RU2359212C1 - Payload - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to hitting elements of jet projectile cluster payload hitting elements. The proposed payload comprises an ellipsoidal casing with the 5:2 axes ratio and consisting of two screw-off halves that feature circular and axial grooves on their inner surface and vertical cuts on the casing outer generating line. The casing houses explosive charge abutting on the casing inner surface.

EFFECT: increased efficiency of jet projectile cluster payload due to larger effective fragmentation radius and fragmentation bounding on ground surface.

2 dwg

Description

The invention relates to defense technology, in particular to devices for cluster warheads of rockets (PC), providing increased efficiency by increasing the area of destruction through the use of combat elements (EB) of an ellipsoidal shape.

Known cylindrical throwing unit for a cluster fragmentation-fragmentation projectile (application No.2000130945 / 02 dated 12/13/2000 according to IPC class ⁷ F42B 12/32), selected as an analogue, consisting of a block body located in it an explosive charge (BB ), a fragmentation disk located on the front end of the explosive charge and means for initiating the block. The projectile itself includes a body with a fuse placed in it, expelling powder charges and a set of cylindrical throwing blocks, sequentially located along the axis of the projectile. Throwing throwing blocks are carried out due to the operation of expelling powder charges. A set of throwing blocks can be thrown both backward and forward along the course of the projectile. Fragmented disks can be made both in the form of layers of compact and elongated finished damaging elements, and in the form of plates of natural and predetermined crushing. A combat element, when hit by a target, has an effect on it, characterized by only two factors: the explosive action of explosives and the fragments that form when it is detonated.

The disadvantage of cylindrical throwing blocks used in such a projectile is that they do not carry out horizontal flight, which significantly reduces the area of damage.

Known combat element for cluster warheads (application 2000120295/02 from 2000.07.28 IPC class ⁷ F42B 12/58), selected as a prototype, containing an explosive charge, an explosive fuse, a detonator and a housing consisting of two parts, the ends of which made in the form of ring protrusions entering one into another. The annular protrusions are made in the form of conical surfaces forming an annular cavity. The outer protrusion of one part of the shell is made in height less than the inner protrusion of the other part of the shell, forming an external annular gap at the junction. The annular cavity and the gap are filled with hardening filler.

The disadvantage of this BE is that it does not perform horizontal flight, which significantly reduces the area of damage, and has only a high-explosive fragmentation effect on the target.

The technical task of the present invention is to increase the effectiveness of cluster warheads of rockets by using BEs in them, performing horizontal flight with the possibility of subsequent ricochet on the ground.

The technical problem is solved in the proposed invention by the fact that the BE contains a casing, an explosive charge, a detonator and an impact fuse. In this case, the body is made in the form of an ellipsoid with a 5: 2 axis ratio of two screwed halves with central bulges at the fuse locations with circumferential and radial grooves on the inner surface and vertical slots along the outer generatrix. The explosive charge is adjacent on the outer surface to the inner surface of the shell.

The invention is illustrated by drawings, where figure 1 shows a General view of the proposed BE, figure 2 is a view along arrow a in figure 1.

The combat element contains a housing 1, consisting of an upper 2 and lower 3 screw-in halves, the upper half 2 being screwed into the lower half 3. Between the upper 2 and lower 3 halves of the housing 1 is a charge of explosive 4, which is adjacent on the outer surface to the inner surface of the housing 1 The detonator 5 is located along the axis inside the housing 1. The shock fuse 6 is installed in the first central bulge 7 of the upper half of the housing 2 by means of a threaded connection to ensure the detonation of the BE in a collision with the target and its self-destruction through given period of time at a miss. The lower half of the housing 3 also has a second central bulge 8. On the inner surface of the upper 2 and lower 3 halves of the housing 1 there are radial grooves 9, dividing them into sectors, for example twelve, and circumferential grooves 10, separating the central bulges 7 and 8 of the upper 2 and the lower 3 halves of the housing 1, to ensure the displacement of the region of expansion of the fragments to the plane of the disk and increase the efficiency of fragmentation. On the outer generatrix of the housing 1, vertical slots 11 are applied, perpendicular to the closing plane of the upper 2 and lower 3 halves of the housing 1. The radial grooves 9, the circumferential grooves 10 and the vertical slots 11 are designed to break the housing 1 into fragments of a given mass.

The operation of the described device is as follows.

When separating the BE from the cassette warhead, it flies, provided by the elliptical shape of the BE, along a horizontal path not exceeding the height of the target. When hit by a target, the BE has an effect on it with its kinetic energy. After hitting the target, an impact fuse 6 is triggered, driving the detonator 5, which, in turn, initiates a charge of explosives 4. Crushing of the housing 1 into fragments in the form of sectors occurs along radial 9 and 10 circumferential grooves and vertical slots 11. Due to the fact that the central thickenings 7 and 8 in the upper 2 and lower 3 halves of the housing 1 are more inertial in comparison with the fragments, the housing 1 breaks along the circumferential grooves 10 and the sector fragments rotate relative to the external BE generatrix in a plane perpendicular to the closing plane of the upper 2 nd and 3 lower body halves 1. This makes it possible to shift the region of fragment emission to the plane of the disk, which increases the efficiency of fragmentation effects on the target. The target also has a high-explosive effect as a result of undermining the explosive charge 4. When a disk touches the earth and water surfaces, it ricochets. In the case of a miss after a certain time, the fuse 6 automatically fires.

Thus, the proposed device BE provides an increase in the effectiveness of cluster warheads of rockets by using the BE, performing horizontal flight with the possibility of subsequent ricochet on the ground.

Claims (1)

A combat element comprising a body, explosive charge, detonator and shock fuse, characterized in that the body is made in the form of an ellipsoid with an axis ratio of 5: 2 from two screwed halves with central bulges in the places where the fuse is installed with circumferential and radial grooves on the inner surface and vertical slots along the outer generatrix of the body, while the explosive charge is adjacent its outer surface to the inner surface of the body.

Images