RU2552974C1 - Combined false target for imitation of antiaircraft and artillery means - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: combined false target is implemented as a full-scale inflatable model of antiaircraft and artillery means coated with the radio reflecting coating and having dazzling painting, containing the control unit, a temperature regulator and series connected electric heaters which are built-in into the material of the false target, also a rotary platform, a pulse light source and pulse lasers in the quantity equal to the quantity of stocks of the imitated antiaircraft and artillery system are added, the pulse lasers and the pulse light source are placed on the rotary platform, as well as the tool for aerosol veil and the remote control, the output of the remote control is connected to the control unit input the outputs of which are connected respectively to the integrated input of pulse lasers, inputs of the pulse light source and the tool for aerosol veil.

EFFECT: increase of probability of taking of a false target as an imitated sample of antiaircraft and artillery means.

3 cl, 1 dwg

Description

The invention relates to means for securing weapons and military equipment from aerial visual-optical and optoelectronic reconnaissance, as well as radar reconnaissance.

It can be used to simulate anti-aircraft artillery (AS) in the composition of false objects and areas, as well as protection against high-precision weapons equipped with infrared, radar and combined homing and other means of aviation destruction.

False targets are required to ensure compliance with the manifestation of signs of presence and functioning (unmasking signs) similar to those of a simulated model of weapons and military equipment. Currently, the task of developing combined false targets that effectively reproduce the signs of the presence of real AME samples in the optical, infrared and radar ranges has been solved.

False targets are known, which are an inflatable or wire-frame model of a simulated object with a heat radiation source installed inside (see, for example, A. Paliy, Radio-electronic warfare. M., Military Publishing House, 1989, pp. 91-92). The source of thermal radiation is located in the place corresponding to the area of greatest heating of the simulated model of weapons and military equipment (IWT). Heat generation in sources of thermal radiation occurs due to flameless oxidation of gasoline or using a drip burner.

A false target is known, which is an inflatable (pneumatic) model of weapons and military equipment that simulates weapons and military equipment in the visible, radar and infrared ranges (for example, a BMP-2 model; see, Catalog "Engineering weapons". M., 15 Central Research Institute of Defense, 2000, p. 101).

The closest in technical essence and the achieved result (prototype) is a combined false target that simulates weapons and military equipment in the visible, radar and infrared ranges (combined false target; RF patent for the invention No. 2345311 dated January 27, 2009 IPC F41H. 3 / 00), made in the form of a full-scale inflatable mock-up of an IWT sample, having a radio-reflective coating and a masking coloring, which contains a heat radiation source made in the form of an electric heaters, thermostat and control device.

The main disadvantage of the prototype when using it to simulate ZAS as a part of false objects and areas, when it is necessary to simulate not only the concentration of troops, but the presence and functioning of the air defense system, is the absence of unmasking signs that arise when firing: outbreaks of shots, clouds of smoke and projectile tracers towards the aircraft. As a result of this, the set of unmasking features characteristic of the firing of the AAS does not coincide with the signs of a real AAS, which leads to a significant reduction in the probability of accepting a false target as a simulated ZAS.

The objective of the invention is the implementation in the combined false goal of simulating the shooting process and increase due to this the effectiveness of the simulation.

The technical result to which the invention is directed is to increase the likelihood of accepting a false target as a simulated ZAS and, as a result, reduce the likelihood of detecting and defeating true ZAS.

This result is achieved by the fact that in a combined false target made in the form of a full-scale inflatable ZAS prototype, having a radio-reflective coating and simulation devices in the thermal range, an additional pulsed light source and pulsed lasers are added in an amount equal to the number of simulated ZAS barrels, as well as a means of creating aerosol curtain and remote control. The output of the remote control is connected to the input of the control device, the outputs of which are connected respectively to the combined input of pulsed lasers, inputs of a pulsed light source and means for creating an aerosol curtain. In this case, a rotary platform can be additionally introduced, on which pulsed lasers and a pulsed light source are placed. The wavelength of the lasers is selected so that the color of the laser beam is similar to the color of tracers of shells simulated type ZAS. A pulsed light source emits light of the color of flashes of a muzzle flame of a simulated ZAS type, and the means for creating an aerosol curtain creates a cloud of smoke, similar in color and volume to a cloud of smoke generated during firing of a simulated ZAS type.

In FIG. 1 is a structural diagram of a combined false target. The combined false target contains: 1 - a control device, 2 - a temperature regulator, 3 - a set of heaters, 4 - pulsed lasers, 5 - a pulsed light source, 6 - a device for creating an aerosol curtain, 7 - a remote control. In addition, pulsed lasers and a pulsed light source can be placed on a turntable.

Simulation of weapons and military equipment in the visible, infrared and radar ranges with a combined false target does not differ from the solution of this problem by the prototype. Pulse lasers are designed to simulate projectile tracers, while the duration and period of the laser pulses of each laser correspond to the rate of fire of each of the trunks of the simulated ZAS. The number of pulsed lasers corresponds to the number of trunks of the simulated anti-aircraft artillery system K, and the wavelength is selected so that the color of the laser radiation is similar to the color of the tracers of the shells of the simulated ZAS. A pulsed light source is designed to simulate muzzle flares, while the frequency of light pulses corresponds to the rate of fire of a simulated ZAS, and the color is selected similar to the color of a muzzle flame of a simulated ZAS. The tool for creating an aerosol curtain is designed to create a cloud of smoke, similar in color and volume to that arising when shooting a real ZAS. The remote control is designed to remotely turn on the combined false target and firing simulation mode. The turntable, on which lasers and a pulsed light source are placed, ensures their rotation in the direction of the enemy aircraft.

Simulation of the shooting process is as follows. If it is necessary to simulate firing, the operator in the shelter, using the remote control, deploys the turntable (made as a structural element - an inflatable breadboard tower) in the direction of the enemy aircraft in azimuth and elevation, after which, using the control device, it gives a command to switch on simultaneously pulsed lasers, pulsed light sources and means of creating an aerosol curtain. The simulation time corresponds to the duration of the queues of a real WAS.

Thus, in the combined false target, an imitation of the ZAS firing process is implemented, which allows reproducing flash shots, a cloud of smoke and tracer shells, which allows you to create combined false targets to simulate the functioning of anti-aircraft artillery weapons.

Consequently, when a combined false target is detected by a reconnaissance or attack aircraft, it will with a high degree of probability be taken for a simulated ZAS, which will ensure that the true object is hidden and the means of destruction are spent on the false target. This achieves the purpose of the invention.

The combination of distinctive properties of the combined false target provides a new quality, namely an imitation of the shooting process. A positive effect when using the proposed invention is to reduce the effectiveness of reconnaissance means by increasing the likelihood of accepting a false target as a simulated ZAS, and therefore, to hide the true samples of ZAS and the ammunition resource consumption to defeat a combined false target.

The invention can be used to simulate any type of ground-based ASF, which can be opened using thermal, optoelectronic, visual and radar reconnaissance.

The proposed technical solution is new, since the combined false target that imitates the ZAK firing process using pulsed lasers, a pulsed light source and an aerosol curtain creation tool is unknown from publicly available information.

The proposed technical solution has an inventive step, since it does not explicitly follow from published scientific data and known technical solutions that the inclusion of pulsed lasers installed on a turntable in the form of a full-scale inflatable prototype ZAS installed on a rotary platform in an amount equal to the number of trunks of a simulated anti-aircraft artillery system , a pulsed light source, means for creating an aerosol curtain and a remote control, provides a decrease in efficiency Intelligence agents by increasing the probability of making a false goal for the simulated sample SAR, and consequently, to conceal the true objects.

The proposed technical solution is feasible, since all its elements can be made of existing elements and devices of electronic and electrical engineering.

Claims (3)

1. A combined false target made in the form of a full-scale inflatable mock-up of an anti-aircraft artillery weapon coated with a radio-reflective coating and having a masking color, containing a control device, a temperature controller and series-connected electric heaters mounted in a false target material, characterized in that a rotary platform is additionally introduced , a pulsed light source and pulsed lasers in an amount equal to the number of trunks of a simulated anti-aircraft artillery system, at Ohm, pulsed lasers and a pulsed light source are located on a rotary platform, as well as an aerosol curtain and a remote control, while the output of the remote control is connected to the input of the control device, the outputs of which are connected respectively to the combined input of the pulsed lasers, the inputs of the pulsed light source and means of creating an aerosol curtain. 2. The combined false target according to claim 1, characterized in that the wavelength of the pulsed lasers corresponds to the wavelength of light radiation of a tracer of shells of a simulated type of anti-aircraft artillery means. 3. The combined false target according to claim 1, characterized in that the wavelength of the pulsed light source corresponds to the wavelength of the light radiation of muzzle flashes of a simulated type of anti-aircraft artillery.