RU2477831C2 - Artillery high-explosive fragmentation shell - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: artillery high-explosive fragmentation shell contains body with driving band, detonating fuse and explosive agent. Body consists of ogive and cylindrical parts connected by thread and skirt. There is an insert mounted in cone bore of body ogive part. At the external surface of the insert there is a spiral groove of triangular section. The angle of bore conicity and insert does not exceed friction angle. Inside the insert there is a stick of condensed explosive agent. At the joint of threaded connection of ogive part there is an annular pin of rectangular section interacting with similar groove on the cylindrical part of the body. At the end of the skirt there is an annular collar.

EFFECT: increase of coverage area of personnel target, increase of reliability of shell detonation.

2 cl, 5 dwg

Description

The invention relates to military equipment, and more specifically to high-explosive shells that are used when firing from artillery shells.

Known projectile (RF patent No. 2224970, IPC: F41B 12/20), selected by us for the prototype, contains a case with belts filled with explosive, and a fuse. The housing is made of separate animated and cylindrical parts interconnected by a threaded connection so that the center of mass of the projectile is located on the housing connector, while the cylindrical part is completely filled with explosives, and the central cylindrical channel with an expanded cavity is made in the explosive part, in which the translator is placed and a detonator so that the lower end of the translator is placed in the center of the detonator. The upper end of the translator is installed with a technological gap relative to the detonator of the fuse, providing a detonation pulse to the translator.

The objective of the invention is to increase the area affected by a projectile of manpower compared with the prototype and increase the reliability of its operation.

The problem is solved by the fact that in an artillery high-explosive shell containing a fuse, a body with a leading belt filled with explosive, consisting of threaded animated and cylindrical parts and a skirt, an insert is installed in the conical bore of the animated part of the body, on the outer surface of which there is a screw a groove of triangular section, while the taper angle of the bore and insert does not exceed the angle of friction. A block of condensed explosive is placed inside the insert, and at the junction of the threaded connection on the animate part, an annular thorn of rectangular cross section is made, interacting with a similar groove on the cylindrical part of the case. In addition, an annular collar is made at the end of the skirt, and the leading girdle is made by the method of deposition of copper-nickel welding wire.

This design of the projectile allows you to reduce the thickness of the walls of the shell of the projectile, and therefore, to increase the number and speed of flight of fragments of the required mass, increasing the area of destruction with a smaller mass of explosive.

The invention is illustrated by drawings.

Figure 1 shows the appearance and longitudinal section of a high-explosive fragmentation projectile.

Figure 2 - insert with semi-finished striking elements.

Figure 3 shows the transverse profile of the screw insert.

Figure 4 presents the assembly of the threaded connection of the cylindrical and animated parts of the housing.

Figure 5 shows the profile of the end part of the skirt of the projectile.

An artillery high-explosive fragmentation projectile contains a fuse 1, a body consisting of separate lively 2 and a cylindrical 5 parts interconnected by a threaded connection, with a leading belt 7. Inside the body there is live equipment 4 and 6. A skirt 8 is attached to the rear of the body.

An insert 3 is installed in the inner conical bore of the animating part 2, which is semi-finished striking elements (Fig. 2), for which a helical groove is applied in increments of step S on the outer surface of the insert, the size of which together with the insert thickness t determines the size and mass of the fragments during its crushing. The depth of the finished groove h (Fig. 3) is selected in the range from 1/2 to 2/3 of the insert thickness t. The profile of the helical groove has a triangular shape with an angle of 55-60 ° and is selected from technological considerations.

To prevent rotation of the insert 3 under the action of angular inertial moments relative to the living part of the body, the taper angle α is chosen to be equal to or less than the friction angle determined by the formula

α≤arctg f, where f is the coefficient of friction of steel over steel.

A checkered condensed explosive 4 is glued into the internal cavity of the insert 3, and the chamber of the cylindrical part of the casing 5 is filled with a warhead 6.

The threaded connection of the parts of the housing 2 and 5 is reinforced by an additional end connection: an annular spike “a” is made on the animating part 2, interacting with the annular groove “b” of the cylindrical part of the housing 5 (Fig. 4). This ring connection increases the strength of the threaded connection when exposed to the internal pressure of the head checker 4 during firing and ensures the joint is sealed against penetration of bursting powder gases when the projectile has not yet reached the target.

The lead belt 7 is made by surfacing a copper-nickel welding wire on the surface of the cylindrical part of the body. This avoids the thinning of the body in the manufacture of a special groove for fixing it to the body, and therefore, there is no need for additional reinforcement in the region of the girdle.

At the rear end of the skirt 8, an annular bead “c” is made by stamping method (FIG. 5), due to which the supporting surface of the end face “g” increases and the diameter of the central hole d decreases. The enlarged supporting surface of the end of the skirt interacts with the tip (klotz) of the gun rammer, ensuring the reliability of the loading of the gun.

When fired, at the moment of the maximum pressure of the powder gases, inertial loads act on the head checker 4, under the influence of which the checker's material goes into a fluid state and creates internal pressure acting on the live part. The thorn-groove ring connection prevents elastic deformation of the animating part 2 under the influence of internal pressure, opening of the joint along the thread and its depressurization, protecting equipment 4 and 6 from the effects of bursting gases.

In the vicinity of the target, the fuse 1 gives a detonation pulse to the head piece 4, causing its explosive decomposition with an instant jump in internal pressure, as a result of which the insert 3 together with the animating part 2 increases in diameter and is fragmented into fragments by voltage concentrators created by a helical groove. At the same time, the detonation pulse from the head checker 4 is transmitted to the combat charge 6.

Thus, the installation of the insert with a helical groove directly in contact with the condensed explosive, and the reduced wall thickness of the animated part of the shell of the projectile increase the number and flight speed of fragments of the required mass, increasing the area of destruction with a smaller mass of explosive.

Claims (2)

1. An artillery high-explosive shell containing a fuse, a case with a leading belt filled with explosive, consisting of threaded animated and cylindrical parts, and a skirt, characterized in that an insert is installed in the conical bore of the animated part of the housing, on the outer surface of which is applied a helical groove of a triangular section, while the taper angle of the bore and the insert does not exceed the angle of friction, a condensed explosive block is placed inside the insert, and at the junction of the threaded joint neniya on ogive an annular tenon of rectangular section, cooperating with a similar groove in the cylindrical housing portion, moreover, at the end of the skirt, an annular shoulder. 2. An artillery high-explosive fragmentation projectile according to claim 1, characterized in that the lead belt is made by depositing a copper-nickel welding wire on the surface of the body.

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