RU2291378C1 - Jet projectile - Google Patents

Abstract

FIELD: ammunition with a high-explosive warhead.

SUBSTANCE: the projectile has a rigidly coupled engine and a elongated warhead, whose body is filled with a detonating fluide mixture, the central shell with a dispersing explosive charge linked with the nose fuze and a cross deflector of shock wave are positioned in the body. The dispersing charge by means of a calibrated nozzle in the deflector made in the form of a bent-in truncated cone communicates with the pyrotechnical initiating composition of the propellant charge of finished affecting elements through an axial fire-transfer tube, the elements are packed in a cylindrical cassette installed in the bottom part of the warhead, the shock-wave deflector, functionally separating the thin-walled body into the nose and bottom fragmentation sections, is fastened on the carrying shell.

EFFECT: enhanced affecting action of the projectile due to the offered double-section construction.

3 cl, 1 dwg

Description

The invention relates to ammunition, and more particularly, to rockets with a high-explosive fragmentation warhead having a volume-detonating filling and equipped with ready-to-use striking elements.

The level of this technical field is characterized by a high-explosive fragmentation projectile containing a central propellant charge with a detonator and detonation-capable solid fuel, axially placed in the housing with nozzles, (see patent RU No. 2082943, F 42 V 12/20, 1997 )

The projectile is fired either in normal mode using a solid fuel charge as a burst, or in the mode of its burning out, which allows to obtain additional speed and free up space for propellant charge movement. In the latter case, when the projectile approaches the target, the central charge in the shell is undermined with its throwing on the inner surface of the body, resulting in its predetermined fragmentation.

The disadvantage of the described projectile is an unsatisfactory high-explosive action due to the burning out of a detonation-capable solid fuel of an accelerating jet engine and a small radius of destruction of the fragmentation field formed in this case, that is, indicators of the purpose of the ammunition.

Better is the selected as the closest analogue to the proposed, according to the number of matching features and purpose, rocket projectile according to patent RU 2156953, F 42 B 12/20, 14/00, 2000, containing an engine and an elongated warhead connected by a longitudinally common carrier shell, the case of which is filled with a detonation-capable fluid mixture, where the central shell is located, which carries the dispersing charge of the explosive connected to the head fuse, and a shock wave reflector.

The well-known missile has an elongated warhead (more than four calibers) with a thick-walled supporting shell filled with a detonation-capable mixture, which provides a sufficiently high fragmentation and high-explosive effect.

The crushing of a thick-walled case into effective fragments is facilitated by a transverse diaphragm mounted behind an axial propelling charge, which reflects the shock wave of the front formed during detonation and directs it along the case. As a result of superimposing a direct and stepped form of reflected shock waves, the body is crushed into a large number of fragments.

At the same time, the detonation pulse freely penetrates through the windows of the transverse diaphragm into the bottom filling volume of the body, which is a fluid suspension of aluminum powder in a combustible liquid, to initiate and disperse into the atmosphere, where the ignition of the formed fuel-air aerosol creates a powerful thermobaric damaging effect.

However, the disadvantages of the known missile are a continuation of its advantages: a large loss of propellant charge energy and detonation-capable filling on the irrational natural fragmentation of a thick-walled shell, which reduces the main indicators of the purpose of the ammunition.

The problem to which the present invention is directed, is to eliminate the noted disadvantages to increase the fragmentation and thermobaric effects of a rocket.

The required technical result is achieved in that in a known missile containing rigidly longitudinally connected engine and an elongated warhead, the body of which is filled with a detonation-capable fluid mixture, where the central shell with a dispersing explosive charge associated with the head fuse, and a transverse shock wave reflector are located according to the invention, the dispersing charge by means of a calibrated nozzle of the reflector, made in the form of a concave truncated cone, is communicated through a fire-transfer tube with a pyrotechnic initiating composition of the propellant charge of the finished striking elements, packed in a cylindrical cartridge mounted in the bottom of the warhead, while the shock wave reflector, which functionally separates the thin-walled body into the high-explosive and bottom fragment shell, is mounted on the supporting shell, and the propellant charge is about section, in the structure of which the incendiary pyrotechnic composition is distributed, is equipped with a temporary deceleration device.

Distinctive features are a new design of a two-sectional combined-sequential projectile, thermobaric and fragmentation, respectively, spaced in time and space.

Ammunition operation diagram: detonation dispersion of the filling of the high-explosive section with the formation of an aerosol cloud of heated aluminum powder by the burning liquid filling component; then, after the time of deceleration, the throwing of the finished striking elements from the cartridge of the fragmentation section, inertially moving to the center of the cloud, whose diameter is 80-150 times the caliber of the projectile, and simultaneous ignition in the volume of the detonation-capable aerosol of the fuel-air mixture from numerous point sources formed by dispersion incendiary composition of the bottom section when throwing, which ultimately significantly increased the fragmentation and thermobaric damaging effects of ammunition, compared with the prototype regular rockets salvo.

The communication message of the dispersing charge of the explosive of the head section of the projectile with the propellant charge of the finished striking elements of the bottom section automatically ensures the operation of both parts of the warhead from one head fuse in a predetermined sequence.

Equipping the central shell of the dispersing (discontinuous) propellant charge with a calibrated nozzle allows the formation of a highly directional axial igniter force to initiate the propellant charge of the fragmentation section.

The nozzle message by means of a fire-transfer tube forming a communication gas channel with a powder device for the time delay of the initiation of the propellant of the fragmentation section provides a predetermined delay time for undermining the latter, functionally linking both sections of the ammunition. In this case, the throwing of a fluid mixture filling the head section and the finished striking elements of the bottom section of the warhead is separated in time.

The inclusion in the structure of the propellant charge of the fragmentation section of the pyrotechnic incendiary composition provides volumetric detonation initiation of dispersed in the atmosphere of heated chemically activated particles of combustible metal powder filling the head section of the projectile, which at this moment form a detonative mixture of stoichiometric composition with air oxygen.

The packaging of ready-made striking elements in a thin-walled cylindrical cassette directly on a propelling charge gives a productive use of the energy of a condensed explosive.

The installation of the fragmentation section of the munition, equipped with an initiation delay device, behind the high explosive section allows, prior to the operation of its propellant charge with the incendiary composition, due to the inertial movement of the engine, to spatially combine the fragmentation section with the center of the formed detonation-capable aerosol cloud. The thermobaric effect of the detonating aerosol significantly increases the damaging effect of the ammunition.

The speed of the finished striking elements and the density of the fragmentation field, by definition, is significantly higher than with the natural crushing of a thick-walled body in the prototype. In this case, the fragmentation of the proposed product is additionally increased due to crushing of the engine in the epicenter of the explosion of the propellant charge of the fragmentation section, rigidly connected with it.

A shock wave reflector of the proposed geometric shape mounted on the end face of the detonator central shell and rigidly fixed to the bearing shell provides, in addition to the main function by definition, the damping of the explosive pulse, which is radially directed outside the ammunition along the curved generatrix, absorbing the energy of the shock front. This prevents the direct transmission of the shock wave to the propellant charge of the fragmentation section for the duration of the actuation of the axial device of powder deceleration.

The thin-walled case of the high-explosive section of the munition functions as a carrying container and does not constitute a significant obstacle to the spread of propelled liquid-fluid filling dispersed into the atmosphere.

Fixing the transverse reflector, in the center of which the coaxial shell of the dispersing charge of the head section and the fire tube of the bottom section are mounted, on the supporting shell of the shell of the shell provides the longitudinal rigidity necessary for reliable operation of an extended warhead, as a structural unity closed around the perimeter by a thin-walled functional case.

The transverse reflector is made in the form of a bottom cover of an autonomous volume of fluid flow filling a high-explosive head section of a warhead, spatially and functionally separating it from a special fragmentation section equipped with peripheral packaging of ready-made striking elements, with a special propelling charge inside a cylindrical cartridge.

A device for temporarily slowing down the initiation of the propellant charge of the bottom section from the detonation impulse of the axial charge of the head section provides a dynamic interaction of both parts of the warhead to enhance the damaging factor of the projectile.

Equipping the propellant charge of the fragmentation section with a distributed incendiary pyrotechnic composition makes it possible to organize volumetric detonation of the fuel-air mixture formed by spraying the high-explosive section by means of numerous point sources of ignition dispersed through the delay time when this propellant is triggered from the center of a detonation-capable aerosol cloud.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of quality, that is, solving the technical problem posed in the invention is not the sum of the effects, but the effect of the sum of the essential features.

The invention is illustrated in the drawing, which schematically shows the proposed missile

The composition of the ammunition consistently includes: a head fuse 1, a high-explosive section 2, a fragmentation section 3 and a jet engine 4, while sections 2, 3 are mounted on a supporting shell 5.

The fuse 1 is connected with the Central shell 6, which houses the dispersing charge 7 of the explosive.

The head of the thin-walled body of the high-explosive section 2 has a lively shape.

The volume of the body of section 2 is filled with a fluid mixture of 8 aluminum powder with combustible fuel, which adheres firmly to the powder particles and is closed by a transverse reflector 9 mounted on the supporting shell 5 on which the shells of both sections 2, 3 are mounted, forming a single warhead design.

The reflector 9 has a sectional profile of a concave truncated cone, in which a smaller base adjacent to the charge 7 has a calibrated nozzle 10, which communicates with the axial fire transfer tube 11 of the fragmentation section 3, located between the bearing shell 5 and the jet engine 4.

The fire-transfer tube 11 is connected via a temporary deceleration device 12 to the pyrotechnic initiating composition 13 of the propellant charge 14 — filling the section 3.

The device 12 is a sample of slowly burning gunpowder.

Between the shell 5 and the jet engine 4 there is a fragmentation section 3, on the periphery of which a cylindrical cassette 15 is fixed with ready-made striking elements 16, in particular balls. Inside the cassette 15 is placed a propellant charge 14, characterized in that pyrotechnic incendiary composition is distributed in its structure.

The proposed ammunition operates as follows. On the flight path, near the target, from the fuse 1 detonates the charge 7, the gaseous detonation products of which sequentially break the shell 6, densely seal the filling 8, igniting its liquid component, and crush the body of the head section 2.

The shock wave arising from the detonation of charge 7 is transmitted through filling 8 to a transverse bottom cone 9, where it is radially reflected outside the ammunition along a curved generatrix, while massive cone 9 damps most of the energy of the seal front.

When the liquid components of filling 8 are burned, particles of aluminum powder are heated, which, when compressed by the shock front, do not stick together, because they are separated by an adhesive coating of liquid fuel, where cavitation processes occur, indirectly embrittling the material of the section 2 body. The surface of the heated particles of aluminum powder is chemically activated, entering into oxidizing reaction, which significantly increases the overall energy of detonation.

The detonation front following the shock through the gas-permeable filling 8 crushes the body, dispersing its fragments, and then comprehensively disperses the aluminum powder of filling 8 with the products of charge detonation 7 in the atmosphere, forming a cloud of detonation-capable aerosol.

In the axial direction, the gaseous products of the detonation of the charge 7 through a calibrated nozzle 10 with a directionally directed force through a fire tube 11 are fed to the slowly burning powder charge of the delay device 12, during the combustion of which the pyrotechnic charge 13 is ignited, initiating the propellant charge 14 of the fragmentation section 3.

During the described process, the massive section 3 and the engine 4 inertia move to the place of section 2, in the center of the formed aerosol cloud.

The detonation products of the propellant charge 14 destroy the cartridge 15, and the finished striking elements 16 from the explosive impulse accelerate into space.

At the same time, the finely dispersed incendiary composition of the charge 14 initiates an aerosol of the formed cloud of the fuel-air mixture, which detonates in volume, creating a thermobaric damaging effect.

The proposed rocket, designed for firing from multiple launch rocket systems, has a noticeable, compared with the prototype and standard ammunition, an increase in the main indicators of purpose, that is, it is more effective with comparable mass-geometric parameters.

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 these missiles, we can conclude that the patentability criteria are met.

Claims (3)

1. A missile containing a head fuse, carrying a shell, rigidly coupled engine and an elongated warhead, including a housing filled with a detonating fluid mixture, in which a central shell with a dispersing explosive charge associated with the head fuse, and a transverse shock wave reflector, characterized in that a cylindrical cartridge is mounted in the bottom of the warhead, into which ready-made striking elements and a propelling charge with a pyrotechnic insert are packed with a different composition, the shock wave reflector is made in the form of a concave truncated cone, in which a calibrated nozzle is made, through which the dispersing charge is communicated through an axial fire transfer tube with a pyrotechnic initiating composition of the propellant charge, while the shock wave reflector is mounted on the carrier shell and divides the shell body into the head a high-explosive section with said dispersing charge; and a bottom fragmentation section with said cylindrical cassette. 2. The projectile according to claim 1, characterized in that the propellant charge is equipped with a deceleration device. 3. The projectile according to claim 1, characterized in that the incendiary pyrotechnic composition is distributed in the structure of the propellant charge.