SU1577860A1 - Sprayer - Google Patents

Abstract

The invention relates to a technique for spraying a liquid and can be used to prepare aerosols in humidification systems, air conditioning and the preparation of combustible mixtures in a power system. The goal is to increase the economy and quality of spraying. For this purpose, in a nebulizer of a porous mesh permeable to liquid and air, the elements are made in the form of parabolic convex bodies fixed on flanges with conical flanging, mounted one to another with bases to form an oval cavity between them. Calibrated holes are made on the conical flanging of the input grid. The atomizer is also provided with a collector installed between the flanges of the grids with openings for supplying additional liquid to the oval cavity. The sprayer can operate in two modes: low flow rate with ultrathin atomization and larger flow rate with less fine atomization, since The grids of a permeable element are not only oscillators, but also their hubs. 2 hp f-ly, 1 ill.

Description

The invention relates to a technique for the spraying of liquids and can be used for the preparation of aerosols in humidification and air conditioning systems, the chemical, food and medical industries, as well as for the preparation of combustible mixtures in thermal power engineering.

The aim of the invention is to improve the economy and quality of spraying.

The drawing schematically shows the sprayer, a longitudinal section.

The sprayer includes a housing 1 with an air inlet port 2 of confusable shape, means 3 for supplying

and pre-spraying the fluid, which can be any known device (centrifugal or jet forksAka, injector, etc.). In the housing 1 there is a discharge channel 4, and between it and the inlet pipe 2 a porous element 5 permeable to liquid and gas is installed packages of grids 6 and 7 connected to the source 8 of heat. The networks 6 and 7 are made in the form of two convex parabolic bodies, which can include one or several grids 6 and 7, fixed in flanges 9 with conical flanged stones 10, and forming an oval cavity between them

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11, Calibrated holes 12 are made on the conical flare 10 of the upper grid 6. Similar holes for unification can also be made on the flanges of the grid 7 Between the flanges 9 of grids 6 and 7, a collector 13 can be installed to supply additional liquid connected to the oval cavity 1 1 versts 140

In case the heat source is the case 1 itself (for example, using the proposed spray of bodies in the carburettor of an automobile engine), connecting the grids 6 and 7 to the heat source is achieved by making a developed contact surface of the flanges 9 with the case 1, Low-voltage power supply to grids 6 and 7, isolating them from housing 1 “Finally, if the grids 6 and 7 are double-layered, power can be supplied to collector 13 by a single-wire circuit, so that current flows from it through flanges 9 through the grid 6 and 7 on the hull 1 The sprayer works as follows

When the fluid is supplied, it is pre-sawn by means of 3 and irrigates the surface of the grids 6. acoustic oscillations, which lead to vibrations of grids 6 and 7 and to splitting from them even smaller drops.

Acoustic oscillations in the cavity 11 fractions of the remaining large drops

into small parts This biphasic mixture

partially passes through the grids 7 and enters the outlet channel 4. A larger fraction of the droplets settles on the grids 7 and undergoes a repeated crushing due to vibrations of the grids 7 and their blowing through a two-phase mixture. the amount that can be sprayed by blowing the mesh 6, it merges along the outer surface of the mesh 6 and falls into the annular gap between the nozzles 2 and the conical flange 10

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the flange 9 and under the action of the pressure drop on the grid 6 expire through the openings 12 into the cavity 11 in the form of jets, crushing in the cavity 11 into droplets under the action of acoustic vibrations. Thus, the sprayer can operate in two modes: low-consumption with ultra-thin sawing and larger consumption with a slightly coarser spray, however, significantly better than jet spray due to the supply of liquid jets into the oval cavity surrounding the grids 6 and 7 are not only oscillators, but also their hubs,

In the case of supplying to the collector 13 additional liquid to the main or even immiscible with the main one, its jets flowing into the cavity 1 through the holes 14 are ground into droplets and, after flowing through the grid 7, form a stable fine dispersion sprayed emulsion.

Claims (1)

Collector 13 can also be used to supply additional quantities of the primary fluid to be sprayed. The permeability of the grids is determined by the required flow rate of the fluid being cut and the pressure drop available for sawing along the air path. Invention Formula 1, an atomizer comprising a housing with an air inlet manifold, a means for supplying a liquid, and a porous element permeable to fluid and air permeable to the housing in the form of a mesh package connected to a heat source, characterized in that the grids are made in the form of parabolic convex bodies fixed on flanges with conical flanging, mounted to each other by bases with the formation of an oval cavity between them 2, Sprayer according to claim 1, about tl and - due to the fact that calibrated holes are made on the conical flange of the inlet grid, 3, The atomizer according to claims 1 and 2, of which is manifested so that it is equipped with a collector between the flanges of the grids and a manifold with openings for supplying additional fluid to the oval cavity.