RU228157U1 - ON-BOARD GENERATOR FOR SETTING UP EXTENDED AEROSOL CURTAINS - Google Patents

Abstract

The utility model relates to the field of camouflage, in particular to technical means of mechanization with controlled structural elements that ensure automated placement near an aircraft of extended aerosol curtains from combustion products of solid propellant charges in aerosol generators and a special emulsifiable mixture displaced and dispersed in the atmosphere during generator operation, reducing the visibility of the aircraft when directed energy systems are aimed at it. An onboard generator for placing extended aerosol curtains along aircraft, which is a prefabricated unit consisting of a tank with an eversible diaphragm filled with an emulsifiable mixture, a solid propellant charge, an electric igniter, a valve system, nozzles and suspension units and a docking unit for the generator with the aircraft body. A solid fuel charge with an electric igniter, a tank with an eversible diaphragm, a pipeline, nozzles and valves are mounted in the block, and an autonomous control system is mounted on board the generator. The problem solved in the utility model under consideration consists of increasing the camouflage properties of the aircraft. 2 s.p. f-ly, 1 ill.

Description

The field of technology to which the utility model relates

The utility model relates to the field of camouflage, in particular to technical means of mechanization with controlled structural elements that ensure automated placement near an aircraft of extended aerosol curtains from combustion products of solid fuel charges in aerosol generators and an emulsifiable mixture displaced and dispersed in the atmosphere during the operation of the generator, reducing the visibility of the aircraft when a directed energy system is aimed at a target.

The required camouflage effect of the aircraft in conditions of maintaining the bearing of the target being hit and guiding it with modern directed energy systems using the claimed utility model is achieved by timely, proactive, adaptive selection of rational values of the main design parameters of the solid propellant charge and the required reserves of the working fluid (emulsifiable mixture) in the tank of the onboard generator for setting up extended aerosol curtains, which will allow achieving the following camouflage effect:

will make it difficult for guidance systems to recognize the type of aircraft in the visible range of the electromagnetic wave spectrum by reducing the brightness contrast between the background and the aircraft;

will reduce the thermal contrast between the surface of the aircraft and the surrounding atmospheric background in the infrared range of the electromagnetic wave spectrum by covering the thermal radiation of heated structural elements of the aircraft with aerosol curtains;

will reduce the effective scattering surface of the aircraft in the radar range of the spectrum of electromagnetic wavelengths due to the attenuation and scattering of the electromagnetic wave of the radar radiation of the aircraft by the guidance means of the directed energy systems.

One of the tasks of camouflage is to disrupt the guidance (aiming) and use of active interference to analyzers of directed energy systems at the moment of their guidance to the target by reducing the visibility of the aircraft simultaneously in the visible, infrared and radar spectra of electromagnetic wavelengths [2].

To ensure search, detection and recognition of aircraft in directed energy systems, the following guidance equipment is used:

analyzers operating on the principle of scanning airspace (optical and radar ranges);

analyzers with multi-element receivers (laser, semi-active guidance systems);

analyzers using microstructures of the target image in the visible and infrared wavelength ranges (television and thermal imaging guidance systems).

State of the art

a) Description of analogues

Smoke ammunition is known, used to conceal protected objects, which are devices for the formation of aerosols (smoke) and the setting of smoke screens to blind the enemy, in order to reduce the visibility of ground objects and the actions of their forces (troops) during the solution of various tactical tasks. Such means include hand smoke grenades and smoke bombs, differing in size and smoke-forming compositions, consisting of a body and an igniter with an igniter composition [1].

Known is a “Method of infrared camouflage and a device for infrared camouflage” by applying a three-layer cover to the surface of equipment, having a fibrous or porous outer and inner layers and having a waterproof layer between them, a pipeline system having permanent, or retractable, or spring-loaded in the rear direction nozzles for watering the camouflaged object, periodically located on the outer surface of the object (application for invention 2004123943/02 dated 06.08.2004, patent RU 2552903, published 20.06.2006, F41H3).

The main disadvantage of the known device for thermal protection of an object is, first of all, the lack of the possibility of its use for the protection of aircraft in the visible, infrared and radar ranges of the electromagnetic wave spectrum.

A method for reducing infrared radiation of heated surfaces and gas flows of industrial facilities is also known (application 2011109710/11 dated 15.03.2011, patent RU 2466346 published 10.11.2012, F41H 9/06). In it, in order to reduce infrared radiation of heated surfaces and gas flows of industrial facilities, thermal shielding of the said facilities is carried out using polydisperse fog. The fog is created using filtered unheated water using ultrasonic generators operating in continuous mode, which are located near the heated objects.

The disadvantage of the considered analogue is that clouds that are impenetrable to visible rays interfere with the operation of the optical observation devices and the official activities of personnel.

In practice, the presence of wind currents in the area where smoke screens are installed limits their use for effective thermal masking of heated surfaces and gas flows, since when mineral aerosol particles of “fog” enter a heated environment and are heated, they themselves become a powerful infrared source of radiation, further unmasking the object.

b) Description of the closest analogue (prototype)

A method for thermal protection of objects by producing an opaque fog is known (patent GB 2000575 (A), 01.10.1979, IPC F41H9/06), selected as a prototype. According to the known method, a cloud similar to fog is formed, in which powder (talc, calcium carbonates, kaolin) is used. The cloud is cold, neutral, non-toxic, opaque to visible and infrared radiation in the wavelength range from 3 μm to 5 μm and from 8 μm to 14 μm.

The disadvantage of the considered analogue is that it does not provide a reduction in the visibility of protected objects in the radar range of the electromagnetic wave spectrum and cannot be fully applied to protect aircraft.

Thus, the above-mentioned known devices, in their design solution, do not meet modern requirements for the installation of screens of interference for the guidance means of directed energy systems to reduce the visibility of aircraft simultaneously in the visible, infrared and radar spectra of electromagnetic wavelengths.

The present utility model proposes a device that functions without the identified deficiencies.

Disclosure of the utility model (its essence)

a) the technical result that the utility model is aimed at achieving

The problem solved in the utility model under consideration consists of increasing the camouflage properties by controlled creation near the aircraft of an extended aerosol screen-interference relative to the line of sight “directed energy system - aircraft”, ensuring in real time counteraction to the equipment for guiding directed energy systems to the target simultaneously in the visible, infrared and radar range of the electromagnetic wavelength spectrum.

The technical result is achieved by introducing into the device of the aerosol generator a solid fuel charge with an electric igniter for displacement and dispersion in the atmosphere of the emulsifiable mixture located in the generator tank, ensuring a reduction in contrasts between the camouflage object and the background simultaneously in the visible, infrared and radar ranges of the spectrum of electromagnetic wave lengths in the direction of guidance of the directed energy system at the target.

b) a set of essential features

The task is achieved by the fact that the aerosol generator is a prefabricated unit consisting of a tank with an eversible diaphragm filled with an emulsifiable mixture, a solid propellant charge, an electric igniter, a valve system, nozzles and suspension units and a connection of the generator with the body of the aircraft. Onboard aerosol generators for setting up extended curtains-masks are proposed to be used in pairs and placed on standard suspension units of the B13L blocks of the aircraft, using standard connectors, devices and tools. A big advantage of aerosol generators with a solid propellant charge is their high reliability and constant readiness for action. Unlike other gas supply systems, generators with a solid propellant charge do not require routine checks and work during the entire storage and operation period. Compared with gas cylinder and liquid systems, aerosol generators with solid fuel charges are safer to operate and have the lowest cost. The advantages of aerosol generators with solid fuel charges also include independence (compared with a gas cylinder system) of operability from temperature and the ability to reach the operating mode in a shorter time, as well as the presence of solid particles of the fuel charge in the combustion products, which increase the masking effect.

To effectively create extended aerosol curtains along the aircraft, the generator is made as a detachable unit, allowing the composition of the emulsified mixture and the solid fuel charge to be changed. In factory conditions, the unit is equipped with a solid fuel charge with an electric igniter, a tank with an eversible diaphragm filled with the emulsified mixture, a pipeline, nozzles and valves, and an autonomous control system is mounted on board the generator.

The technical essence of the claimed utility model is presented in Fig. 1.

A comparable analysis of the claimed solution with the prototype shows that the required camouflage effect of an aircraft in conditions of bearing and guidance by modern directed energy systems using the claimed utility model "Onboard generator for setting extended aerosol curtains" is achieved by controlled creation of an extended aerosol curtain-interference near the aircraft relative to the line of sight "directed energy system - aircraft", which allows achieving the following camouflage effect:

in the visible range of the electromagnetic wave spectrum, the concealment effect is achieved by reducing the brightness contrast between the background and the aircraft, which makes it difficult to select a target;

in the infrared region of the electromagnetic wave spectrum, the use of extended aerosol curtains will smooth out the temperature contrast between the heated structural elements of the aircraft and the background, thereby changing the thermal portrait of the aircraft;

In the radar range of the electromagnetic wavelength spectrum, the camouflage effect can be achieved by attenuating and scattering the electromagnetic wave of the aircraft's radar radiation by the guidance equipment of directed energy systems, thereby reducing the aircraft's effective scattering surface.

c) cause-and-effect relationship between features and technical result

1. A new set of essential features in the claimed device will allow obtaining the required camouflage effect in conditions of bearing of the target being hit and guidance of modern directed energy systems relative to the line of sight "directed energy system - aircraft". Based on the developed mathematical model [4] of the interaction of optical radiation with an extended aerosol curtain in the near-earth atmospheric layer and a computer program for calculating the parameters of smoke curtains in the atmospheric channel [3], a computational experiment was conducted, the analysis of which showed that the creation of a curtain - interference as protection from the guidance equipment of directed energy systems is most effective at a wind speed of up to 30 m / s. The results of the computational experiment are given in Table 1.

The analysis showed that when using an onboard generator to set up extended aerosol screens near an aircraft for the purpose of interfering with the guidance equipment of directed energy systems, significant results for the purpose of camouflaging aircraft can be achieved in the visible and infrared ranges of electromagnetic wavelengths, as well as attenuation of electromagnetic radiation in the radar range of electromagnetic waves.

Thus, in the claimed utility model, the scope of application of interference masks is expanded due to the use of a solid fuel charge in the aerosol generator device for displacing and dispersing in the atmosphere an emulsifiable mixture located in the generator tank, ensuring a reduction in contrasts between the camouflaged object and the background simultaneously in the visible range - up to 26%, in the infrared range - up to 34% and in the radar range - up to 6%, which will accordingly reduce the effective dispersion surface of the camouflaged aircraft.

The conducted analysis of the state of the art made it possible to establish that there are no analogues characterized by a set of features identical to all the features of the claimed technical solution, which indicates that the claimed utility model complies with the patentability condition of “novelty”.

The results of the search for known solutions in this and related fields of technology in order to identify features that coincide with the distinctive features of the claimed object from the prototype showed that they do not follow explicitly from the state of the art. The state of the art also did not reveal the familiarity of the distinctive essential features that determine the same technical result that is achieved in the claimed utility model. Consequently, the claimed utility model meets the patentability condition of "inventive step".

Brief description of the drawing

The claimed utility model is illustrated by a drawing, which depicts:

Fig. 1 shows a diagram of the device of an on-board generator for setting up extended aerosol curtains along an aircraft under conditions of maintaining the bearing of the target being hit and guiding modern directed energy systems towards it relative to the line of sight “directed energy system - aircraft”, where:

1 - electric igniter, 2 - solid fuel charge, 3 - tank with eversible diaphragm, 4 - emulsifiable mixture, 5 - tank valve, 6 - pipeline, 7 - injector, 8 - nozzle, 9 - generator suspension units.

Implementation of a utility model

The generator operates as follows. When the electric igniter (1) is triggered, the solid propellant charge (2) ignites, the gases formed thereby begin to partially press on the tank diaphragm (3), the emulsified mixture (4) is forced out through the tank valves (5) into the pipeline (6), the emulsified mixture under pressure through the injectors (7) enters the nozzle section (8) of the solid propellant charge through the action of the exhaust gases, where it is forced out into the atmosphere.

The onboard aerosol generator is a single-use system; for further operation, it is necessary to recharge the solid propellant charge and fill the tank with an emulsifiable mixture in factory conditions. By varying the chemical and physical composition of the emulsifiable mixture and charge, it is possible to achieve the closure of the transparency windows for the guidance equipment of directed energy systems in the visible, infrared and radar ranges of electromagnetic wave lengths.

Sources of information

1. Textbook of a sergeant of chemical troops. Edited by Major General Melnik Yu.R. - M.: Voenizdat, 2004.

2. Menshakov Yu.K. Fundamentals of protection against technical intelligence: a tutorial / Yu.K. Menshakov; edited by M.P. Sychev. - M.: Publishing house of Bauman Moscow State Technical University, 2014.

3. Certificate of state registration of computer program No. 2015611919. Russian Federation. Computer program "Program for calculating smoke screen parameters in an atmospheric channel" / I.G. Petrov, A.S. Kuzmenko (RU). Application No. 2015611919; date of registration in the Register of computer programs 09.02.2015.

4. Petrov I.G. Ensuring the survivability of aircraft when exposed to directed energy systems. Monograph / I.G. Petrov, P.S. Poluboyarinov, D.V. Danilin. Krasnodar: Branch of the Military Scientific Center of the Air Force (VVA), 2011. - 176 p.

Claims (3)

1. An on-board generator for setting up extended aerosol curtains along aircraft, which is a prefabricated unit consisting of a tank with an eversible diaphragm filled with an emulsifiable mixture, a solid propellant charge, an electric igniter, a valve system, nozzles and units for suspending and connecting the generator to the aircraft body; a solid propellant charge with an electric igniter, a tank with an eversible diaphragm, a pipeline, nozzles and valves are mounted in the unit; an autonomous control system is mounted on board the generator. 2. An on-board generator for setting up extended aerosol curtains according to paragraph 1, characterized in that a solid fuel charge with an electric igniter is used for igniting, displacing and dispersing the emulsifiable mixture in the atmosphere. 3. An on-board generator for setting up extended aerosol screens according to paragraph 2, characterized in that the emulsifiable mixture poured into the tank depends on the atmospheric transparency windows for the operation of the guidance equipment of directed energy systems in various ranges of electromagnetic wave lengths and is selected in advance in accordance with the concept and method of camouflage.

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