SU1479794A1 - Plenum-exhaust device - Google Patents

Abstract

The invention can be used for ventilation of industrial and livestock buildings. The purpose of the invention is to increase the intensity of air removal from the room and to expand the functionality of the supply and exhaust device. In the vertical shaft (W) 1 there is a tubular heat exchanger 2, bounded above by the diaphragm 16, and below by a bulkhead 6. The deflector 3 is located above W 1. The diffuser 4 is installed in W 1 below the diaphragm 16 and is made in the form of several vertical shaped reflectors 5 At the base of W 1 are the supply and exhaust ducts 14, 15 and the drain pan 7 for collecting the condenser. The deflector 3 is provided with a number of radially arranged nozzles (P) 17, which are connected by inlets 18 with the atmosphere, and outlet openings 19 with a vertical cavity P 20 located in its central part. The lower end of the П 20 has a plug 21 with mutually perpendicular vertical partitions fixed on it. The partitions divide into equally sized sectors a cavity 24 P 20 up to the level of the overlap of the openings 19. On the surface along the length P 17, 20, there are open-top openings 25 having a conical longitudinal section and suction openings 26 at the base of the cone. The holes 26 are formed in the central part of the П 20 convergers with passage nozzles 27. The base Ш 1 is made removable in the form of a truncated cone, the walls 10 of which form the pallet 7. In the side walls 12 there are holes 13 for connecting the exhaust air ducts 14. In the lower part of the pallet 7 The heater 9 is located in the form of a groove 8 filled with condensate. 1 hp ff, 5 ill.

Description

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shaft (W) 1 is placed a tubular heat exchanger 2, bounded above by diaphragm 16, and below by bulkhead 6. Deflector 3 is located above W 1. Diffuser 4 is installed in W 1 below diaphragm 16 and is made of several vertical shaped reflectors 5 installed. On the base of W 1, the supply and exhaust air ducts 14, 15 and the condensate drain pan 7 are located. The deflector 3 is provided with a number of radially arranged nozzles (P) 17, which are connected by inlets 18 with the atmosphere, and outlet openings 19 with a vertical cavity P 20 located in its central part. The lower end of the P 20 has a plug 21 with mutually perpendicular vertical seals 79794 fixed to it.

by rookie The partitions divide into equally sized sectors a cavity 24 P 20 up to the level of the overlap of the holes 19. On the surface along the length P 17, 20, there are open-top air ducts 25 having a conical longitudinal section and suction ports 26 at the base of the cone. Holes 26 are formed in the central part of П 20 confusors with passage nozzles 27. Base Ш 1 is made removable in the form of a truncated cone, walls 10 of which form a pallet 7. In side walls 12 there are holes 13 for connecting exhaust air ducts 14. In the lower part the pallet 7 is a heater 9, made in the form of a groove 8, filled with condensate. 1 hp ff, - 5 ill.

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The invention relates to ventilation and can be used for (ventilation of industrial and livestock buildings.

Figure 1 shows a supply and exhaust device, a longitudinal section; figure 2 - section aa in figure 1; on fig.Z - section BB in figure 1; figure 4 - profile reflector; in fig. 5 mutually perpendicular vertical partitions.

The supply and exhaust device contains a vertical shaft 1, a tubular heat exchanger 2 placed in it, a deflector 3 located above the shaft 1, a diffuser 4 made in the form of several vertical profile reflectors 5 installed vertically, with a bulkhead 6 in which the lower ends of the heat exchanger tubes are fixed 2

Condensate collection device: a pallet 7, formed by the bend of the lower end of the base of the shaft 1 and having a chute 8 in the lower part for filling it with condensate and placing the heater 9 partially protruding from it, and the inclined walls 10 of the base of the shaft are made in the form of a truncated cone, along which condensate flows, and through the holes 11, evenly spaced along the parameter of the side walls 12, enters the groove 8 of the pallet 7. On the side

The walls 12 of the base of the shaft 1 are provided with holes 13 for connecting the exhaust air ducts 14. Between the walls of the mine 1 and the side walls 12 of the base of the mine, the supply air ducts 15 are formed along the surface of the pallet 7.

The deflector 3 and the diffuser 4 are divided between each other by a diaphragm 16 in which the upper ends of the heat exchanger tubes 2 are fixed, the deflector 3 being equipped with a number of radially arranged T7 nozzles communicated with the atmosphere by the T8 inlets, and the outlet openings 19 with a vertical cavity pipe 20, located in the central part of the deflector, the lower end of which has

0 a plug 21 with mutually perpendicular vertical partitions 22 fixed on it, dividing into equal sectors 23 a cavity 24 nozzle 20 to the level of blocking the outlet openings t9. On the surface, along the length of the radial nozzles t7 and the central nozzle 20, there are open top air outlets 25 with suction inlets 0 26 in the base of the cone, forming a confuser with passage nozzle 27 in the central part of the nozzle 20, with the upper part 1 of the deflector 3 overlapping with a protective peak 28.

The supply and exhaust device operates as follows.

Under the action of the dynamic head, the wind flow enters the inlet openings 18 of several air-emitting radial nozzles 17, located on the direction of the blowing wind, moving through confusors and nozzles 27, significantly increases the speed and thus creates the possibility of intensive ejection of the removed water from the shaft 1 through the air vents - Cirnum channels 25 and suction holes 2b. Then, in the section of the pipe 17 of the next row of air-ejection channels 25, the outside air mixes with the air to be removed, and the mixture enters through the nozzle 27 to the next row of channels 25, where it also sucks the exhaust air through the suction inlets .26, and the newly formed mixture leaves through holes 19, as a rule, into two sectors 23 of the internal cavity 24 formed by partitions 22 of the vertical pipe 20, where ejection also takes place through the suction holes 26. Next, the mixture is directed along a vertical gap the tube under the protective visor 28 and exits into the atmosphere; the exhaust air enters the free cavity of the deflector 3 under the action of convective forces. At the same time, the atmospheric air under the action of dynamic pressure enters the space between the reflectors 5 of the diffuser 4, where it is deflected by their profiled surfaces, and under the action of the existing pressure forms a jet directed downward into the shaft 1, moving along the annular space of the tubular heat exchanger 2. The resulting pressure of the atmospheric air is not reduced by the discharge in the deflector 3, since the cavity of the deflector 3 is separated from the cavity of the diffuser 4 by a separating diaphragm 16.

Having passed through the space of the heat exchanger 2, the flow of atmospheric air is heated from the exhaust air passing through the tubes of the heat exchanger 2, and through the inlet air duct 15 and further between the bend at the lower edge of the shaft body and the surface forming the pallet 7, you get 5

0 5 0 0 5 0 5 0

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walks into the room. In tubes 2, heat is transferred from the exhaust air to the outside air due to the difference in temperature and heat of condensation of water vapor, which occurs due to the contact of warm and humid air with the surface of the tubes cooled by the outside air to a temperature below the dew point of the exhaust air. In this case, water vapor is condensed from the latter, and the condensate flows down along the inner surface of the tubes of the heat exchanger 2 to the inclined walls 10 of the base of the shaft 1 and through the holes 11 formed in the side walls 12 enters the walls 7 and fills its groove 8. i

Humidification of dry outside air during the cold season is performed by directing the flow of outside air along the wetted surface of the tray 7 with the blowing of the heater 9.

Claims (1)

1. A supply and exhaust device containing a vertical shaft, a tubular heat exchanger placed in it, bounded above by a diaphragm, and below by a bulkhead, a baffle located above the shaft, a diffuser installed in the shaft below the diaphragm and made in the form of several vertical shaped reflectors The supply and exhaust ducts and condensate collection tray located at the base of the mine, characterized in that, in order to increase the intensity of air removal from the room and expand the functionality capabilities, the deflector is equipped with a number of; radially disposed nozzles communicated by the air inlets with the atmosphere, and the air outlets with the cavity of an additional vertical part of the slug located in its central part, the lower end of which has a cap with mutually perpendicular vertical partitions fixed on it, dividing into equal sized sectors the nozzle cavity to the level of overlapping of the outlet openings of the radial nozzles, and on the surface along the radial and central nozzle openings & FIG. 2 bb OS figl sriayo