initial velocity of the projectile.

 The selected confidence range of the quantitative ratio of the components of the propellant charge, optimal for almost the entire nomenclature of designs of small-caliber armor-piercing subcaliber shells, allowed us to expand the scope of use.

 A wider, compared with the prototype, range of components of the propellant charge allows you to vary the composition for the normal functioning of the gun automation and achieve a given level of ballistic characteristics of cartridges of various designs, for example, armor-piercing 30 mm projectile with a mass of 360 g to 180 g.

An increase in the density of the combined propellant charge to 1.20 g / cm ^{3 is} ensured, while maintaining the technology of assembling bulk charges, by increasing the mass of spherical powder, while the mass of the seven-channel granular powder remains almost constant, and varies within narrow limits depending on the gravimetric its density and from the magnitude of the coefficient of prepress of granules of gunpowder from 1 to 4%
The invention is illustrated in the drawing, which schematically shows the proposed cartridge.

An armor-piercing armor-piercing projectile containing a core 1 of a residence permit alloy with a specific gravity of 16.6 g / cm ³ through an aluminum tray 2 is installed in a sleeve 3, which includes an igniter 4, a step ignition tube 5 and a combined propellant charge.

The head part of the core 1 has a profile with a front cone of 118 - 120 ^o , which goes into a stepped cone with an angle of 10 20 ^o , containing two annular grooves that act as localizers and at the same time serve for rolling the ballistic tip 6.

 At the end of the core 1, trapezoidal protrusions are made for the recesses in the pallet 2 (not shown), by which they mate assembly, in the radial direction, motionless. In the pallet 2 there is an axial hole 7 gas-dynamic, under the tracer 8.

 The drive belt 9 is fastened to the pallet 2 and a plastic case 10 is mounted on the thread, bearing a centering metal sleeve 11 of complex shape (cylindrical on the outside and conical inside), supported by the cone of the head of the core 1. When making the case 10 with the pallet 2, core 1 centered and fixed in the shell.

 The propellant charge of the sleeve 3 is a combined mixture of pyroxylin phlegmatized powders: seven-channel grained 12 grade 6 / 7P-5BPfl and spherical 13 grade AEf 35 / 3.35.

 The output of the igniter tube 5 is closed by a lead plug 14, and a receiver 15 is made at the inlet, the diameter of which is 1.2 1.5 times the diameter of the tube 5 (its ignition hole). The length of the tube 5 is selected in the range of 0.3 to 0.5 of the height of the propellant charge in the sleeve 3.

 The design of the cartridge is illustrated by the example of a 30 mm armor-piercing submunition cartridge "Kerner", the length of the tube 15 of which is 42 mm, and the diameter of the receiver 15 is 6.55 mm. The content of gunpowders 12, 13 in the propellant charge was selected in the range of ratios (wt.): Seven-channel granular 82 97 and spherical 3 18, which is 127 130 g and 4 - 13 g, respectively.

 The experimental testing of the designs of armor-piercing sub-caliber shells, including the Kerner cartridge, confirmed the dependence of the ratio of the components of the propellant charge and the dimensions of the ignition tube on the weight of the shell to ensure stable ballistic characteristics of the shot, obtain the highest initial velocity of the shells, and reliable functioning of the automation of small-caliber guns when using cartridges with armor-piercing subcaliber shells having a heavy alloy core, significantly different by weight.

 The results of the optimization of the parameters of 30 mm cartridges with various armor-piercing projectiles are summarized in the table.

 When fired, the force of the flame and gas-condensed detonation products initiated by the igniter 4 ignites into the tube 5, where they accumulate in the receiver 15, the pressure pulsations are smoothed out, the gas-condensed phase is mixed and a flame force is formed, which melts the plug 14 and breaks into the sleeve 3 with a torch where it ignites the powder mixture 12-13 in the Central part of the propellant charge.

 The increased pressure of the powder gases on the pallet 2, the projectile is removed from the sleeve 3 and fed into the channel of the gun barrel, with the walls of which along the entire length of the material dispersed in the powder gases is the plug material 14, the demulcator.

 The torque from the rifling of the barrel through the belt 9, the pallet 2 (through the joint of the protrusions-recesses) is transmitted to the core 1. Behind the muzzle section of the barrel of the gun, the housing 10 along the longitudinal grooves of the sector and the sleeve 11 along the webs of the weakened section are destroyed and braked by air, and the core 1 is oriented with a given speed moves toward the target along an external path.

 Thus, the proposed technical solution provided a comprehensive increase in the efficiency of the main action of small-caliber cartridges by reducing the mass of armor-piercing sub-caliber shells with an increase in the loading density of the propellant charge, resulting in an increase in the initial velocity of the projectile necessary to increase armor penetration while ensuring the normal functioning of the serial guns automation.

Claims (1)

 Unitary small-caliber cartridge for automatic guns, containing an armor-piercing sub-caliber projectile and a sleeve, including a bulk combined propellant charge of seven-channel granular and spherical pyroxylin phlegmatized gunpowders, a central, step-shaped form, closed by a plug from the material of the demulcator, filled with an ignition tube with a large diameter at the entrance, into the point of the sleeve, and the igniter capsule, characterized in that the broadening of the igniter tube is (0.2 0.5) d, g e d pilot hole diameter and the tube length is 0.3 0.5 height of the propellant, the propellant content of the component which is selected in a ratio by weight. Seven-channel grain 82 97
Spherical 3 18
while the heavy-alloy core of the projectile is mounted inside a plastic sector case fastened by a centering sleeve and installed in a tray made with a through gas-dynamic hole and a leading girdle secured in a sleeve.

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