RU2402741C1 - Ammunition - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: ammunition comprises a cylindrical shell with fluid filler, central core and detonator. Cylindrical shell with fluid filler is arranged in the form of detonation-capable suspension of metal powder in combustible fluid. Central core is fixed on transverse diaphragm. Detonator represents an axial smoke bomb of ignition pyrotechnical composition. Central core along edges is arranged with socket forming circular gaps relative to adjoining detonator. Smoke bomb of ignition pyrotechnical charge with weight of 2-4% from mass of fluid filler is distributed into two autonomous charges. Autonomous charges are displaced from the middle of detonator.

EFFECT: increased efficiency of ammunition destructiveness.

2 dwg

Description

The invention relates to ammunition with liquid flowing filling and can be used for shells of multiple launch rocket systems, including high-explosive fragmentation.

The level of development of this technical field is characterized by the munition described in patents RU No. 2156953 and No. 2119481, both of class F42B 12/20, which contain a body with a fluid flow filling in the form of a detonating suspension of a metal powder (aluminum, magnesium) in a combustible liquid and a central blind shell with a detonator acting as a propellant initiated by a head fuse.

In this munition, the geometric ratios of the propellant charge and the fragmentation shell are optimized, as well as the density of the filling mixture dispersed during the explosion of the explosive mixture for maximum volumetric detonation efficiency of the formed aerosol cloud of the fuel-air mixture.

The combustible liquid of the functional filling of the ammunition forms a strong film on fine particles of metal due to the adhesive bond, preventing them from sticking together during storage and pulse loading during explosion.

The inner surface of the shell of the ammunition is made corrugated, in the form of a grid of semi-finished fragments, when crushed forming the damaging elements of the given mass-geometric parameters.

The disadvantage of the described design of the munition is the unsatisfactory efficiency of thermobaric damage due to the almost instantaneous detonation of the combustible filling mixture during crushing of the housing by the energy of the propellant charge from the center, the hot dispersed particles of which are rapidly cooled in air, therefore volume detonation is characterized by incomplete combustion of the detonation mixture at the periphery of the cloud.

In addition, the console mount of the detonator limits the use of the described design in elongated warheads due to poor strength under dynamic transverse loads of transportation, in particular, as part of rockets of the multiple launch rocket system.

The noted drawbacks are eliminated in the more advanced ammunition according to the patent RU 2286531, F42B 12/24, 12/52, 2005, which, according to the technical nature and the number of matching features, was chosen as the closest analogue to the proposed ammunition.

Known ammunition has an elongated warhead with a fuse mounted in a corrugated, animated body, which contains a suspension of aluminum powder in a combustible liquid, forming a liquid flowing detonation filling.

The revival profile of the corrugated inside of the warhead housing improves the aerodynamic characteristics of the product, which contribute to increasing the flight range during the formation of a given fragmentation field with an optimal declination angle of the scattering of the damaging elements.

Mounting an axial detonator on a transverse diaphragm increases the rigidity of the structure and the reliability of the product in official use and when operating as intended.

A rigid fixed position of the axial detonator on the transverse diaphragm relative to the structural elements of the munition provides the formation of a symmetrical fragmentation field and a cloud of the fuel-air mixture of the correct form, in which pyrotechnic igniter charge fragments are the uniformly distributed detonation products - the initiators of volumetric detonation of dispersed filling.

The coaxial placement of the igniter pyrotechnic charge inside the detonator ensures its dispersion in the form of numerous localized foci of initiating volumetric detonation of the fuel-air mixture of the formed aerosol cloud, which exceeds the ammunition caliber by 80-150 times.

At the same time, it automatically provides detonation dispersion of the pyrotechnic axial charge and the accompanying instantaneous ignition of the fluid flow in the volume of the cloud of the fuel-air mixture formed when the munition is detonated, which detonates more dynamically.

Burning in the deflagration mode during the detonation of the propellant charge, the liquid component of the filling warms up the metal powder dispersed at the same time, which ensures the completeness of combustion of the filling and increases the sensitivity of the detonating aerosol.

Volumetric detonation of the fuel-air mixture of the aerosol cloud forms a sharp shock wave, which has a high explosive effect, carrying out thermobaric damage to the target.

A disadvantage of the known ammunition is the unsatisfactory effectiveness of high-explosive and fragmentation damage, because with a symmetric expansion of the fluid filler and fragments of crushing of the central shell and body, only part of the energy is directed at hitting the target.

Part of the functional filling at the edges of the munition is in the “dead” zone of propagation of shock and detonation waves from undermining the axial propellant charge and is not involved in the formation of a detonation-capable fuel-air mixture.

In addition, while the flammable effect on the dispersion of fluid filling is simultaneous in length, the central part of the aerosol cloud formed is inaccessible to oxygen from the injected atmospheric air due to peripheral screening.

This prevents the automatic achievement of the systemic-chemical ratio of the components of the fuel-air mixture for its detonation transformation.

The mass of the igniter pyrotechnic charge is not optimized with respect to the content of liquid-filled filling in the munition for its maximum local ignition in the volume of detonation dispersion of the formed structure of the fuel-air aerosol cloud in order to guarantee the intended use of the damaging potential

Thus, part of the fluid filling does not create a thermobaric damaging effect from the volume detonation of the fuel-air mixture, being ballast, which reduces the power of the ammunition.

The problem to which the present invention is directed, is to increase the effectiveness of the damaging effects of ammunition.

The required technical result is achieved by the fact that in a known munition containing a cylindrical body with a fluid flow filling in the form of a detonative suspension of metal powder in a combustible liquid, and a central shell mounted on a transverse diaphragm with a detonator carrying an axial block of the igniter pyrotechnic composition, according to the invention, the central shell made with a bell forming ring gaps relative to the adjacent detonator, and the igniter pyrotechnic checker The chemical composition with a mass of 2–4% of the mass of fluid flow filling is distributed into two autonomous charges displaced from the middle of the detonator.

Distinctive features provided an increase in the effectiveness of the striking high-explosive ordnance of the munition due to the formation of a more compact cloud of the fuel-air mixture, the volumetric initiation of which occurs due to the dispersion of the additional igniter pyrotechnic charge, and the dense fragmentation field in the compressed angle of fragment expansion.

Air annular gaps formed by the sockets at the edges of the central shell relative to the adjacent detonator ensure the unhindered propagation of shock waves, which form the angular rotation of the shell sockets, moving the fluid flowing filler from the edges to the middle of the radially thrown equipment.

In this case, the cloud of the air-fuel mixture is formed longer in the radial direction and transversely flattened, normal to the movement of the ammunition (ellipsoidal), which increases the reduced area of the high-explosive and fragmentation damage and helps to redistribute the energy of the shock waves in the direction of the movement of the ammunition towards the target.

This also narrows the angle of expansion of fragments of the shell and the casing, which as a result increases their density in the affected area.

The purpose of two localized detonators, located at a distance from the middle of the detonator, of slow-burning pyrotechnic composition is to initiate combustion and to heat up primarily fluid dispersed into the atmosphere from the edges of the aerosol cloud, where atmospheric air is dynamically injected, providing a stoichiometric ratio of the components of the fuel-air mixture at which volume detonation.

Then, with a certain delay, sufficient for additional radial movement of the central portion of the missile filling under the action of the bilateral compressive action of shock waves from the edges of the aerosol cloud, air penetrates into the central part of the dispersed filling, where volume detonation occurs.

The initiation of the undermining of the fuel-air mixture in the entire increased volume of the aerosol cloud is carried out from the hot products of fine crushing of the igniter pyrotechnic checkers spaced apart along the axis of the charges, which noticeably increases the explosive effect.

As a result, the entire mass of fluid flow filling is used to form a thermobaric damaging effect, increasing the power of ammunition.

The ratio of the mass of the pyrotechnic igniter (m) to the mass of fluid flow filling (M) in the range of 2-4% is optimized by the efficiency of full interaction to maximize the use of equipment for its intended purpose.

When the m / M ratio is less than 2%, the detonation of the formed aerosol cloud of the fuel-air mixture does not occur in the entire volume due to the unsatisfactory heating of the dispersed filling fragments.

When the ratio m / M is more than 4%, the effectiveness of the ammunition decreases from a decrease in the amount of its detonation-rich filling - the source of thermobaric damage.

The proposed design of the ammunition provides a more effective throwing of fragments and the formation of a dispersed liquid-filled aerosol detonation cloud that is almost rectangular in cross section of an ellipsoid, which increases the shock front area in the direction of the target.

Consequently, each essential feature is necessary, and their combination in stable unity is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the stated technical problem is solved not by the sum of the effects, but by the sum of the attributes.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for an ammunition specialist, showed that it is not known, and taking into account the possibility of industrial serial production of the described ammunition in the current production, we can conclude that the patentability criteria are met .

The invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of claims of the totality of the essential features of the formula. The drawings schematically depict:

figure 1 - ammunition, a longitudinal section;

figure 2 - view A in figure 1.

In the cylindrical body 1, on the inside of which is made by means of multi-crossing intersecting riffles 2 (FIG. 2), a grid of semi-finished striking elements 3, a fluid-filled filling 4 is placed, which occupies a volume between the central shell 5 of the detonator 6 and the end mounting partitions 7 and 8 of the head and bottom respectively.

An ammunition fuse 9 is installed in the head baffle 7, and the bottom baffle 8 serves as a separator with a solid propellant rocket engine of the multiple launch rocket system (not shown conditionally).

Filling 4 is a suspension of a metal powder (aluminum and / or magnesium) in a combustible liquid, which, when sprayed in a heated state in air, is a detonative fuel-air mixture, which is automatically initiated when the stoichiometric ratio of the components is reached.

The detonator 6 is made in the form of a press fitting into the central shell 5 of the explosive and serves as a propellant charge of the functional equipment 4. If necessary, to ensure controlled crushing into predetermined fragments, the shell 5 is made corrugated similarly to the surface of the housing 1.

The Central shell 5 at the edges is made with sockets 9, which are mounted on the head wall 7 and the supporting diaphragm 10, permeable to fill 4 when it is poured into the housing 1.

Between the bells 9 and the detonator 6 adjacent to the shell 5, annular air gaps 11 are formed.

Between the carrier diaphragm 10 and the end face of the detonator 6 mounted damper 12 from a set of plates.

Inside the detonator placed two axial igniter blocks 13 of a pyrotechnic composition.

A head fuse 9 is installed on the jumper 7, adjacent to the detonator 6.

The proposed ammunition operates as follows.

When the head fuse 9 is triggered, a detonator 6 is initiated, the propellant-ignition charge of which destroys its shell 5: the pyrotechnic composition of the blocks 13 is compressed by the shock and detonation waves of the explosives, the shell 5 is fragmented into fragments and the filling 4 is elastically compressed on the housing 1.

The shock pulse and the detonation front freely overcome the air gaps 11 and actively act on the bells 9 of the central shell 5, which rotate towards its middle, involving filling 4 along the edges in the leading motion.

The shock front provides heating of the components of the filling mixture 4 during the combustion of the liquid fuel component and the occurrence of cavitation processes on the wetted surface of particles of metal powder, which is chemically activated.

The shock front causes the sealing of the filling 4 and the inflation of the housing 1 and the formation of the damaging elements 3 embrittlement on the flutes 2.

The shock front propagates through filling 4, penetrates through the diaphragm 10 and extends into the bottom technological part of the munition, and in the plates of the damper 12 it is elastically absorbed, which prevents the premature destruction of the diaphragm 10.

At the first moment of detonation, the fuel mixture of the filling 4 is compressed, compacting on the housing 4 of the munition. In this case, solid particles of metal powder do not stick together, because a viscous combustible liquid is adhered firmly to their surface.

On the inner surface of the housing 1, a composite gas-permeable shell of compacted filling 4 is formed, which when crushing the housing 1 along the weakened cross-section 2 with the energy of the explosion of the detonator’s propellant charge is dynamically dispersed into the atmosphere in the form of a cloud of numerous solid metal powder particles heated by the burnt liquid filling component 1.

Passing radially through the gas-permeable filling layer 4, the detonation pulse from the detonator 6 destroys the housing 1 along the flutes 2, forming the damaging elements 3, which fly apart over a distance significantly exceeding the zone of thermobaric damage.

Pyrotechnic checkers 13 primarily initiate local combustion and heating of fluid filling 4 at the edges, which forms ahead radial ends of the air-fuel mixture.

When the stoichiometric ratio of the components of the fuel-air mixture is reached, volume detonation automatically occurs, in which the central part of the filling 4 is dynamically squeezed out with two-sided detonation pulses into the atmosphere, where air is actively injected and they are mixed before detonation.

This two-stage process of volume detonation makes it possible to more efficiently use the entire filling 4 for its intended purpose and to form a detonation pulse of a greater length with almost equal energy along the front, which was confirmed in experimental explosions of experimental samples of mock-ups of standard ammunition modernized according to the invention.

Claims (1)

Ammunition containing a cylindrical body with a fluid flow filling in the form of a detonative suspension of a metal powder in a combustible liquid, and a central shell mounted on a transverse diaphragm with a detonator carrying an axial checker of an igniter pyrotechnic composition, characterized in that the central shell at the edges is made with a socket for forming a ring relative to the adjacent detonator, and the igniter pyrotechnic composition mass of 2-4% by weight of the fluid filling of the races Roedel two independent charge, offset from the center of the detonator.

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