RU79785U1 - HYDROAEROIONISOR - Google Patents

Abstract

Hydroaeroionizer refers to devices of medical and household appliances and is intended to improve the aeroionic composition of indoor air. The device comprises a bowl-shaped vessel of dielectric material filled with water, and two metal electrodes. One of them in the form of a circle is located at the bottom of the vessel. Another electrode in the form of a ring is located around the perimeter of the surface of the water and partially immersed in it. Both electrodes are connected to one pole of the charging device. At the bottom electrode there is an air bubble generator made of finely porous ceramic material connected to a compressor with adjustable air pressure. New solutions implemented in the hydroaeroionizer simplify the design and allow you to effectively control the concentration in the air of the hydroaeroions formed during its bubbling and the magnitude of the electric charges on them.

Description

A new useful device relates to medical and household appliances and is intended to improve the aeroionic composition of indoor air.

Usually, in hydroaeroionizers, an artificial reproduction of the effect observed in natural conditions near waterfalls, on the banks of mountain rivers, during the surf of sea waves is carried out - the formation of hydroaeroions due to mechanical crushing of water particles (balloelectric effect), accompanied by an increased concentration of hydroaeroions of one or another sign. The processes of formation of hydroaeroions of different signs, their concentration in the resulting aerosol in such hydroaeroionizers are little controlled. Therefore, the use of water sparging in combination with the electrification of its surface is important, which makes the formation of hydroaero ions in aerosols more controlled.

A device for hydroaeroionization GI-59, which uses the effect of the formation of hydroaeroions due to mechanical crushing of water particles, is known. In it, water from a rotating cone is thrown to a spray bottle, where it is crushed into tiny drops. In this case, hydroaero ions are formed, which are carried out by the air flow from the device through the outlet openings. A device using a high-speed electric motor generates noise and significantly increases air humidity. The concentration of negative and positive hydroaero ions cannot be controlled. ("Aeroionization and hydroaeroionization in medicine." Materials of the All-Union Conference on Aero and Hydroaeroionization, Tashkent, May 25-29, 1960 Tashkent-1962, p. 279).

An analysis of the processes occurring in the device based on the balloelectric effect showed that the polarity and concentration of hydroaero ions in the aerosol formed are highly dependent on the type of sprayed substances and their concentration in solutions, and these indicators can be controlled in a more rational way.

New solutions implemented in the hydroaeroionizer eliminate the disadvantages of the above device, simplify the design, and allow you to effectively control the properties of the resulting aerosol: the concentration of hydroaeroions in the air and the magnitude of the electric charges on them.

The composition of the device (Fig. 1) includes a bowl-shaped vessel 1 made of a dielectric material filled with water or a solution. A metal electrode 2 in the form of a circle is located at the bottom of the vessel, and another electrode 3 in the form of a ring is located around the perimeter of the water surface and partially immersed in it. Both electrodes

connected by a conductor 4 and connected to the pole of a controlled charging device. An air bubble generator 5 made of finely porous ceramic material is located on the bottom electrode 2 and is connected by a tube 6 to a compressor with an adjustable air pressure. The technical result of the invention is the formation in the surrounding space of an aerosol consisting of very small charged drops of water.

To do this, the device uses the principle - the ejection of small drops of water during its bubbling and their entrainment of electric charges from its charged surface.

This is achieved by arranging at the bottom of the vessel 1 a metal electrode 2 connected to the corresponding pole of the charger in combination with the bubbling of water in the vessel. When bubbling, air bubbles 9 from the generator 5 float to the surface of the liquid 8, where hemispherical surfaces from a thin water film arise. With their spontaneous destruction, the formation of small drops of water 10 and their release above the surface of the liquid. The signs of the charges on the surface 8 of the liquid and drops 10 coincide with the sign of the potential supplied to the electrodes 2 and 3. Therefore, the charged drops of water repel from the surface of the water and fly away further.

The ring-shaped shape of the electrode 3 contributes to the concentration of electric charges on the surface of the liquid in its central part, where the discharge of charged drops mainly occurs.

Controlling the properties of the aerosol generated, i.e. the concentration of charged water droplets in the air, the sign and the magnitude of their electric charge during operation of the device is achieved by choosing the air pressure generated by the compressor, which determines the intensity of formation of air bubbles in the liquid and drops above its surface, as well as the magnitude and sign of the potential supplied to the electrodes 2 and 3. By changing the magnitude and sign of this potential, it is possible to change the electrical properties of the aerosol formed.

Claims (1)

A device for hydroaeroionization, containing a bowl-shaped vessel of dielectric material filled with water, two metal electrodes connected by a conductor and connected to one pole of a controlled charging device, one of which is in the form of a circle located at the bottom of the vessel, the other electrode in the form of a ring is located around the perimeter of the water surface and partially immersed in it, an air bubble generator of finely porous ceramic material is located on the bottom electrode, to which air is supplied from the compressor with uliruemym pressure.