RU2453806C2 - Ammunition of high-explosive fragmentation optical action - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: ammunition of high-explosive fragmentation optical action comprises a vessel, a detonating fuse, an additional charge of a powerful explosive substance with high speed of detonation and the main charge of high-energy explosive substance with lower detonating speed, comprising one or more sections in the form of grooves, or funnels, or chutes of various geometric shape, which may be arranged in various parts of the ammunition. Sections located in the main charge are fully filled with combustible powdery or fluid substances, or their mixtures of different consistence. The additional explosive shell may be arranged in various parts of the ammunition vessel.

EFFECT: expanded range of ammunition functional capabilities due to inclusion of optical homing and survey systems into the number of damaged objects.

5 dwg

Description

The invention relates to defense technology and can be used in various types of high-explosive-fragmentation munitions (BP), designed to hit targets with high-explosive, fragmentation and optical action.

There are various options for the design of high-explosive fragmentation ammunition (for example, the catalog "Arms of Russia", t.7 - M: AOZT, Military Parade, 1997). The main elements of these structures are the body, the fuse, the main explosive charge and, as a rule, the central glass with an additional explosive charge of the explosive (BB), which performs the functions of transfer and amplification of the initiating pulse from the fuse to the equipment (main charge) of the PSU. Therefore, for an additional explosive charge, explosives with increased susceptibility to detonation are used. A wide range of explosives is used as the main equipment, the choice of which is based on the intended purpose of the PSU, its operating conditions and other tasks.

The closest analogue of the invention, selected as a prototype, is the technical solution described in RF patent No. 2236667, class F42B 12/20. The high-explosive fragmentation munition consists of a shell, a main charge and a central cup with an additional explosive charge, the main charge being made of a viscoplastic metallized explosive with a detonation speed of 60-85% of the detonation velocity of the additional explosive charge, and the mass of the additional explosive charge is 3- 20 wt.% The main charge. In this solution, the main common feature with the invention is the presence of two explosive charges (primary and secondary with different detonation speeds). The detonation of the main charge proceeds in the forced mode created by the shock front of the powerful explosive of an additional explosive charge. The disadvantage of the ammunition of the prototype, which significantly narrows the range of its functional capabilities, is the low levels of optical radiation during its operation, which excludes from the list of objects of destruction by the munition the guidance system of high-precision weapons or surveillance equipment used in warfare.

The aim of the present invention is the creation of ammunition that combines high-explosive fragmentation and optical action, thereby expanding the range of objects affected by their action, by including optical guidance and surveillance systems, such as television and thermal imaging channels for reconnaissance and aiming, optoelectronic precision weapons, optical sights, etc.

This goal is solved by the fact that in a high-explosive fragmentation munition containing a shell, fuse, the main charge of a high-energy explosive with a low detonation velocity and an additional charge of a powerful explosive with a high detonation velocity, the main charge located along the munition axis contains one or more sections in the form funnels, or grooves, or gutters of various geometric shapes, filled with combustible liquid or powdery substances or mixtures thereof of various consistencies.

Thus, the distinguishing features of the invention are:

- introduction to the design of the main charge of the sections in the form of funnels, recesses or gutters of various geometric shapes;

- filling sections with powdered, or granular, or liquid combustible materials, or mixtures thereof of various consistencies.

These features of the invention in their totality provide the formation of high-power optical radiation in the explosion of ammunition, an order of magnitude higher in intensity than the level of optical radiation from the explosion of traditional high-explosive fragmentation munitions and a device taken as a prototype of the present invention.

Powdered, or granular, or liquid combustible substances or mixtures thereof of various consistencies, filling the volume of sections located in the main charge in the form of recesses, or funnels, or gutters of various geometric shapes, when the munition explodes, they go through the stage of heating, compression by detonation waves of the main charge and then, in the form of burning extended jets or prominences, they are ejected into the environment at distances many times greater than the sizes of zones filled with the products of the explosion of the main charge. Due to the high temperature and size of the radiating surface, such jets or prominences are sources of powerful optical radiation. The spectral composition and amplitude-time characteristics of the optical radiation created by the explosion of the developed PSU device can be adjusted by changing the shape of the sections in the main charge, their number, location. The reduced detonation velocity of the main charge, the presence of diffraction zones of detonation fronts in it, due to the detonation regimes imposed by an additional charge, the increased length of the detonation front provide an increased degree of realization of the energy potential of materials filling the sections located in the main charge into optical radiation energy.

An additional distinguishing feature of this invention is the placement of sections with combustible materials in various parts of the munition, which allows you to set the direction of action of the flows of optical radiation, taking into account the operating conditions of the munition.

Additional possibilities for controlling the directivity of optical radiation fluxes are represented by the displacement of the location of the additional charge in the munition housing relative to the axis of the munition.

Figure 1 presents one of the options for BP of the present invention. Ammunition consists of a shell - 1, the main explosive charge - 2, an additional explosive charge shell - 3; additional explosive charge - 4, fuse - 5, shell sections in the form of a hemisphere in the main charge - 6, combustible substances in the form of powder, or granules, or liquid or mixtures thereof in various states of aggregation - 7.

The design of the munition containing four sections in its device with combustible materials in the form of triangular gutters located along the main axis of the munition is shown in FIG. 2, where position 6 is the shell of the sections made in the form of a triangular gutter filled with combustible materials located coaxially with the main axis of the ammunition.

Figure 3 shows the diagram of the munition with two transverse grooves located in the main charge perpendicular to the main axis of the munition for the entire length of its circumference.

Figures 4 and 5 show various versions of the munition with 3 longitudinal gutters, differing in the relative sizes of the gutters and the location in the munition housing of an additional explosive charge. In the munition shown in FIG. 5, the additional explosive charge is offset relative to the axis of the munition. Such a bias provides the directivity of the optical action in the direction opposite to the bias line of the additional breaking charge.

Ammunition of the proposed design works as follows. An explosive charge is activated from the fuse, which in turn drives the main charge. The specifics of the initiation and propagation of detonation in the main charge with a low detonation velocity under the influence of detonation of processes in the additional charge determines the formation of profiled fronts in the main charge as a result of diffraction of detonation waves, which provide long-term impact on the equipment of sections located in the main charge, their compression, heating and viscoplastic flow with high speeds in the form of jets and prominences. In addition, such a movement is turbulent; this determines the completeness of energy release due to the inclusion of environmental oxygen in the combustion process.

Large-sized high-temperature flame formations formed as a result of these processes are sources of powerful optical radiation. In addition, they lead to increased parameters of the high-explosive action of high-explosive fragmentation munitions. The design variant of the ammunition shown in Fig. 1 generates optical radiation in the direction of movement of the ammunition and is intended for sale in ammunition equipped with trajectory detonating fuses. By the parameters of optical radiation in the visible range when using funnel of compressed mixtures of organic and metal combustible munitions of the specified type as funnel equipment, the prototype exceeds the prototype by more than an order of magnitude. The maximum optical radiation of the munition shown in Fig. 2 is in the plane perpendicular to the main axis of the munition, and it is shifted to the region of short wavelengths in the green and blue parts of the spectrum, which is obviously due to the wedge-shaped sections with combustible materials, which cause high degrees of compression and , accordingly, increased values of the degree of heating and combustion temperatures of substances filling the sections of this form. The intensity of optical radiation in these wavelength ranges of this type of ammunition is 15 times greater than the prototype. The use of various structural materials for the manufacture of section bodies in the main charge of the munition shown in FIG. 2, such as steel or aluminum, or various types of plastics or composite materials, as well as the introduction of powdered or mixed components directly into the funnel that does not contain structural materials, did not reveal a significant difference in the parameters of the optical radiation of the munition. The results of these experiments confirm that for the manufacture of section housings in the main charge various structural materials can be used, as well as powdered or mixed components can be introduced directly into the funnel without the use of structural materials in it. Intensive radiation in the infrared region is formed by the action of the munition shown in figure 3, when using granulated or powdered organic fuels as equipment. Its power is also an order of magnitude higher than the radiation intensity of the prototype ammunition. The optical effect of the ammunition depicted in Fig. 4 is multispectral and combines high levels of optical radiation intensity simultaneously in different spectral ranges when using both powdered and liquid combustible materials or mixtures of different consistencies as equipment.

The munition diagram of FIG. 5 is characterized by directed optical and high-explosive action in the direction opposite to the displacement of the additional explosive charge relative to the main axis of the munition. The optical radiation power in the indicated direction is 2-3 times higher than the radiation power in other directions of action, with the general radiation power level being an order of magnitude higher than the optical radiation of the prototype ammunition, when both powdered combustible materials and powder and liquid mixtures are used as equipment combustible materials of various consistencies. Thus, as a result of experimental work, it was shown that by changing the shape of the sections, their number, location in the PSU case and the type of section equipment, it is possible to widely control the parameters of its optical radiation. The results of determining the parameters of high-fragmentation and high-explosive action of all the listed options for the execution of prototype munitions of the created ammunition indicate that it is not inferior to the specified ammunition prototype and exceeds it, as a rule, by more than an order of magnitude in the parameters of optical radiation, which determines the effectiveness of the application as in traditional objects of destruction with high-explosive fragmentation ordnance, as well as for guidance and surveillance systems used in combat operations.

Claims (1)

High-explosive fragmentation-type munition containing a body, fuse, additional charge of a powerful explosive with a high detonation velocity and a main charge of a high-energy explosive with a low detonation velocity, containing one or more sections in the form of recesses, or funnels, or gutters of various geometric shapes , which can be located in different parts of the ammunition, characterized in that the sections located in the main charge are completely filled with combustible powder Whether liquid substances or mixtures of different consistencies and additional bursting charge located in association with the sections located in different parts of the munition casing.

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