RU2827648C1 - Method for protection of weapons and military equipment from guided aviation ammunition used by combat unmanned aerial vehicle - Google Patents

Abstract

FIELD: weapons; military equipment.

SUBSTANCE: invention relates to weapons and military equipment (hereinafter WME), in particular, to methods of protection of weapons and military equipment from guided aviation ammunition used by combat unmanned aerial vehicles (UAV), and can be used in the development of a new complex of individual protection of automotive and special equipment. Method for protection of weapons and military equipment from guided aviation ammunition used by combat UAV includes detection of detected pulses of laser radiation, processing them for compliance of inter-pulse time intervals with specified and setting aerosol screens. Aerosol screens are formed by evaporation of water-dispersed solutions or water-oil emulsions (hereinafter the working solution) in the exhaust system of the chassis engine of the covered weapons and military equipment.

EFFECT: higher degree of protection of weapons and military equipment against laser-guided aircraft ammunition of the NATO standard used by combat unmanned aerial vehicles.

1 cl, 3 dwg

Description

The invention relates to the field of weapons and military equipment (hereinafter referred to as AME), in particular to methods of protecting AME from guided airborne munitions used by strike unmanned aerial vehicles (UAVs), and can be used in the development of a new individual protection system for automotive and special equipment.

The method for protecting weapons and military equipment from corrected air munitions used by attack UAVs includes recording detected laser radiation pulses, processing them for compliance of interpulse time intervals with specified ones, and setting up aerosol curtains. Aerosol curtains are formed by evaporation of water-dispersed solutions or water-oil emulsions (hereinafter referred to as the working solution) in the exhaust system of the chassis engine of the protected weapons and military equipment. The technical result will increase the degree of protection of weapons and military equipment from laser-corrected NATO standard air munitions used by attack unmanned aerial vehicles.

A method of protecting a small-sized moving object from high-precision weapons with laser guidance based on the creation of a false target by a jamming laser beam is known to be similar in technical essence and the achieved positive effect (patent for invention RU No. 2563472, "Method of protecting a small-sized moving object from high-precision weapons with laser guidance", published on 20.09.2015) [1]. This method of protecting a small-sized moving object includes detecting laser radiation pulses, recording their intensity, determining the direction of illumination of the protected object, selecting the location of the formation of the laser false target and emitting jamming pulses in the safest direction.

The weak point of this method is the low level of protection of military equipment from corrected aviation munitions, which is affected by the lack of aerosol screens in the infrared spectrum, the difficulty of creating a false target when moving on dirt roads that cause dust formation, as well as in areas covered with vegetation.

A device for protecting equipment on the march from the impact of cluster warheads is known to be similar in technical essence and the positive effect achieved (patent for invention RU No. 2087835 C1, "Device for protecting equipment on the march from the impact of cluster warheads", published on 20.08.1995) [2]. This device consists of a radar radiation sensor, a transceiver, an antenna-feeder device, a launch pulse generator, an automatic device for ejecting false targets, and a device for instantly setting an aerosol curtain.

The weak point of this device is the insufficient degree of protection of military equipment from laser-guided NATO-standard air-launched munitions used by attack UAVs, which is due to the lack of a laser pulse recording and warning device, the limitation of expendable false targets and instant jamming devices, and specific requirements for the operation of instant jamming devices.

A utility model of an aerosol fire complex, similar in technical essence and achieved positive effect, is known (patent for invention RU No. 69220 U1, "Aerosol fire complex", published on 10.12.2007) [3]. This model increases the efficiency of special heat machines (TMS, UTMS) due to the joint placement of a jet propulsion system with a weapons complex on a combat platform. Additionally, aerosol onboard containers are installed on the sides of the machine, which are a series of smoke bombs.

The weak point of this device is the insufficient level of protection of military equipment from laser-guided NATO standard air-to-air munitions used by attack UAVs, which is limited by the requirement for a jet engine and specialized equipment, the absence of a laser pulse recording and warning device, limitations on the expendable smoke bombs, and specific requirements for the operation of specialized equipment and smoke bombs.

The objective of the invention is to increase the level of protection of weapons and military equipment from NATO standard laser-guided air-to-air munitions used by strike UAVs by equipping weapons and military equipment with technical devices for warning and generating aerosol curtains to disperse the laser illumination spot and cover the protected object in the infrared and visible spectrum.

In order to achieve the technical result in the method of protecting a small-sized mobile object from high-precision weapons with laser guidance, containing a device for recording detected laser radiation pulses and notification, a change was made to the algorithm of the microcontroller for processing the signal of laser radiation pulses in the form of cyclicity of checking the compliance of inter-pulse intervals with the specified ones, a device for feeding the working solution into the exhaust system of the engine of the military equipment chassis for the formation of aerosol curtains was introduced. At the same time, it is possible to turn on the device in automatic mode.

Therefore, the features of the proposed method of protecting military equipment from guided air munitions used by attack UAVs are:

a) laser pulse recording and warning device

b) a container with a pump for feeding the working solution;

c) spray nozzles;

d) a device that switches the exhaust gas outlet;

d) aerosol exhaust pipes;

The use of the above method allows, using the formation of aerosols in the exhaust system of the chassis engine of the covered military equipment, to weaken the visible and infrared range of wavelengths of the electromagnetic spectrum above the covered object by up to 4 times [4].

The method of protecting weapons and military equipment from guided air-launched munitions (Fig. 1) includes:

(1) laser pulse recording and warning device - 1 pc;

(2) container with a pump for feeding the working solution - 1 pc;

(3) spray nozzles - 2-4 pcs;

(4) device for switching the exhaust gas outlet - 1 pc;

(5) aerosol exhaust pipes - 2 pcs;

The laser pulse recording and notification device (1) is designed to detect laser radiation pulses, record the detected laser radiation pulses, and process them to ensure that the interpulse time intervals correspond to the specified ones. For example, an automobile radar detector with minor modifications can be used as such a device: the device must be packed in a sealed case and secured outside the car so that the receiving photodetector is directed upward; a remote loudspeaker must be manufactured, which is secured inside the driver's cabin. The SFN-203FA photodiode can be used as a photodetector, the spectral sensitivity (Fig. 2) of which is in the range of 700-1100 nm [5]. This will allow the laser pulse recording device to detect pulsations of the target illumination laser with a wavelength of 1064 nm, which is the code for laser-guided munitions of the USA and NATO [6]. The input signal processing microcontroller must be reprogrammed so that the program checks the input signal period for compliance of the interpulse time intervals with the specified ones (Fig. 3). In order to increase the reliability of detecting the laser rangefinder pulses of the strike UAV and to eliminate false alarms, the verification procedure must be repeated at least 3 times.

An additional fuel tank (or the fuel tank of the cabin heater) should be used as a container for storing the working solution (2). To supply the working solution to the spray nozzles, you can use an electric fuel pump capable of creating a pressure of 8-10 atm. and powered by the vehicle's on-board network.

It is recommended to use electric torch device nozzles or similar ones as spray nozzles (3) (the choice of the number of nozzles depends on the size of the object being covered) [7]. The nozzles must be installed in the exhaust gas inlet pipe, as close as possible to the exhaust manifold.

To manufacture a device that switches the discharge of exhaust gases from the muffler intake pipe to the aerosol discharge pipes (4), throttle valves from the “engine brake-retarder” kit can be used [7].

Aerosol exhaust pipes (5) must be made from heat-resistant pipes with a heat-insulating coating that allows exhaust gases with the resulting aerosols to escape unhindered.

The working composition should be in the form of a fine dispersion (suspension or emulsion), which contains micro drops of a solution of liquid petroleum products and mineral oil, or may initially contain uniform in size and very small (less than 10 μm, mainly 0.5-1.5 μm) microparticles of mineral oil, which are dispersed in a solvent medium (water) [8].

The advantages of this method are the reliability of detection of laser radiation pulses, the absence of the need to use specialized aerosol-producing devices, the absence of the need to form a false target and use instant jamming devices or smoke bombs, which allows for the repeated and long-term use of aerosol formation to disrupt the guidance of laser-guided NATO-standard air-to-air munitions used by attack UAVs.

Thus, the proposed method of protecting military equipment allows increasing the level of protection for guaranteed counteraction to laser-guided NATO standard aviation munitions used by attack UAVs.

List of references

1. Levshin E.A. Patent for invention RU 2563472 C1, Yandex. Patents, Method of protecting a small-sized mobile object [Text] / Levshin Evgeny Anatolyevich, Onufrienko Valery Vasilyevich, Rekhviashvili Vladimir Napoleonovich, Glukhov Vadim Sergeevich, Pavlov Pavel Vladimirovich, Nepomiluev Andrey Yuryevich, Korovin Roman Alekseevich, applicant and copyright holder: FGKU VUNC VVS "VVA" MO RF, declared.2014.05.12; published. 2015.09.20

2. Evstafiev V.F., Patent for invention RU 2087835 C1, Yandex. Patents, Device for protecting equipment on the march from the impact of cluster warheads / Evstafiev V.F., Ivanushkin S.V., Sanin V.V., Pavlov M.B., Buchnev A.A., Kozyrev V.V., Karavaev G.I., Barataev S.N., Dotsenko S.I., Rudenko I.V., applicant and copyright holder FKP "46th Central Research Institute of the Ministry of Defense of the Russian Federation", declared.1995.05.24; published. 1997.08.20

3. Klyuzhin A.V., Patent for invention RU 69220 U1, Yandex.Patents, Aerosol fire complex / authors and patent holders Klyuzhin Alexander Vasilievich, Manko Valery Leonidovich, Fedota Vladimir Ivanovich, Egorov Evgeniy Viktorovich, Kirichenko Vladimir Ivanovich, Shaneshkin Vladimir Anatolyevich, Gusev Nikolay Alekseevich, Tareev Vyacheslav Naumovich, Serebennikov Boris Vasilievich, Fedorets Nikolay Vasilievich, appl. 2007.06.30; publ. 2007.12.10

4. Russ V.G., Patent for invention RU 56744 U1, Yandex. Patents, Camouflage water-fuel aerosol generator/ Russ Vladimir Grigorievich, Niyazov Vladimir Yakovlevich, Shmyrev Alexander Ivanovich, Petrakov Stanislav Vladimirovich, Ovchinnikova Galina Ivanovna, applicant and copyright holder of the FKP “State State Scientific Testing Range of Aviation Systems”, application 2005.06.30; publ. 2006.09.10

5. Silicon PIN Photodiode SFH 203 FA//www.osram-os.com[Electronic resource], https://look.ams-osram.com/m/lfe2b2bf8c8feedb/original/SFH-203-FA.pdf/.

6. WESCAM's MX-15D// militarysystems-tech.com [Electronic resource]. https://www.militarysystems-tech.com/sites/militarysystems/files/supplier_docs/PDS-МХ-15D-March-2018.pdf/.

7. KamAZ 6×6 vehicles. Operation manual// M.: Voenizdat.1987. 376 p.

8. Vorozhtsov G.N., Patent for invention RU 2305676 C1, Yandex. Patents, Composition for obtaining a signal or masking aerosol formation / Vorozhtsov Georgy Nikolaevich, Tambieva Olga Akhmatovna, Feyzulova Raisya Kurban-Galievna, Khan Ir Gvon, Khromov Arkady Valentinovich, applicant and copyright holder FSUE "State Research Center "NIOPIK"", declared. 2006.04.20; published. 2007.09.10.

Claims (1)

A method for protecting weapons and military equipment from corrected airborne munitions used by an attack unmanned aerial vehicle, including recording detected laser radiation pulses, processing them and setting up aerosol screens, differing from analogs by introducing a change in the algorithm of the operation of the microcontroller for processing the laser radiation pulse signal in the form of cyclicity of checking the compliance of inter-pulse intervals with specified ones, using a device for feeding a working solution into the exhaust system of the engine of the chassis of the weapons and military equipment being protected to form aerosol screens.