RU2422758C1 - Artillery small-calibre cartridge of unitary charging - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cartridge includes high-explosive fragmentation shell and case with powder propellant charge. Shell is equipped with copper driving band. Shell is equipped as to thread to nose fuse interacting with high-explosive filling of the shell body. Igniter capsule is installed in case flange. Stage of smaller diameter, which forms the guarantee gap relative to shell body, is made on threaded attachment part of nose fuse. Lead ring placed into powder propellant charge of case adjoins the shell bottom. Case is covered on the outside with antifriction layer of zinc chromate.

EFFECT: enlarging damage effect of ammunition.

3 dwg

Description

The invention relates to ammunition, and more specifically to artillery small-caliber ammunition of unitary loading, the shells of which are characterized by a special implementation of the leading belts.

The level of this technical field is characterized by the unitary cartridge according to patent RU 2086900 C1, F42B 5/02, 5/192, 14/02, 1997, designed for artillery rifled weapons, which includes a high-explosive fragmentation projectile with a plastic lead belt fixed in a groove on a centering bulge adjacent adjacent to the barrel of the cartridge case containing the propellant propellant charge and means of ignition.

A feature of the described cartridge is that the lead belt is injection molded from a polyaryate composition with the addition of fluoroplastic and applied to the inner surface of the sleeve of the coating from an easily sublimated metal — zinc, cadmium or its compound.

The technological advantages of the invention are that the elastic properties of the plastic lead belt do not require hardening of the body under the belt, and the execution of the lead belt from injection molded polymeric material excludes the operation of mechanical shaping of its profile, which is exactly obtained when casting.

The functional advantages of the proposed polymer belt, compared with the standard copper belt, are that when firing, the erosion of the combat faces of the spiral grooves of the gun barrel is noticeably reduced.

This is achieved by the fact that the fluoroplastic having a low melt viscosity, when casting, comes to the surface of the girdle, forming a protective film that is stable at operating temperatures. With its lubricating properties, fluoroplastic reduces the coefficient of friction from the introduction of the girdle into the rifling of the barrel, which dynamically arises when fired.

In this case, a sublimated metal in the form of shell liner ions heated by hot combustion products of a powder propellant composition plays the role of a catalyst in the formation of a tribochemical layer on the barrel surface from the interaction of plastic with spiral rifling, which significantly reduces their mechanical wear, that is, increases the survivability of the trunks.

This progressive method of protecting barrels of automatic guns is fraught with technological problems of a specific production, which requires precision tool accuracy, equipment and high qualification of equipment maintenance, which is unacceptable in the mass production of small-caliber ammunition.

More technologically advanced is a small-caliber high-explosive fragmentation projectile for an artillery cartridge containing a head fuse mounted on a thread in a case equipped with a copper lead belt, the step chamber of which is filled with blasting explosive, described in patent RU 2354919 C1, F42B 12/20, 14 / 02, 2007, which was chosen as the closest analogue in terms of the number of matching features.

A feature of this small-caliber projectile for a unitary loading artillery cartridge is that the copper lead belt is made by means of high-performance electric arc welding of a copper current-carrying filler wire directly onto the cylindrical surface of the casing, the chamber of which is formed by multi-transition cold extrusion of a bar billet made of low-carbon steel containing aluminum and aluminum.

A monolithic composition formed in a common weld pool during surfacing of a copper lead girdle on a steel shell of a projectile completely eliminates the possibility of a girdle breaking in the bore when firing. The process of automatic electric arc welding of copper wire on steel has been technologically developed in the serial production of shells.

Surfacing of the copper lead belt is carried out directly on the cylindrical surface of the casing, which, compared with the standard technology, eliminates the formation of a radial groove of a complex profile for pressing in by crimping a copper ring specially made from a pipe.

The proposed steel of the shell body is not fired at the melting temperature of copper, that is, subsequent local annealing is not required, and is well volumetric plastic deformed, which allows the use of cold extrusion of the chamber, excluding metal waste into the chips.

Vanadium in the steel structure provides grain refinement for hardening during volumetric deformation of the body, which better adheres to the copper of the weld bead, as this excludes gas formation, forming unacceptable pores.

Aluminum binds free nitrogen, which prevents deformation aging of the steel of the shell during the specified shelf life of the cartridges.

A disadvantage of the known design of the small-caliber artillery unitary loading cartridge, in particular of a 23 mm caliber, is that with a high pressure of the powder gases, the sleeve is inflated in the gun’s shutter with an effort that makes it difficult to extract it.

As a result of dynamic shock loading, cracks can form on the slope of the cartridge case, therefore, when the cartridge case of the small-caliber cartridge is extracted after firing, it is possible to break its barrel, which flies away on the projectile, which fundamentally worsens the aerodynamics.

But more negative as a result of this is the presence of shell fragments in the gun’s shutter, which will cause jamming of the automatics in combat conditions, and this is unacceptable.

In addition, in a projectile for a small-caliber cartridge it is not practically possible to use a more advanced head fuse, which has two additional cocking stages, which determines the increase in mass and a longer landing shank for this reason. A consequence of the modernization of the fuse is that when it is assembled by screwing it into the shell of the projectile, there may be cases when particles of blasting equipment fall into the threaded connection, inevitably causing detonation. The destruction of ammunition in the process stream is unacceptable by definition.

The problem to which the present invention is directed is to increase technological safety in the manufacture of an artillery cartridge with improved service and functional characteristics.

The required technical result is achieved by the fact that in the well-known artillery small-caliber unit loading cartridge containing a high-explosive fragmentation projectile equipped with a copper lead belt connected by a thread to a head fuse interacting with the blast filling of the projectile body and a sleeve with a powder propellant charge in the flange of which is installed the igniter capsule according to the invention, on the threaded part of the mount of the head fuse, a step of a smaller diameter is made, forming guaranteed clearance with respect to the projectile body, which is adjacent to the bottom of a lead ring placed in a powder propellant charge sleeve which is covered with antifriction outside layer of zinc chromate.

Distinctive features ensured technological and functional safety, an increase in the designation of the cartridge, while improving the aerodynamic qualities of the projectile.

The implementation of the lower end of the mounting of the head fuse with an annular groove forming a guaranteed clearance relative to the shell of the projectile is necessary for the safe connection of an elongated head fuse, additionally equipped with two cocking steps. The free volume of the annular gap formed in this case eliminates pinching of the blasting fragments when screwing the head fuse into the landing point of the projectile body.

This prevents unauthorized operation of the blasting filling of the projectile in the process stream, that is, the safety of assembly work is ensured.

The free location of the tail of the head fuse, the diameter of the annular groove of which is less than the diameter of its threaded part in the connection, provides a deeper fit of the fuse in the projectile. At the same time, the geometric contour of the projectile contour is preserved, in which an upgraded head fuse with two additional cocking steps is used, which has a greater length and weight than a standard fuse.

As a result of the described improvement, the functional reliability and effectiveness of the main action for the purpose of the cartridge as a whole are increased.

The actual displacement of the center of mass of the projectile according to the invention forward relative to the center of pressure improves, by definition, its longitudinal stability on the flight path to the target.

Placing the lead ring inside the shell, covered by the bottom of the projectile, in direct contact with the propellant propellant charge ensures its sublimation during high-temperature combustion, the vapor of which is dispersed into the volume of the generated powder gases. Further, after the separation of the projectile with the sleeve, the powder gases transport the lead distributed in the volume, which actively chemically interacts with copper, of the adhering layer on the combat faces of the spiral grooves of the barrel.

The volatile chemical compound of lead with copper is carried out by the powder gases into the atmosphere, which prevents the so-called “copper-plating” of the barrel rifling, which prevents the formation of a lead screw pair for spinning the projectile around the axis when firing. In the case of a stuffed belt, it may break off from the projectile.

The copper plating of the rifling of the barrel significantly reduces its survivability, which is a significant lack of ammunition at a rate of automatic guns up to 1000 rounds per minute.

The coating of the sleeve of the proposed cartridge in the form of an antifriction layer of zinc chromate (chromic acid salt of the chemical formula Zn ₂ CrO ₄ ) is aimed at reducing the extracting force during the extraction of the sleeve after firing, due to a noticeable decrease in the friction coefficient of surfaces adjacent to the dynamics compared to a replaceable phosphate coating liners painted on top with varnish using standard technology.

This prevents violation of the continuity of the sleeve during extraction, the separation of its barrel is completely eliminated, which ensures the functional reliability of the cartridge as a whole and the safety of automatic firing in bursts.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical task posed is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the invention does not explicitly follow for an ammunition specialist, showed that it is not known, and taking into account the possibility of serial production of artillery small-caliber cartridges in the current production, we can conclude that the patentability criteria are met .

The invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of the claims of the formula. The drawings show:

figure 1 - General view of the cartridge;

figure 2 is a view of figure 1;

figure 3 - shell with a floating lead belt.

The proposed artillery cartridge includes a small-caliber high-explosive fragmentation projectile 1 (Figs. 1 and 3), into the sunset ring grooves 2 of which the roll of the sleeve 3 is rolled, forming a monolithic unitary structure.

The projectile 1, equipped with a copper lead belt 4, is threadedly connected to a head fuse 5 interacting with its blasting filling 6.

At the lower end of the threaded part of the head fuse 5 (Fig.2) is made by means of an annular groove a step 7 of smaller diameter, which forms a guaranteed gap 8 relative to the shell 9 of the projectile 1.

In the flange of the sleeve 3 (Fig. 1), which is filled with a propellant propellant charge 10, an axial igniter 11 is mounted.

Under the shell 1 directly on the propellant propellant charge 10 is a lead ring 12 - a demulsifier.

The proposed design of the cartridge is universal in the use of various designs of shells: in addition to the described projectile 1, the body 9 of which is made by turning, and the copper lead belt 4 is made by standard fitting of a copper ring into the radial shaped groove of the centering thickening of the body 8 of steel 50 (Fig. 1), also and a more preferred alternative high-explosive fragmentation projectile 1, equipped with a floating copper lead belt 4 (figure 3).

In both embodiments of the projectile 1, essential features of the cartridge are necessarily preserved: the use of an upgraded head fuse 5 and coating the sleeve 3 with a layer of zinc chromate, which ensures interchangeability when achieving a new quality claimed by the invention.

The implementation of the copper lead belt 4 by electric arc welding directly on the cylindrical surface of the shell 9 of the projectile 1 (Fig. 3), in comparison with the stuffed belt 4, is more efficient and technological, provides a monolithic bimetallic connection with the housing 9, which eliminates the breakdown of the belts 4 when fired.

In this case, there is no need to pierce on the body 9 of the projectile 1 a radial groove of a complex profile with corrugations at the bottom for mounting a pre-prepared copper ring, which is laborious and less reliable.

The artillery cartridge functions as follows.

When a force is fired by a flame from a fired igniter capsule 11, the combustion of the propellant propellant charge 10 in the sleeve 3 is initiated with a sharp rise in pressure and temperature.

In this case, the lead of the ring 12 is sublimated by the energy of the generated powder gases, the vapors of which are dispersed in volume.

When the intensity of the forces acting on the projectile 1, from the pressure of the gaseous mixture dynamically developing inside the sleeve 3, exceeds the extracting force of the locking connection of the structural elements of the cartridge, the projectile 1 receives linear acceleration of movement along the gun barrel.

In this case, the copper lead belt 4, which obturates the breakthrough of gases forward, cuts into the combat faces of the spiral rifling and forms a helical pair, as a result of which the projectile twists around its axis for gyroscopic stabilization in flight to the target.

Lead vapors in direct contact with copper adhering to the battle faces of the rifling of the barrel during mechanical deformation of the cutting belt 3 form a volatile chemical compound, which is removed from the barrel by the flow of powder gases, thereby preventing copper plating.

After firing the sleeve of the sleeve 3, the gun’s automatic mechanism, which grabs it by the flange groove, is easily removed from the shutter, because the outer coating of the zinc chromate layer, which has a low coefficient of friction, provides sliding, eliminating burrs, burns, and other obstacles to extraction.

Tests by firing prototypes of cartridges according to the invention confirmed the feasibility of developing a new, more effective aviation, anti-aircraft ammunition for mass deliveries to the Customer.

Claims (1)

An artillery small-caliber unit loading cartridge containing a high-explosive fragmented shell equipped with a copper lead belt, threadedly connected to a head fuse interacting with the blasting filling of the shell of the shell, and a cartridge case with a powder propellant charge, in which the igniter capsule is mounted, characterized in that the threaded part of the head fuse mount has a smaller diameter step, which forms a guaranteed clearance relative to the shell of the projectile, to the bottom of which the pig adjoins ovoe ring placed in a powder propellant charge sleeve which is covered with antifriction outside layer of zinc chromate.

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