RU2734302C1 - Masking and protective device for military equipment - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to weapons and military equipment and can be used to provide camouflage on ground and protection of armoured vehicles and stationary structures of military facilities from means of fixing thermal radiation and thermal homing systems of enemy. Masking and protective device for military equipment comprises a housing arranged above the thermal radiation object, a thermoelectric generator, which converts heat energy into electrical energy, having terminals for removing thermo-emf, coating reflecting and absorbing electromagnetic waves, camouflage pattern in accordance with four seasons in a given area. At the same time the housing, dimensions of which correspond to linear dimensions of the object, comprises transformable collapsible frame fixed on the vehicle body. On the frame there is a flexible complex coating having a layered structure. Its upper layer is made of masking material, laid on the lower layer and fixed with the help of fasteners. Bottom of interconnected by means of flexible loops of wire braided metal mesh strips attached to frame, camouflage material is made in form of n-layer tape, layers of which are separated from each other by dielectric spacers. Each layer is a film thermoelectric generator, which can operate in conditions of absence of temperature gradient. Belt is subjected to partial cutting with formation of tabs deflected from tape surface in both sides.

EFFECT: simplified design of protective shield, which converts heat energy released by heat source into electric, and possibility of its use on mobile ground objects of military equipment both at parking (in presence of thermal radiation), and in movement.

1 cl, 3 dwg

Description

The invention relates to the field of weapons and military equipment and can be used to provide camouflage on the ground and to protect armored vehicles and stationary structures of military facilities from the means of fixing the enemy's thermal radiation and the action of ammunition with thermal homing systems.

One of the areas of protection of objects of armored vehicles are methods of non-contact protection, for example, jamming actions, for example: withdrawal, distraction, masking and protection.

Means of protection include setting up smoke screens in the visible and infrared wavelengths of the visible spectrum, setting up masking aerosol screens. The disadvantage of these methods and devices that implement them is the short time of effective action in the IR range of the spectrum and the dependence on the direction and strength of the wind. These means also include the creation in the direction of the threat (means of destruction with thermal homing heads) of false targets simulating heated units.

The disadvantage of these means is that in order to increase the effective time of using a given false target and the maximum approximation in the area of the created thermal background to the thermal background of real equipment, leads to the complication of the entire structure.

Known universal camouflage and protective shelter for a vehicle (RF patent No. 2478899, F41H 3/00, 2012), which contains a frame made of a frame with telescopic struts and elements for fixing the length of the struts, and the lower part of the telescopic struts is attached above the vehicle, and the upper part is pivotally connected to the frame. The frame is made of hollow pipes, into which the upper ends of the flexible rods are inserted, and the lower ends of the rods are connected by strips along the perimeter of the shelter. Along the perimeter along the planks, rods hang down vertically to the ground. Above the frame is an awning made of several layers of high-strength, bullet-resistant fabric with a coating that reflects and absorbs electromagnetic waves, and these layers have their own camouflage pattern in accordance with the four seasons in the area. The tent has a hatch for the withdrawal of anti-aircraft and anti-tank weapons.

Known protective camouflage screen (RF patent No. 2476810, F41H 3 / 00,2010), consisting of a flexible complex coating placed on a transformable collapsible frame, having a layered structure, the upper layer of which is free without fixing, laid on the lower layer, made of a camouflage material, and the bottom of the strips of wire braided metal mesh fastened together by means of flexible loops. As a camouflage material, service camouflage kits are used to hide weapons and military equipment from optical, radiological and thermal reconnaissance equipment, etc.

The upper layer of a flexible complex coating protects the object from reconnaissance and guidance of WTO ammunition operating in various ranges, reducing the likelihood of detection and destruction of the covered object. The lower layer of the coating provides premature firing of ammunition on the metal mesh, reducing the effective effect of the cumulative jet.

The disadvantage of the known technical solutions is the lack of real protection against modern means of reconnaissance and homing of the enemy, operating in the infrared range of electromagnetic waves emitted by the hot combustion products of the engine of military equipment.

Known methods and devices for reducing the visibility and increasing the level of security of ground objects, incl. and mobile, from detection by IR systems of reconnaissance and guidance of high-precision weapons due to the use of shielding devices (heat-reflecting screens, visors, etc.) at protection objects, and changes in the design of exhaust gas systems (RF patents No. 2107250; 2171442; 2704549; 2552903 and etc.). All of them have one or another disadvantage that reduces their use in combat conditions.

There are known methods and devices based on imitation of the thermal contrast of an object of military equipment, consisting in the arrangement of heaters made in the form of plates in the form of a two-dimensional matrix on a canvas made of canvas material in the form of plates with a size not exceeding the linear resolution on the ground of thermal imaging equipment for reconnaissance, and temperature control of each heater with using a thermostat, depending on the thermal portrait of the simulated object (RF patent No. 2278344, F41H 3/200, 2006). A device is known in which the temperature of each heater (thermoelectric module) is controlled depending on the thermal state of the object, changes in the ambient temperature and dynamically changing observation conditions. Thermoelectric module is a system of thermocouples with a ceramic moisture-proof coating, consisting of one p-type conductor and one n-type conductor. The cold side of the thermoelectric element has natural ventilation, the hot side is cooled by forced blowing with a fan (RF patent No. 2582560, F41H 3/200, 2016).

Known invention (RF patent No. 2693052, F41H 3/00, 2018), relating to the means of reducing the visibility of military equipment and can be used to camouflage and hide moving or located in points of permanent deployment of ground military equipment from thermal imaging means of aerospace reconnaissance, and also disrupting the guidance of high-precision weapons with IR homing heads. The object masking device contains a control unit and associated masking plates made of N-layer, separated by dielectric spacers. The plates are placed on the surface of a flexible heat-insulating coating, the dimensions of which correspond to the linear dimensions of the object. Along the perimeter of the coating, there are attachment points to the outer surface of the object. The device has background temperature sensors and M temperature sensors for measuring the temperature of thermal zones on the coating surface, which are connected to the control unit. N-layer plates are made, for example, in the form of thermoelectric modules of the TV-3 type, which are protected by a ceramic moisture-proof coating from the external environment. This device compensates for the thermal radiation of the heated areas of the coating surface and reproduces on its surface the thermal contrast corresponding to the thermal contrast of the background in a short period of time, which makes it possible to hide the object against a wide range of thermal backgrounds.

Known camouflage system ADAPTIV from BAE Systems, which is a coating of hexagonal tiles, mounted on the surface of the machine, which is controlled by complex software. Cameras located on the vehicle scan the area to obtain information about the background infrared radiation of the environment surrounding the vehicle. Further, voltage is applied to the tiles in order to change their temperature. The BLACK FOX system of the Israeli company Eltics is akin to it. This system is based on two panoramic cameras installed on the machine and scanning the surrounding area. This scan is fed to an imaging computer, which then projects an image similar to the background onto panels mounted on the vehicle over armor, or as part of multi-layer armor, to reduce the vehicle's thermal signature. Each panel contains thousands of pixels, which are controlled by a digital processor (How to protect or hide from a thermal imager Dmitry Korneev's author's block: http://www.rameev.com/2012/01/blog-post.html.)

The disadvantages of such devices include the need to develop complex software and the availability of appropriate equipment for its operation (digital processor, panoramic cameras).

In the application RU 2013125687 (publication of the PCT application WO 2012/061812 10.05.2012), a thermoelectric system for extracting heat and heating the fluid of the engine is presented. The thermoelectric system for a vehicle with an internal combustion engine contains a thermoelectric device including a thermoelectric generator for selectively generating electrical energy from thermal energy, a storage battery connected to the thermoelectric device for storing electrical energy, a working environment circuit including heat exchangers and a controller for controlling the thermoelectric device. It is not known from the materials of the application which thermoelectric generator is used.

The known method and device for protecting military equipment from means of fixing thermal radiation (RF patent No. 2647346, F28F 9/00, 13/00; F16P 1/02, 2017). The proposed method is carried out by installing a screen in the form of a case of parallel mesh strips with differential thermocouples over the heat source, with the implementation of a phased absorption of the released thermal radiation, converting it into electrical energy, followed by cooling the atmospheric air above the outer surface of the screen. The device includes a flexible multilayer screen, which is made in the form of a body from a number of movably interconnected complexes, including two panels with a heat-insulating layer. Each panel consists of mesh strips arranged in parallel and connected to each other. Differential thermocouples are located between the strips in the air spaces, which have terminals for removing thermoEMF, while the "hot" ends of thermocouples are fixed in the cells of mesh strips with a material with a higher thermal conductivity coefficient, and the "cold" ends of thermocouples are fixed in the cells of mesh strips made of material thermal conductivity coefficient. This device can only be used to eliminate, during the operation of military equipment in the field, thermal radiation recorded by outside observers, since The heat shield is permanently installed above the heat radiation source. The device has a cumbersome design of complex sets of panels connected with the possibility of spatial movement, in which differential thermocouples are placed.

The objective of the invention is to create such a protective camouflage device that protected military equipment when the engine was running from means of destruction of an enemy with thermal homing systems.

The technical result consists in simplifying the design of a protective device that converts thermal energy emitted by a heat source into electrical energy, and the possibility of using it on mobile ground objects of military equipment both in the parking lot (in the presence of thermal radiation) and in motion.

The technical result is achieved by the fact that in a camouflage and protective device for military equipment, consisting of a body located above the object of thermal radiation, a thermal energy-to-electrical energy converter having terminals for removing thermoEMF, a coating that reflects and absorbs electromagnetic waves, and a camouflage pattern in in accordance with the four seasons in a given area, according to the invention, the body, the dimensions of which correspond to the linear dimensions of the object, contains a transformable collapsible frame, which is fixed on the body of the object, a flexible complex coating is placed on the frame, having a layered structure, the top layer made of camouflage material is laid on the bottom layer and fixed with fastening devices, and the bottom layer is made of strips of wire braided metal mesh fastened to each other, fixed to the frame, the masking material is made in the form of an n-layer tape, the layers of which are divided between themselves with dielectric spacers, each layer is a film thermoelectric generator that can operate in the absence of a temperature gradient, the tape is partially cut out with the formation of petals deflected from the surface of the tape in both directions.

The design of the body of the proposed device is based on the design of the body of a protective shelter for a vehicle, set forth in the RF patent (No. 2478899, F41H 3/00, 2012). The body, the dimensions of which correspond to the linear dimensions of the object, contains a frame made of a frame with telescopic struts and elements for fixing the length of the struts, and the lower part of the telescopic struts is attached to the vehicle, and the upper part is pivotally connected to the frame, the frame is made of hollow pipes into which the upper ends of the flexible rods are inserted, and the lower ends of the rods are connected by strips along the perimeter of the shelter, sections of vertical rods hanging vertically to the ground are attached to the strips, a flexible complex coating is placed on the frame, which has a layered structure, the upper layer of which is laid on the lower layer and fixed with using fasteners, made of camouflage material, and the lower one is made of strips of wire braided metal mesh fastened to each other by means of flexible loops. The difference of the proposed device lies in the fact that in place of an awning made of several layers of high-strength, bullet-proof fabric, camouflage material is used lined in the form of an n-layer tape, the layers of which are separated by dielectric spacers, each layer is a film thermoelectric generator that can operate in the absence of a temperature gradient, the tape is partially cut out with the formation of petals deflected from the surface of the tape in both directions

The essence of a thermoelectric generator that produces EMF in the absence of an external temperature gradient, as an example, is described in the description of the RF patent (No. 2303834, H01L 37/0, 2007). The thermoelectric generator includes at least one element consisting of a polycrystalline layer of a semiconductor material based on an element of group III and metal current contacts, between which a semiconductor material (samarium sulfide Sm _{1 + X} S) is located, and x monotonically changes in the direction perpendicular to boundary surfaces of the layer from one current contact to another. One of the mentioned contacts is deposited on a dielectric substrate, the other on the upper surface of the semiconductor material. Thin working layers can be obtained in thin and thick film (several millimeters) samples. The dielectric substrate can be made of polycor (Al ₂ O ₃ ).

Due to the presence of petals deflected from the surface of the tape in both directions, having a different area and height from the surface, the masking material has a surface containing local increases and / or decreases (irregularities). This implementation of the material allows you to combine concealment in several wavelength ranges by combining the effects created by irregularities. In the thermal wavelength range, irregularities can act as a heat insulator.

A camouflage pattern in accordance with the four seasons in a given area can be applied to the surface of the camouflage material by any known method (special paints, polymer material of different colors, etc.).

A layer of camouflage material, depending on the object to be camouflaged, can be used in the form of a solid canvas or consist of separate sections. A variant is possible when separate sections, located on a part of the surface of equipment that do not radiate heat or weakly radiate heat, can be made in the form of a dummy. The dummy can be made of a material that absorbs and / or reflects waves of various ranges.

FIG. 1 shows the body frame (upper part); in fig. 2 shows a camouflage and protective device located at a military equipment facility; in fig. 3 shows a photo (fragment) of a ribbon with petals (top view).

The body 1 of the device is made in the form of a transformable collapsible frame 2, which is directly mounted on a source of thermal radiation 3, for example, a tank. Frame 2, made of a frame 4 with telescopic struts 5 and elements for fixing the length of the struts, the lower part 6 of the telescopic struts 5 being attached to the heat radiation source 3, and the upper part 7 pivotally connected to the frame 4. The frame is made of hollow pipes, into which are inserted the upper ends of the flexible rods 8, and the lower ends of the rods 8 are connected by strips 9 along the perimeter of the shelter, sections 10 of vertical rods hanging vertically to the ground are attached to the strips 9. The frame 2 is covered with a wire braided metal mesh 11, consisting of strips fastened together by means of flexible loops. A masking material 12 is laid over the metal mesh 11. The masking material 12 is made in the form of an n-layer tape, the layers of which are separated by dielectric spacers, each layer is a thermoelectric generator that can operate in the absence of a temperature gradient. The strip is partially cut to form petals 13 (having a different area and height of deviation from the surface), deflected from the surface of the strip in both directions, has terminals (not shown in the figure) for removing thermoEMF, which are electrically connected to the terminals of an electric energy storage device, for example, battery (not shown in the figure).

Protection against fixation of thermal radiation from a heat source, for example, military equipment, is carried out as follows. On the source of thermal radiation 3, for example, a tank, a frame 2 is mounted by the crew, made of a frame 4 with telescopic struts and elements for fixing the length of the struts, and the lower part of the telescopic struts is attached to the vehicle, and the upper part is pivotally connected to the frame. On top of the frame 2, a wire braided metal mesh 11 is fixed, consisting of strips fastened to each other by means of flexible loops. A masking material 12 is laid on top of the metal mesh 11, which is electrically connected to an electric energy storage device. During the operation of military equipment (the engine is running), the flow of energy in the form of thermal radiation heats the camouflage material, which is a thermoelectric generator, which is connected to the load (storage of electrical energy), and a thermoEMF occurs. In fact, the existing thermal image of a specific object of military equipment, which is guided by an outside observer or weapons with thermal homing systems, will be "blurred" and inaccessible for identification.

The thermal radiation emitted by military equipment will not be fully converted into thermoEMF. Part of it, due to the design features of the device, will come out, thereby making an additional contribution to the violation of the actual thermal image of the military equipment object.

Claims (1)

A camouflage and protective device for military equipment, containing a housing placed over an object of thermal radiation, a thermoelectric generator that converts thermal energy into electrical energy, having terminals for removing thermal emf, a coating that reflects and absorbs electromagnetic waves, a camouflage pattern in accordance with the four seasons in given area, characterized in that the body, the dimensions of which correspond to the linear dimensions of the object, contains a transformable collapsible frame, which is fixed on the vehicle body, a flexible complex coating is placed on the frame, having a layered structure, the top layer made of a camouflage material is laid on the lower layer and fixed with fastening devices, and the lower one of the strips of wire braided metal mesh fastened to each other by means of flexible loops, fixed to the frame, the masking material is made in the form of an n-layer tape, the layers of which are divided between with dielectric spacers, each layer is a film thermoelectric generator that can operate in the absence of a temperature gradient, the tape is partially cut out with the formation of petals deflected from the surface of the tape in both directions.

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