RU2275583C2 - Method for fighting against an object equipped with system e detection and destruction of attacking components, ammunition and device for its realization - Google Patents

Abstract

FIELD: means for destruction of targets.

SUBSTANCE: the optical and other instruments of the object are coated with a material reducing the efficiency of these instruments or blocking their operation. The material is applied by means of an ammunition with a source solution, the ammunition is actuated as a result of contact with the object or remotely. As a result of actuation of the ammunition the source solution is splashed out onto the object surface, where it spreads in a film over the surface, swells up and ignites, then the object gets destructed by a usual component - an ammunition, in particular, a self-guided ammunition. The ammunition loading is made in the form of a quick-expandable foaming composition. The body has two threaded holes, one of which is made in the form of a duct narrowing in the middle with a spring-loaded ball installed in it from the inner side of the bottom, placed in other hole is a movable screwed-in stopper. The cavity of the second hole communicates with the environment in the point of location of the stopper. The device for remote application of the material is provided with an additional valve for filling of the device and with a siphon. A polymer or a stabilizer is additionally introduced in the source foaming solution, and liquefied gas is present in the sealed body.

EFFECT: enhanced efficiency of fighting against the object.

17 cl, 4 ex, 6 dwg

Description

The invention relates to the field of warfare, and more specifically to methods and devices that provide reliable destruction of targets equipped with modern systems for detecting and defeating attacking elements. In addition, the method and device for its implementation can be used to disorientate an object (target), including with subsequent capture, without hitting it with an attacking element in conventional equipment, including homing ones.

The known method of firing ATGM based on the so-called three-point method / 1 /. The first point is the gunner’s eye, the second is the projectile on the trajectory, and the third is the target. The objective of the ATGM gunner is to bring out and hold the projectile on the line of sight, which you can mentally draw between the operator’s eye and the target.

Skillful and proper implementation of the known method of firing at targets that are not equipped with systems for detecting and hitting attacking elements ensures their reliable defeat. However, in modern conditions, and even more so in the short term, all attacking elements approaching an object (target) equipped with the said system will be hit either by an impact core, or ammunition, or special mechanical elements released (fired) from this object (target) / 2 /. Only fragments from the affected attacking element that are not capable of causing significant damage to it (the target) will reach the surface of the object (target).

A known method of dealing with objects (targets), in which in the area of location of the objects is the setting of clouds of smoke through smoke shells of shock action / 3 /. The cloud of smoke when the projectile breaks has the following size perpendicular to the direction for: 76 mm projectile - 20 ... 25 m; 107 mm - 25 ... 30 m; 122 mm - 30 ... 40 m. Smoke projectile selected as a prototype of the claimed ammunition and device for implementing the inventive method, the device is similar to a chemical projectile and consists of a body, an ignition cup screwed into the head point, and a shock tube . An explosive charge of several pieces of picric acid or PETN and a pilot glass with a detonator are placed in the igniter. The casing is filled with smoke-generating substance through a hole in the cylindrical part of the casing, which is closed with a screw or pressed-in stopper / 3 /.

As shown by the experimental data of the American military chemical school, the number of lesions when shooting with rifles at a distance of 270 m decreases by 4 ... 5 times with smoke of the target and 10 ... 15 times with smoke of the shooters themselves / 3 /. Thus, with the skillful and proper implementation of the known method of combating objects (targets) through a smoke cloud, the effectiveness of the detection and destruction system of attacking elements using visible and near infrared (λ≤1.5 μm) wavelength ranges can decrease. However, when the infrared (Δλ = 3 ... 5 μm and Δλ = 8 ... 14 μm) and radar ranges of electromagnetic waves are used by the detection and attack system, the smoke curtains are transparent. In addition, a cloud of smoke in the target area is able to create a mask-interference in the ranges Δλ = 0.38 ... 1.5 μm in size 20 ... 40 meters across and reduce the efficiency of strikes on the object (target).

A known method of dealing with an object, selected as a prototype of the proposed method, in which a dense opaque material is thrown onto the optical instruments of a moving tank object from the armor surface, in particular felt overcoat material / 4 /.

However, to implement the known method, selected as a prototype of the proposed method, it is not always possible, since for its implementation it is necessary to climb the object and throw material on the devices, and under the influence of infantry support and the presence of a detection and destruction system of attacking elements that can perceive man as an attacking element, this is impossible.

The objective of the invention is to increase the effectiveness of the fight against an object (target) equipped with a system for detecting and defeating attacking elements by reducing the effectiveness of optical instruments and / or antennas of radar stations or by eliminating the possibility of their operation by applying visible to them and / or low-transparency for electromagnetic waves infrared and / or radar ranges of the material.

This task is achieved in that in a method of controlling an object equipped with a system for detecting and damaging attacking elements, in which material is applied to the optical devices and / or antenna arrays of the radar stations of the object, which reduces the efficiency or blocks the operation of these devices and / or stations, according to the invention :

firstly, in it the material is applied remotely by means of a stream of the initial solution or ammunition with the initial solution, moreover, the ammunition is either affected by the detection and destruction system of the attacking elements, or is triggered by contact with the object, or by the operation of a remote-acting tube, while the initial solution is splashed onto the surface of the object and hardens and / or swells, forming a foam, and / or spreads over the surface with a film, and / or ignites, then, in particular, the object is hit by a normal attacking electric ammunition, including homing;

secondly, either the paint, or napalm, or cold-cured resins with or without curing catalysts, or fuel oil, or tar, or the initial one-, two-, or multicomponent foaming solution based on aqueous or aqueous polymer are used as the initial solution , or polymer compositions, including those based on cold cured resins;

thirdly, the initial foaming solution contains a surfactant, a polymer or a stabilizer, liquefied gas and water in the following ratio, wt.%:

surface-active substance 5 ... 20 polymer stabilizer 0.05 ... 25 liquefied gas 25 ... 35 water the rest is up to 100

fourthly, the initial foaming solution additionally contains a dye up to 15% wt.

The task is also achieved by the fact that the ammunition for implementing the method of combating an object equipped with a system for detecting and hitting attacking elements, comprising a housing with a diaphragm embedded in its chamber and an expelling charge of smoke or smokeless powder with an igniting device, according to the invention:

firstly, the equipment is made in the form of a rapidly expanding foaming composition, and the body is equipped with two threaded holes, one of which is tapering in the middle and provided with a channel in the form of a spring-loaded ball placed on the inside of the bottom, while a movable screw plug is placed in the other hole, the cavity of the second hole at the location of the plug is in communication with the external environment;

secondly, the holes and the bottom of the munition are equipped with holes;

thirdly, the bottom and / or diaphragm are equipped with seals.

The task is also achieved by the fact that the device for implementing the method of combating an object equipped with a system for detecting and defeating attacking elements, containing a sealed enclosure with a solution, according to the invention:

firstly, the housing with the initial foaming solution, in particular containing the ingredients according to paragraph 3 of the formula, is equipped with a siphon, two valves and a guide;

secondly, one valve is installed on the housing, and the other on its neck, to which the siphon cylinder is fixed;

thirdly, a nozzle containing an opening and distribution unit, an actuator and a safety unit is installed on the body neck, the body neck being interfaced with the siphon cylinder, and the splash control system additionally installed on the device body is centered with the nozzle, namely, with the safety stop node, while the valves are made on the housing of the device, in particular in its upper and lower levels;

fourthly, the actuating unit contains a squib, a piston-hammer and a socket fixed to the base of the actuating unit, equipped with a cover, and providing connection of the nozzle to the source of electrical signal and connected by electrical contacts to the squib, and one of the contacts is ground, while the squib is placed in the pyrotechnic case mounted on the base, in addition, in the pyrotechnic case between the squib and the rocker of the safety unit, a piston-hammer is installed, fixed by a thrust nut th and ground in the pyrotechnic case with a sealing nut;

fifthly, the safety unit includes a stopper and a rocker pivotally mounted on a platform connecting the actuating unit and the opening and distribution unit, while the stopper is movably mated to one of the free ends of the beam and is equipped with a check;

sixthly, the opening and distribution unit contains a valve, a stem, a distribution chamber, types of gaskets that provide spring compression sufficient to overcome the calculated back pressure of the initial foaming solution, a valve located in the upper part of the rod, and a housing secured by bolting using seals to the case of the device and to the platform of the safety unit, the valve consists of a seal and a rigid base mated to the rod, and the rod has an articulated knee that provides tight fit of the valve to the body, as well as a longitudinal selection, equipped with a roller under the stopper, and the distribution chamber is made inside the body and has a cavity interface with the guide;

seventh, the splash control system of the initial foaming solution contains a rod, a valve, a nozzle, a pin, a housing and a stopper fixed in the system housing by a check, while the valve with the gasket is pressed against the system body by a rod equipped with a roller resting against the stopper, and the system case made of several mutually screwed-up parts, ensuring a “rubbing” of the rod along the length, as well as a predetermined spread of the check for connecting it to the strand from the nozzle side, the housing is also provided with a distribution cavity and miles and installed on the apparatus body by a pipe.

It is the increase in the effectiveness of the fight against objects equipped with a system for detecting and hitting attacking elements by reducing the effectiveness of optical instruments and / or antennas of radar stations or by eliminating the possibility of their work by applying them opaque to electromagnetic waves and / or visible and / or infrared, and / or radar ranges of the material allows us to conclude that the problem of the invention is solved and that the claimed inventions are interconnected by a single inventive concept.

The inventive method of dealing with an object equipped with a system for detecting and defeating attacking elements differs from the prototype in that:

firstly, in it the material is applied remotely; the material is applied by spraying the stock solution; the material is applied by means of ammunition with the initial solution; the ammunition is either affected by the system for detecting and hitting attacking elements, or is triggered by contact with the object, or by the operation of a remote-action tube; the initial solution splashes onto the surface of the object and hardens and / or swells, and / or spreads over the surface with a film, and / or ignites; then, in particular, the object is struck by a conventional attacking element-ammunition, including homing;

secondly, either the paint, or napalm, or cold-cured resins with or without curing catalysts, or fuel oil, or tar, or the original one-, two-, or multicomponent foaming solution based on aqueous or aqueous- are used as the initial solution polymer or polymer compositions, including those based on cold cured resins;

thirdly, the initial foaming solution contains a surfactant, a polymer or stabilizer, liquefied gas and water in the following content,% wt .:

surface-active substance 5 ... 20 polymer stabilizer 0.05 ... 25

liquefied gas 25 ... 35 water the rest is up to 100

fourthly, the initial foaming solution additionally contains a dye - up to 15% wt.

The inventive ammunition for implementing the method of combating an object equipped with a system for detecting and defeating attacking elements differs from the prototype in that:

firstly, the equipment is made in the form of a rapidly expanding foaming composition; the housing is equipped with two threaded holes; one of the holes is made tapering in the middle and is equipped with a channel in the form of a spring-loaded ball placed on the inside of the bottom; in another hole there is a movable screw plug; the cavity of the second hole at the location of the plug is in communication with the external environment;

secondly, the holes and the bottom of the ammunition are equipped with holes; or the holes are equipped with the bottom of the ammunition;

thirdly, the diaphragm or the bottom and the diaphragm are equipped with seals.

The inventive device for implementing the method of combating an object equipped with a system for detecting and defeating attacking elements differs from the prototype in that:

firstly, the housing with the initial foaming solution is equipped with a siphon, two valves and a guide; the initial foaming solution contains the ingredients according to paragraph 3 of the claims; the housing contains an initial foaming solution;

secondly, one valve is installed on the body, and the other on its neck; a siphon cylinder is fixed to the neck;

thirdly, a nozzle is installed on the neck of the body; the nozzle contains an opening and distribution unit, an actuator and a safety unit; the neck of the device is paired with a siphon cylinder; an additional splash control system installed on the device’s body is centered with the nozzle, namely: with the stopper of the safety unit; the valves are made on the device body, in particular in its upper and lower levels;

fourthly, the actuating unit contains: a squib, a piston-drummer and a socket; the socket is fixed at the base of the actuating unit equipped with a cover; the socket provides connection of the nozzle to an electric signal source; the socket is connected by electrical contacts to the squib; one of the contacts is ground; the squib is placed in the pyrotechnic case; a pyrotechnic building is installed on the base; in the pyrotechnic case, between the squib and the rocker of the safety unit, a piston-hammer is installed; the piston-hammer is fixed with a thrust nut and “ground” in the pyrotechnic case with a sealing nut;

fifthly, the safety unit contains a stopper and a rocker; the beam is pivotally mounted on the platform; the platform connects the executive unit and the opening and distribution unit; the stopper is movably mated to one of the free ends of the beam; the stopper is equipped with a check;

sixthly, the opening and distribution unit comprises a valve, a stem, a distribution chamber, type-setting gaskets, a winch and a housing; typesetting gaskets provide spring compression sufficient to overcome the calculated counteraction of the initial foaming solution; the handle is located at the top of the stem; the body of the assembly is bolted with the use of seals to the housing of the device and to the platform of the safety assembly; the valve consists of a sealant and a rigid base; the base is paired with a stock; the rod has an articulated knee, which provides a snug fit of the valve to the body, as well as a longitudinal selection, equipped with a roller under the stopper; the distribution chamber is made inside the housing and has a cavity connection with the guide;

seventh, the splash control system of the initial foaming solution contains a stem, valve, pipe, pin, housing, and stopper; the stopper is fixed in the system housing with a check; a valve with a gasket is pressed against the system body by a stem; the rod is equipped with a roller abutting against the stopper; the case of the system is made of several mutually screwing parts, ensuring the “grinding" of the rod along the length, as well as a predetermined spread of the check for connecting it to the weight from the nozzle side; the housing is provided with a distribution cavity and bleed holes; the system case is mounted on the device case by means of a branch pipe.

The essence of the proposed technical solution is illustrated by drawings, which show:

figure 1 - ammunition;

figure 2 - placement of the nipple hole and the hole with a plug in the screw bottom of the munition;

figure 3 - device (option No. 1);

figure 4 - device (option No. 2);

figure 5 - nozzle;

6 is a splash control system.

Table 1 presents the specification of the drawings.

The inventive method of combating an object equipped with a system for detecting and hitting attacking elements is implemented using existing munitions and ammunition-type devices.

At the same time, the munition model was not destroyed by the detection and destruction of attacking elements. After mechanically opening the bottom of the munition model or launching the device, the flow of rapidly expanding foaming solution was directed to the optical instruments of the tank and BMP-2, as well as to the antenna array of the air defense complex radar station. The decrease in the efficiency of optical devices was estimated by the area of foam filling the eyepiece of the device relative to its entire area, as well as by visual observation of the terrain using this optical device. In addition, by expert evaluation of the ability to quickly remove the initial solutions and obtained through their materials.

An expert evaluation of the results of experimental studies of the effectiveness of the proposed technical solution showed that as a result of applying foam to optical devices, invisibility fields are proportional to the area of the eyepiece’s foam filling with the device, and when the eyepiece is completely filled with foam, the ability to work with the optical device is blocked. To remove foam from the device, crew members need to exit to the armor, which causes a delay and provides the possibility of hitting or capturing the armor.

Unfortunately, the complete filling of the antenna of the radar station was not possible due to the categorical refusal of the complex command to take actions that could even take the station out of operation for a short time. At the same time, an expert assessment of specialists showed that when a conductive material is applied to the antenna, the operation of the antenna is partially or completely blocked.

The stability of the claimed aqueous foam compositions from 1 to 24 hours, depending on environmental conditions. Foams containing polymers based on cold cured resins harden under the influence of curing catalysts and have good adhesion to glass surfaces, which requires additional efforts to remove them under natural conditions.

Table 1 Specification of drawings Position Name one 2 one ammunition 2 ammunition body 3 camera four diaphragm 5 kick charge 6 flammable device 7 fast expanding foaming composition (initial foaming solution) 8 ammunition bottom 9 nipple hole 10 hole with plug eleven nipple 12 nipple channel 13 nipple ball fourteen nipple spring fifteen narrowing holes 9 16 stub 17 hole cavity 10 eighteen external environment 19 discharge channel, associated with the hole 10 and the external environment 18 twenty sealant 21 thread 22 tube cut into two or more parts 23 device for implementing the method 24 body 25 siphon 26, 26 (a) valve for discharging mortar and valve for filling the device 27 guide pipe 28 throat 24 29th siphon cylinder 25 thirty nozzle 31 nozzle opening and distribution unit 30 32 nozzle actuator assembly 30 33 nozzle safety assembly 30 34 splash control system 35 nozzle stop 30 36 squib 37 percussion piston 38 nest 39 base 40 cap 41 electrical contact 42 electrical contact "mass" 43 pyrotechnic building 44 fixing nut 45 dielectric pads 46 thrust nut 47 sealing nut 48 rocker 49 hinge fifty platform 51 check 52 valve 53 stock 54 distribution chamber 55 typesetting pads 56 crank 57 assembly body 31 58 spring 59 bolted connection 60 unit body seals 31 61 rigid valve base 52 62 articulated knee 63 longitudinal sampling 52 64 stopper roller 35 65 rollers under the stopper 35 located on the housing 57 of the node 31 66 system rod 34 67 system valve 34 68 system pipe 34 69 system check 34 70 system stopper 34 71 system enclosure 34 72 valve gasket 67 73 rod roller 66 74 interlocking housing parts 71 75 heavy 76 distribution cavity of the housing 71 77 bleed holes 78 nozzle cut 79 platform 80 mounting device 81 marking 82 stem limiter 53

Removing polyurethane coatings and paints without the use of special chemical solvents and scrapers is difficult. For electromagnetic waves in the visible and infrared ranges of the foam from the inventive initial foaming solution deposited on optical devices, opaque.

Thus, experimental studies and expert evaluation of their results showed that the implementation of the method of dealing with an object equipped with a system for detecting and hitting attacking elements, ammunition and a device for its implementation by applying to optical instruments and / or antennas radars that are slightly transparent to electromagnetic waves is visible and / or infrared and / or radar ranges of materials will increase the reliability of damage to an object (target) equipped with a detection and damage system the development of attacking elements by reducing the effectiveness of optical instruments and / or antennas of radar stations or by eliminating the possibility of their operation. It is also possible to capture a “blinded” object without hitting it with an attacking element in conventional equipment.

Ammunition 1 for implementing the method of combating objects equipped with a system for detecting and defeating attacking elements, comprising a housing 2 with a diaphragm 4 embedded in its chamber 3 and an expelling charge 5 of smoke or smokeless powder with an igniting device 6, equipped with a rapidly expanding foaming composition (initial foaming solution ) 7 (see figure 1). According to the method, the initial foaming solution contains a surfactant, a polymer or a stabilizer, liquefied gas and water in the following percentage, wt%:

surface-active substance 5 ... 20 polymer stabilizer 0.05 ... 25 liquefied gas 25 ... 35 water the rest is up to 100

In the initial foaming solution, in addition, dye up to 15% wt.

The casing 2 and / or the screw bottom 8 of the munition 1 is provided with two threaded holes 9 and 10. The nipple hole 9 (with the nipple 11) is made tapering in the middle and, in particular, is equipped with a channel 12 with a ball 13 and a spring 14 (see figure 2) . Moreover, the ball 13 is placed on the inner side of the bottom 8 relative to the narrowing 15. In the other hole 10 there is a plug 16. In this case, the cavity 17 of the second hole 10 at the location of the plug 16 is connected to the external medium 18 by the channel 19.

The diaphragm 4 and the bottom 8, in this case, can be equipped with a tight seal 20.

Ammunition 1 can be made in the form of a shell (see figure 1) or in the form of a grenade, or in the form of a mine, or under-barrel shot, or shot of a grenade launcher, or rocket, etc. (not shown).

A device 23 for implementing a method of combating an object equipped with a system for detecting and defeating attacking elements, comprising a housing 24 with an initial foaming agent with solution 7, according to paragraph 3 of the method, equipped with a siphon 25, two valves 26 and 26 (a), a guide pipe 27 (see Fig. 3 and 4).

On the device 23, made according to the first embodiment, one valve for filling the device 26 (a) is installed on the housing 24, and the other for the discharge of the solution is on the neck 28 of the housing 24 (see Fig. 3). Moreover, the siphon cylinder 29 is fixed to the neck 28 of the housing 24.

On the neck 28 of the housing 24 of the device 23, made according to the second embodiment, a nozzle 30 is installed containing an opening and distribution unit 31, an actuator 32 and a safety 33 nodes, the neck 28 of the housing 24 interfaced with the cylinder 29 of the siphon 25, and the splash control system 34 installed on the housing 24 of the device 23, centered with the nozzle 30, namely: with the stopper 35 of the safety node 33 of the nozzle 30 (see figure 4). Moreover, the valves are made on the housing 24 of the device 23, in particular in its upper and lower levels (23).

The actuating unit 32 contains a squib 36, a piston hammer 37 and a socket 38 (see figure 5). The socket 38 is fixed in the base 39 of the actuating unit 32, equipped with a cover 40, and provides the connection of the nozzle 30 to an electrical signal source (not shown) and is connected by electrical contacts 41 and 42 to the igniter 36. Moreover, one of the contacts 42 is ground. At the same time, the pyro cartridge 36 is placed in the pyrotechnic case 43 installed on the base 39 by means of a fastening nut 44 with dielectric gaskets 45 through which one of the contacts 41 is passed. The piston-drum 37 is fixed by the thrust nut 46 and “ground” in the pyrotechnic case 43 with the sealing nut 47 .

The safety assembly 33 comprises a stopper 35 and a rocker arm 48 (see FIG. 5). The beam 48 is pivotally mounted on a platform 50 connecting the actuating unit 32 and the opening and distribution unit 31. The stopper 35 is movably coupled to one of the free ends of the beam 48 and is equipped with a pin 51.

The opening and distribution unit 31 comprises a valve 52, a stem 53, a distribution chamber 54, type-setting gaskets 55, a valve 56 and a housing 57 (see FIG. 5). Stacked gaskets 55 provide compression of the spring 58, sufficient to overcome the calculated back pressure of the initial foaming solution (not shown). A gate 56 is located in the upper part of the stem 53. The housing 57 of the assembly 31 is bolted 59 using seals 60 to the housing 24 of the device 23 and to the platform 50 of the safety assembly 33. The valve 52 consists of a seal 60 and a rigid base 61 coupled to the stem 53. The stem 53 has a hinged elbow 62, which provides a snug fit of the valve 52 to the body (cylinder 29 of the siphon 25, fixed in the neck 28 of the housing 24 of the device 23) 24, as well as a longitudinal selection 63, equipped with a roller 64 for the stopper 35. The distribution chamber 54 is made inside the body 57 and node 31 and a cavitary mate with the guide pipe 27.

The splash control system 34 of the initial foaming solution (not shown) comprises a stem 66, a valve 67, a nozzle 68, a pin 69 and a stopper 70 (see FIG. 6). The stopper 70 is fixed in the housing 71 of the system 34 by a pin 69. The valve 67 with the gasket 72 is pressed against the housing 71 (to the cut of the pipe 78 at the place of its connection (68) to the housing 71) of the system 34 with a stem 66 equipped with a roller 73, which abuts the stopper 70. The housing 71 of the system 34 is made of several mutually screwed together parts 74, which ensure the “grinding” of the rod 66 along the length, as well as the predetermined rotation of the stopper 70 to connect it (70) with a weight of 75 to the stopper 35 of the nozzle 30. The housing 71 is provided with a distribution cavity 76 and bleed holes 77 The housing 71 of the system 34 is mounted on the housing 24, device 23 through pipe 68.

The inventive method is as follows.

Example 1. Ammunition 1 is fired from a standard artillery system or is thrown by hand towards an object equipped with a system for detecting and hitting attacking elements. In this case, the flight path of the ammunition is selected directly in the direction of the optical instruments and / or antenna of the detection and destruction system of attacking elements. It is pointless to direct the trajectory of the munition 1 to an area outside the devices and / or antenna of the system.

As a result of the operation of the detection system and the defeat of attacking elements, the ammunition 1 is “struck” (destroyed). A rapidly expanding foaming solution is released from an enclosed space, expands (condenses) and, along with pieces of ammunition, is applied (falls) along the trajectory to the surface of the object (target), including optical instruments and / or the antenna of the radar station.

The system for detecting and defeating attacking elements is “blinded” (blocked), or at least its effectiveness is reduced. Then, a “blinded” object is hit by an attacking element in conventional equipment with a shot from the same or from an adjacent full-time artillery installation, or it is captured.

Example 2. Corresponds to that described in example 1, but the munition 1 is triggered by a remote-acting tube (an ignition device 6), in particular a projectile (the remote-acting tube is not considered in this application, see, for example, / 3 /). The blast charge 5 is ignited, and under the pressure of the generated gases on the diaphragm 4 and the bottom 8, in particular, by means of the tube 22, the initial foaming solution 7 is splashed outside the housing 2 (see figure 1). Under the action of the expanding gases, a foam forms, which is applied (falls) to the object (target), "blinding" (blocking) the system for detecting and hitting attacking elements. Then, a shot is fired to hit an object (target) from the same or nearby standard installation or it is hit by a grenade.

Example 3. Corresponds to the described in examples 1 and 2, but ammunition 1 fires after direct contact with an instant fuse (this application is not considered, see, for example, / 3 /) - an ignition device 6 (see figure 1).

Example 4. The initial foaming solution 7 is applied to optical instruments and / or the antenna of the radar station of the detection and destruction of attacking elements by means of a device for implementing the inventive method. In this case, the solution stream is directed directly to the optics and / or antenna manually or by means of a remote control system by means of devices advanced (installed) in front of the positions (or to the ambush line). After applying the material ("blinding" the object), a shot is shot to defeat or capture the object without damaging it.

The device 23 for implementing the method of combating an object equipped with a system for detecting and defeating attacking elements (option No. 1) manually works as follows. The guide pipe 27 is directed to the optical instruments or the antenna of the target, and the valve opens to release the solution 26 located on the neck 28 of the housing 24 (see figure 3). The initial foaming solution (not shown) due to the pressure of the compressed gas is splashed onto the surface of the target and condenses into foam, which “blinds” the detection and defeat system of attacking elements. The second valve 26 (a) for refueling the device, mounted on the housing 24 of the device 23, is used when refueling the device 23.

A device 23 for implementing the method of combating an object equipped with a system for detecting and defeating attacking elements (option No. 2), by means of a remote control system (not shown) works as follows.

The device 23 (at least one) is installed in the direction of movement of the object and is connected to the remote control system (not shown) through the socket (see figure 5). To install the device 23 can be used platform 79 with the mounting device 80, marked 81 and, in particular, with bipods (not shown).

An electric signal coming from the remote control of the remote control system (not shown) through the socket 38 and the electromagnets 41 ignites the squib 36 (see Fig. 5). The powder gases generated by the actuation of the pyro cartridge 36 sharply move the firing piston 37 along the pyrotechnic body 43 to the thrust nut 46. As a result of the interaction of the firing piston 37 with the rocker 48, the latter (48) rotates on the hinge 49, due to which pulling occurs the stopper 35 of the nozzle 30 and the stopper 70 of the splash control system 34. The stopper 35 of the nozzle 30 is pulled out of the longitudinal recess 63 of the rod 53 by means of the rollers 64 and 65. The stoppers 35 and 70 are preliminarily released from checks 51 and checks 69.

Simultaneously with the stopper 35 of the nozzle 30, the stopper 70 of the splash control system 34 is released. The stopper 70 and the housing 71 of the system 34 are released from the check 69 in advance (see FIG. 6). The stem 66, the valve 67 with the gasket 72 under gas pressure in the pipe 78 and the housing 24 of the device 23 rises, freeing the holes 77 through which the gas is bleed (if the pipe 78 is not correctly located - liquid and foam). As the pressure decreases in the housing 24 of the device 23, the valve 52 of the nozzle 30 is actuated by reducing the back pressure of the spring 58 (see Fig. 5). The spring 58, expanding, lowers the valve 52 down to the stop (rod limiter) 82, as a result of which the initial foaming solution rushes into the distribution chamber 54 and then through the guide 27 to the target (not shown).

To reuse the device 23 before equipping it with the initial foaming solution (not shown) by a gas station (not considered in this application), the stopper 35 is installed and fixed by a pin 51 in the longitudinal selection 63 of the rod 53 by means of a tensioner (not shown), and a stopper is also installed 70 and receipt 69 of system 34.

The use of the claimed technical solution will provide increased reliability of the destruction of objects (targets) equipped with modern and promising systems for the detection and destruction of attacking elements, which are practically invulnerable before the implementation of the proposed method. The advantage of the method lies in the fact that the claimed ammunition and device can be used for its implementation, as well as a chemical projectile armed with the inventive and other initial solutions, which provide material that is opaque to electromagnetic waves visible and / or infrared and / or radar wavelength ranges.

Information sources

1. Useful tips for a warrior. Third edition, revised and supplemented. Team of authors. M .: Military Publishing, 1975, p. 131, 132.

2. Doug Richardson. Steel Alone is no Longer Enough on Tanks. In: ARMADA INTERNATIONAL. English Edition, 3/1998, June / July, p. 34 ... 47.

3. Tretyakov G.M. (Colonel Engineer). Ammunition of artillery. - M.: Military Publishing House of the USSR Ministry of Internal Affairs, 1947, p.202 ... 206, 196 and 197.

4. Feature film "Maxim the Quail", Lenfilm, 1955

Claims (16)

1. A method of dealing with an object equipped with a system for detecting and damaging attacking elements, in which material is applied to the optical and other devices of the object, reducing the effectiveness of these devices or blocking their operation, characterized in that the material is applied by means of ammunition with the initial solution, and the ammunition is triggered as a result of contact with the object or remotely, and the initial solution as a result of the operation of the ammunition is splashed onto the surface of the object, where it spreads over the surface with a film, hardens t, swells and ignites, then the object is hit by a conventional attacking element - ammunition, in particular, homing. 2. Ammunition containing a housing with a diaphragm located in its chamber and an expelling charge of smoke or smokeless powder with an igniting device, characterized in that it is equipped with equipment made in the form of a rapidly expanding foaming solution, and two threaded holes are made in the housing, one of which are made in the form of a channel tapering in the middle with a spring-loaded ball mounted in it from the inside of the bottom, while a movable screw plug is placed in another hole, the cavity of the second miles in place of plug placement in communication with the external environment. 3. The ammunition according to claim 2, characterized in that the holes are additionally made in the bottom of the ammunition. 4. Ammunition according to claim 2, characterized in that the bottom and / or diaphragm are equipped with seals. 5. The ammunition according to claim 2, characterized in that a one- or multicomponent foaming solution is used based on aqueous, or water-polymer, or polymer compositions, including those based on cold-cured resins. 6. Ammunition according to claim 2, characterized in that the foaming composition contains a surfactant, a polymer or stabilizer, liquefied gas and water, with the following content, wt.%: Surface-active substance 5-20 Polymer or stabilizer 0.05-25 LPG 25-35 Water The rest is up to 100 7. Ammunition according to claim 2, characterized in that the foaming composition additionally contains a dye up to 15 wt.%. 8. A device for remote deposition of material on the surface of an object containing a sealed enclosure with an initial foaming solution, a valve for discharging the solution and a guide pipe, said solution comprising a surfactant, gas and water, characterized in that it is equipped with an additional valve for refueling device and siphon, while the polymer or stabilizer is additionally introduced into the initial foaming solution, and the gas is contained in it in a liquefied form, the surfactant being the polymer or stabilizer, liquefied gas and water are at the following content, wt.%: Surface-active substance 5-20 Polymer or stabilizer 0.05-25 LPG 25-35 Water The rest is up to 100 9. The device according to claim 8, characterized in that the valve for refueling the device is installed on the housing, and the valve for discharging the solution is located on its neck, on which the siphon cylinder is fixed. 10. The device according to claim 8, characterized in that a nozzle is installed on the neck of the body, comprising an opening and distribution unit, an actuating unit and a safety unit including a rocker arm, the neck of the body being coupled to the siphon cylinder and a splash control system additionally installed on the body the device is centered with the nozzle, namely, with the stopper of the safety unit, while the above-mentioned valves are made on the device’s body, in particular in its upper and lower levels. 11. The device according to claim 10, characterized in that the actuating unit contains a squib, piston, hammer and socket, fixed at the base of the actuating unit, equipped with a lid, connecting the nozzle to an electric signal source, and connected by electrical contacts to the squib, and one of the contacts is "mass", while the squib is placed in a pyrotechnic housing mounted on a base in which a piston-hammer is installed between the squib and the rocker of the safety unit, fixed by a thrust Coy and "broken-in" in the pyrotechnic housing sealing nut. 12. The device according to claim 10, characterized in that the safety unit comprises a stopper and a rocker pivotally mounted on a platform connecting the actuating unit and the opening and distribution unit, while the stopper is movably coupled to one of the free ends of the beam and is equipped with a check. 13. The device according to claim 10, characterized in that the opening and distribution unit comprises a valve, a stem, a distribution chamber, stacked gaskets providing spring compression sufficient to overcome the calculated backpressure of the initial foaming solution, a valve located in the upper part of the rod, and a body bolted with the use of seals to the device body and to the platform of the safety unit, the valve consists of a seal and a rigid base mated to the rod, and the rod has a the hinge knee, which provides a tight fit of the valve to the body, as well as a longitudinal selection equipped with a roller for the stopper, and the distribution chamber is made inside the body and has a cavity interface with the guide pipe. 14. The device according to claim 10, characterized in that the splash control system of the initial foaming solution comprises a stem, valve, nozzle, pin, housing and a stopper fixed in the housing of the system with a check, while the valve with the gasket is pressed against the housing of the system by a rod equipped with a roller abutting against the stopper, the system case is made of several mutually screwed-up parts that provide for “rubbing” the rod along the length, as well as a predetermined turn of the stopper for connecting it with the tie with the nozzle stopper, and the system case is made with distribution cavity and bleed holes and mounted on the device by means of a pipe. 15. The device according to claim 8, characterized in that a one- or multicomponent foaming solution is used based on aqueous, or water-polymer, or polymer compositions, including those based on cold cured resins. 16. The device according to claim 8, characterized in that the foaming solution further comprises a dye up to 15 wt.%.

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