RU2486455C1 - Method of increasing fragmentation efficiency of cassette shot hitting element - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cassette shot hitting element comprises case with cylindrical and bottom parts, explosive, fuse and case fragmentation localisers. Proposed method consists in making localisers of crushing case into splinters in the form of annular grooves made on cylindrical part outer surface and bottom part outer surface. Rings are fitted in annular grooves.

EFFECT: higher fragmentation efficiency.

4 cl, 2 dwg

Description

The invention relates to cluster munitions, the shell of which contains many individual damaging elements, mainly fragmentation-cumulative effects.

Known damaging element of cluster munition, containing a housing consisting of a cylindrical and bottom parts, as well as localizers crushing the body into fragments made in the form of annular grooves on the outer surface of the cylindrical part, while the grooves have a conical shape (RF patent No. 2137087, IPC: F42B 12/58).

The disadvantages of this striking element are the presence of a “dead zone” of expansion of fragments in the gap between the fragmentation fields of the lower cylindrical and bottom parts, which leads to a decrease in the reduced area of damage, a small number of fragmentation locators, which leads to heterogeneity of the fragmentation field and an insufficient number of “killed” fragments, t .e. having the required energy to defeat.

A known method of increasing the fragmentation efficiency of a cluster munition containing a shell, including cylindrical and bottom parts, an explosive, a fuse and localizers for crushing the shell into fragments, comprising localizing crushing the shell into fragments in the form of circular grooves on the outer surface of the cylindrical part of the shell and on the outer surface the bottom part and the striking element of the cluster munition for the implementation of this method, comprising a case including a cylindrical and bottom hour and, an explosive, a fuse and localizers of crushing the body into fragments made in the form of annular grooves on the outer surface of the cylindrical part of the body, characterized in that the annular grooves are additionally made on the outer surface of the bottom part, which has an animated shape and a length greater than the length of the cylindrical part, while the annular grooves are made with a depth of 35-60% of the thickness of the body (RF patent No. 2277692, application No. 2004124601/02 of 08/12/2004, IPC: F42B 12/66 - prototype).

The specified method is implemented as follows.

The meeting of the striking element with an obstacle causes the fuse to fire. In this case, through the hole in the end of the bottom of the body, the detonation pulse is transmitted to the explosive charge placed in the body, where a symmetrical blast wave is formed. As a result of the explosion, high pressures act on the inner surface of the casing, which leads to the expansion of its walls. Intense stresses arise in the material of the walls, the concentrators of which are annular grooves of rectangular cross section. As a result of this, the housing is divided into rings along the grooves. Further expansion of the rings leads to their spontaneous separation into fragmentation elements. As a result, a fragmentation field is formed, consisting of ring groups of fragments. The casing consists of a cylindrical part and a bottom part of an animated shape, therefore, the ring groups of fragments are evenly distributed in the meridional plane, which leads to the exclusion of the "dead zone" between the ring groups of the cylindrical and bottom parts. The ring groups of fragments of the cylindrical part move towards the surface of the barrier and provide damage in the near zone of the striking element. The ring groups of fragments of the bottom part scatter with elevation angles and provide damage at a greater distance as the transition from the cylindrical part of the body to the end of the bottom part.

The disadvantages of this method is that after an organized separation of the body into rings along the grooves, with the formation of several ring groups of fragments of approximately the same mass and size, further separation of the rings occurs arbitrarily, in a chaotic order. This leads to the subsequent formation of fragments of different mass and size and, accordingly, various destructive forces, which, ultimately, reduces the effectiveness of the destructive action of the damaging element of cluster munitions.

The objective of the invention is to remedy these shortcomings and create a method for increasing the fragmentation efficiency of cluster munitions, the use of which will ensure the receipt of fragments of approximately one optimal mass and speed with the technological suitability of the striking element for manufacture.

The solution to this problem is achieved by the fact that in the proposed method for increasing the fragmentation efficiency of the striking element of a cluster munition containing a body including a cylindrical and bottom part, an explosive, a fuse and localizers for crushing the body into fragments, which consists in performing localizers for crushing the body into fragments in the form of ring grooves on the outer surface of the cylindrical part of the housing and on the outer surface of the bottom part according to the invention, in said annular grooves pouring rings.

In an application, the groove walls are profiled having at least one annular ledge.

In an application, the rings are mounted with a radial clearance between the outer surface of the annular groove and the inner surface of the ring.

In an application, stress concentrators in the form of corrugations are made on the surface of the rings.

The invention is illustrated by drawings, where figure 1 shows a General view of the inventive device, figure 2 is a cross section of the housing on an enlarged scale.

The proposed method can be implemented using a striking element of cluster munition of the following design.

The striking element of the cluster munition contains a housing 1 with a cylindrical 2 and bottom 3 parts, respectively. On the outer surface of the cylindrical 2 parts of the body and on the outer surface of the bottom 3 parts are located localizers crushing the body 1 into fragments made in the form of annular grooves 4. Outside the body 1, at the end of the bottom part 5, a fuse 6. In the bottom part 3 of the body 1 is made hole 7. The fuse 6 is attached to the housing 1 using rolling elements of the fuse 8. Inside the housing 1 is a charge of explosive 9. On the outer surface of the cylindrical 2 parts of the body and on the outer surface of the bottom 3 parts, in the ring In the grooves 4 there are additional rings 10, on the surface of which stress concentrators are applied in the form of riffles 11.

The proposed method can be implemented using the proposed striking element of cluster munition as follows.

The meeting of the striking element with an obstacle leads to the operation of the fuse 6. In this case, through the hole 7 in the end of the bottom part 5 of the housing 1, the detonation pulse is transmitted to the explosive charge 9 located in the housing 1, where a symmetrical blast wave is formed. As a result of the explosion, high pressures act on the inner surface of the housing 1, which leads to the expansion of its walls. Intense stresses arise in the material of the walls, the concentrators of which are the main annular grooves 4 of rectangular cross section. As a result of this, at the initial moment of time, the housing 1 is divided into rings along the grooves 4, in which additional rings 10 are installed.

Under the influence of the pressure of the detonation products, the rings formed as a result of the separation of the housing 1 are spontaneously divided into fragmentation elements. The rings 10 installed in the annular grooves 4 are separated by stress concentrators 11 into fragmentation elements of a certain shape and approximately equal mass. As a result of this, a fragmentation field is formed, consisting of fragments having approximately equal mass and geometric dimensions. Due to the fact that the body consists of a cylindrical part 2 and a bottom part 3 of a lively shape, groups of fragments are evenly distributed in the meridional plane. There is no “dead zone" between groups of cylindrical 2, bottom 3 parts and fragments of rings 10. Groups of fragments of cylindrical part 2 and rings 10 move towards the surface of the barrier and provide damage in the near zone of the striking element. The groups of fragments of the bottom part 3 and rings 10 fly apart with elevation angles and provide damage at an ever greater distance as the transition from the cylindrical part 1 of the body to the end face of the bottom part 5.

Using the proposed technical solution will allow you to create a striking element of cluster munitions with the receipt of fragments of approximately the same optimal mass and speed with the technological suitability of the striking element for manufacture.

Claims (4)

1. A method of increasing the fragmentation efficiency of the striking element of a cluster munition containing a shell, including a cylindrical and bottom part, an explosive, a fuse and localizers for crushing the shell into fragments, which consists in performing localizers for crushing the shell into fragments in the form of circular grooves on the outer surface of the cylindrical part of the shell and on the outer surface of the bottom, characterized in that rings are mounted in said annular grooves. 2. The method according to claim 1, characterized in that the walls of the grooves are profiled having at least one annular ledge. 3. The method according to claim 1, characterized in that the rings are installed with a radial clearance between the outer surface of the annular groove and the inner surface of the ring. 4. The method according to claim 1, characterized in that on the surface of the rings perform stress concentrators in the form of corrugations.

Images