RU184679U1 - Protective camouflage screen for combined cooling of thermal radiation of heated parts of a ground moving object - Google Patents

Abstract

The inventive utility model relates to the field of camouflage, in particular to concealment techniques with controllable structural elements that reduce the warm contrast of heated parts of the equipment to the level of background noise of the terrain to hide the ground moving object from thermal reconnaissance means and aim high-precision weapons in the infrared range of the electromagnetic spectrum waves.

The technical result is achieved by the fact that a control panel, a temperature sensor in the cooling zone of the heat flow, a recuperator, a tank with a neck for water, and a pressure head are built into the protective-camouflage screen, consisting of a heat exchange section with shutters for external air, a section of the recirculation channel and fan pump, non-return valve, nozzles built into the pipeline for spraying liquid into the zone of removal of the cooled heat flow, while the listed parts of the device are interconnected using assembly instructions ations to form a functional-structural unity, collectively providing a gradual cooling of the heat flow from the heated parts of the ground of the mobile object to the desired temperature value relative to the background temperature area in the vicinity of the object location.

The essence of the model is to create a technical device that ensures the reduction of unmasking signs of heated parts of a ground moving object from heat sources during its operation. Moreover, the required camouflage effect of the object under the conditions of conducting reconnaissance and guidance of the WTO in the infrared range of the EMW length spectrum using the inventive utility model is achieved by phasing down their temperature by shielding with simultaneous removal of the heat flux from the inside of the object to the outside and its forced cooling in the surface layer atmosphere to the temperature level of the background noise of the terrain. 2 s.p. f-ly.

Description

The inventive utility model relates to the field of camouflage, in particular to concealment techniques with controllable structural elements that reduce the warm contrast of heated parts of the equipment to the noise level of the terrain to hide the ground moving object from thermal reconnaissance and high-precision weapons (WTO) in the infrared range spectrum of electromagnetic wavelengths (IR range of EMW spectrum).

One of the important tasks of camouflage is to disrupt ground moving objects with heat sources installed inside the kungs, which are a unmasking sign of their functioning in the infrared range of the EMW length spectrum under the conditions of modern means of reconnaissance and guidance of the WTO based on identified specific unmasking signs and signs of their activity [Masking troops and military facilities: a training manual / V.A. Krivilev, A.G. Bulakhov, S.S. Volkov. - M .: VIA, 1996. - 304 p.].

One of the ways to eliminate the presence of the main unmasking feature of the functioning of a ground moving object with heat sources installed inside the kung is to reduce the temperature of the heated parts of the heat sources by shielding them while simultaneously removing the heat flux from the inner space of the ground moving object (for example, the kung) to the outside with its further cooling by forced ejection of cooling liquids into the surface zone of external cooling of the heat flow.

A device and method of its use is known for hiding and cooling the exhaust gases of a military object by diverting them using an elongated exhaust pipe into a pre-equipped niche covered by a shield made of boards and a layer of earth sprinkled on top, in the side wall of which there is an additional pipeline connecting the cooled exhaust pipes to the trench gases to the outside [Manual on engineering tools and techniques for camouflaging the ground forces, Moscow, Military publishing house, 1986, pp. 78-79].

The disadvantage of the above device for its use is the low efficiency of reducing thermal radiation of the engine, as well as the high complexity of its implementation (from 5 people / hour or more) allocated to mask ground objects.

A device for reducing the thermal visibility of a military machine is known [patent RU 2485431, published 06/20/2013, F41H3 / 00]. In it, to reduce the reduction in thermal visibility of the military machine, the latter contains a pipe inclined to the flange for exhausting the engine’s exhaust gas, onto which lower, middle, and upper heat shields are mounted via step racks, which are inclined toward the cut of the outlet cross section of the pipe to ensure the formation of an ejection flow atmospheric air. The pipe serves to exhaust the exhaust gases of the engine of the military machine in a certain direction, and heat shields are designed to reduce thermal radiation when the engine is running.

It is also known a device with a screen of the exhaust gases of the engine of a military machine [patent RU 2439467, published 10.01.2012, F41H 7/02]. In it, due to the gas reflection screen mounted on the machine’s body and made in the form of a flat U-shaped profile in working condition, the engine exhaust gases are directed towards the lower side of the machine’s body, which reduces smoke in the area of the open hatch and observation devices, and also increases camouflage level of the machine from infrared detection and damage.

The disadvantages of the above analogues are the low efficiency of reducing thermal radiation of heated parts of the engine, which does not provide effective camouflage of ground moving objects in the infrared range of the EMW length spectrum from modern reconnaissance and guidance equipment.

The invention and method of its application is known “Air cooling apparatus with external air recirculation” [patent RU 2166717, published 05/10/2001, F28D 21/00, F25D 17/06, F25B 39/02], selected as a prototype, This device is intended for use in the chemical, oil, gas and other industries for cooling products that change the state of aggregation to a solid phase at lower temperatures or form solid chemical compounds. The apparatus comprises a heat exchange section, a recirculation channel and a chamber for mixing warm and cold air located below them. In the upper part of the mixing chamber under the heat exchange section with an offset to the side opposite to the recirculation channel, a collector with a fan located in it is installed. In the place where the chamber communicates with the recirculation channel, trapezoidal plates are fixed on the walls, one of which is tilted towards the fan, and the other two towards the recirculation channel.

According to the known device and method of its application, the cooling of the hot surface of the heat source is carried out by a cold stream of external air from the environment entering through the louvres of a recirculation channel blown by a fan and removing heat flow from the interior of the object into the environment.

The main disadvantage of the known device is primarily that it is not intended as a means of camouflage and does not divert the heat flux from the heated parts into the outboard (surrounding) environment, providing the necessary reduction in the heat flux to the ambient temperature level during its operation.

Thus, the above-described known devices by their constructive solution do not meet modern camouflage requirements as a result of their use as technical means of concealment from reconnaissance and guidance equipment to reduce the visibility of a camouflaged ground moving object in the infrared range of the EMW length spectrum.

The technical result is achieved by the fact that a control panel, a temperature sensor in the cooling zone of the heat flow, a heat exchanger, a tank with a neck are built into the protective-camouflage screen, consisting of a heat-exchange section structurally interconnected with louvers for introducing outside air, a section of the recirculation channel and a fan for water, a pressure pump, a non-return valve, nozzles for spraying liquid into the cooled heat flux exhaust zone integrated in the pipeline, while the above elements are connected between the battle with the help of assembly operations with the formation of a functional and constructive unity, which together provides phased cooling of the heat flow from the heated parts of the ground moving object to the required temperature relative to the background temperature of the terrain in the area of the object.

The objective of the claimed utility model is the creation of a technical device that ensures the reduction of the unmasking signs of heated parts of the ground moving object from heat sources, in the process of functioning, by reducing their temperature by shielding with simultaneous phased removal of the heat flux from the inner space of the object to the surface zone of the external cooling of the heat flux and its forced cooling in this zone to the temperature level of background noise.

The task is achieved by the fact that in the protective-masking screen for combined cooling of the thermal radiation of the heated parts of the ground moving object, consisting of a heat exchange section with louvers for introducing outside air, an integrated section of the recirculation channel and a fan, additionally contains a control panel screwed to the outer surface of the thermal section articulated with a temperature sensor of the cooled heat flux, which is connected to it by wire connection and screwed externally to the pipeline in the heat flow cooling zone, a recuperator screwed in from below the recirculation duct section, a tank with a water neck, screwed from one of the sides to the front of the heat exchange section, a pressure pump, built-in from the bottom of the water tank, which is connected through a pipe to the check valve built into it providing the supply of chilled water to the nozzles screwed into the pipeline for spraying water into the zone of removal of the cooled heat flow. At the same time, at the inlet of the built-in section of the recirculation channel located inside the heat section, an additional hermetically sealed tank with coolant (for example, antifreeze or antifreeze) with an electric centrifugal pump built inside it is fixed on bolts with bolts and through holes are made outside the tank bottom to which two hollow tubes with union nuts are welded at one end to which the hollow tubes of the recuperator, the input of which is articulated, are fixed with two union nuts at the other end A threaded connection with a section of the recirculation channel, and at the outlet, is also fixed by a threaded connection with an exhaust fan, to which a flexible hollow hose is attached sequentially with a coupling head to divert the heat flux into the zone of its external cooling. Moreover, at the inlet in the body of the recuperator, an inlet is made for sucking in the outside air for additional cooling of the heat flow.

Thus, the listed elements are interconnected using assembly operations with the formation of structural unity and the implementation of the inventive device.

The technical nature of the claimed utility model is presented in FIG. 1-3.

In FIG. 1 shows a kinematic diagram of the protective camouflage screen for combined cooling of thermal radiation of heated parts of a ground moving object, where:

1 - heat exchange section, 2 - filler neck, 3 - position of the process hatch for heat removal, 4 - tank with a neck for water, 5 - pressure pump, 6 - control panel, 7 - shutters, 8 - built-in section of the recirculation channel, 9 - pipeline, 10 — check valve, 11 — recuperator inlet, 12 — control lines (wired communication), 13 — recuperator, 14 — exhaust fan, 15 — flexible hose, 16 — temperature sensor, 17 — nozzles, 18 — heat source, 19 - ground moving object, + ΔG _etc. - heat flow, _{-ΔG v.p.} - air-cooled flow, _{-ΔG, etc.} - chilled heat flux.

In FIG. 2 shows the design of the protective camouflage screen from its front side, where: 1 - heat exchange section, 2 - filler neck, 4 - water tank, 5 - pressure pump, 6 - control panel, 7 - shutters, 8 - recirculation section channel, 9 - pipeline, 11 - inlet of the recuperator, 12 - control lines, 13 - recuperator, 14 - exhaust fan, 24 - mount the tank with coolant, 25 - mount the channel of the recirculation section,

In FIG. 3 shows a section of a protective-camouflage screen, where: 1 - heat exchange section, 2 - filler neck, 7 - shutters, 8 - recirculation section channel, 12 - control lines, 13 - recuperator, 14 - exhaust fan, 20 - coolant tank , 21 - centrifugal electric pump, 22 - quick-connect hydraulic connections, 23 - layer of a mirror polypropylene-thermophthalate film, 24 - fastening of a tank with coolant, 25 - fastening of a channel of a recirculation section, 26 - hollow tubes.

The implementation of cooling the temperature of the heat flux during operation of the heat source using the inventive utility model of a protective-camouflage screen combined cooling of the thermal radiation of the heated parts of a ground moving object is as follows.

To cool the heat flux during the operation of the land mobile object from the control panel 6 of the device, an exhaust fan 14 is started, which sucks the incoming heat flux from the heat exchange section 1 into the recuperator 13, through the section of the recirculation channel 8 for additional mixing with the flow of external air that enters through the blinds 7 and the inlet 11 of the recuperator 13. In the recuperator 13, the heat flow is mixed with the flow of external air. To increase effective cooling in this section of the heat flow device, additional cooling fluid, such as antifreeze or antifreeze, poured into the tank 20 is circulated through the hollow tubes 26. Next, the cooled heat flow enters through the flexible hollow hose 15 into the surface zone of its external cooling, in which fixing the temperature of the cooled heat flux with a temperature sensor 16, mounted on the pipeline and wired to the control panel 6. When registering on the control panel 6 the temperature of the cooled heat flux is more than ± 6-12 ° C relative to the underlying background of the terrain on which the ground moving object 19 is located, the pressure pump 5 is automatically switched on via the control panel 6, which delivers water from the tank 4 through the pipe 9 through the check valve 10 to the nozzles 17 embedded in the pipe 9 for spraying water in the surface zone of the external cooling of the heat flow to the desired temperature.

Evaluation of the effectiveness of the use of a protective-camouflage screen for combined cooling of thermal radiation of heated parts of a ground moving object was made on the basis of the condition of not detecting the object [Fundamentals of protection from technical intelligence: a training manual / Yu.K. Menshakov. - M .: Publishing house of MGTU im. N.E. Bauman 2011, p. 478, p. 256].

The criterion for not detecting an object is the condition:

- контраст фона и отводимого теплового потока после применения защитно-маскировочного экрана.Where

- the contrast of the background and the removed heat flux after applying the protective-camouflage screen.

Thermal radiation is characterized by a radiation density that depends on the material and surface condition, as well as the absolute temperature of the body. The radiation density is described by the brightness (radiation) temperature, the distribution of which over the surface of the object determines the thermal portrait of the object.

The thermal contrast (K _ik ) of an object with a background is determined by the formula [Disguise of troops and military objects: a training manual / V.A. Krivilev, A.G. Bulakhov, S.S. Volkov. - M .: VIA, 1996. - 304 p.]:

Where:

- тепловая яркость объекта;

- thermal brightness of the object;

- тепловая яркость фона.

- thermal brightness of the background.

In practice, the temperature contrast K _{ik of the} surfaces of the object and the background, taken modulo [Masking troops and military objects: a training manual / V.A. Krivilev, A.G. Bulakhov, S.S. Volkov. - M .: VIA, 1996. - 304 p.]:

where T _about , T _f - radiation temperature of the object and background, respectively, in degrees Celsius or Kelvin.

The temperature of the cooled object bleed heat flux T _o is determined from the balance _{of the} equation, respectively, in degrees Celsius or Kelvin.

where T _TP is the temperature of the cooled heat flux;

Т _Жр - temperature of the recuperator cooled liquid;

T _VP - temperature of the air flow received through the inlet of the recuperator;

T _vzh - the temperature of the air flow received through the blinds;

T _OT - the temperature of the cooled heat flow in the cooling zone;

≤0,3 по установленному критерию не обнаружения объекта в ИК диапазоне спектра длин ЭМВ выполняется в строгом установленном процессе поэтапного комбинированного охлаждения теплового излучения нагретых частей наземного подвижного объекта в процессе применения заявляемого защитно-маскировочного экрана.The calculations at an ambient temperature of 15 ° C to 20 ° C, relative humidity W = 65-70%, the temperature of the radiation source 65-75 ° C and the location of the object on a vegetative background with T _rf = 12-15 ° C show that the conditions of non-detection of 0.2≤

≤0.3 according to the established criterion for not detecting an object in the infrared range of the EMW length spectrum is performed in the strict established process of stage-by-stage combined cooling of the thermal radiation of the heated parts of the ground moving object during the application of the inventive protective masking screen.

Thus, in the claimed utility model, the scope of the protective-camouflage screen for the combined cooling of the thermal radiation of heated parts of a ground moving object is expanded by shielding it with the simultaneous removal of the heat flux from the inner space of the ground moving object (for example, a car’s kung with a heat radiation source) outward its further cooling by means of forced ejection of cooling liquids into the surface zone of external cooling of eye to the background noise temperature areas, providing reduction in the visibility of the mobile object from the ground reconnaissance, and WTO automated guidance systems utilizing microstructure target image in the IR spectral ranges EME.

Information sources

1. Guide to engineering tools and techniques for camouflaging the ground forces, Moscow Military Publishing House, 1986 p.

2. Disguise of troops and military facilities: a training manual / V.A. Krivilev, A.G. Bulakhov, S.S. Volkov. - M.: VIA, 1996 .-- 304 p.

3. Menshakov. Yu.K. Fundamentals of protection against technical intelligence: a training manual / Yu.K. Menshakov; under the general. ed. M.P. Sychev. - M.: Publishing House of MSTU. N.E. Bauman, 2014.

Claims (3)

1. A protective and camouflage screen for combined cooling of the thermal radiation of heated parts of a ground moving object, consisting of a heat exchange section with louvers for introducing outside air, an integrated section of the recirculation channel and a fan, interconnected by assembly operations, which are in a functional-structural unity, characterized in that that it additionally contains a control panel screwed to the outer surface of the thermal section, coupled to a temperature sensor of the cooled thermal drain, which is connected to it through a wire connection and screwed externally to the pipeline in the heat flow cooling zone, a recuperator screwed in from below the recirculation channel section, a tank with a water neck, screwed from one of the sides to the front side of the heat exchange section, pressure pump, built-in bottom of the water tank, which is connected through a pipeline with a check valve built into it, which supplies the cooled water to the nozzles screwed into the pipe for spraying water into the zone of removal of the cooled heat outflow, at the same time at the inlet of the built-in section of the recirculation channel located inside the heat section, an additional hermetically sealed tank with coolant (for example, antifreeze or antifreeze) with an electric centrifugal pump built inside it is fixed on the studs with bolts, and through holes are made outside the tank bottom to which two hollow tubes with union nuts are welded at one end, to which hollow tubes of a recuperator, the input of which It is connected with a threaded connection with a recirculation channel section, and at the outlet it is also fixed with a threaded connection with an exhaust fan, to which a flexible hollow hose is attached sequentially with a coupling head to divert the heat flow to the zone of its external cooling, and an inlet is made at the inlet to the recuperator casing to suck the external air additional cooling of the heat flow. 2. The protective-camouflage screen according to claim 1, characterized in that the heat-exchange section consists of five collapsible planes, two of which have blinds for inputting external air from opposite sides, while the planes and blinds are made of wood and / or metal, which are structurally interconnected by means of a dowel and / or pin, and the heat-exchange section is assembled fixed to the casing of the ground moving object at the outlet of the heat flow by means of a pin fastening, while the water tank is made of galvanized sheet and / or aluminum painted under the protective color of the object. 3. The protective-camouflage screen according to claim 1, characterized in that the inner surface of the thermal section together with the blinds is glued with a mirror polypropylene-terephthalate film.

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