RU2293280C1 - Volume detonating warhead - Google Patents

Abstract

FIELD: the invention refers to the field of military technique and may be used at developing of volume detonating warheads of reactive systems of volley fire and aviation means of destruction.

SUBSTANCE: The volume detonating warhead has a body, a casing with a combustible composition placed in the body with a clearance h=(0,01-0,05) D, where h - the clearance between the casing and the body, D - the body diameter, and the throwing charge, the diameter and the length of which are chosen out of correlations d_ch =(0,3-0,6) D, l_ch≥L, where d_ch - the diameter of the throwing charge, l_ch - the length of the throwing charge, L - the length of the casing.

EFFECT: increases efficiency of the blasting action of the volume detonating warhead against the target at the expense of increasing the degree of breaking of combustible composition.

2 dwg

Description

The invention relates to the field of military equipment and can be used in the development of volume detonating warheads of multiple launch rocket systems and aircraft.

As is known, in a volume-detonating warhead, the shock factor is the shock wave arising from the detonation of the air-fuel mixture formed by dispersing, by means of a propellant charge, of a combustible composition, i.e. high explosive action.

Known ammunition for US patent N 3974774, F 42 B 13/46 1976, containing a housing filled with a combustible composition, and a propellant charge from an explosive.

In this munition, upon detonation of a propellant charge, a shock wave is formed in the combustible composition, which produces primary crushing of the combustible composition, in which it is transferred to a droplet state ("Pulse Dispersion of Liquid Volumes" AF Omelchenko, VI Okhitin in the journal "Defense" equipment "No. 3, 1994). Subsequently, under the action of detonation products of the propellant, the shell expands without loss of continuity (“Explosion Physics” Edited by L.P. Orlenko, Moscow: FIZMATLIT, 2002, Volume 2, p. 48), followed by destruction of the shell by throwing the initially fragmented combustible composition, mixing the latter with air and detonating the volume of the resulting air-fuel mixture. A significant drawback of this design is the low degree of crushing of the combustible composition due to the weak degree of primary crushing of the combustible composition and the uneven distribution of droplets of the combustible composition over the volume of the combustible-air mixture, which prevents obtaining high and stable high-explosive characteristics. This design allows for a volumetric explosion with small amounts of combustible composition in small-caliber ammunition.

Thus, the objective of this technical solution was to provide a volumetric explosion with small amounts of combustible composition in small-caliber ammunition.

The common features of this munition with the volume-detonating warhead proposed by the authors are the presence of a hull, a combustible composition and a propellant charge.

More perfect and the closest in technical essence and the achieved technical result is the ammunition according to the patent of the Russian Federation No. 2219481, F 42 B 12/20, adopted by the authors for the prototype. Ammunition contains a housing, a combustible composition and a shell with a propellant charge.

The reasons that impede the achievement of the technical result indicated below when using the ammunition adopted by the authors for the prototype include the fact that an increase in the degree of crushing of the combustible composition is achieved only through controlled crushing of the casing, which makes it possible to increase the uniformity of the distribution of droplets of the combustible composition throughout the volume of the air-fuel mixture and thereby increase the stability of the characteristics of high-explosive ordnance.

Thus, the objective of this technical solution is to increase the stability of the characteristics of the high-explosive ordnance.

The common features of the volume-detonating warhead proposed by the authors with the prototype are the presence of a hull, combustible composition, shell, and propellant charge.

In contrast to the prototype, in the proposed volume-detonating warhead, the combustible composition is placed in a shell located inside the body with a gap h = (0.01-0.05) D, where h is the gap between the shell and the body, D is the diameter of the body, and the diameter and the length of the propellant charge is selected from the relations dz = (0.3-0.6) D, lz≥L, where dz is the diameter of the propellant charge, lz is the length of the propellant charge, L is the length of the shell.

In special cases, that is, in specific forms of execution, the invention is characterized by the following features - a mesh of grooves can be made on the housing.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved result.

These signs, other than the prototype and to which the requested amount of legal protection applies, are sufficient in all cases.

The task of the invention is to increase the efficiency of the high-explosive action of a volume-detonating warhead on a target by increasing the degree of fragmentation of the combustible composition.

The specified technical result in the implementation of the invention is achieved by the fact that in a known munition containing a housing on which, in a particular case, a mesh of grooves, a combustible composition, a shell and a propellant charge can be made, the feature is that the combustible composition is placed in a shell located inside the housing with a gap h = (0.01-0.05) D, where h is the gap between the shell and the housing, D is the diameter of the housing, and the diameter and length of the propelling charge are selected from the relations dз = (0.3-0.6 ) D, lз≥L, where dз is the diameter of the propelling charge, lz is the length propellant charge, L is the shell length.

A new set of structural elements, as well as the presence of connections between the details of the claimed volume-detonating warhead, allows, in particular, due to:

- placement of the combustible composition in the shell located inside the housing with a gap h = (0.01-0.05) D, where h is the gap between the shell and the housing, D is the diameter of the housing, increase the degree of primary crushing of the combustible composition due to the formation in the combustible the composition of the additional shock wave upon collision of the shell with the shell as a result of expansion, without destruction, of the shell under the influence of detonation products of the propellant charge. With a gap of less than 0.01D, the intensity of the additional shock wave is insufficient to increase the degree of primary fragmentation of the combustible composition. With a gap of more than 0.05D, the shell may be destroyed before it collides with the body, which reduces the intensity of the additional shock wave and does not provide an increase in the degree of primary crushing of the combustible composition;

- choosing the length of the propellant charge from the relation, lз≥L, where lз is the length of the propellant charge, L is the shell length, to ensure the cylindrical nature of the expansion of the shell and the simultaneous collision of the shell with the body over the entire length of the shell, which allows you to achieve maximum intensity of the additional shock wave. When the length of the propellant charge is less than the length of the shell, simultaneity of collision between the shell and the shell along the entire length of the shell is not achieved, which reduces the intensity of the additional shock wave;

- the choice of the diameter of the propellant charge from the ratio dз = (0.3-0.6) D to ensure the degree of crushing of the body and shell required for the uniform distribution of droplets of the combustible composition over the volume of the air-fuel mixture. When the ratio is less than 0.3, the degree of crushing of the body and the shell is not achieved, sufficient for uniform distribution of the combustible composition throughout the volume of the air-fuel mixture. With a ratio of more than 0.6, the amount of combustible composition decreases, which leads to a sharp decrease in the resulting damaging factor and the effectiveness of the volume detonating warhead.

The features characterizing the invention in specific forms of execution allow, in particular, by making grooves on the casing mesh, to control the degree of crushing of the casing and shell to achieve the necessary distribution of droplets of the combustible composition over the volume of the air-fuel mixture.

Signs that distinguish the proposed technical solution from the prototype are not identified in other technical solutions in the process of patent research, which allows us to conclude that the invention meets the criterion of "novelty."

Studying the level of technology during the patent search for all types of information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution clearly does not follow from the prior art, therefore, we can conclude that the criterion of "inventive step" is met.

The essence of the invention lies in the fact that in a volume-detonating warhead containing a housing, a shell, a combustible composition and a propellant charge, in contrast to the prototype according to the invention, the combustible composition is placed in a shell located inside the housing with a gap h = (0.01-0.05 ) D, where h is the gap between the shell and the casing, D is the diameter of the casing, and the diameter and length of the propelling charge are selected from the relations dз = (0.3-0.6) D, lз≥L, where dz is the diameter of the propelling charge, lz is the length of the propellant charge, L is the length of the shell.

The invention is illustrated by drawings, where figure 1 shows a General view of the volume detonating warhead, figure 2 is a fragment of the volume detonating warhead with a grid of grooves on the body.

The proposed volume-detonating warhead contains a housing 1, a shell 2 with a combustible composition 3, located in the housing with a gap h = (0,01-0,05) D, where h is the gap between the shell and the housing, D is the diameter of the housing, and propellant 4, the diameter and length of which is selected from the relations dz = (0.3-0.6) D, lz≥L; where dz is the diameter of the propellant charge, lz is the length of the propellant charge, L is the length of the shell.

In the particular case, that is, in a specific embodiment, a mesh of grooves 5 is made on the housing.

The above volume detonating warhead works as follows.

Upon detonation of the propellant charge 4, a shock wave is formed in the combustible composition 3, which produces primary crushing of the combustible composition. Under the action of detonation products of the propellant charge 4, the shell 2 expands without breaking until it collides with the housing 1. When the shell 2 collides with the housing 1, an additional shock wave forms in the combustible composition 3, increasing the degree of primary fragmentation of the combustible composition. Further deformations of the casing 2 together with the casing 1 lead to their destruction with a degree of crushing sufficient to evenly distribute the combustible composition throughout the volume of the air-fuel mixture (in the frequent case, that is, in a particular embodiment, the degree of crushing of the casing is defined by a grid of grooves 5 on the casing 1). Under the action of detonation products of the propellant charge 4, the fuel composition 3 is thrown with an increased degree of primary crushing, the formation and detonation of the fuel-air mixture.

The implementation of the volume-detonating warhead in accordance with the invention allows to increase the efficiency of high-explosive action by 30-50% by increasing the degree of crushing of the combustible composition.

The invention can be used in the development of the development of volume-detonating warheads of multiple launch rocket systems and aircraft.

Based on the invention, design documentation has been developed. Scheduled mass production.

Claims (2)

1. Volume detonating warhead containing a housing, a shell, a combustible composition and a propellant charge, characterized in that the combustible composition is placed in a shell located inside the housing with a clearance of (0.01-0.05) D, where D is the diameter of the housing, the diameter of the propellant charge is (0.3-0.6) D, and the length of the propellant charge is greater than or equal to the length of the shell. 2. The warhead according to claim 1, characterized in that a mesh of grooves is made on the housing.

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