CS243442B1 - Aerosol's generator - Google Patents

Abstract

The solution relates to an aerosol generator > liquid and pressurized gas. In working · space of this generator provided aerosol withdrawal pad is above the surface ripped liquid sprayer do nšhoi je soudasni sadatana working supply a tube connected through the main regulating valve with external compressed gas supply and melted the ascending tube, intersecting others ending under the surface of the dusted liquid in the space of space. The essence of the invention lies in toa, ls workspace is arranged on the lid of the saucotum liquid that is above the highest liquid level waste ··, ka ktsréau ja aouSaanš attached Waste pressure and waste control valve, add! the lid penetrated the riser truihea and datel ejector, arranged at the bottom end of the feed tubes, they go through the workspace and the associated flask valve with external compressed gas equipment.

Description

(54) Aerosol generator

The solution ae relates to an aerosol generator> liquid and pressurized gas. In the working space of this generator, provided with an aerosol discharge port, a sprayer is disposed above the surface of the rosprayed liquid, into which a working supply tube is connected through a main control valve to an external pressurized gas source, and melted upwardly extending tubes. below the level of the sputtered liquid in the sohothia space. The essence of the invention lies in the fact that the working space is arranged on the lid of the liquid isotrope, which is provided with waste above the highest level of the liquid supply, to which the waste pressure gauge and the waste control valve are connected. the lid of the riser and the ejector, arranged at the lower end of the lateral lance, passed through the outside of the working space and connected to the other pressure regulator valve with an external pressurized gas source.

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243442 2

The invention relates to an aeroeole generator of a liquid and a pressurized gas.

In order to counteract the efficacy of the filter materials, it is necessary to generate test aerosols, namely the aerosols required by the dleperslty and the concentration with guaranteed production of laoate. You can reach various types of aeroeole generators.

A simple jeé generators that rospraáá liquid liquid gas. The decisive variables for the formation of the ooroeole are the designation of the atomiser, the gas pressure, the liquid pressure, the viscosity of the liquid, and hence its temperature for the liquid.

Due to the tone, according to the design of the sprayer, only 0.1 to 0.5 * liquid spray is formed · aerosol, other spray liquid · just flows and does not spray well enough, all the existing construction one common fuzzsplovers is the result of its output into a working space of a generator that is simultaneously 1 fluid reservoir space.

An aerosol is drawn from this space above the liquid level through the aeroeol outlet to the test dilution. This space is temoetetet in order to prevent the minus temperature to prevent the liquid viscosity and the viscosity.

Such a statement does not make it possible to regulate the pressure of the liquid into the nozzle and at the same time the pressure increase of the liquid can increase the concentration of the aeroeol by its public dispersion composition. Increasing aerosol concentration is a great desire, and the applicability of these simple generators is considerable on the appearance of low to the concentration.

These disadvantages are eliminated by the aeroeol generator, in its working space provided with an aerosol discharge outlet above the level of the liquid to be sprayed, which enters the outlet into the space.

A working supply tube is connected to the sprayer via a main regulating valve and external pressurized gas sources, as well as a rising tube reaching the other ends below the level of the liquid to be sprayed in the storage space, which is preferably ternoatized.

According to the invention, the working space is arranged on the lid of the liquid reservoir, which is provided above the highest level of the liquid reservoir with waste, to which a waste pressure gauge is simultaneously connected with a waste control valve.

The intake of the fluid reservoir cap extends through the ejector tube 1 of the ejector mouth, disposed at the lower end of the auxiliary lance, extending externally to the working space and connected via an auxiliary control valve straight to the external source of pressurized gas.

An advantage of the aerosol generator according to the invention is that the space into which the spray nozzle opens, is spaced from the space from which the spray nozzle sucks. It is thus possible to adjust any gas over pressure in the liquid reservoir by the required liquid pressure.

An advantage of the present invention is that the pressurized gas into the liquid reservoir is passed through an ejector, its suction is in the process space into which the sparger opens, and this gas flow also serves to transport excess liquid from this space back to the liquid reservoir. .

The ejector is structurally designed to convey non-axial fluid non-irrespective of the spreading quality. Liquid circulation not consumed for ooroeol production, which is 99.5 o * 99.9 * fluid flow through the spray nozzle, flow is closed, as is the case with simple aerosol generators operating on the principle of pressure gas jetting but pressure the fluids entering the burner are controllable. The generator is, of course, suitable for thermostetting to avoid changing the viscosity of the liquid.

Liquid Pressure It is possible to regulate the overpressure, which is sufficient to achieve the stability of operation, which in previous generators has been influenced by changing rooms of aerosol pressure on a single liquid depending on the resistance, to which the aerosol and generator were delivered.

The main advantage is an increase in the aerosol concentration, which increases with increasing pressure of the liquid entering the sparger.

An exemplary embodiment of the invention is shown in cross-section in the accompanying drawing.

The fluid level in the work space 10 provided with the aerosol outlet orifice 5 in the conventional arrangement of the nozzles 8 results in an outlet into this space. The top of the riser is printed on the working supply tube 13 and the riser tube 60 from below.

The working space 10 is arranged on the cover 8 of the liquid reservoir 4, which is provided with a waste 15 above the highest level of the liquid supply, to which a waste pressure gauge 4 and a waste control valve 6 for regulating the waste gas pressure are connected.

A riser tube 60 extends through the lid 11, extending from the lower end to each bottom of the liquid container 6 provided with an illustration of terebellation. Externally into the working space 10, in addition to the working supply tube 13, there is also an auxiliary supply tube 8, which is provided, at its lower end, with an ejector 2, the mouth of which passes through a wolf 11 into the liquid container 6.

The inlet and non-external external pressure gas means are connected simultaneously via the main control valve 6 to the working supply tube 13, the gas pressure being directed with the main control valve 6 through the inlet pressure gauge 6, and also via the auxiliary control valve 6 to the auxiliary supply tube 14.

In the operation of the aerosol generator according to the invention, the pressurized gas and liquid entraining the incinerator 6, the aerosol which is discharged through the nozzle 6, penetrates the bulk of the liquid film and at the bottom of the working space 10 formed by the liquid lid.

From there it is entrained by the ejector 6 together with the gas which is fed to the ejector 6 via the auxiliary supply tube 14 back to the liquid reservoir 6. The gas pressure above the level in the liquid reservoir 6 determines the amount of liquid conveyed by the riser 12 to the sparger 8 and the concentration of aerosol generated.

This pressure is regulated in the waste 15 by the waste pressure gauge 8b by the relative position of the auxiliary control valve 6 and the waste control valve 6.

Claims (1)

FfiXDMlT V T H £ LB Z V An aerosol generator having an aerosol discharge orifice above the surface of the rosprayed liquid, wherein an aerosol generator, at the same time having a working supply pipe and a connection via a main control valve and externally with a pressurized gas apparatus, melt the atoupaei tube reaching the other end below The liquid in the cavity compartment, which is preferably a pressure shield, a shade, and a working space (10), is arranged on the lid (11) of the liquid reservoir (3) which is disposed above the highest level and the liquid. at the same time the waste pressure gauge (8) and the waste control valve (6) are connected, the cover crossover (11) passes through the riser tube (12) and ejector data (2) arranged at the lower end of the submerged supply tube (14) and connected via a submerged control valve (5) to an external source gas.