RU175328U1 - Individual deforming mask for a moving object with an adaptive control system for the physical parameters of the camouflage coating - Google Patents

Abstract

The utility model relates to adaptive masking tools, in particular, to deforming masks with controllable elements relative to the surface of a masked moving object, designed to distort its appearance, which reduces the likelihood of detection and recognition by intelligence means simultaneously in the visible, infrared, and radar ranges of the EMW spectrum. The technical result of the utility model is to expand the scope of deforming masks through the use of separate elements of the deforming mask that are independent of each other, which, due to the control unit installed inside the moving object, can change their position in the horizontal and vertical planes adaptively to the changing situation in real time .

An individual deforming mask for a movable object with an adaptive control system for the physical parameters of the camouflage coating contains separate frames equipped with camouflage coatings made in the form of elastic brackets with nodes of the movable mount, attached to the surface of the movable object, while the bracket mounts to the object have at least one degree of freedom and equipped with mechanisms for their forced movement, and the camouflage coating is made in the form of elastic or rigid astin from a single-layer or multi-layer plastic having either gas, and / or carbon-fiber, and / or graphite inclusions, or made of metal and has a protective, or deforming, or imitating color, and the plates are made in the form of an irregular shape and have a coating of foamed material and / or carbon fiber, and / or graphite, and / or made of a metallized coating. The elastic brackets are attached in pairs to the vertical supports of a typical element of the deforming mask, rigidly mounted on the surface of the movable object, which is a telescopic rod having a hydraulic / pneumatic / electric drive that allows you to change the position of each bracket during the movement of the movable object relative to the horizontal and vertical planes of the camouflage attached to it coatings, while the brackets with the camouflage coatings sectors attached to them on one side are movably attached lenghts to the central attachment point, and on the other hand, to vertical telescopic rods sectorally mounted on the surface of the moving object, and the sectors of camouflage coatings mounted on the surface of the masked moving object rigidly fixed on elastic brackets are independent elements of the deforming mask that allow you to change the position of the geometric the shape of the camouflage coating relative to the horizontal and vertical planes due to the installed inside the movable volume This control unit is connected by wired / wireless communication with hydro / pneumatic / electric vertical telescopic supports. 5 ill.

Description

The utility model relates to adaptive masking tools, in particular, to deforming masks with controllable elements relative to the surface of a masked moving object, designed to distort its appearance, which reduces the likelihood of detection and recognition by intelligence means simultaneously in the visible, infrared, and radar ranges of the EMW spectrum.

The required camouflage effect of a moving object in the conditions of reconnaissance with modern means can be achieved only with a simultaneous decrease in the visibility of the object:

- in the visible range due to distortion of the contours of the object, which complicates its identification by reconnaissance;

- in the infrared range due to shielding and dispersion of thermal radiation coming from the object;

- 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 radar absorbing materials.

A device for masking a moving object, comprising a base machine, a base and a mask [Description to USSR copyright certificate "Device for masking a moving object" 2834157 / 40-23 from 10.30.79. M. cl 3 F41Η 3/00. Bulletin 30 of 10.27.99.]. The base of the device is made of a driving three-section drum fixed on the nose of the base machine, consisting of a middle cylindrical coil and side conical coils with helical streams, and driven rollers with parallel ropes stored in them connected to a mask wound on a cylindrical coil are fixed at the rear of the base machine.

Known folding masks, visors located horizontally or obliquely, as well as ridges mounted vertically on stationary and moving objects [Manual on military camouflage. Part II. The technique of camouflage and camouflage of military objects. -M.: Military publishing house of the Ministry of Defense of the USSR, 1956. - S. 68..71.].

Fan masks are also known that contain frame elements, pipe cuttings with a diameter of 25 ... 35 mm or brackets made of strip steel (wire) for attaching cut branches [Efimov V.A., Kolchevsky V.E. Chermashentsev S.G. Disguise. Part I. Fundamentals and techniques of camouflage. Textbook. - M .: VIA, 1971. - S. 252, 253, 254.]. The total area of such peaks (ridges, fans) according to the recommendations of the specified source is 30 ... 40% of the area of the corresponding projection of the masked object, and their transverse dimensions are not less than 1/6 of the transverse size of the object.

Known deforming mask used for moving objects, consisting of separate, equipped with coatings frames attached directly to the side surfaces of the tank, armored personnel carrier or the like. moving object [Kiselev KF, Yasin E.Z. Military camouflage. Ch. P. Technique of camouflage. - M ..: VIA, 1957. - S. 129-133.]. Frames together with coatings in a folded position fit snugly on the surfaces of the object, without interfering with its movement. In the case of a stop designed for a more or less long period, the crew (driver) unfolds the deforming mask, as a result of which, instead of the type of the moving object, a spot of indefinite shape is formed.

The disadvantages of the considered analogues is that they cannot be used on moving objects during their movement. The experience of numerous exercises and studies has shown that when a moving object meets a fixed obstacle or an oncoming moving object, rigid structures are deformed and camouflage coatings break. In this case, the rigidly fixed elements of the deforming mask do not allow changing the physical parameters during the movement of the object, which may not always correspond to its adaptation to the changing parameters of the underlying background of the terrain. Under current conditions of reconnaissance, the failure to eliminate in real time the inherent characteristics of deforming masks of unmasking unmasking signs does not allow masking with a sufficient degree of efficiency.

The well-known "Individual deforming mask for a moving object" [Application for invention 2002112872/02, 05.17.2002, patent RU 2217683, published November 27, 2003], which is a prototype. An individual deforming mask includes individual frames equipped with camouflage coatings in the form of elastic brackets with nodes of rigid and / or movable fastening to objects attached directly to the surfaces of the object. The elastic brackets are interconnected and have telescopic elements and / or are fully or partially made of springs. The camouflage coating is made in the form of elastic or rigid plates that have a coating of either foam material and / or carbon fiber and / or graphite, and / or a metallized coating.

The well-known individual deforming mask for a moving object, taken as a prototype, has the same disadvantages as the above counterparts. In addition, as additional disadvantages, the following can be noted:

- the impossibility of changing the angle of inclination of the elements of the deforming mask relative to the line of sight of the radar detection means changing in real time, due to which the signal reflection effect away from the enemy radar detection means is not used;

- sufficient design complexity, due to the fact that the deforming mask is an integral element, the installation of which requires large labor costs;

- the stationary position of the deforming mask on the surface of the object that does not change in shape does not allow, if necessary, to change their geometric shapes to ensure the smooth operation of the crew and attachments of a moving object.

The problem to be solved in the utility model under consideration is to simplify the design and increase the masking properties of the deforming mask simultaneously in the visible, infrared and radar range of the EMW spectrum from reconnaissance equipment due to the controlled change in the contours of the deforming mask and the position of individual elements of the camouflage coating relative to the line of sight “radar station - object ”, making it difficult to detect and recognize the object in real time.

The technical result of the utility model is to expand the scope of deforming masks through the use of separate elements of the deforming mask that are independent of each other, which, due to the control unit installed inside the moving object, can change their position in the horizontal and vertical planes adaptively to the changing situation in real time .

The task is achieved in that an individual deforming mask for a moving object with an adaptive control system for the physical parameters of the camouflage coating contains separate frames equipped with camouflage coatings, made in the form of elastic brackets with nodes of the movable mount, attached to the surface of the movable object. Moreover, the attachment points of the brackets to the object have at least one degree of freedom and are equipped with mechanisms for their forced movement.

The camouflage coating is made in the form of elastic or rigid plates made of single-layer or multilayer plastic having either gas, and / or carbon-fiber, and / or graphite inclusions, or made of metal. They have a protective, or deforming, or imitating color, and the plates are made in the form of an irregular shape and have a coating of foam and / or carbon fiber and / or graphite, and / or are made of a metallized coating.

The elastic brackets are paired to the vertical supports of a typical element of the deforming mask, rigidly mounted on the surface of a moving object, which are telescopic rods. Telescopic rods have a hydraulic / pneumatic / electric drive, which allows you to change the position of each bracket during the movement of a movable object relative to the horizontal and vertical planes of the camouflage coating attached to it. At the same time, the brackets with the camouflage coatings sectors fixed on them are movably attached to the central mounting unit on one side and, on the other hand, to vertical telescopic rods sectorally mounted on the surface of the moving object. The sectors of camouflage coatings installed on the surface of the camouflaged moving object are rigidly fixed to the elastic brackets and are independent of each other elements of the deforming mask, which allows you to change the position of the geometric shape of the camouflage coating relative to the horizontal and vertical planes due to the control unit connected inside the movable object, connected by wire / wireless communication with hydro / pneumatic / electric vertical telescopic supports.

The technical nature of the claimed utility model is presented in FIG. 1-5.

In FIG. 1, 2 and 3 shows the appearance of the deforming mask in the expanded state on a moving object in various projections, where:

1 — movable object, 2 — element of the deforming mask, 3 — brackets, 4 — central bracket attachment bracket, 5 — telescopic rods control unit, 6 — telescopic rods, 7 — communication lines between the control unit and the telescopic rods.

In FIG. 4 is a drawing of a separate element of the deforming mask, on which:

8 - camouflage coating, 9 - attachment points of brackets to telescopic rods, 10 - attachment point of telescopic rods to the surface of a moving object.

Structurally, all collapsible elements of the deforming mask, except for the camouflage coating, are made of modern lightweight high-strength composite carbon-containing materials.

In FIG. Figure 5 shows a graph of the dependence of the effective reflecting surface (EPR) on the angle of incidence of EMW.

An individual deforming mask for a moving object with an adaptive control system for the physical parameters of the camouflage coating for a moving object works as follows.

The elements of an individual deforming mask for a moving object with an adaptive control system for the physical parameters of the camouflage coating 8 having a fan structure (Fig. 1) are installed manually by the crew of the moving object 1. Each element has three attachment points: one on the central attachment point of the brackets 4 and two on telescopic rods 6 on the surface of the object.

The telescopic rods 6 have a mounting unit to the surface of the movable object 10, equipped with a hydraulic / electric drive (not shown in the drawings), the height of which can be adjusted independently of one another relative to the horizontal line of sight of the deforming mask by changing the angle of inclination of the camouflage coating both in vertical and in the horizontal plane. Changing the height of the telescopic rods occurs automatically while the object is moving with

6

the control unit 5, located inside the moving object (Fig. 2), through a wired or wireless communication line 7.

To automatically control the position of the elements of the deforming mask relative to the horizontal line of sight of the camouflage coating, the control unit can be paired with sensors for monitoring the physical parameters of the underlying background of the terrain.

Each element of the deforming mask is independent of the other and can have an individual position both in the vertical and horizontal planes (seen in Fig. 2). When the object is moving so as not to obscure the view of the mechanical driver, the position of the element of the deforming mask in height can also be adjusted.

Thus, during the movement of the object on the ground using the claimed utility model of “Individual deforming masks for a moving object with an adaptive control system of the physical parameters of the camouflage coating”, an adaptive change in the position of the elements of the camouflage coating of the deforming mask relative to the line of sight “reconnaissance - object” is achieved, which allows you to achieve the following camouflage effect:

- in the visible range of the EMW spectrum, the effect of concealment is achieved by changing the contours of the object by individual elements of the deforming mask, which can be set in arbitrary order, which makes it difficult to recognize the type of moving object;

- in the infrared range of the EMW spectrum, the masking effect can be achieved by shielding and scattering the thermal radiation coming from the object, as well as by creating between the surface of the heated object and the inner surface of the camouflage coating of the convection air gap with turbulent inhomogeneity of the air medium, which ensures dispersion and refraction thermal radiation from the masked object;

- in the radar range of the EMW spectrum, the camouflage effect can be achieved by re-reflection of the electromagnetic wave away from the radar station of reconnaissance vehicles, thereby reducing the effective dispersion surface (EPR) of the moving object.

It is known that the EPR of a specific object depends on its shape, size, material from which it is made, its orientation (angle) with respect to the antennas of the radar transmitting and receiving positions.

Quantitatively, the EPR can be calculated as the ratio of the energy of the equivalent isotropic source to the energy flux density (J / m ² ) of the probe radio emission at the point of location of the scatterer.

where R is the distance from the radar to the object, ρ ₁ is the power flux density of the incident wave of a given polarization at the target location, ρ ₂ is the power flux density of the reflected wave from the target of this polarization at the radar location.

Approximating a separate element of the deforming mask as a round metal plate of radius β, we use the well-known expression for calculating the EPR depending on the angle of incidence of the electromagnetic wave [Paveliev V.A. Scattering of millimeter-wave electromagnetic waves by natural and man-made objects / V.A. Paveliev, D.V. Khaminov; under the editorship of Dr. tech. Sciences of V. L. Solunin. - M.: Publishing House of MSTU. N.E. Bauman, 2009. - 277 s: ill.]:

where S is the area of the object, α is the angle between the plane of the deforming mask and the line of sight.

The plot of the dependence for fixed values of S and β is presented in FIG. 5.

It can be seen from the graph that when the angle between the line of sight and the plane of the element changes by 10 ° due to the controlled position of the elements of the camouflage coating relative to the horizontal line of sight of the deforming mask, the EPR decreases to almost zero. In reality, the increment of the effect of reducing the EPR of the masked object due to the controlled position of the elements of the camouflage coating relative to the horizontal line of sight of the deforming mask can reach 20-30%.

Thus, in the claimed utility model, the scope of application of deforming masks is expanded due to the use of separate elements of the deforming mask that are independent of each other, which, using a control unit mounted inside a moving object, can change their position in horizontal and vertical planes adaptively to changing situations in real time mode. This will reduce the likelihood of detecting and recognizing a moving object by modern reconnaissance means simultaneously in the visible, infrared and radar wavelength ranges.

Claims (1)

An individual deforming mask for a moving object with an adaptive control system for the physical parameters of the camouflage coating, containing individual frames equipped with camouflage coatings, made in the form of elastic brackets with nodes of the movable mount, attached to the surface of the movable object, while the mountings of the brackets to the object have at least , one degree of freedom and are equipped with mechanisms for their forced movement, and the camouflage coating is made in the form of elastic or rigid single-layer or multilayer plastic plates having either gas, and / or carbon-fiber, and / or graphite inclusions, or made of metal and have a protective, or deforming, or imitating color, and the plates are made in the form of an irregular shape and have a coating of foam material and / or carbon fiber, and / or graphite, and / or made of a metallized coating, characterized in that the elastic brackets are paired to the vertical supports of a typical element of the deforming mask, rigidly mounted oval on the surface of a moving object, which is a telescopic rod having a hydraulic / pneumatic / electric drive that allows you to change the position of each bracket during the movement of the moving object relative to the horizontal and vertical planes of the camouflage coating attached to it, while the brackets with sectors of camouflage coatings attached to them with on the one hand, it is movably attached to the central mounting unit, and on the other hand, to sectorally mounted on the surface of the movable object the object with vertical telescopic rods, and the sectors of camouflage coatings fixed on the surface of the masked movable object rigidly fixed on the elastic brackets are independent elements of the deforming mask, which allow changing the geometric shape of the camouflage coating relative to horizontal and vertical planes due to the control unit installed inside the movable object, connected wired / wireless with hydraulic / pneumatic / electric vertical tele kopicheskih supports.

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