RU2087808C1 - Plenum recirculating air distributor-humidifier - Google Patents

Abstract

FIELD: ventilation and air-conditioning systems. SUBSTANCE: plenum recirculating air distributor-humidifier includes detachable housing with water supply pipe line which is provided with automatic valve connected with moisture content sensor, nozzle panel with taper nozzles located in upper portion of apparatus, recirculating ports through which inside air of room is ejected. EFFECT: enhanced efficiency. 2 dwg

Description

 Designed for industrial use in microclimate and ventilation systems of buildings and structures.

 Known supply air distributor-humidifier containing a detachable housing with a pallet, a water supply pipe with valves, a pipe for venting air with cassettes placed in them.

 This unit is effective when you do not need a large amount of recirculated air taken by the unit from the upper zone. This invention is closest to the proposed.

 The objective of the invention is to provide energy savings in microclimate systems by using the device PRVU, allowing you to effectively suck in the heated air from the room and mix it in the device with cold supply air. Thus, the process of recirculation of the internal air. Using the possibility of significant recirculation from the upper zone (up to 40%) gives significant heat savings in the winter.

 In Fig.1 shows a longitudinal section of the apparatus of the device; figure 2 section aa in figure 1.

 The design of the device PRVU is a cabinet, housing 1 of which is divided into several compartments. The device is connected to the main duct through the flange 3, where the gate 16 is installed.

The supply air in the amount of L _H will enter through the supply air duct 8, the supply pipe 18 to the conical nozzles 2 fixed in the nozzle panel 4. The conical nozzles 2 have a height equal to the height of the recirculation windows 19. Structurally, the nozzle panel 4 is arranged to move to position 1a or 1b. The density of all 4 cassettes increases from top to bottom. The packing material 11 is selected non-hygroscopic, because if hygroscopic material is used, a uniform air outlet cannot be ensured. The pipe 6 through the control valve 9 and the pipe 9 in the upper tray 10 is supplied with water. Trays 10 are located above each cartridge, i.e. there are only 4 of them. The tray is a rectangular case 14 with holes in the bottom. Plastic sleeves 15 are inserted into the holes, filled with a cotton tow 13, with which a uniform drip water supply to the packing is ensured.

After filling the tray with water to a level of h ₂ <h _{1, the} tow 13 is wetted and water begins to flow into the sleeve 15 and, thanks to the capillary structure of the tow material, flows to the cassette packing material 11. The non-evaporated part of the water enters the stream below. And the process is repeated until the lowest cassette, where there is a complete evaporation of water.

 In addition, in connection with the installation of the nozzle 2, the upper part of the apparatus operates as follows.

A vacuum is created around the nozzles, due to which the internal air is ejected and mixed with the external inside the device. The resulting mixture of L _n + L _in due to uneven filling in density from bottom to top goes into the room with a uniform flow. The amount of water is regulated due to the electrical connection between the humidity sensor 7 and the control valve 9.

 The amount of air is regulated by the gate 16, which has a design in the form of a perforated plate with a perforation coefficient K = 0.4-0.7. The front panel of the housing is closed with decorative louvres 18, which improves the aesthetic appearance of the product and contributes to the flow of air with uniform speed into the working area. The upper compartment of the PRVU apparatus has recirculation windows 19.

 The supply air enters through the supply air duct 8, the supply pipe 18 to the nozzles 2, mounted in the nozzle panel 4. The nozzles have a height equal to or less than the height of the recirculation windows 19. Structurally, the nozzle panel 4 is configured to move to position 1a or 1b.

 The device PRVU works as follows.

In the cold season, to save heat for heating the supply air L _n it is fed through the supply air duct 8 to the receiving pipe 18 with a low temperature. To eliminate temperature discomfort, the nozzle panel 4 is manually moved to the position in FIG. 1a and the entire supply air L _n passes through the nozzle 2. After a recirculation opening 19 open from the upper inner flat zone of the warm air is ejected _to L, to fall into the lower compartment PRVU apparatus and mixed with supply air, whereby the temperature of the mixture rises above the supply air temperature.

In the transition period of the year (for example, at a temperature of T≥5 ^o C), the supply air is supplied without heat consumption. At the same time, in the housing 1 at the corners 21, the nozzle panel 4 with nozzles 2 moves to the position in Fig. 1b, at which the joints 20 of the nozzle panel 4 overlap the recirculation holes 19.

 In the summer season, the supply air is supplied according to the scheme in figb and cooled in heat exchangers.

Claims (1)

 A supply and recirculation air distributor-humidifier comprising a detachable case with a tray, a water supply pipe with an automatic valve installed on it, connected to a humidity control sensor, a pipe for venting air with cassettes placed in it, characterized in that it further comprises a panel with conical nozzles, placed in the upper part of the housing having recirculation openings of a size equal to or smaller than the surface size of the walls of the nozzle panel mounted on the direction to change the position of the panel with nozzles with respect to the cross section of the receiving pipe and recirculation openings, while the cartridges are filled with a non-hygroscopic material packing and equipped with trays with fittings in the bottom filled with hygroscopic material, the casing is equipped with a decorative louvre grille and a gate is installed in the receiving pipe having the form of a perforated plate with a perforation coefficient K 0.4 0.7.

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