RU65403U1 - AIR CLEANER-IONIZER - Google Patents

Abstract

The utility model is aimed at improving the quality of purification of ionized air and increasing the concentration of light negative oxygen ions of purified air at the outlet of the structure. The specified technical result is achieved in that the cleaner-ionizer of the air contains a rectangular housing (1) made of a dielectric material. On one of two opposite sides of the rectangular casing (1) on insulators (2), plate bases (3) of dielectric material are rigidly fixed, to each of which a flat strip (4) made of carbon fiber material is attached along its entire surface and acting as a corona electrode. On two other opposite sides of the rectangular casing (1) along their entire length in the central part, grooves (5) are made for installing a metal plate (6) parallel to the air flow, based on a contact (7) located in the lower part of the rectangular casing ( one). The metal plate (6) acts as a non-corona electrode. Plate corona (4) and non-corona (6) electrodes are installed parallel to the air flow and to each other. The upper end of the non-corona electrode (6) is located 1-10 cm below the upper ends of the corona electrodes 5. The metal plate (6), which acts as a non-corona electrode, is made of double-sided foil-coated dielectric material or of a material with double-sided metal spraying.

Description

The utility model relates to air purification from harmful impurities and air ionization and can be used in stationary rooms and other facilities.

A two-zone electrostatic precipitator is known, comprising an ionizer enclosed in a housing, consisting of corona and non-corona electrodes, a precipitator and a metal grid electrically connected to non-corona electrodes made of plate and mounted parallel to the air flow. The grid is installed in the ionizer from the precipitator side perpendicular to the air flow (RU 2144433, IPC ⁷ В03С 3/08, publ. 01.20.2000).

The disadvantages of the known solution are: low quality air purification, due to the fact that a corona discharge current source is used as a corona electrode, which creates its uneven distribution over the ionized air volume, and the density of this current in the center of the chamber is higher than at the periphery. This determines the uneven deposition of dust on the precipitation electrodes. The design of the known solution is complex, since it requires centering of the corona electrode. In addition, in the chamber with the corona electrode, additional non-corona electrodes and a metal mesh were introduced, on which dust will settle during operation of the device, which will predetermine a periodic additional cleaning operation of these structural elements. The low degree of concentration of light negative air ions of oxygen at the exit, due to the fact that, arising in the first chamber when passing through a metal grid under the positive potential, and the volume of the second chamber with precipitation electrodes, which are also under the positive potential, extended along the path

their movement at the outlet, their concentration decreases significantly. Moreover, to improve the quality of air purification requires an increase in the length of the precipitation electrodes placed in the second chamber. This condition determines an even greater decrease in the concentration of light negative oxygen ions of oxygen purified air at the outlet of the known design of the purifier.

The technical result consists in improving the quality of purification of ionized air and increasing the concentration of light negative oxygen ions of purified air at the outlet of the structure.

The technical result is achieved in that the cleaner-ionizer of the air contains two corona and non-corona plate electrodes, which are installed in a rectangular casing made of dielectric material, parallel to the air flow. On one of the two opposite sides of the rectangular case, plate-like bases of dielectric material are rigidly fixed to the insulators, to each of which a flat strip of carbon fiber material, which acts as the corona electrode, is attached along its entire surface, and on the other two opposite sides of the case along their entire length in the middle part, grooves are made for installing a metal plate that acts as a non-corona electrode and rests on It acts on the bottom of the rectangular case. The corona and non-corona electrodes are parallel to each other. The upper end of the non-corona electrode is 1-10 cm below the upper ends of the plate corona electrodes. The metal plate, which acts as a non-corona electrode, is made of double-sided foil-coated dielectric material or of a material with double-sided metal spraying.

The location of the upper end of the non-corona electrode 1-10 cm below the upper ends of the plate corona electrodes is necessary

in order to change the direction of the electric field at the output of the system. In this case, the outflow of electrons into the passage zone of the output air stream occurs mainly from the upper ends of the corona electrodes made of fibrous carbon material, which leads to an increase in the concentration of negative aero ions at the output of the system. Moreover, the greater the distance of the upper ends of the corona electrodes from the upper end of the non-corona electrode, the higher the concentration of negative air ions. However, an increase in this distance over 10 cm does not lead to a significant increase in the concentration of negative air ions.

Figure 1 presents the cleaner-ionizer air containing a rectangular housing 1 made of a dielectric material. On one of the two opposite sides of the rectangular housing 1, on insulators 2, plate bases 3 of dielectric material are rigidly fixed, to each of which a flat strip 4 made of carbon fiber material and acting as a corona electrode is attached along its entire surface. On two other opposite sides of the rectangular housing 1 along their entire length in the central part, grooves 5 are made for mounting a metal plate 6, supported by a contact 7 located in the lower part of the rectangular housing 1, parallel to the air flow. The metal plate 6 acts as a non-corona electrode . Lamellar corona 4 and non-corona 6 electrodes are installed parallel to the air flow and to each other. The upper end of the non-corona electrode 6 is located 1-10 cm below the upper ends of the corona electrodes 5. The metal plate 6, which acts as a non-corona electrode, can be made of double-sided foil-coated dielectric material or of a material with double-sided metal spraying.

The device operates as follows. A high DC voltage is applied to the electrode system from an external source. In this case, a negative potential is supplied to the corona electrodes 4, and a positive potential is supplied to the non-corona precipitating electrode 6. When blast air with dust and smoke is supplied to the discharge zone of the electrode system, their particles are charged and, under the influence of the high intensity of the constant field formed between the electrodes, settle on the surfaces of the non-corona electrode 6 along its length. At the outlet, the oxygen of the purified air is additionally negatively ionized due to the high constant field strength arising at the upper ends of the corona electrodes 4 made of carbon fiber material, which has an increased ability to emit electrons into the air. To clean the non-corona electrode 6 from dust and other deposited components of the blast air, it can easily be removed from the structure.

Compared with the known solution, the proposed one allows to increase the quality of air purification by creating a more uniform distribution of the intense electric field in the discharge system and a high ability to emit electrons of the fibrous carbon material of the corona electrodes, and also to increase the concentration of light negative oxygen ions of the purified air at the outlet of the structure.

Claims (2)

1. A cleaner-ionizer of air, comprising a housing in which are located the corona and non-corona plate electrodes mounted parallel to the air flow, characterized in that on one of the two opposite sides of the rectangular case made of dielectric material, plate-type insulators are rigidly fixed basics of dielectric material, to each of which a flat strip is attached over its entire surface, made of carbon fiber material and in fulfilling the role of the corona electrode, and on two other oppositely located sides of the rectangular case along their entire length in the central part, grooves are made for installing a metal plate that acts as a non-corona electrode and relies on a contact located in the lower part of the rectangular case, while the plate corona and non-corona the electrodes are parallel to each other, and the upper end of the non-corona electrode is 1-10 cm below the upper ends of the plate corona x electrodes. 2. The air ionizer-cleaner according to claim 1, characterized in that the metal plate acting as a non-corona electrode is made of double-sided foil-coated dielectric material or of a material with double-sided metal spraying.