RU201658U1 - Protective and camouflage screen - Google Patents

Abstract

The utility model relates to the field of masking critical inclined and vertical surfaces of elements of large-sized special military equipment, in particular, to technical means of concealment with controlled structural and functional structural elements relative to the surface of the masked object, ensuring the distortion of its specific unmasking features and thereby reducing the probability of detection and recognition means of ground and air reconnaissance at low altitudes simultaneously in the visible, infrared (IR) and radar (RL) ranges of the electromagnetic wavelength spectrum (EMW). The essence of the model is to create a technical device for camouflaging large-sized military objects with controlled structural and functional structural elements relative to the surface of the camouflaged object, providing in real time a decrease in the probability of their detection and recognition simultaneously in the visible, IR and radar ranges of the EMW length spectrum from modern ground-based equipment. and aerial reconnaissance at low altitudes. The technical result of the utility model is to expand the scope of application of the protective and camouflage screen due to structurally interconnected individual elements and interconnected vertically installed plates, which, due to control, can change their position relative to the horizontal and vertical planes and ensure deviation from the line of sight "radar - object "of radiation reflected from the radar plates with simultaneous screening of IR radiation reflected from the object in real time. 4 ill.

Description

The claimed utility model relates to the field of masking critical inclined and vertical surfaces of elements of large-sized special military equipment, in particular to technical means of concealment with controllable structural and functional structural elements relative to the surface of the object to be masked, ensuring the distortion of its specific unmasking features and thereby reducing the probability of detection and recognition by means of ground and air reconnaissance at low altitudes simultaneously in the visible, infrared (IR) and radar (RL) ranges of the electromagnetic wavelength spectrum (EMW).

The required camouflage effect of an object under conditions of ground or air reconnaissance at low altitudes using modern optoelectronic and radar equipment can be achieved only with a simultaneous decrease in the object's visibility simultaneously:

- in the visible range, due to a decrease in the brightness contrast between the surface of the object and the surrounding background of the terrain, which makes it difficult to identify it by means of reconnaissance;

- in the IR range, due to shielding and dispersion of thermal radiation reflected from the object towards the receiver of the reconnaissance means and thereby reducing the thermal contrast between the object and the background of the terrain;

- in the radar range, due to the reflection of the wave in a direction different from the line of sight "reconnaissance means - object" and due to the use of radio-absorbing materials, which reduce the effective scattering area (RCS, m ² ) of the object.

The detection and recognition of objects using reconnaissance equipment is based on reflected radiation towards the receiver of electromagnetic energy radiation from various ground objects in the visible, IR and radar ranges of the computer's length spectrum. Among the variety of existing technical means of camouflage (TCM), which provide a decrease in the electromagnetic energy radiation reflected towards the receiver due to the physical and technical properties of the shielding material, so far much attention has been paid to the development of horizontal, inclined and vertical protective and camouflaging screens, deforming masks. fan masks, visor masks, etc. [Efimov VA, Kolchevsky V.E. Chermashentsev S.G. Disguise. Part I. Fundamentals and techniques of camouflage. Textbook. - M .: VIA, 1971. - 348 p.].

At the same time, in modern conditions of conducting ground and air reconnaissance at low altitudes, the required camouflage effect from the use of the indicated FCM is not always achieved only due to the physical and technical properties of the shielding material, especially in the IR and RL ranges of the EMW length spectrum.

Therefore, one of the topical directions in the development of FCM is the development of technical solutions with controllable structural and functional structural elements, providing, along with shielding electromagnetic radiation from the object, its deviation from the line of sight "reconnaissance means - object" and thereby further reducing the level of electromagnetic radiation reflected from the object's surface. waves [Denisov V.P. Radio engineering systems: textbook. manual for students of radio engineering specialties of higher educational institutions / V.P. Denisov, B.P. Dudko. - Tomsk 2012. - 334 p.].

The solution of such a scientific and technical problem is especially important in the field of creating individual FCM of critical large-sized elements of ground objects that provide wave reflection in a direction other than the line of sight "reconnaissance means - object" when conducting ground and air reconnaissance at low altitudes in the IR and radar ranges of the EMW length spectrum.

Analogs of the claimed utility model are known technical solutions, which include: visor masks, vertical roadside and over road masks made of service camouflage coatings and local materials [Manual on military camouflage. Part II. Technique of camouflage and camouflage of military objects. - M .: Military publishing house of the Ministry of Defense of the USSR, 1956. - P. 68 ... 71.], Fan masks [Efimov VA, Kolchevsky V.E. Chermashentsev S.G. Disguise. Part I. Fundamentals and techniques of camouflage. Textbook. - M .: VIA, 1971. - S. 252, 253, 254.], deforming masks [Kiselev K.F., Yasin E.Z. Military disguise. Part II. Disguise technique. - M ..: VIA, 1957. - S. 129-133; utility model patent No. 175328 by application No. 2016142474 dated 28.10.2016].

Despite the sufficient effectiveness of the use of these analogs, the main disadvantage of these technical solutions is, first of all, the fact that these means are used only to hide objects from air and space reconnaissance means, which detect them at medium and high altitudes from the upper hemisphere of the airspace and not are used to camouflage vertical surfaces of objects stationary on the ground to ensure their concealment from ground and air reconnaissance at low altitudes.

In modern conditions of conducting complex reconnaissance, the failure to eliminate in real time the specific unmasking features of the height of objects inherent in FCM analogues does not allow their timely masking with a sufficient degree of efficiency.

Known technical solution "Protective and camouflage blinds" [Patent for utility model No. 191461 on application 2019116246 dated 05/27/2019], providing a distortion of specific unmasking features of only small-sized stationary-located on the ground mobile military objects, for example, special military equipment. According to the formula of the known utility model, "Protective and camouflage blinds" are installed on the vertical planes of the object, reducing the specific unmasking features, for example, of a wheeled chassis, in the viewing area of ground or air reconnaissance equipment at low altitudes simultaneously in visible, infrared (IR) and radar (RL) ranges of the spectrum of lengths of electromagnetic waves (EMW).

However, based on the peculiarities of the controlled structural and functional structural elements of the known technical solution regarding the surface of the object to be cloaked, this technical solution cannot be effectively used to mask the critical inclined and vertical surfaces of the elements of large-sized special military equipment, primarily due to the technological functional features of operation. object in the course of its functioning. The well-known "Protective and camouflage shutters" installed on this kind of special large-sized military equipment will restrict the process of its operation and thereby reduce the efficiency of the object as a whole.

Known invention "Blinds" [patent RU 2135727, published on 27.08.1999, E06B 9/262], which is selected as a prototype. This device is intended in the construction industry and serves as a barrier on windows, as well as doors, gates, transformable partitions. The louvers contain L-shaped plates installed in the guides. The end of the smaller side of each subsequent plate is directed towards the end of the smaller side of each previous plate. The plates are mounted with the possibility of vertical reciprocating movement by means of a drive connected to at least the lower plate, and the uppermost plate is connected to a fixed stop installed in the upper part of the guides.

According to the known device, its use serves as barriers on the windows of premises, in order to protect against burglary, or as doors, gates, transforming partitions.

The "Jalousie", chosen as a prototype, has the same disadvantages as the above-mentioned analogs. In addition, the following can be noted as additional disadvantages:

- the blinds are not intended as FCM, therefore, they do not provide a decrease in the specific unmasking features of critical elements of large-sized military objects in the IR and RL ranges of the EMW length spectrum;

- the impossibility of changing the angle of inclination of the L-shaped plates relative to the line of sight "reconnaissance means - object" changing in real time, due to which the effect of reducing the reflected signal from the object towards the receiver of the radar station cannot be manifested.

Thus, the above-considered known devices in their constructive solution do not meet the modern requirements of camouflage as a result of their use as technical means of concealment from reconnaissance and targeting equipment to reduce the visibility of critical elements of large-sized military objects, especially in the IR and RL range of the EMW length spectrum. ...

The problem solved in the considered utility model is to simplify the design and improve the camouflage properties of the protective and camouflage screen simultaneously in the visible, infrared and radar ranges of the EMW length spectrum from ground and air reconnaissance equipment due to controlled changes in structural and functional structural elements, which, when installed on the ground in front of the object, deflection and scattering of the reflected electromagnetic radiation from the plates made of radio-absorbing materials, which provide a decrease in the effective scattering area (RCS, m ² ) of the object, with simultaneous shielding and scattering of thermal radiation reflected from the object towards the receiver of the reconnaissance means and thereby reducing the thermal contrast between the object and the terrain background.

The technical result of the utility model is to expand the scope of application of the protective and camouflage screen due to structurally interconnected individual elements and interconnected vertically installed plates, which, due to control, can change their position relative to the horizontal and vertical planes and ensure deviation from the line of sight "radar - object "of radiation reflected from the radar plates with simultaneous screening of IR radiation reflected from the object in real time.

The task is achieved by the fact that in the protective-camouflage screen containing interconnected plates installed in guides with the possibility of moving them by means of a drive, the guides are made in the form of a frame articulated in its upper part with racks made of dielectric material with the possibility turning the frame by means of an electric drive fixed on the frame of the frame, connected to it by a rack and pinion mechanism for turning it into an inclined position at an angle of up to 30 ° from the initial vertical position. The interconnected plates are installed vertically inside the frame in bearings pressed into gussets on the inner side of the upper and lower horizontally positioned guides of the frame for the plate stops with their reversible rotation along the axis at an angle from 0 ° to 60 ° to the left or right from the initial normal position by means of an electric rotation drive plates connected at least from the upper side through the rack and pinion mechanism. At the same time, to control the drives of a given position in the space of the plates and the frame, the screen device is equipped with a control unit fixed on the upper side of the horizontally located guide of the frame stop, which is equipped with a sensor for detecting the radar exposure of a military object and is connected by a wired control line on one side to the electric drives for turning the plates and the tilt of the frame, and on the other hand with the control unit of the military object, which together provide the formation of a single functional and structural element vertically installed next to the object of a protective and camouflage screen in the viewing area of ground or air reconnaissance means. Moreover, the outer surfaces of each plate are made of a combined heat-absorbing and radio-absorbing material with a protective coloration to match the color of the surrounding underlying terrain.

Thus, the listed elements are interconnected by means of assembly operations with the formation of a constructive unity, ensuring the implementation of the claimed utility model.

The technical essence of the claimed utility model is presented in Fig. 12.

FIG. 1 shows an isometric image of a protective and camouflage screen with the placement of the main structural parts in the working position, where: 1 - a sensor for detecting radar exposure of a military object; 2 - control unit; 3 - wire control line; 4 - electric drive for turning the plates; 5 - electric drive of the frame tilt; 6 - frame; 7 - rack; 8 - swivel plates; 9 - rack and pinion frame turning mechanism; 10 - upper guide for plate stops; 11 lower guide for plate stops; 12 - bearing.

FIG. 2 shows a projection along the section А-А of the protective-camouflage screen, where: 2 - control unit; 4 - electric drive for turning the plates; 6 - frame; 7 - rack; 8 - swivel plates; 10 - upper guide for plate stops; 12 - bearings; 13 - kerchiefs; 14 - rack and pinion plate turning mechanism; 15 - gears.

The functioning of the protective and camouflage screen is as follows. After a protective and camouflage screen installed next to a military object in the field of view of ground or air reconnaissance means with the beginning of the process of reconnaissance of the location on the ground in the area of operation of ground and air reconnaissance tactical reconnaissance means at low altitudes, the radar exposure detection sensor 2 records the exposure of the object by the radar reconnaissance system or a high-precision weapon guidance system and transmits data on the direction of irradiation to the control unit 1 to make a decision and generate commands that ensure the specified operation of the protective-camouflage screen via the wire control lines 3 with the determination of the angle to which it is necessary to turn the plates 8 and the frame 6 of the screen to reduce the reflected signal in the direction of the radiation source and gives a command to the electric drive for turning the plates 4 and the electric drive for tilting the frame 5. Depending on the command received, the electric drive for turning the plates 4 and the electric drive for tilting the frame 5 by rack and pinion mechanisms 9, 14, the plates 8 and the frame 6 of the protective and camouflage screen are installed to the calculated angle of deviation of the signal reflected from the screen to the vector of irradiation radiation, which ensures the deviation of the electromagnetic radiation reflected from the screen from the line of sight "reconnaissance means - object" to the side, thereby ensuring timely reduction of the effective the scattering area of the masked military object located behind the screen to the specific effective scattering area of the surrounding area with a simultaneous decrease in the brightness contrasts of the masked military object relative to the surrounding background of the area in the visible and infrared ranges of the electromagnetic wavelength spectrum.

Thus, the use of a protective and camouflage screen for camouflaging a military object in the coverage area of ground and air reconnaissance means at low altitudes in total:

- firstly, it provides t the deviation of reflected from the line of sight "radar - object" reflected from the plates of electromagnetic radiation. In the case of irradiation (bearing) of the radar object by means of reconnaissance, the electromagnetic wave will be reflected from the plates with a deviation from the line of sight by an angle from 0 ° to 60 ° to the left or right of the line of sight. A similar effect of attenuation of an electromagnetic wave will also be observed from turning the frame to an inclined position at an angle of up to 30 ° from the initial vertical position;

- secondly, they provide shielding of thermal radiation reflected from a military object. In this case, the thermal radiation emanating from the object is partially screened, partially re-reflected, partially absorbed by the heat-absorbing coating of the plates. The rest is scattered by the loose arrangement of the plates relative to each other due to the generated turbulent inhomogeneity of the near-ground air flows generated around the plates.

Evaluation of the effectiveness and application of the protective-camouflage screen was carried out on the basis of the condition of not detecting an object in the IR and RL ranges of the EMW length spectrum using known dependencies [Fundamentals of protection from technical intelligence: a tutorial / Yu. Menshakov. - M .: Publishing house of MSTU im. N.E. Bauman 2011, - 478 p.].

As shown in FIG. 3 of the schematic diagram of the physical model of the operation of the heat-absorbing coating in the IR range of the EMW length spectrum, the interaction of thermal radiation with the heat-absorbing coating of the plates can be represented in the form of four vectors. To solve this physical problem, the thermal radiation balance equation was compiled

where E ₁ - thermal radiation from the object;

E ₂ - re-reflection of thermal radiation;

E ₃ - absorption of thermal radiation;

E ₄ - thermal radiation passing through the plate.

The solution to this equation makes it possible to determine the degree of reduction in the thermal signature of the vertical surface of the object, which is shielded by a protective and masking screen installed in front of the object.

EPR (m ² ) of a metal plate with a perpendicular incidence of a wave on it can be calculated by the formula

where a is the length of the plate;

b = is the height of the plate;

λ = is the wavelength.

If the wave is incident at an angle α RCS can be calculated as [Denisov V.P. Radio engineering systems: textbook, manual for students of radio engineering specialties of higher educational institutions / V.P. Denisov, B.P. Dudko. - Tomsk 2012. - 334 p.]:

FIG. 4. shows a graph of the EPR of a metal plate depending on the angle of deviation α from the line of sight "reconnaissance means - object" of the incident electromagnetic wave in the radar range of the EMV length spectrum [Denisov V.P. Radio engineering systems: textbook, manual for students of radio engineering specialties of higher educational institutions / V.P. Denisov, B.P. Dudko. - Tomsk 2012. - 334 p.].

As shown in FIG. 4 of the graph it can be seen that when the incident electromagnetic wave deviates in the radar range of the EMW spectrum from the line of sight "reconnaissance means - object" by an angle of more than 10 °, the EPR of the plate decreases sharply, and from 40 ° to 90 ° it tends to zero.

по установленному критерию не обнаружения объекта в ИК диапазоне спектра длин ЭМВ выполняется в строго установленном процессе экранирования, поглощения и рассеивания теплового излучения наземного военного объекта в процессе применения заявляемого защитно-маскировочного экрана.Calculations carried out with the temperature contrast of the military object and the environment from 15 ° C to 20 ° C, relative air humidity W = 65-70%, the temperature of the radiation source 65-75 ° C and the location of the object against a vegetative background with T _rf = 12-15 ° C show that no detection conditions

according to the established criterion of not detecting an object in the IR range of the spectrum of lengths of the EMW is performed in a strictly established process of shielding, absorption and scattering of thermal radiation from a ground military object in the process of using the claimed protective camouflage screen.

In the radar range of the computer spectrum, the electromagnetic wave will be re-reflected from the plates at an angle of more than 10 °, which will reduce the EPR of the object to the EPR of the surrounding terrain background.

In the visible range of the spectrum of the EME lengths, the required masking effect of reducing the visibility of the object is achieved due to the masking protective or deforming coloring of the plates of the protective masking screen to match the color of the surrounding background of the terrain [Efimov VA, Kolchevsky V.E. Chermashentsev S.G. Disguise. Part I. Fundamentals and techniques of camouflage. Textbook. - M .: VIA, 1971. - 348 p.].

Thus, in the claimed utility model, the scope of application of the protective and camouflage screen is expanded due to structurally linked separate elements and vertically mounted plates connected to each other, which, due to control, can change their position relative to the horizontal and vertical planes and provide deviation from the line of sight " radar station - “object” of radiation reflected from the radar plates with simultaneous screening of IR radiation reflected from the object in real time.

Claims (1)

A protective masking screen containing interconnected plates installed in guides with the possibility of moving them by means of a drive, characterized in that the guides are made in the form of a frame articulated in its upper part with racks made of dielectric material, with the possibility of turning the frame by means of fixed on the rack of the electric drive frame, connected to it by a rack and pinion mechanism for its rotation into an inclined position at an angle of up to 30 ° from the initial vertical position, and the interconnected plates are installed vertically inside the frame in bearings pressed into gussets on the inner side of the upper and lower horizontally located guides frames for plate stops with their reversible rotation along the axis at an angle from 0 ° to 60 ° to the left or to the right from the initial normal position by means of an electric drive for rotation of the plates, connected at least from the upper side through a rack mechanism, while controlling the drives of a given position in the space of the plates and the frame, the screen device is equipped with a control unit fixed on the upper side of the horizontally located guide of the frame stop, which is equipped with a sensor for detecting the radar exposure of a military object and is connected by a wire control line on one side with electric drives for turning the plates and tilting the frame, and on the other - with a control unit of a military object, which together provide the formation of a single functional and structural element vertically installed next to the object of a protective and camouflage screen in the viewing area of ground or air reconnaissance means, and the outer surfaces of each plate are made of a combined heat-absorbing and radio-absorbing material with protective coloration to match the color of the surrounding underlying terrain.

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