RU2383393C1 - Electric filter - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: proposed electric filter comprises cylindrical housing, precipitation corona-forming electrodes, ultrasound oscillation generator and dust collecting bin. Purified gas discharge housing is made from isolating material. Precipitation electrodes are made from metal screen, corona-forming electrodes are made from a set of metal arc-like plates furnished with corona-forming needles arranged on their both sides. Corona-forming and precipitation electrodes are fitted in the housing layer by layer. Ultrasound oscillation generator is arranged level with top part of precipitation and corona-forming electrodes and jointed therewith with the help of metal hose.

EFFECT: higher quality and rate, increased concentration of light negative aeroions in inside air, higher quality of dust removal from electrodes.

3 dwg

Description

The invention relates to techniques for electrical cleaning of industrial air from dust and can be used in the metallurgical, chemical, cement industries, agriculture and a number of other industries, as well as to create the optimal aeroionic composition in residential and industrial premises.

A two-zone electrostatic precipitator is known (USSR AS No. 273162, MPK V03C 3/12, 1968) for air purification, containing an ionizer, a precipitator, nozzles and a sludge collector, moreover, the precipitator is made in the form of two coaxially arranged slotted cylindrical electrodes assembled at the end and assembled from vertically grooved elements.

The disadvantage of this electrostatic precipitator is the low ability to ionize gases, due to the unsuccessful location of the precipitation and corona electrodes, which significantly reduces the efficiency of cleaning the air stream.

Known electrostatic precipitator (RF patent No. 2333041, IPC V03C 3/06, 2006) for air purification, containing cylindrical precipitation and corona electrodes, which are located radially in the casing, alternately with a subsequent increase in diameter to the casing, and have the form of a metal mesh, and the corona electrodes have corona needles located on opposite sides of the electrode.

The disadvantage of this electrostatic precipitator is the limited possibility of increasing the intensification of gas purification due to the impossibility of dust particles having a higher charge due to the peculiarities of the location of the corona electrodes, as well as the inefficient removal of dust using a shaking mechanism.

The technical task is to increase the quality and speed of cleaning dusty air, increase the concentration of light negative aeroins in the room air, improve the quality of dust removal from electrodes due to ultrasonic vibrational vibrations.

The technical result is achieved by the fact that, in contrast to the prototype, the electrostatic precipitator contains a housing, sedimentation and corona electrodes, moreover, the corona electrodes are made in the form of sets of metal arcuate plates with corona needles placed on two opposite sides, and the corona electrodes are located in layers in the casing, with an increase the linear dimensions of the plates towards the body, alternating in the direction of gas flow, moreover, the electrostatic precipitator is equipped with an ultrasonic vibrator s oscillations.

Figure 1 presents a General view of the electrostatic precipitator. Figure 2 shows a section aa in figure 1. Figure 3 shows the enlarged area of figure 1.

The electrostatic precipitator contains corona electrodes 1, made in the form of sets of metal, for example copper, arcuate plates, with corona needles 2 placed on them from two opposite sides.

Cylindrical precipitation electrodes 3 are made in the form of a metal mesh, for example, copper. Precipitation electrodes 3 are located in the housing radially, alternately. The corona electrodes 1 are located in the housing 4 in layers, with an increase in the linear dimensions of the plates towards the housing, alternating in the direction of gas flow. The housing 4 is made of an insulating material, for example a plastic mesh, through which the purified gas comes out 5. An ultrasonic vibrating oscillator 6 is located in the upper part of the precipitation 3 and corona electrodes 1 and connected to them by a metal hose 7. A dust collecting hopper 8 is located in the lower part of the electrodes, and the input shaft 9 is located in the upper part of the electrostatic precipitator, through which the dusty gas 10 enters.

The device operates as follows. Dusty gas 10 enters the input shaft 9, falling on the corona electrodes 1 located closer to the center of the electrostatic precipitator. When passing gas 10 with suspended dust particles through the interelectrode space of the arcuate plate-shaped corona electrodes, the dust particles acquire a negative charge, move in the direction of gas flow to the precipitation electrodes 3 and, under the influence of an electric field, are deposited on positively charged precipitation electrodes 3. The dust particles acquire a negative charge when using corona needles 2, from which the electrons converge in the direction perpendicular to the flow of motion r for. With the passage of gas through the levels of alternately arranged cylindrical depositional 3 and arcuate plate-shaped corona electrodes 1 in the direction of the housing, a dusty gas is gradually cleaned. Next, the purified gas leaves through a plastic casing 4. Dust deposited on the precipitation and partially on the corona electrodes is removed into the dust collecting hopper 8 using an ultrasonic vibrations oscillator 6, which propagates vibrations to the precipitation 3 and corona 1 electrodes through the metal sleeve 8.

Due to the use of arcuate plate-shaped corona electrodes 1 containing corona needles located on both sides of the electrode, it is possible to inform the dust particles of a significantly greater charge, which will allow for improved deposition of the dust particles. The alternating direction of flow in the corona electrodes provokes the appearance of vortex flows and, consequently, the appearance of centrifugal forces in the dust particles, which also improves the separation and deposition of dust particles on the precipitation electrodes, which in turn allows improving the quality of dusty air cleaning.

The use of a vibration generator of ultrasonic vibrations 6 can improve the quality of dust removal from the precipitation electrodes.

The device serves both for cleaning and ionizing dusty gases and can be easily implemented in all industries, agriculture and the domestic sphere.

Claims (1)

An electrostatic precipitator comprising a housing and grid-shaped collecting electrodes, corona electrodes provided with corona needles on both sides, characterized in that the corona electrodes are made in the form of sets of metal arcuate plates, which are layered in the housing layer by layer with increasing linear dimensions of the plates towards the housing, the electrostatic precipitator is equipped with a vibratory generator of ultrasonic vibrations, which is located in the upper part of the precipitation and corona electrodes and is connected to them using a meta lorukava.

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