RU2436035C2 - Shell for identification of combined false target - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: shell has tubular housing, block of cassettes with payload and starting device. In the cassette containing payload in the form of dipole material, along outer surface of its perforated tubular housing parallel to its longitudinal axis there installed are two pairs of pushers in the form of semi-cylinders; at that, their second pair overlaps the first one with shift of disconnection plane through 90 degrees. In the cassette containing payload in the form of smoke-forming material made in the form of multiple flexible plates from incombustible material with smoke-forming composition applied to them and installed fan-like in the volume formed with its perforated tubular housing and flange of cassette. Starting device is installed in shell of tubular housing, which is connected to block of cassettes by means of central brace having plane of weakness at point of attachment of block to the shell. Pyrotechnic connection of charge of starting device and propellant charge of block of cassettes is made through holes in the housing shell. Initiation and ejection means of block of cassettes are made in the form of subsequent pyrotechnic connection of pyroretarders and pulse charges; at that, pyroretarders are installed in the flange of each cassette block, and pulse charges are installed on central brace of block in the cavity of each cassette, which is formed with its perforated tubular housing and flanges of cassettes.

EFFECT: use of invention increases protection efficiency of objects using dipole or smoke-forming material by setting effective dimensions of volumetric aerosol cloud.

3 cl, 5 dwg

Description

The present invention is intended to protect military and civilian objects from reconnaissance and attacking means of the enemy, induced and operating in the optical and radio wavelength ranges of electromagnetic waves by creating masking aerosol curtains and / or false targets over any kind of underlying surface.

The known device according to US patent 4406227 ( ³ F42B 11/00, 102/505, claimed. 04/09/1981) includes a rocket engine and a head part, and the head part contains dipole material, wrapped in a shell and laid in cassettes placed along the longitudinal device axes and flanges divided among themselves. In the central part of the device, a hollow channel is made, containing a fuse sleeve, slow-blow fuses and detonating cord segments with pyro-charges per each cartridge. Moreover, the inner and outer shells of the cassettes are made easily destructible.

The known device operates as follows.

After the rocket engine stops working, the fuse located in the aft bush fires, igniting the detonating cord with a pyrocharge. The gases generated from the pyrolysis combustion create excessive pressure in the cavity of the fuse sleeve of the first cartridge, breaking its shell, fragments of which destroy the inner shell of the cartridge and through the dipole material, throwing out the dipole material. From the oncoming air stream, the material forms the first aerosol cloud stretched along the flight path. At the same time, a slow-blow fuse is installed in the fuse sleeve of the second cartridge. The resulting gases from the combustion of the pyrolysis destroy it, fragments of which squeeze the dipole material. The process ends with the ejection of material from the last fifth cassette.

The known device has significant disadvantages:

1) reduced utilization of the dipole material due to its mechanical damage by fragments of the fuse sleeve and the casing of the cassettes, as well as hot pyro-charge gases in the process of its ejection;

2) a reduced radius of the aerosol cloud due to the absence in the device design of special elements for the spread of dipole material;

3) the known device is intended to create an extended aerosol cloud with alternating zones dispersing only dipole material.

Closest to the proposed device is according to US patent 5835051 ( ⁶ F42B 12/70, 342/12, declared. 04/21/1997). It includes a tubular housing with a cover and a starting device. The payload in the form of IR- and RL-active masses is divided between each other by a flange; in the central perforated channel of the block, a pyro-retarder and a detonating cord are sequentially laid.

The known device operates as follows.

The propellant ignites from the electrical pulse of the starter, and the gases from its combustion press on the unit, throwing it into the air. After a certain time, the pyro-moderator ignites the detonating cord laid in the perforated channel of the block, the IR-active mass is initiated from it through the perforation, the lid of the block is torn off and the whole active mass is shot out into the air with the help of a knockout element, forming a local aerosol cloud.

The known device has significant disadvantages:

1) reduced utilization of the dipole material due to its mechanical damage from the direct effects of the combustion gases of the pyro-moderator and the detonating cord, as well as the negative effect of the temperature of the IR active mass during their joint discharge and functioning;

2) a reduced radius of the aerosol cloud due to the absence in the device design of special elements for the spread of dipole material;

3) a reduced utilization rate of the smoke-generating composition due to incomplete combustion during dispersal in the oncoming air flow;

4) a decrease in the effectiveness of the aerosol cloud due to the short burning time of the IR active mass.

5) having a payload in the form of IR- and RL-active masses, the known device is intended only for this option (the volume of IR- and RL-active masses is deliberately different) and does not technically allow creating an extended volumetric combined false target with alternating local zones.

The present invention eliminates these disadvantages by creating in the atmosphere of clouds of, for example, radar and infrared active masses, combined into an extended volumetric combined false target, necessary for the effective protection of various objects from high-precision weapons operating in the optical and radio wavelengths of electromagnetic radiation .

The problem is solved using a projectile having a tubular body, a cartridge unit with a payload and a starting device, the tubular body being closed from the upper end by a lid of the cartridge unit having a pyrotechnic connection with a starting device and means for initiating and ejecting a payload, if used as of the last, for example, dipole material, on the outer surface of the perforated tubular cassette of the cartridge, two pairs of pushers are installed in the form of a floor parallel to its longitudinal axis cylinders, the second pair of them overlapping the first with a shift of the separation plane of 90 degrees, and the dipole material is installed in the cassette volume formed by the cassette flange, half-cylinders and easily destructible non-metal shell, and in case of using a payload in the form, for example, of smoke-forming material, made in the form of many flexible plates of fireproof material with a smoke-forming composition deposited on them and mounted fan-shaped in the volume formed by its perforated tubular the casing and the flange of the cartridge, and on the outside - easily destructible non-metallic shell, the plates are made in the form of, for example, a rectangle with its smaller side adjacent to the perforation of the tubular cassette of the cartridge. Moreover, the starting device is installed in the glass of the tubular body, connected to the cartridge block by a central coupler having a weakened cross-section at the attachment point of the block with the glass, while the pyrotechnic connection between the charge of the starting device and the propellant charge of the cartridge block is made through holes in the glass of the housing. And the means of initiating and ejecting the cartridge block are made in the form of a sequential pyrotechnic connection of the pyro-retarders and impulse charges, with the pyro-moderators installed in the flange of each unit cartridge, and the impulse charges on the central coupler of the unit in the cavity of each cartridge formed by a perforated tubular body and cartridge flanges.

The advantages of the proposed device are:

1) installation in cassettes of pushers in the form of two pairs of half cylinders that overlap the perforation of the tubular body of the cassette, thereby protecting the dipole material from mechanical and thermal damage by hot gases when pulsed charges are triggered at the moment of dispersion of the material and at the same time increasing the radius of dispersion of the material in the atmosphere, increasing the radar efficiency false goal;

2) fan-shaped stacking in cassettes of smoke-forming material allows the simultaneous ignition of all plates from their ends with the continuation of the combustion process and smoke formation in the atmosphere after they are exhausted until the composition is completely burned, while fan-shaped stacking allows you to program the effective time of the false target due to the possibility of changing the length of the plates ;

3) the use of a block of cassettes in which any material can be used (dipoles, smoke-generating and other materials capable of supplying both a curtain of one type of material (active mass) or a combination of different types of material);

4) the use of a central coupler connecting the cartridge block to the housing glass and having a calibrated cross-section in the place of its attachment to the glass allows you to set the rate of release of the cartridge block into the atmosphere when the propellant charge of the block is triggered and, as a result, the time the block takes to reach a given range and aerosol clouds on an effective mode of operation. At the same time, the installation of a block of cartridges on the screed, the number of which is set by the necessary size (length) of the false target, the presence of a sequential pyrotechnic connection from the starting device to the pyro-retarders and pulse charges of each cartridge allows the guaranteed operation of the proposed device.

From comparison with the analogs described above it follows that the proposed projectile for setting a combined false target, due to the use of new significant features in its design (in cassettes with a payload in the form of a dipole material of the pushers of the latter in the form of two pairs of half-cylinders that overlap the perforation of the tubular casing of the cartridge, moreover their second pair overlaps the first with a separation plane shift of 90 degrees, in cassettes with a payload in the form of smoke-forming material, made in the form of multiple two flexible plates in the form of, for example, a rectangle with its smaller side adjacent to the perforation of the tubular cassette body and fan-shaped in it, as well as a central tie with a calibrated weakened cross section in a fixed place) that are not used in analogs, in combination with general ones (tubular case, starting device, cartridge block, propelling charge) allows you to solve the problem. Therefore, the proposed solution meets the criterion of "inventive step”.

Figure 1 shows a schematic longitudinal section of a projectile.

Figure 2 - embodiment of a cartridge with a dipole material.

Figure 3 - embodiment of the cartridge with smoke-forming material.

Figure 4 - setting the curtain with a shell over the earth's surface and its development in time.

Figure 5 is the same above the water surface.

The proposed projectile 1 for setting a combined extended false target contains an electric starter 2, a tubular body 3 and a cartridge block 4 with a payload. Moreover, the electric starter device 2 is placed in the glass 5 of the housing 3, connected to the cartridge block 4 by means of a central tie 6 having a weakened cross-section 7 in the place of attachment of the cartridge block 4, one end of the central tie 6 is fixed in the glass 5 of the housing 3, and the other in the cover 8 cassette unit 4. In the flanges 9 of the cassette 4, pyro-retardants 10 are installed, and in the cavity of the perforated tubular body 11 of each cassette 4, pulse charges 12 are fixed on the central coupler 6, while a chamber with a propelling charge 13 is fixed on the cassette unit 4, forming with lektropuskovym device 2 and pirozamedlitelyami 10 and 12, each pulse charges cassette 4 pyrotechnic serial communication - ignition means and eject the payload. Moreover, in the glass 5 of the housing 3, holes are made for the passage of combustion gases of the pyrosostructure of the electric start device 2 into the cavity of the housing 3, where the propelling charge 13 of the cartridge unit 4 is installed. Each cartridge 4 is protected by an easily destructible non-metallic shell 14.

In each cassette 4 with dipole material 15 (see FIG. 2), pushers 16 are laid in the form of two pairs of half-cylinders along its central axis between its perforated tubular body 11 and the payload. Moreover, the first pair overlaps the outer diameter of the tubular body 11 of the cartridge 4 along its entire length, and the second pair is superimposed on the formed cylinder with a shift of the separation plane of 90 degrees.

In each cartridge 4 with smoke-forming material 17 (see Figure 3), fan-shaped flexible plates of fireproof material with a smoke-forming composition deposited on them are placed perpendicular to its central axis. Moreover, the plates are made in the form of, for example, a rectangle, and the ends of the smaller side are adjacent to the perforation of the tubular body 11 of the cartridge 4.

The inventive shell operates as follows.

The launch of the projectile begins with the supply of an electric current pulse to the contacts of the electric launch device 2, the pyrocharge of which gives out force of fire and hot gases, which through the openings in the glass 5 of the housing 3 enter the cavity of the housing 3, where the cartridge unit 4 is installed, igniting its propellant charge 13. Combustion gases the latter penetrate into the cavity of the installation of pyro-retardants 10 of the first along the cassette 4, igniting them. At the same time, these gases create the necessary pressure to destroy the weakened section 7 of the central screed 6, as a result of which the entire block of cartridges 4 with pyro-retarders 10 and pulse charges 12 fixed on the central screed 6 is fired from the cavity of the shell of the projectile 1, which acts as a disposable guide tube. On the flight path at a given range, the pyro-retardants 10 of the first cartridge 4 are activated, igniting the pulse charge 12 of the first cartridge 4, which, in turn, ignites the pyro-retardants 10 of the second cartridge 4, and the gas pressure of the pulse charge 12 releases the payload from the first cartridge 4 into the atmosphere.

In the case of a cassette 4, containing, for example, dipole material 15, due to the pushers 16 in it in the form of two pairs of half cylinders, the material 15 is ejected into the air with high energy in sectors corresponding to the pushers half cylinders 16, scattering the dipole material 15 in the incoming air stream, forming a spherical aerosol cloud covering the object from the enemy’s attack means in the radio emission range.

In the case of a cartridge 4 containing smoke-generating material 17, made in the form of a plurality of flexible plates of non-combustible material with a smoke-forming composition deposited on them, a force of fire through the perforation in the tubular body 11 of the cartridge 4 ignites simultaneously all the ends of the smaller sides of the plates adjacent to the perforation under the action of pressure of hot gases of a pulse charge 12 the external non-metallic shell 14 of the cassette 4 breaks and the ignited material 17 in the form of burning plates shoots into the atmosphere, forming a dense aerosol e cloud covering the object from the attacking weapons of the enemy in the infrared wavelength range of electromagnetic radiation.

Pyro-retardants 10 and impulse charge 12 of the second payload cassette 4 along the course of the operation act similarly, forming a second aerosol cloud, and so on. Local clouds from individual cartridges due to atmospheric turbulence merge into one extended combined aerosol cloud - a false target, protecting the object from the attacking means. After ejecting the cartridge block from the cavity of the projectile 1 in the electric starter 2, a signal is generated that confirms the launch of the projectile 1.

The proposed design of the projectile provides the statement of the extended combined false target, which is large enough in the radial direction, for a short period of time with a large effective cloud area, along the flight path of the block of cartridges. In the future, its passive increase occurs. Moreover, depending on the destination, the false target can have a different structure and density of clouds (the shape of a dipole or other material, smokes of various colors, etc.), contrasting to any background at any time of the year in any weather condition. Adherence of a false target to any type of underlying surface, including water, its size and setting for a minimum period of time provides reliable cover of any object from attacking high-precision weapons of the enemy from the moment of detection of the latter, and in case of protection of a moving object creates the possibility of his maneuver by setting a protective curtain . The conducted field tests confirmed the effectiveness of the projectile (see the attached drawings).

Claims (3)

1. A projectile for setting a combined false target, comprising a tubular body, a cartridge block with a payload and a launching device, wherein the tubular housing is closed from the upper end of the lid of the cartridge block having a pyrotechnic connection with the starting device and means for initiating and ejecting the cartridge block, characterized in that the cartridge cassettes contain a payload, for example, in the form of a dipole or smoke-forming material, and in cassettes with a dipole material on the outer surface of the perforated tubular body to two pairs of pushers in the form of half cylinders are installed parallel to its longitudinal axis, the second pair of which overlaps the first with a shift of the separation plane by 90 °, while the dipole material is installed in the volume of the cartridge formed by the cartridge flange, half pushers and easily destructible nonmetallic shell, and in cassettes with smoke-forming material installed fan-shaped in its volume, formed by a perforated tubular body, a flange and an easily destructible non-metal shell, smoke-forming ma Methods and material formed as a set of a plurality of flexible plates made of fireproof material applied with the smoke-producing composition, wherein the plates are in the form of, for example, a rectangle, at its side adjacent to the perforations of the tubular cassette body. 2. The projectile according to claim 1, characterized in that the starting device is installed in the glass of the tubular body connected to the cartridge block by a central coupler having a weakened cross-section in the attachment point of the block with the glass, while the pyrotechnic connection of the charge of the starting device and the propellant charge of the cartridge block is made through the holes in the glass of the case. 3. A projectile according to any one of claims 1 and 2, characterized in that the means for initiating and ejecting the cartridge block are made in the form of a sequential pyrotechnic connection of the pyro-retarders and impulse charges, with the pyro-moderators installed in the flange of each cartridge cartridge, and the pulsed charges on the central coupler block in the cavity of each cartridge formed by its perforated tubular body and the flanges of the cassettes.

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