RU2840544C1 - Thermal masking system of engineering objects and method of thermal masking of engineering objects - Google Patents

Abstract

FIELD: camouflage.

SUBSTANCE: invention relates to means and methods of concealing or masking ground and surface objects from detection using radar stations or thermolocators. Thermal masking system of engineering objects consists of one panel, sealing frame, pump, temperature control device, control unit, pump and temperature control device. Panel comprises two plates parallel to each other, in gap between which there is filler. Pump and temperature control device are connected to space between plates of panel by means of filler inlet channel and filler outlet channel. Control unit is connected by connection wires with filler vessel, pump and temperature control device. Front plate of the panel has a coating which can absorb electromagnetic radiation. Method of thermal masking of engineering objects is characterized by that said panel is placed on the surface of the masked object and fixed at an angle relative to said surface. Control unit is used to set the temperature control device to a temperature value equal to the ambient temperature. After that, by means of control unit the pump is switched on and circulation of filler is provided in the system of thermal masking of engineering facilities. Water can be used as filler.

EFFECT: reduced thermal signature of a protected object.

4 cl, 3 dwg

Description

The invention relates to means or methods for concealment or camouflage, in particular to the field of protecting land and water objects from detection by radar stations or thermal locators [F41H 3/00]; [B63G 13/02].

A method for retrofitting ships to reject radar signals is known from the prior art [WO 0109562 A1, published 08.02.2001], which is carried out using a grid for retrofitting a ship to reduce its radar visibility, wherein the grid can be attached to the surfaces of the ship's structure and contains a plurality of elements having reflective surfaces with substantially flat edges, wherein, when the grid is attached to the ship's structure, the edges are oriented in such a way as to reflect the external appearance of the ship, the incident radar signal is fed in a direction different from the direction of its incidence, in a given range of incidence directions.

The disadvantage of this method of re-equipping ships to reject radar signals is the dependence of the effectiveness of protection on the angle of incidence of the waves emitted by the radar station, as well as the vulnerability of the object to detection by thermal location based on the level of its own radiation in the infrared range.

Also known from the prior art is a SHADE FOR A BUILDING FACADE OR A WINDOW AND A DEVICE FOR USING SOLAR ENERGY [DE 19705079 A1, published 06.08.1998], consisting of two glass panes (e.g. made of low-iron glass), a spacer, a hermetic seal of an edge composite, a liquid supply line to the element (e.g. a tube passes through an opening in the glass and is screwed therein using a flat sealing fitting), a feed pipe, tanks for storing shading liquid, a valve on the glass element which allows air contained in the element to escape during the filling process, a shut-off valve, a compressor, a supply line from the compressor to the tank, multi-way valves, a control and regulation system. The device for shading a building facade or a window area can also be used for the active generation of solar energy. If necessary, a solar absorbing or reflecting liquid is placed between two glass panels, hermetically sealed with an edge composite, through a supply system from a reservoir under air pressure through a filling hole built into the glass, while the air contained in the element can escape to the outside through a valve. When emptying the element, air from the outside can again enter the element through a valve.

The disadvantage of this canopy for the facade of a building or window and a device for using solar energy is the ability to protect objects only from radiation in the infrared range.

The closest in technical essence is the DEVICE FOR REDUCING INFRARED RADIATION ON A SHIP [JPS 57209490 A, published 22.12.1981], characterized in that in order to reduce the intensity of infrared rays emitted outward from the ship, a plate absorbing infrared rays is stretched along the outer surface of the section generating infrared rays at a given distance from the outer surface of the ship. In addition, a means is provided for draining water to form a film of emitted water on the infrared part of the ship.

The main technical problem of the prototype is the ability to protect objects only from infrared radiation.

The objective of the invention is to eliminate the shortcomings of the prototype.

The technical result of the invention consists in reducing the thermal visibility of the protected object.

The specified technical result is achieved due to the fact that the system of thermal masking of engineering objects consists of at least one panel, which contains two parallel plates, in the space between which there is a filler, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pipes of a container for the filler, a pump, a temperature-regulating device, connected to the space between the panels by means of a filler input channel and a filler output channel, as well as a control unit connected by connecting wires to the container for the filler, the pump and the temperature-regulating device, wherein the front plate of the panel has a coating capable of absorbing electromagnetic radiation.

Also, the specified technical result is achieved due to the fact that the method of thermal masking of engineering objects, carried out using a thermal masking system for engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pipes of a container for the filler, a pump, a temperature control device, connected to the space between the panels by means of a filler input channel and a filler output channel, as well as a control unit connected by connecting wires to the container for the filler, the pump and the temperature control device, wherein the front plate of the panel has a coating capable of absorbing electromagnetic radiation, is characterized in that at least one panel of the thermal masking system for engineering objects is placed on the surface of the masked object and fixed at an angle relative to this surface, then by means of the control unit a temperature value is set for the temperature control device equal to the value of the ambient temperature, after which the pump is turned on by means of the control unit and ensure circulation of the filler in the thermal masking system of engineering objects.

Also, the specified technical result is achieved due to the fact that the thermal masking system of engineering objects consists of at least one panel, which contains two parallel plates, in the space between which there is a filler, which is water, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of the nozzles of the pump and the temperature control device, connected to the space between the panels by means of a filler input channel, as well as a control unit connected by connecting wires to the pump and the temperature control device, wherein the pump is designed with the possibility of providing water intake from the environment, and the panel is designed with the possibility of draining water into the environment from the space between the plates by means of a filler output channel.

Also, the specified technical result is achieved due to the fact that the method of thermal masking of engineering objects, carried out using a thermal masking system for engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, which is water, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pump and thermostatic device pipes, connected to the space between the panel plates by means of a filler input channel, as well as a control unit connected by connecting wires to the pump and the thermostatic device, wherein the pump is designed with the possibility of providing water intake from the environment, and the panel is designed with the possibility of draining water into the environment from the space between the plates by means of a filler output channel, is characterized in that at least one panel of the thermal masking system for engineering objects is placed on the surface of the masked object and fixed at an angle relative to this surface, then the pump is turned on by means of the control unit and water circulation is provided from the reservoir surrounding the masked object in the thermal masking system camouflage of engineering objects.

Brief description of the drawings:

Fig. 1 shows a schematic representation of a thermal camouflage system for engineering objects.

Fig. 2 shows a horizontal section of a panel of a thermal camouflage system for engineering objects.

Fig. 3 shows a variant of placement of a thermal camouflage system for engineering objects on the surface of the camouflaged object.

The following are indicated on the figures: 1 - plate, 2 - filler, 3 - sealing frame, 4 - filler container, 5 - pump, 6 - control unit, 7 - thermostatic device, 8 - filler input channel, 9 - filler output channel.

Implementation of the invention

The thermal masking system for engineering objects consists of at least one panel, which contains two parallel plates 1, in the space between which there is a filler 2, the edges of the plates 1 are fixed in a sealing frame 3, wherein the plates 1 can be made of a transparent or colored material, and the front plate 1 has a coating capable of absorbing electromagnetic radiation, while the filler 2 can be a gas, liquid or gel, and be transparent or colored. The system also comprises a filler tank 4, a pump 5, a temperature-regulating device 7, and a control unit 6 connected in series with each other by means of pipes, connected by connecting wires to the filler tank 4, the pump 5 and the temperature-regulating device 7, wherein the temperature-regulating device 7 is connected to the space between the two plates 1 by means of a filler input channel 8, and the filler tank 4 is connected to the space between the two plates 1 by means of a filler output channel 9, wherein the pump 5 is configured to ensure circulation of the filler according to the diagram: filler tank 4 - pump 5 - temperature-regulating device 7 - space between the outer surfaces 1 - filler tank 4, and the temperature-regulating device 7 is configured to cool or heat the filler to specified temperatures, the control unit 6 is configured to turn the pump 5 on and off, switch the reception and delivery of fillers 2 of different types and properties for the tank for filler 4, setting specific values of filler 2 temperature for thermostatic device 7. The system is also designed in such a way that one type of filler 2, placed between plates 1, can be replaced with another type of filler 2 without changing the design of the system, and the replacement can be carried out both with and without the use of flushing liquid. The flushing liquid used in the process of replacing filler 2 is contained in the filler tank 4 similarly to different types of filler 2.

The thermal camouflage system for engineering objects consists of at least one panel, which contains two parallel plates 1, in the space between which there is a filler 2, the edges of the plates 1 are fixed in a sealing frame 3, wherein the plates 1 can be made of a transparent or colored material, and the front plate 1 has a coating capable of absorbing electromagnetic radiation, while the filler 2 is water used from a reservoir surrounding the camouflaged object. The system also comprises a pump 5 and a temperature control device 7 connected in series with each other by means of pipes, connected to the space between the plates 1 of the panel by means of a filler input channel 8, as well as a control unit 6 connected by connecting wires to the pump 5 and the temperature control device 7, wherein the space between the two plates 1 is connected by means of a filler output channel 9 to a reservoir surrounding the camouflaged object, the pump 5 is configured to ensure circulation of the filler according to the scheme: reservoir - pump 5 - temperature control device 7 - space between the outer surfaces 1 - reservoir, the temperature control device 7 is configured to cool or heat the filler to specified temperatures, the control unit 6 is configured to turn the pump 5 on and off, as well as to set specific values of the temperature of the filler 2 for the temperature control device 7. In this case, the system is designed in such a way that water from the reservoir surrounding the camouflaged object is used as filler 2, and water circulation in the system elements and equalization are also ensured temperature field of the camouflaged object and the surrounding body of water.

The thermal camouflage system for engineering objects is used as follows.

At least one panel of the system of thermal and electromagnetic camouflage of structures and vehicles is placed on the surface of the camouflaged object and fixed at an angle β equal to 10-20° relative to the camouflaged surface, then by means of the control unit 6 the temperature control device 7 is set to a temperature value equal to the ambient temperature value, after which by means of the control unit 6 the pump 5 is switched on and circulation of the filler 2 in the system is ensured, wherein the temperature of the filler 2 is changed by the thermostatic device. In the process of absorption of electromagnetic waves by the coating of the front plate 1, the front plate 1 of the panel is heated, wherein the circulation of the filler 2 between the plates 1 of the panel allows the removal of excess heat from the front plate 1 and equalization of the temperature field of the panel and the environment.

The thermal camouflage system for engineering objects is used as follows.

At least one panel of the system of thermal and electromagnetic camouflage of structures and vehicles on the surface of the camouflaged object, after which they are fixed at an angle β equal to 10-20° relative to the camouflaged surface, then by means of the control unit 6 the pump 5 is turned on and circulation of water from the reservoir surrounding the camouflaged object is ensured in the system. In the process of absorption of electromagnetic waves by the coating of the front plate 1, the front plate 1 of the panel is heated, while the circulation of water between the plates 1 of the panel allows removing excess heat from the front plate 1 and equalizing the temperature field of the panel and the environment.

Example of implementation of the invention.

In accordance with the present invention, a thermal camouflage system for engineering objects was manufactured, the panels of which were made of transparent cellular polycarbonate, the front plate of the panel was covered with a radio-absorbing coating of the "iron ball paint" type, water was used as a filler, the volume of the filler container was 2 liters, a piston pump ensured pumping of the full volume of filler through the cavity between the panels for 80 seconds, while the area of the panel was 2 m ² . The panel was installed at an angle of 15° to the horizontal surface and irradiated with electromagnetic waves of a small radar station with a frequency of 9.5 GHz, while on the circular view indicator of the small radar station, the signal reflected from the plane of the panel merged with the background reflected signals of terrain objects. At the same time, according to measurements of the Wintact WT3160 infrared thermometer, the values of the temperature field of the system panel did not exceed the values of the temperature field of the environment by more than 4°C during the testing period, which allows us to speak about the comparative homogeneity of the temperature field in the operating zone of the masking system.

A version of the thermal camouflage system for engineering objects was also manufactured, the panels of which were made of transparent cellular polycarbonate, the front plate of the panel was covered with a radio-absorbing coating such as "iron ball paint", water was used as a filler, the suction pipe of the pump was lowered directly into the reservoir on which the tests were conducted, the area of the panel was 2 m ² . The panel was installed at an angle of 15 ° to the horizontal surface and irradiated with electromagnetic waves of a small radar station with a frequency of 9.5 GHz, while on the circular view indicator of the small radar station, the signal reflected from the plane of the panel merged with the background reflected signals of terrain objects. At the same time, according to measurements of the Wintact WT3160 infrared thermometer, the values of the temperature field of the panel of the radio camouflage system for a water object did not exceed the values of the temperature field of the environment by more than 2-3 ° C during the testing time, which allows us to talk about almost complete homogeneity of the temperature field in the operating zone of the camouflage system.

The technical result of the invention consists in reducing the thermal visibility of the protected object.

The specified technical result is achieved due to the presence of a coating on the front plate of the panel, which is capable of absorbing and converting electromagnetic radiation falling on it into thermal energy, while installing the system panel at an angle to the protected surface allows changing the angle of reflection of electromagnetic waves not absorbed by the coating, at the same time, due to the presence of a filler circulation system with a controlled temperature, capable of continuously cooling the front plate of the panel with a radio-absorbing coating applied to it, the temperature field of the panel and the environment is equalized. Also, the technical result is achieved due to the possibility of using water from a reservoir surrounding the protected object as a filler, which allows effectively equalizing the temperature field of the panel and the temperature field of the surrounding reservoir.

Thus, thanks to the claimed invention, it is possible to reduce the visibility of protected objects for thermal imagers, thermal location and radar systems on land and water.

Claims (4)

1. A system for thermal masking of engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pipes of a container for the filler, a pump, a temperature-regulating device, connected to the space between the panels by means of a filler input channel and a filler output channel, as well as a control unit connected by connecting wires to the container for the filler, the pump and the temperature-regulating device, wherein the front plate of the panel has a coating capable of absorbing electromagnetic radiation. 2. A method for thermal masking of engineering objects, carried out using a thermal masking system for engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pipes of a container for the filler, a pump, a temperature control device, connected to the space between the panels by means of a filler input channel and a filler output channel, as well as a control unit connected by connecting wires to the container for the filler, the pump and the temperature control device, wherein the front plate of the panel has a coating capable of absorbing electromagnetic radiation, characterized in that at least one panel of the thermal masking system for engineering objects is placed on the surface of the object to be masked and fixed at an angle relative to this surface, then by means of the control unit a temperature value is set for the temperature control device equal to the value of the ambient temperature, after which by means of the control unit the pump is turned on and circulation of the filler in the system is ensured thermal camouflage of engineering objects. 3. A system for thermal masking of engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, which is water, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pump and thermostatic device pipes, connected to the space between the panel plates by means of a filler input channel, as well as a control unit connected by connecting wires to the pump and thermostatic device, wherein the pump is designed with the possibility of providing water intake from the environment, the front plate of the panel has a coating capable of absorbing electromagnetic radiation, and the panel is designed with the possibility of draining water into the environment from the space between the plates by means of a filler output channel. 4. A method for thermal masking of engineering objects, carried out using a thermal masking system for engineering objects, consisting of at least one panel, which contains two parallel plates, in the space between which there is a filler, which is water, and a sealing frame, in which the edges of the plates are fixed, sequentially connected to each other by means of pump nozzles and a temperature-regulating device, connected to the space between the panels by means of a filler input channel, as well as a control unit connected by connecting wires to the pump and the temperature-regulating device, wherein the pump is designed with the possibility of providing water intake from the environment, the front plate of the panel has a coating capable of absorbing electromagnetic radiation, and the panel is designed with the possibility of draining water into the environment from the space between the plates by means of a filler output channel, characterized in that at least one panel of the thermal masking system for engineering objects is placed on the surface of the object to be masked and fixed at an angle relative to this surface, then the pump is turned on by means of the control unit and water circulation is provided from the surrounding object to be masked reservoir in the thermal camouflage system of engineering objects.