SU1197746A2 - Generator of finely-dispersed aerosol - Google Patents

Abstract

1. GENERATOR OF HIGH-DISPERSED AEROSOLS on avt.ev. No. 1100007, characterized in that, in order to increase productivity without additional energy, each nozzle is provided with a hollow nozzle mounted coaxially with an annular cavity formed with the outlet nozzle and provided with openings for communication of the annular cavity with the atmosphere. 2. The generator according to claim 1, wherein each nozzle is made toroidal and mounted in a pivot bearing. (O (L ch1 lu

Description

The invention relates to devices for producing highly dispersed aerosols, can be used for aerogenic vaccination, inhalation chemotherapy, as well as in chemical, microbiological and other industries, and is in addition to auth. No. 1100007. The aim of the invention is to increase productivity without additional energy. The drawing shows a highly dispersed, aerosol generator, a general view with a slit. - The highly dispersed aerosol generator contains a cylindrical cutter 1, the lower part of which is filled with liquid, with an outlet 2 located in its upper part along the axis, and installed in windows on the side surface of the reservoir 1 of the nozzle 3 with pipelines 4 and 5 fluid supply and gas Nozzles 3 are installed with the possibility of rotation on the hinge support 6 and are provided with clamps of their position (not shown). Each nozzle 3 is provided with floors with a nozzle 7, installed co-axially with the formation of an annular cavity 9 with an outlet FLOOR 8 and made with openings 10 to connect an annular cavity 9 with the atmosphere. . Each nozzle 7 is made of a long-range tor and is installed in a hinged support 6. The generator of highly dispersed aerosols works as follows. Gas from the supply system (not shown) flows through the pipe 5 to the nozzles 3, sucks the liquid through the pipe 4 and sprays it into the tank 1. Due to the kinetic energy of the outgoing gas-liquid plume, acoustic oscillations are generated in the annular cavity 9 and additional air is sucked through the holes 10 atmospheric air. Large droplets entering tank 1 are deposited in it, and small droplets are picked up by the upward flow and carried away through the outlet nozzle 2. The generator capacity is mainly determined by the flow rate in nozzle 2. Since this speed depends on the flow rate of gas entering the tank 1, Then the additional air intake through the hole 10 leads to an increase in productivity without additional energy consumption. In addition, with the imposition of acoustic oscillations in the cavity 9, the dispersion characteristics are improved and the nozzle plume length is reduced, which reduces the coagulation process of the carried out small droplets when exposed to the inner surface of the reservoir 1. Experimental studies of a prototype aerosol generator have shown that an annular cavity communicated with the external medium when supplying compressed air under a pressure of 0.25 MPa increases the generator capacity by 2 times without deterioration Disperse characteristics of aerosol. The proposed generator as compared to the base generator provides an increase in productivity without additional energy costs, and also allows the use of high-pressure nozzles with a higher spray quality.

Claims (2)

1. GENERATOR OF HIGH-DISPERSED AEROSOLS pr avt.sv. No. 1100007, characterized in that, in order to increase productivity without additional energy costs, each nozzle is equipped with a hollow nozzle mounted coaxially with it to form an exit nozzle of the annular cavity and made with holes for communicating the annular cavity with the atmosphere. 2. The generator according to claim 1, characterized in that each nozzle is made toroidal and mounted in a hinged support. q to 1 1197746