RU2627505C1 - Shell body - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: shell body contains a cylindrical sheath with a curved taper where a threaded point is placed for the detonator, in the chamber of which semi-finished fragments of the pyramidal shape are formed by means of two rows of counter-directed spiral corrugations of a triangular profile, and a shank adjoining by means of the bottom bridge. The shank narrows to the back to the open end of its dilution chamber, provided with through slits. There is a copper leading belt, fixed in the ring groove of the bridge. The shank with a cylindrical sheath is made of a single rod stock by volume bilateral deformation with the formation of a common reinforced bridge with a grid of prismatic notches on its bottom surface from the side of the chamber. This is designed to withstand the increased loads during firing. Corrugations in the shell are made on the entire length of the chamber, one third bigger than the corrugations on the ogival body.

EFFECT: improved processability of manufacturing the shell body and its fragmentation at a greater range when firing.

3 dwg

Description

The invention relates to ammunition, and more particularly to artillery shells, the body of which has an attenuating notch inside for uniform crushing into fragments of a given shape and mass, made in the form of intersecting multi-grooves.

The level of this field of technology is characterized by the shell of an artillery shell described in patent RU 2196294 C1, F42В 12/22, 2003, which contains a fragmentation shell with a network of semi-finished fragments in the form of rhombic truncated pyramids on the inner surface, formed by two rows of equally distributed spiral riffles of a triangular a profile having an opposite direction, while the tail of the body is conical, tapering backwards, and is equipped with a rarefaction chamber open on the bottom side, on the walls of which there are through holes dialysis gaps.

At the open end of the shell, a threaded point is made for the installation of a head fuse.

In the profiled groove of the body, a copper lead belt is fixed.

A grid of semi-finished fragments distributed on the inner surface of the cylindrical shell of the shell of the shell provides the required crushing by detonation products of explosive filling material along sections weakened by spiral grooves, where gas wedges of fracture are created along combined shear lines.

The execution of the rarefaction chamber open in the conical shaft, which is open from the bottom, reduces the aerodynamic drag of the ammunition on the flight path, since the incoming air coming through the through radial slots of its wall equalizes the pressure and jet cuts through the turbulence in the bottom of the projectile, which contributes to an increase in the firing range.

The disadvantage of the described shell of the artillery shell is unsatisfactory performance indicators, in particular fragmentation, due to the increased thickness of the wall, providing the required high-explosive action of the projectile, on which a copper ring of the driving belt is pressed across.

The massive cylindrical-shaped head of the body, in which the fuse is mounted, is not split into predetermined fragments, therefore, it is a ballast and creates great aerodynamic drag during flight, reducing the firing distance.

The noted drawbacks are eliminated in the shell of the artillery shell of 57 mm caliber according to patent RU 2248514 C1, F42В 12/24, 2005, which is selected by technical essence and the number of matching features as the closest analogue to the proposed shell of the artillery shell.

The well-known thin-walled shell of a fragmentation projectile is made integral and contains a cylindrical shell and a conical shape, a hollow shank rigidly connected by thread to the sealant, the outer joint of which is reinforced with a leading belt acting as a fastening band located above the transverse bridge serving as a support for pressing on the leading belt.

The head part of a thin-walled shell, the inner surface of which is made by means of multi-grooves with distributed semi-finished fragments of a pyramidal shape, is crimped on a mandrel with the formation came to life, in the open end of which there is a threaded point under the head fuse.

The thin-walled shell of the shell shifts the center of mass backward behind the center of pressure, which improves longitudinal stability in flight, and the streamlined shape of the animated head of the shell of the shell reduces aerodynamic pressure by the incoming air flow, resulting in an increased firing range

As the wall thickness decreases, the mass of the explosive increases, increasing the power of the ammunition.

An advantage of the known shell shell is to reduce the cost of manufacturing two structural parts using different rational technologies without practical loss of structural strength.

The geometrical and force closure of the junction of the aerodynamic shank with the fragmentation shell by pressing the copper lead belt into the common groove and gluing their threaded joints with sealant ensured the load-bearing strength of the known body almost equal to the standard shell.

However, the continuation of the noted advantages of the known shell shell is the presence of inherent disadvantages - unsatisfactory fragmentation and limited firing range.

The first is determined by the fact that part of the head came to life in a point under the fuse and the massive jumper does not have corrugations and does not create fragments of a given shape and mass.

The prefabricated design of the known shell of the shell limits the growth of the propelling impulse to the maximum bending loads at the junction of the shell and the shank, which does not allow to increase the firing range.

The various manufacturing techniques for the structural parts of the prefabricated shell body creates a gap in line production and is not universal, which complicates the manufacture and requires additional capital costs.

The technical problem to which the present invention is directed is to increase the destination, namely the fragmentation of artillery shells made by unified technology, and their firing range

The required technical result is achieved by the fact that in the well-known artillery shell housing containing a cylindrical shell with an animated warhead, where a threaded point for a fuse is made, in the chamber of which half-finished pyramidal shaped fragments are formed by means of two rows of counter-directed spiral riffles of a triangular profile, and an adjacent bottom lintel a shank tapering posteriorly to the open end of its rarefaction chamber equipped with through slots, as well as a copper lead belt, are fixed In the annular groove of the lintel, according to the invention, the shank is monolithically connected with the cylindrical shell, the flutes of which are made over the entire length of the chamber by a third wider than the flutes on the spire, while the jumper on the side of the chamber is equipped with a prismatic notch grid.

Distinctive features of the proposed technical solution improved the designation of the projectile: increased fragmentation when firing at a long range of artillery shells, characterized by the manufacturability of their shells.

At the same time, the functional reliability of the munition increased, the one-piece casing of which is made by double-sided half-hot extrusion of both cavities - chambers for equipment and rarefaction chambers in the shank, separated by a monolithic power bridge

The narrowing of the grooves and the mutual displacement of the pyramidal protrusions during volumetric deformation of the metal of the head of the cylindrical semi-finished product significantly reduces the load on the tool forming an animated set profile, while providing a reserve of the thickness of the open end for the threaded point under the head fuse, partially preserving the grid of spiral grooves in it, which determine the adjustable crushing into given fragments.

The monolithic connection of the cylindrical shell of the body with the shank, by definition, increases the bearing stiffness of the ammunition, in principle eliminating its unauthorized separation when functioning into structural parts (as is possible in the prototype), which ensures the safe operation of ammunition.

The monolithic connection of the shank with the cylindrical shell of the shell of the shell, made of a single bar stock with volumetric bilateral deformation with the formation of a common hardened bridge, created a power structure that can withstand increased firing loads of a more powerful propellant charge for projectile flight over an extended range.

The implementation of spiral riffles in a threaded point under the head fuse ensures its predetermined crushing into useful fragments, increasing the area of damage.

The selected ratio of the width of the grooves on the cylindrical shell and on its lively part optimized the degree of volumetric deformation when crimping the head of the body to a given streamlined profile without hardening, preserving the geometry of the semi-finished fragments, which is achieved when the pyramids are deformationless due to the convergence of the walls of the grooves.

The formation of a grid of riffles on the entire surface of the chamber of the semi-finished shell of the shell, including in the point under the head fuse, expands the fragmentation field of expansion from the lively part of the shell of the shell due to the greater angle of their forward inclination towards the target.

An additional technical effect from the formation of a grid of trapezoidal notches on the surface of the bottom lintel from the side of the shell of the projectile body is the adjustable crushing of the massive lintel into fragments of a given shape and mass, which increases the effectiveness of the main damaging effect of the munition.

At the same time, the shells of artillery shells became possible to produce from cheap low-carbon steels, in particular from steel 20, which is noticeably hardened during plastic deformation during the formation of oncoming spiral grooves, as a result of which there is a volumetric force movement of metal layers across the rolling layers and structural modification, which ensures achievement of the strength indicators specified by the drawing, which reduces the consumer cost of the finished product.

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 problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The essence of the present invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of claims of the totality of the essential features of the formula.

On the image:

in FIG. 1 - General view of the shell of an artillery shell 57 mm;

in FIG. 2 is a section along AA in FIG. 1, rotated;

in FIG. 3 is a section along BB in FIG. 1, view of the bottom jumper of the chamber.

The shell of the projectile includes a cylindrical shell 1 with a pin 2, in the open end of which is made a threaded point 3 under the head fuse.

Under the bottom jumper 4 of the shell 1 there is a hollow shank 5 tapering downward with a rarefaction chamber 6, on the wall of which through slots 7 are distributed.

On the surface of the shell 1, above the supporting jumper 4, in the profiled groove 8, a copper lead belt 9 is pressed in, behind which on the shank 5 there are annular cartridge grooves 10 for rolling the barrel of the cartridge case.

On the inner surface of the shell 1, semi-finished pyramidal shaped fragments 11 are formed, formed by two rows of counter-directed spiral corrugations 12 of a triangular profile formed by a sequential broach.

The step of 15 ° between the spiral corrugations 12 with a width of 1.81 mm and an angle at the apex of 60 ° is determined commensurate with the thickness of 6 mm of the shell 1 according to theoretical design recommendations (see, for example, "Means of destruction and ammunition" edited by V.V. Selivanov , M., Publishing House of MSTU named after N.E.Bauman, 2008, p. 208, Fig. 3.19).

Thus, the corrugations 12 with a depth of 1.5 mm are performed by a 24-way spiral broach, and in two operations of the opposite direction of the spirals, a grid of semi-finished fragments 11 of a given shape and mass is formed on the inner surface of the cylindrical shell 1.

A feature of the manufacturing technology of the housing according to the invention is that the spiral corrugations 12 are formed along the entire length of the cylindrical semi-finished product of the shell 1, which is formed by half-hot extrusion from a bar stock, after which its head part is crimped onto the mandrel, forming an animated 2. Then, from the open end, 2 came to life cut point 3 and it has a thread for installing a head fuse.

When crimping on the mandrel of the head of the cylindrical prefabricated shell 1, the width of the spiral corrugations 12 with a size of 1.81 mm is reduced to 1.37 mm on the spindle 2.

As a result of the proposed order of operations, riffles 12 are saved on the part of point 3, and stress concentrators, along which plastic shear occurs during explosive loading from undermining the equipment, are stored on the upper part of point 3, where they are cut off, which ensures specified crushing and the formation of additional useful fragments.

The triangular profile of the flute 12 (with an angle at the apex of 60 °), according to the theory of design of fragmentation shells, is 25% of the thickness of the wall of the shell 1 (Fig. 2).

In the supporting jumper 4 from the side of the shell of the shell of the projectile (Fig. 3), a network of prismatic notches 13 is formed, weakening its cross section, which facilitate and orient crushing into fragments when the equipment is detonated.

The formation of notches 13 is combined with the operation of extruding the casing chambers in a piece of bar semi-finished product.

The proposed design of the shell of the shell is technologically advanced in the manufacture of existing press equipment, without flow discontinuities.

The destruction of the shell 1 when the shell is detonated occurs as a result of the local action of gas wedges formed during detonation of explosive filling along cracks emanating from the top of the corrugations 12, which are pressure concentrators, and oriented along the lines of maximum tangential stresses.

Tests by shooting prototypes of artillery shells with a caliber of 57 mm with a standard propelling charge confirmed an increase of 17% on average flight range due to improved aerodynamic shape, which ensures longitudinal stabilization of the projectile in flight, when flowing around it came to life with 2 near-border streams of incoming air flow, without interruptions and with predetermined vacuum formed by the chamber 6 of the shank 5, in which air is sucked in through the communication slots 7.

As a result of the explosions in the armored cab with the catchers of the fragments of the prototype shells with the proposed shell, an increase in the number of useful fragments was revealed compared with the regular fragments by 12% with a wider sector of their expansion.

Analysis of the fragments showed that the crushing of the body occurs strictly along spiral corrugations 12, and the lintels 4 along notches 13 with the formation of damaging elements of a given shape and mass.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences in the shell of the artillery shell, which do not directly follow from the statement of the technical problem, are not obvious to the specialist in ammunition.

The manufacture of cases according to the invention is possible in the existing press production in series.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

In the new modernized munition housing, the overall and landing parameters of the standard product were preserved while improving its aerodynamic shape and the specified crushing of the shell into fragments of the required configuration and mass was ensured with additional adjustable crushing of the point under the head fuse and jumper of the shank, which allows us to recommend its industrial introduction into serial production for deliveries to customers

Claims (1)

The shell of an artillery shell containing a cylindrical shell with a lively warhead, where a threaded point for a fuse is made, in the chamber of which half-finished fragments of a pyramidal shape are formed by means of two rows of counter-directed spiral riffles of a triangular profile, and a tail adjacent to the bottom lintel, tapering backwards to its open end a rarefaction chamber equipped with through slots, as well as a copper lead belt fixed in the annular groove of the jumper, characterized in that the shank with the cylindrical shell is made of a single bar stock by volumetric bilateral deformation with the formation of a common hardened bridge with a grid of prismatic notches on its bottom surface from the side of the chamber, capable of withstanding increased loads during firing, and the riffles in the shell are made over the entire length of the chamber, one third wider than the riffles come alive.

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