RU2342624C1 - Artillery small-caliber shell - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention concerns ammunition of fragmentation demolition type. Shell contains the case equipped with a conducting corbel with the chamber, filled with explosive and a bottom cavity with tracer agent placed in it, and the head detonator established in a carving point of the case. The tracer agent is executed in the form of a thin-walled glass with pyrotechnic structure press-fitted in it which is strengthened in a ground cavity through the layer of anaerobic hermetic and is longitudinal fixed by the cutting spring washer placed in the ring groove bottom cavity. Between the tracer agent and a back end face of the shell the free volume is formed by the depth, making 0.15-0.25 of the shell calibre. The chamber is executed with an undercut exceeding on diameter a carving point under a detonator, and with explosive pressing possibility.

EFFECT: increase of power of ammunition and adaptability to manufacture of its manufacturing and assemblage.

1 dwg

Description

The invention relates to ammunition, and more particularly to small-caliber artillery shells of a high-explosive fragmentation type.

The level of this technical field is characterized by an artillery small-caliber projectile for an automatic grenade launcher according to patent RU 2196294, F42B 12/24, 2003, which has an aerodynamic shape formed by a streamlined configuration of the head fuse and an arm part made in the form of a truncated cone tapering backwards, the length of which is 0.7-0.9 of the caliber of a grenade. The angle of inclination of the generatrix of the conical shank having an open bottom cavity is optimized in the range of 8-10.

The bottom cavity communicates with the atmosphere through through slots on the conical surface of the shank, through which the air of the incoming flow penetrates inward, reducing the aerodynamic drag of the projectile on the flight path to the target.

The described improvements in the design and shape of the projectile ensured a 20% increase in range at subsonic flight speeds.

The shell of the shell filled with explosive is equipped with a leading belt, which is pressed into a radial groove on the centering bulge.

A characteristic feature of the known projectile is the regulated crushing of the thickened body by means of a grid of corrugations made on its inner surface. Intersecting corrugations form weakened sections of the body wall and, acting as a gas wedge, serve as stress concentrators along which, in the main, its destruction occurs with the formation of fragments of a given mass and shape.

A disadvantage of the known projectile is its poor high-explosive effect due to the relatively large wall thickness of the fragmentation shell, limited by structural strength when pressing in the radial groove of the centering thickening of the driving belt. In this case, the volume of explosive filling is further reduced by the presence in the body of the bottom cavity.

In addition, for a given crushing of a thick-walled case into dimensional fragments, they are forced to form a grid of corrugations by additional machining of the chamber surface, which complicates the technology and increases the cost of manufacturing ammunition.

Another disadvantage of the described projectile is the lack of a tracer for visual adjustment of salvo firing.

The noted shortcomings were eliminated in the HS 820 artillery small-caliber projectile (20 × 139 mm) described in the journal "Jane's Ammunition Handbook", 2003-2004, p.92, HEI-T, which, by most coinciding features, is the closest analogue to the proposed projectile.

The well-known high-explosive fragmentation tracer has a streamlined head fuse and a thin-walled body filled with explosives, a copper driving belt is pressed into the radial groove of the tracer, and a tracer is installed in the bottom open cavity, the shell shank being made in the form of a truncated cone tapering behind.

A tracer device ignited by a heat pulse from the propellant powder charge of the sleeve provides target designation for mobile fire adjustment.

The copper lead belt is pressed onto a thin-walled case above the transverse jumper between the chamber and the bottom cavity under the tracing device, which virtually eliminates wall deformation under radial loading of the press fitting.

The force of the combustion products of the pyrotechnic composition of the tracer, flowing out from the bottom cavity of the shell of the projectile, serves as an additional aerodynamic stabilizer of the longitudinal stability of the projectile in flight, with a changed mass ratio of its structural components.

A disadvantage of the known projectile is its poor high-explosive effect due to the limited volume of explosive in the chamber, the bottom of which is located under the radial groove for pressing in the drive belt, which further reduces the payload of the explosive filling of the chamber, limited by the length of its volume.

In addition, the length of the conical shank for a projectile equipped with a tracer with an inclination angle of the generatrix of 8-10 ° to the longitudinal axis, equal to 0.7-0.9 caliber, is not optimal when the flight speed is higher than the speed of sound.

The problem to which the present invention is directed, is to improve the design of the projectile to ensure manufacturability and assembly, as well as expand the functionality while increasing the destination.

The required technical result is achieved in that in a known artillery small-caliber projectile containing a housing equipped with a leading belt, in which a chamber filled with explosive is made, and a bottom cavity in which the tracer is placed, and a head fuse installed in the threaded point of the case, according to the invention, the tracer made in the form of a thin-walled glass with a pyrotechnic composition pressed into it, which is fixed in the bottom cavity through a layer of anaerobic sealant and is cut longitudinally a spring washer located in the annular groove of the bottom cavity, while between the tracer and the rear end of the projectile a free volume of 0.15-0.25 caliber of the projectile is formed, and the chamber is made with an undercut exceeding the diameter of the threaded point for the fuse, and with the possibility of pressing explosives into it.

Distinctive features provided an increase in functional reliability and indicators of the appointment of ammunition, more technological in the manufacture and assembly.

The execution of the tracer in the form of a thin-walled cup with a pyrotechnic composition pressed into it, which is performed in a massive matrix, excluding its mechanical deformations, tells the tracer a new quality - the autonomy of the assembly unit, which is mounted in the bottom cavity through a layer of anaerobic sealant (U-9, TU- unigerm 01-1326-86).

After polymerization and curing, Unigerm U-9 provides adhesive fastening of the tracer with the body, which withstands the pressure of the powder gases of the propellant charge of the sleeve and prevents their unauthorized breakthrough through the connection, which is sealed around the perimeter. As tests showed by firing practical shells, the connection of the tracer cup to the shell of the projectile remains monolithic after thermodynamic loading of propellant by powder gases during firing.

Placing in the annular groove of the bottom cavity, from the side of the open end, a split spring washer provides longitudinal fixation of the mounted tracer relative to the housing. This completely excludes the possibility of pushing the tracer out of the bottom cavity when firing at the breech of the barrel under the action of high pressure of the gaseous products of combustion of the propellant propellant charge.

The spring stop is technologically simple to install in the annular groove, and its removal without a special tool is not practically possible, that is, the tracer is securely fixed in the bottom cavity.

The implementation of the tracer in the form of an autonomous assembly element allowed filling with explosive material by direct compression of a large mass into the housing with undercutting, before installing the finished tracer in the shell of a thin-walled glass in its bottom cavity.

With the free installation of an autonomous tracer pressed into the glass, mechanical loading of the case is not required, as it was in the prototype (the pressing pressure of the pyrotechnic composition of the tracer was three times higher than the pressure of the powder gases during firing), which allowed the use of ordinary steel 50 instead of alloy steel 35KhGSA, hardened by additional heat treatment. As a result, crushing of the hull into the striking elements of the required mass and shape has improved, that is, the fragmentation effect of the ammunition has increased.

In addition, steel 50 is plastic during cold deformation, which made it possible to form a point under the fuse by crimping the head of the body during the formation of undercut chamber, which increases the volume and, consequently, the mass of explosives by 2.5 times, increasing the high-explosive impact of the projectile.

The formation, due to the mutual arrangement of the structural elements, between the tracer and the rear end of the free-volume projectile serves as a diffuser, where the gases expand in the central stream of sucked-in air, the speed of which drops, which prevents the formation of vortices in flows flowing from this end cavity circulating adjacent to an expanding cone of the boundary layer, contributing to an increase in the firing distance.

The compressed head part of the shell of the projectile having a linear speed that is several times higher than the speed of sound, coupled with the head fuse, forms the aerodynamic shape of the head part, which the incoming flow flows smoothly around. At the same time, behind the direct end of the projectile, in the bottom space, a vacuum is created that reduces aerodynamic drag on flight.

The central air flow formed by the reverse movement of the boundary layers into the backfill zone is directed into the free volume of the cavity above the tracer, where a reversal and reactive release to the periphery take place.

The optimized depth of free volume in the bottom cavity above the tracer in the range of 0.15-0.25 of the caliber of the projectile was chosen experimentally, based on the theory of designing the aerodynamic shape of shells with supersonic flight speed.

The execution of the chamber with an undercut exceeding the diameter of the threaded point under the fuse, makes it possible to press in explosives into it, providing an increase in the fill factor and, therefore, the combat power of the projectile.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of quality, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new effect of the set of features.

A comparative analysis of the proposed technical solution with 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 industrial serial production of artillery small-caliber shells, we can conclude that the patentability criteria are met.

The invention is illustrated by the drawing, which is purely illustrative and does not limit the scope of the claims of the formula. The drawing shows a 30-mm high-explosive fragmentation tracer for the machine gun AO-18.

Case 1 is made of steel 50 with two coaxial cavities 2 and 3, separated by a jumper 4, in which explosive 5 and tracer 6 are respectively placed.

Filled with explosive 5 chamber 2 of the housing 1 has an undercut down and at the end - a threaded point 7, where the head fuse 8 is installed, the detonator 9 of which is placed inside the explosive filling 5.

The cylindrical body 1, by crimping the head part, is deformed inward by reducing the wall without thinning it, after which a point 7 is formed under the fuse 8, in which the thread is cut.

An explosive substance 5 weighing 28 g is pressed directly into the housing 1 with a pressure commensurate with the design pressure developed by the propellant gases of the propellant charge. The standard projectile A 3-UOR-84 has a mass of explosive filling of 11.5 g.

The housing 1 is equipped with a leading belt 9 and sunset grooves 10 for mounting in the barrel of the sleeve (not shown conditionally).

In the bottom cavity 3, a thin-walled glass 12 is fixed on the anaerobic sealant layer 11, in which the pyrotechnic composition of the tracer 6 is pressed in a separate operation in a massive matrix at a pressure of 9 t / cm ² .

The longitudinal position of the cup 12 is fixed by a split spring washer 13, which is installed in the annular groove 14. At the same time, a free volume is formed between the tracer 6 and the rear end of the housing 1, which is designed to prevent turbulence in the circulation flows that are sucked into the back-pressure zone when the projectile moves along the flight path.

This free volume is formed technologically in the glass 12 when pressing the pyrotechnic composition over the tracer 6 with a height of 2-3 mm and a bottom bridge of the housing 1 holding the spring washer 13, 2.5 mm high, located behind the annular groove 14. The height of the described structural bridge is selected from the condition shear strength by working pressure of powder gases propellant charge.

Thus, in the bottom of the housing 1, the free volume of the cylindrical cavity 3 is formed, in which the tracer 6 is installed, with a depth of 4.5-5.5 mm, which is 0.15-0.18 caliber of the projectile, that is, the depth of the free volume in the open the end of the projectile is in the claimed range of 0.15-0.25 caliber of the projectile.

The functioning of the projectile is as follows. When fired by a thermal pulse of the powder gases of the propellant burning in the sleeve, the pyrotechnic composition of the tracer 6 is ignited.

The increased pressure of the propellant gas propellant charge, the projectile is removed from the sunset riffles dulce, geometrically closed during assembly by crimping in the sunset grooves 10 of the housing 1, and with force is pushed into the rifled barrel of the weapon.

Through the leading belt 9, cut into the spiral grooves of the barrel channel, the projectile receives radial acceleration for stabilization by rotation during longitudinal movement to the muzzle.

On the flight path, the burning of the pyrotechnic composition of tracer 6 for 10 s forms a well visually distinguishable luminous trace necessary for adjusting the fire.

When meeting an obstacle, an inertial-reaction fuse 8 is triggered and explosive filling 5 is initiated by a detonation pulse, the shock and detonation waves of which detonate affect the target and crush the shell 1 into fragments, supplementing the damaging effect of the ammunition.

The positive results of the firing test of an experimental batch of artillery shells of the proposed design gave rise to state tests with a view to putting them into service.

Claims (1)

An artillery small-caliber projectile containing a housing equipped with a leading belt, in which a chamber filled with explosive is made, and a bottom cavity in which the tracer is located, and a head fuse installed in the threaded point of the case, characterized in that the tracer is made in the form of a thin-walled glass with a pressed-in into it with a pyrotechnic composition, which is fixed in the bottom cavity through a layer of anaerobic sealant and is longitudinally fixed by a split spring washer located in the annular groove of the bottom strips ti, while between the tracer and the rear end of the projectile a free volume of 0.15-0.25 caliber of the projectile is formed, and the chamber is made with an undercut exceeding the diameter of the threaded point for the fuse, and with the possibility of pressing explosive into it.