RU171063U1 - HEATER AND VENTILATION EXHAUST PIPE WITH REDUCED INFRARED VISIBILITY - Google Patents

Abstract

The utility model relates to structural elements of heating and ventilation devices used for heating and ventilation of the interior of vehicles. The exhaust pipe of the heating and ventilation installation consists of a cylindrical-shaped exhaust pipe, a hemispherical protective gas cap attached to it, a cylindrical glass in which the mentioned pipe is rigidly mounted with a clearance, additional hemispherical caps are installed one above the other. Moreover, spherical recesses and diagonal ribs are made on the inner surface of the exhaust pipe, and elevations in the form of tetrahedral pyramids are made on its outer surface. The gap between the outlet and the nozzle is 25 mm, the diameter of the protective gas cap is 305 mm, and the flexible tape screen 30 cm long is evenly spaced around the circumference of the protective gas cap. In addition, the flexible screen tapes are made of heat-resistant material capable of absorbing an infrared signal. The technical result is to reduce the visibility of the device in the infrared wavelength range by reducing the temperature of the exhaust gases and the level of thermal contrast of the device relative to the background. 3 ill.

Description

The utility model relates to the field of transport engineering, and more specifically to the structural elements of heating and ventilation devices used for heating and ventilation of the interior of vehicles.

The exhaust pipe of a heating and ventilation installation with reduced infrared visibility consists of a cylindrical-shaped exhaust pipe, a hemispherical protective gas cap fixed to it, a cylindrical glass in which a cylindrical-shaped exhaust pipe, a flexible ribbon screen is rigidly mounted with a gap. Additional hemispherical hoods are mounted one above the other above the protective gas-deflecting cap of a hemispherical shape. The flexible ribbon screen is evenly spaced around the circumference of the protective gas cap.

The utility model provides a reduction in the temperature of exhaust gases, the level of thermal contrast of the device relative to the background, thereby reducing the visibility of the device in the infrared wavelength range due to the use of diagonal ribs and recesses on the inner surface and elevations in the form of tetrahedral pyramids on the outer surface of the exhaust pipe of a cylindrical shape, also through the use of a flexible ribbon screen.

1. As a prototype, the design of the heating and ventilation installation OV-95 1 [Pat. 2252146 Russian Federation. The exhaust pipe of the heating and ventilation installation [Text] // Kulikovsky A.I., Tsygankov E.A., Tarasov S.A., Terskov A.M., Shapran V.N., Churybkin N.N .; applicant and patent holder Federal State Unitary Enterprise 21 Research and Testing Institute of the Ministry of Defense of the Russian Federation, 01/16/2004; publ. 05/20/2005. - Fig.], The exhaust pipe of the heating and ventilation unit is used to exhaust the exhaust gases from the combustion chamber and afterburning the fuel-air mixture that have passed the heater heat exchanger.

The use of this design of the exhaust pipe of the heating and ventilation installation is prevented by a number of disadvantages:

1. The temperature of the exhaust gases is not ensured when they pass through the exhaust pipe of a cylindrical shape and after exiting it.

2. A sufficient level of thermal contrast of the exhaust pipe of the heating and ventilation installation relative to the background is not provided.

The technical problem solved by the utility model is:

1. Reducing the temperature of the exhaust gases as they pass through the exhaust pipe of a cylindrical shape and after exiting it.

2. Reducing the level of thermal contrast of the exhaust pipe of the heating and ventilation installation with reduced infrared visibility relative to the background and its visibility in the infrared wavelength range.

The solution to this problem is achieved by the fact that in the proposed device, the exhaust pipe of a heating and ventilation installation with reduced infrared visibility, spherical recesses in the form of holes and diagonal ribs are made on the inner surface of the exhaust pipe of a cylindrical shape, and elevations in the form of tetrahedral pyramids are made on its outer surface. The recesses, diagonal ribs and elevations are made in the exhaust pipe of a cylindrical shape to the length of a cylindrical glass. The holes are preferably made in the form of a spherical segment, the opposite faces of the pyramids are equal, and the vertices of the pyramids are evenly spaced around the circumference. The greatest degree of heat transfer intensification takes place in the channel with recesses and diagonal ribs [2]. Moreover, the vertices of two adjacent holes and pyramids are placed on one straight line passing through the point of intersection of the transverse axis of symmetry of the outlet pipe of a cylindrical shape and lying in a plane perpendicular to the longitudinal axis of its symmetry. As a result of the fact that the holes in the form of a spherical segment are made on the inner surface of the outlet pipe of a cylindrical shape, with the passage of the gas flow in each of them secondary flows arise in the form of gas vortices, which rotate and suction the boundary layer of the stream during rotation. These are peculiar point regions of a hydrodynamic tornado, which "removes" heat from the boundary layer. As a result, the heat transfer from gases to the wall of the exhaust pipe of cylindrical shape increases. Under the steady-state operating mode of the heating and ventilation installation and, consequently, with a constant volume of exhaust gases and heat, with an increase in the heat transfer coefficient (due to the use of holes and diagonal ribs) and a slight increase in this, the heat-absorbing surface area of the exhaust pipe of a cylindrical shape at a constant gas temperature the surface temperature of the wall in contact with the hot exhaust gas will decrease slightly.

With a decrease in the metal thickness and an increase in the wall area of the heat-absorbing surface of the exhaust pipe of a cylindrical shape, the temperature of its outer surface will also decrease.

This can technically be achieved by imparting the required rigidity to the wall of the exhaust pipe of a cylindrical shape while reducing its thickness. To do this, the corresponding elevations in the form of tetrahedral pyramids are formed on the outer surface of the cylindrical outlet pipe, forming a kind of "ribs" of rigidity, by the fact that the vertices of the pyramids are evenly spaced around the circumference, and the vertices of two adjacent holes and pyramids are aligned coaxially in the plane passing through the longitudinal axis of symmetry of the outlet pipe of a cylindrical shape perpendicular to it. Moreover, the area of the faces of the pyramids slightly exceeds the area of a similar cylindrical surface.

The heat transfer from the wall of the exhaust pipe of a cylindrical shape to the environment will be due to the occurrence of a temperature difference between the outer surface of the wall and the air.

Thus, it can be seen that the transfer of heat from the exhaust gases to the atmosphere is a case of complex heat transfer, which includes convective heat transfer of gases to the wall of the exhaust pipe of a cylindrical shape, the transfer of this heat due to the heat conductivity of the wall itself and, finally, convective heat transfer from the wall to the cooling medium .

The proposed design of the exhaust pipe of a cylindrical shape of the exhaust pipe of a heating and ventilation installation with reduced infrared visibility allows using the diagonal ribs and recesses on the inner surface and elevations in the form of tetrahedral pyramids on the external surface of the exhaust pipe of a cylindrical shape to reduce the temperature of the exhaust gases passing through it, and therefore, to reduce the thermal contrast of the device relative to the background, thereby reducing noticeable The device is in the infrared wavelength range.

When a cylindrical cup is used in the design of the exhaust pipe of a heating and ventilation installation with reduced infrared visibility, in which a cylindrical-shaped exhaust pipe is rigidly mounted with a gap, the thermal energy from the heated outer surface of the cylindrical-shaped exhaust pipe will be dissipated in a direction perpendicular to the surface of the cylindrical glass. This reduces the thermal contrast between the elements of the exhaust pipe of the heating and ventilation installation with reduced infrared visibility and background, which additionally leads to a decrease in the visibility of the device in the infrared wavelength range.

A flexible ribbon screen formed around a cylindrical glass, the ends of the tapes of which are fixed on the inner surface of the protective gas cap is formed of one layer of tapes with overlapping of each subsequent tape on the previous one, the tapes are made of heat-resistant material, for example, graphite fabric. The tapes are secured to the protective gas cap through an independent clamping system with the possibility of detaching the tapes after use, and a gap is created between the flexible ribbon screen from the tapes and the cylindrical glass to pass through and cool the exhaust gases.

The flexible ribbon screen created around the cylindrical glass thus forms a stable protective screen with a gap between it and the cylindrical glass for the flow of external air, which will cool the ribbon screen and reduce the temperature of the exhaust gases so that the screen material does not heat up and does not give its own infrared radiation.

The tapes used to create the ribbon screen are made from a material that absorbs an infrared signal. Moreover, the material is selected on the basis of silicone or graphite fabric - the material is elastic, tear-resistant and heat-resistant.

Tapes with an infrared signal absorbing coating can also be used, or with the addition of infrared signal absorbing elements, such as graphite powder, to the composition of the tape materials.

A flexible tape screen 30 centimeters in length, formed from one layer of tapes with a partial overlap of each subsequent tape on the previous one, will shield and absorb infrared radiation from the top of the cylindrical glass and exhaust gases, in which the mentioned cylindrical outlet pipe is rigidly installed with a gap, which will allow reduce the temperature of the exhaust gases after leaving the exhaust pipe of a cylindrical shape, thereby reducing the visibility of the device in the infrared wavelength range.

Thus, the proposed design of the exhaust pipe of the heating and ventilation installation with reduced infrared visibility provides a reduction in the temperature of the exhaust gases, the level of thermal contrast of the device relative to the background, thereby reducing the visibility of the device in the infrared wavelength range.

In FIG. 1 shows a general diagram of the exhaust pipe of a heating and ventilation installation with reduced infrared visibility.

The exhaust pipe of a heating and ventilation installation with reduced infrared visibility 1 contains a cylindrical exhaust pipe 2, a hemispherical protective hood fixed to it 3, a flexible tape screen 4 whose tape ends are fixed to the inner surface of a hemispherical protective gas hood 3, a cylindrical glass 5, in which said gap of cylindrical shape 2 is rigidly mounted with a gap 6, one above each other is installed above the protective gas-breaking hood 3 m, additional caps 7 and 8 are hemispherical in such a way that between each of the additional caps 7 and 8, as well as between the protective gas cap of the hemispherical form 3 and the closest additional cap 8 adjacent to it, a gap 9 is provided, holes are made in the additional caps 7 and 8 10, while additional caps 7 and 8 are installed with the possibility of air circulation between them and the protective gas cap 3 through openings 10 made in additional caps 7 and 8, which in the end parts 11 are closed between second and with a protective gaz baffling hemispherical cap 3 with the formation of cavities.

To reduce the thermal contrast between the elements of the exhaust pipe of the heating and ventilation installation with reduced infrared visibility 1 and the background when the flow of heated exhaust gases passes through the exhaust pipe of a cylindrical shape 2, a cylindrical cup 5 is attached to it, and the longitudinal axis of symmetry of the exhaust pipe of a cylindrical shape and a cylindrical cup along their entire length by 25 mm and are located in the same plane, respectively, the diameter of the protective gas cap hemispherical Form 3 will be 305 mm. Also on the outer surface of the exhaust pipe of a cylindrical shape 2 elevations 12 are made in the form of tetrahedral pyramids.

In FIG. 2 shows a fragment of an exhaust pipe of cylindrical shape with grooves and elevations made on its inner and outer surfaces. On the inner surface of the exhaust pipe of a cylindrical shape 2, local recesses 13 (recesses) in the form of holes and diagonal ribs 14 made in the form of elevations are made. The recesses 13 and the diagonal ribs 14 are located in the exhaust pipe of a cylindrical shape 2 evenly, to the length of the cylindrical glass.

To increase the efficiency of heat transfer between the inner and outer surfaces of the exhaust pipe of a cylindrical shape 2 (in metal), elevations 12 in the form of tetrahedral pyramids are made on the outer surface of the exhaust pipe of a cylindrical shape 2.

In FIG. 3 shows a layout of flexible tapes of a flexible tape screen 4 around a cylindrical cup 5, where a is a side view and b is an end view. The outlet pipe is a cylindrical shape 2. A flexible tape screen 4 is fixed using an independent clamping system (not shown) on the inner surface of the hemispherical protective cap 3.

Information sources:

1. Pat. 2252146 Russian Federation. The exhaust pipe of the heating and ventilation installation [Text] // Kulikovsky A.I., Tsygankov E.A., Tarasov S.A., Terskov A.M., Shapran V.N., Churybkin N.N .; applicant and patent holder Federal State Unitary Enterprise 21 Research and Testing Institute of the Ministry of Defense of the Russian Federation, 01/16/2004; publ. 05/20/2005. - Il.

2. New vortex technologies of aerothermodynamics in power gas turbine building. Part 3. Improving thermogasdynamic processes / A.A. Halatov // Industrial heat engineering. - 2008. - T. 30, No. 6. - S. 5-19.

Claims (1)

The exhaust pipe of a heating and ventilation installation with reduced infrared visibility, consisting of a cylindrical exhaust pipe, a hemispherical protective gas cap attached to it, a cylindrical glass in which said exhaust pipe is rigidly mounted with a clearance, additional caps are installed one above the other gas protective cap hemispherical shape, characterized in that on the inner surface of the exhaust pipe of a cylindrical shape made spherical recesses and diagonal ribs, and on its outer surface there are elevations in the form of tetrahedral pyramids, the gap between the outlet pipe of a cylindrical shape and a cylindrical glass is 25 mm; the diameter of the hemispherical protective cap will be 305 mm; a flexible tape screen 30 cm long will be evenly spaced around the circumference of the hemispherical protective cap, the tapes of the flexible tape screen are made of heat-resistant material capable of absorbing an infrared signal.

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