SU1040288A1 - Air humidifying device - Google Patents

Abstract

MOUNTING DEVICE -. AIR, containing a duct, a fan and a pallet filled with liquid, adjacent to the lower part of the duct and communicated with it by means of transverse slots, in which pivoting flaps are installed, with the power supply located in the section of Aerodynamic resistance is established from the duct, which is distinguished by the fact that, in order to increase the range of regulation of air humidification, it is equipped with perforated piping with a regulating an elephant located in the upper part, and dynamic dynamic resistance is performed as a cylindrical body located coaxially with an air duct, equipped with a fairing at the outer end and with a concave reflector placed in it with the possibility of axial movement; by means of (holes, made on the side Q of the latter with the possibility of 5E. overlap them with a reflector. 1C sh 00

Description

The invention relates to air conditioning technology. A device for humidifying air is known, comprising a duct, a fan and a pallet filled with liquid adjacent to the lower part of the duct and communicated with it by means of transverse slots in which rotary doors are installed, the fan being located duct between these slots and an aerodynamic resistance of Cl 3 is installed at the outlet of the duct. A disadvantage of the known device is the small range of humidification control. This is due to the inability to change a significant amount of air passing through the pallet. The purpose of the invention is to increase the range of regulation of air humidification. This goal is achieved by the fact that a device for humidifying air, containing a duct, a fan, and a sump filled with liquid, is waiting for the bottom hour. These air ducts and their value with cross-purposes, in which. rotary valves are installed, the fan is located in the duct between the gaps, and the aerodynamic drag is installed at the exit of the duct, provided with perforated 7rub located in the liquid of the pallet with an adjusting flap located in it. the upper part, and the aerodynamic drag is made in the form of a cylindrical body located coaxially with the duct, fitted with a body at the outer end of the body, and placed in it with the possibility of moving it inwards. The first reflector, with the perforations 1G-Fg, the t-th pipeline is connected to the internal cavity of the cylindrical body. Through the holes made on the lateral surface of the latter, with the possibility of blocking them with a reflector. FIG. 1 shows the principal .. on the device diagram, side view, radius, on the fin. 2 - section A-A in FIG. 1 The device comprises an air duct 1, a valve tor2- and a pallet 3, filled) adjoining the lower part with liquid) and 1 and communicated with it through the air duct using transverse slots 4 and 5, in which rotary flaps 6 and 7. Fan 2 is located in duct 1 between slots 4 and 5, and aerodynamic resistance 8 is installed at the exit of duct 1 8. The device is equipped with perforated pipeline 9 placed in the liquid of pallet 3 with regulating flap 10 located BO of its upper part. The aerodynamic resistance 8 is made in the form of a coaxial body of a cylindrical body 11 located with the air duct 1, provided with a fairing 12 at the outer end, and with an axial movement bent around it 13 axially. The perforated conduit 9 communicates with the internal cavity 14 of the cylindrical body 11 through holes 15 made on the side surface of the latter, with the possibility of blocking them with the reflector 13. The concave reflector 13 has a guide sleeve 16 in contact with the internal cavity w 14 of the cylindrical body 11. The reflector 13 can be moved along the longitudinal axis of the duct 1 by means of a screw. drive 17. The system of holes 15 is blocked by a casing 18 of the perforated pipeline 9. A heater (not shown) may be located in the tray 3. The device works as follows. Fan 2 draws air into duct 1 and supplies it to the consumer. Part of the air from the discharge side of the fan 2 due to the presence of aerodynamic resistance 8 at the outlet of the duct 1 through the slit 4 into the pan 3 filled with liquid (water). Passing over the water, the air is humidified, enters through the slit 5 into all-. the side of the fan 2 and mixing ,. sewn with air passing jiepes; air duct 1. The flaps b and 7 serve to regulate the amount of air supplied for humidification, by moving the rotary spruce 13 with the ATTACHMENT drive 17 along the length of the cylindrical body 11, partially or fully opening the inlet guide 16; holes .15 in the perforated pipe 4; pipe 9. In this case, part of the air coming from the pressure head 1,. 1 | the i-downline of the fan 2 is guided by the reflector 13 through the holes .15, the perforation of the pipeline 9 into the water, from which it comes out in the form of bubbles, trapping the moisture particles and increasing the area of the contact air from the slit 4 to the spruce 5 with water due to boiling. This significantly increases the usefulness of the treated air. Thus, the airflow can be adjusted by turning .4hwok 6 and 7, damper 10, displacement of the reflector 13 and the ode heater (not shown).

The advantage of the proposed device is an increase in the humidity control range of the treated air, which significantly increases the efficiency of its use in air conditioning systems

Claims (1)

A device for humidification of air, containing an air duct, a fan and a tray filled with liquid, adjacent to the lower part of the air duct and communicated with it by means of transverse slots, into which the rotary flaps are installed, and the vetilator is located in the air duct in the area between these slots, and at the outlet the air duct has been installed aerodynamically so that, in order to increase the range of regulation of air humidification, it is equipped with perforated piping located in the fluid of the sump ood with a control flap located in the upper part βςρ, and the aerodynamic drag is satisfied ^! in the form of a cylindrical body located coaxially with the air duct, provided with a fairing from the outer end, and with a concave reflector placed with the possibility of axial movement, the perforated pipeline communicating with the inner / cavity of the cylindrical body through holes made on the lateral q surface of the latter with possible-. остью * * ί L ^a r / Λ 1 2 I * oo 00 oo '1040288