SU928136A1 - Apparatus for heat-and-moisture treatment of air - Google Patents

Description

(5) DEVICE FOR HEAT AND MEMBERSHIP

one

The invention relates to the technique of ventilation and air conditioning. There are known devices for heat and humidity air treatment, comprising a housing with a pallet, inlet and outlet air nozzles, a tank mounted on a housing with cells having vertical metering nozzles inserted into the housing and connected to a voltage source of two. groups of electrodes, the electrodes of the first group being made in the form of plates and placed in front of the outlet openings of the metering pipes, and the make-up pipeline SP.

The disadvantages of these devices are low humidification efficiency and the degree of air ionization.

This is due to the insufficient interaction of air with water.

The purpose of the invention is to increase the efficiency of humidification and the degree of air ionization. AIR TREATMENT

The goal is achieved by the fact that the device additionally contains a makeup tank connected to the tank with a water sprinkler placed in it connected to the feed line, and the electrodes of the second group are installed in the tank opposite the cells, the water sprinkler the reflector, the cup-shaped vessel and the dish-shaped ring, and the outer edges of the vessel and the ring are indented; moreover, a mesh is placed in the body, which forms

15 by the walls of the canal, and the metering nozzles have different diameters, decreasing along the air flow.

1 shows a device

20 general view; figure 2 - section aa in figure 1; on fig.Z - a water sprayer, a general view; in fig. - bowl-shaped vessel, top view. 392 A device for heat and air treatment includes a housing 1 with a pallet 2, an inlet 3 and an outlet 4 with air nozzles, mounted on the housing 1 is a tank 5 with cells 6 having vertical metering nozzles 7 inserted into the housing 1 connected to a voltage source (not shown) two groups of electrodes 8 and 9 and the electrodes 8 of the first troupe are made in the form of plates and are placed in front of the outlet openings 10 of the metering pipes 7 and the pddpitochny pipe 11. In addition, the device additionally contains m 5 make-up tank 12 with a sprinkler 13 of water connected to the make-up pipeline 11 passively inside it, and electrodes 9 of the second group are installed in tank 5 opposite cells 6, water sprinkler 13 is made in the form of conical reflector 1, cup-shaped the vessel 15 and the disc ring 16, and the outer edges of the vessel 15 and the ring 16 are serrated. In case 1, a grid 17 is formed, forming an annular channel 18 with its walls, and metering pipes 7 have different diameters, decreasing along the air flow. A multi-leaf valve 19 can be installed in the inlet port, and in the outlet droplet separator 20, which in some cases can be connected to a voltage source. After the inlet 3, a mixing chamber 21 is placed in which the fan 22 is placed. A make-up tank 12 is installed above the mixing chamber 21 in front of the air valve 23. The grid 17 can be connected to a high voltage source. The tank 5 is isolated from the housing 1. The plates of the electrodes 8 are placed at different heights, connected to the housing 1 by means of racks 2k and are arranged with overlapping edges of the adjacent plates of electrodes. The electrodes 9 can be connected to individual sources on the yarn with different amplitudes on the yarn. The device works as follows. The outside air entering through the inlet 3 and the multi-leaf valve 19 and recirculation through the valve 23 is mixed in the mixing chamber 21 and injected into the housing 1. Water entering through the pipes 7 | sprayed on droplets under the action of an electric field created between the ends of the above-mentioned pipe 7 and the plates of the electrodes 8. The electrodes 9 placed in the cells 6 of the tank 5 and connected to one of the poles of a high voltage source provide the necessary intensity of the electric field between the pipes 7 and grounded plates of electrodes 8, which contributes to the fragmentation of water jets emerging from the nozzles 7 into small droplets, which carry the air stream. The outgoing water from the nozzles 7 is charged with an electrostatic charge, therefore, the small droplets formed in the housing 1 have a corresponding electric charge. The process of evaporation of the charged droplets and the presence of an electric field contribute to the ionization of the air flow in the device. The arrangement of horizontal plates of electrodes 8 with overlapping of their edges with adjacent plates in the course of air movement contributes to the complete evaporation of the sprayed water, as well as to partial supersaturation of the air with highly suspended charged droplets. The dispersion of air spraying and the degree of ionization in the course of air movement increase when the nozzles 7 with decreasing diameter are made and when electrodes 9 are connected to separate power sources, creating an increasing electric field strength in the air direction. In addition, by adjusting the height of the reservoir 5 with bolts, the gap between the nozzles 7 and the plates of the electrodes 8 can be reduced, which also contributes to an increase in the dispersion of the droplets. The arrangement in the housing of the grid 17 in the initial part of the housing 1 directs a portion of the air into the annular channel 18. This increases the circulation of air near the walls of the housing 1, as well as the air flow through the grid 17 to the central part of the housing 1. This contributes to the constant movement cayel from the chamber walls and the creation of additional vortices, which increases the efficiency of air humidification and ionization, and also eliminates the possibility of sticking of drops to j

hull walls. When grid 17 is connected to the pole of a high voltage source, the resulting ESM) is even more enlarged. When air escapes from the housing 1, the droplet separator 20 retains larger droplets. The required water level in the tank 5 is maintained with a float. In order to guarantee safe operation (to avoid short circuiting), the reservoir 5 is fed through the make-up tank 12 supplied from the pipeline 11 not by a jet, but by drops. The splitting of the jet into droplets is carried out by the sprinkler 13- Water at the beginning: falls on the conical separator 14, then drops into the cup-shaped vessel 15. and then on the ring 1b. Since the vessel 15 and the ring 16 have jagged, downward edges, this contributes to a more uniform formation of a plurality of droplets that fall down into the makeup tank 12. Installing the makeup tank 12 above the mixing chamber 21 provides air circulation in the zone of the tank 12, and therefore It is pre-moistened.

The proposed device improves the efficiency of humidification and ionization of air, and also allows energy savings by achieving complete evaporation of water.

Claims (4)

1. A device for heat and air treatment, comprising a housing with a pallet, inlet and outlet air nozzles, a tank mounted on the housing with cells having vertical metering nozzles inserted into the housing, two groups of electrodes connected to the voltage source, and the first group electrodes are plates and are located in front of the outlet ports of the metering nozzles, and make-up pipeline, characterized in that, in order to increase the efficiency of humidification and the degree of air ionization, the device additionally contains associated with a tank, a make-up tank with a water sprayer mounted in it, connected to a make-up pipeline, and electrodes of the second group are installed in the tank opposite the cells. 2. The device according to claim 1, wherein the water sprinkler is made in the form of a conical reflector, a cup-shaped vessel and a dish-shaped ring arranged one above the other, and the outer edges of the vessel and the ring are jagged. 3. The device GUP.1, differs from the fact that in the case there is a grid, which forms an annular channel with its walls. 4. The device according to claim 1, about tl and dosing in that the dosing nozzles have different diameters, decreasing along the air. Sources of information taken into account in the examination 1. USSR author's certificate tf, cl. f 2k f 3/1, 1976.  t l do SiiJjiTiiiir jitiijrt Tt ttg f P s; 15