KR102126953B1 - Device and Method of cleaning of an Electric Precipitator Plates using Dielectrophoresis - Google Patents

Abstract

The present invention is a technique for automatic cleaning of the electrode plate for dust collection that occurs during the process of operating an electrostatic precipitator of a dielectrophoresis method to purify contaminated air such as oil, steam, and fine dust. The present invention relates to an air purifier that reduces maintenance costs of electrode plate cleaning and maintains a high efficiency dust collecting performance state by easily implementing a function capable of selective local electrode plate cleaning.

Description

Device and method of cleaning of an electric precipitator plates using dielectrophoresis}

The present invention relates to a method for drastically improving filters and filter replacement cycles that are essential for electric dust collectors and air purifiers frequently used in real life to improve indoor and outdoor air quality contaminated with oil, steam, and fine dust.

In the conventional general air purifier, as shown in FIG. 1, the filter that filters fine dust among the multiple filters is mainly responsible for the filter. The better the collection efficiency due to the characteristics of the filtration type filter, the faster the filter becomes clogged and the decompression occurs severely. Due to the large pressure loss, the power consumption increases. In addition, the replacement cycle of the filter becomes faster, which leads to the hassle of maintenance and increases the maintenance cost.

In addition, in the case of an electric air purifier equipped with a conventional ion generating device, it is composed of a single-pole ionization unit and a dust collection unit as shown in FIG. 2, and this method attaches fine dust to the dust collection unit of two metal parallel plates by performing a single-pole charge, and static electricity between particles. There is a disadvantage in that the clean ability of the air purifier is very poor because the cohesive effect cannot be seen.

Recently, as shown in FIG. 3, an electrostatic precipitator and an air purifier using an electrophoretic electrode filter for dust collection have been devised for the purpose of extending the filter replacement cycle, improving dust collection efficiency, and improving the decompression effect. In more detail, instead of using a high-performance hepa filter with a large pressure loss, an electrode dust collecting method is adopted to employ an electrostatic dust collecting filter that collects fine dust.

Particularly, in the unbalanced electric field that does not require corona discharge, a force applied to a dielectric having a higher dielectric constant than air, that is, a dielectric electrophoresis method, that is, a microelectrode pattern that captures oil, vapor, moisture, and fine dust is realized. The collection efficiency and purifying ability of the air purifier are devised by applying a filter for collecting dust on the surface of the electrode plate to an air purifier and an electrostatic precipitator to reduce the pressure loss of the filter method while designing a new electrostatic precipitator without corona discharge It is to provide an air purifier to improve the .

At this time, if the fine dust is collected on the electrode for a long time and the aggregated state of the electrode persists, the gap is narrowed due to the fine dust accumulated between the electrodes, and due to the nature of the dielectrophoresis, the dielectric is accumulated in the electrode to prevent the filter performance from deteriorating. In order to remove the foreign matter, it is necessary to remove the fine dust, oil, etc. attached to the surface of the electrode plate without replacing the electrode filter. Implement structure and function to exhaust. With this design, it is possible to effectively collect the fine dust grown by air circulation by keeping the collection efficiency continuously during indoor and outdoor air purifier operating hours, dramatically reduce unnecessary maintenance work such as filter replacement, and improve the purifying ability. will be.

The present invention uses a force acting on the dielectric in the unbalanced electric field to clean the electrode layer of the electrostatic precipitator in a manner that collects fine dust, and periodically or aperiodically removes fine dust, oil, and foreign substances. By making, it relates to an air purifier that ultimately improves the cleaning ability.

In the case of the conventional filter type air purifier, since a high-efficiency HEPA (high efficiency particulate air) is used, a pressure loss due to a filter is large, and thus, power consumption is high. In addition, the higher the filter efficiency, the faster the filter's pore structure is clogged with dust, and thus the filter needs to be replaced frequently, causing the overall price increase, such as deterioration of performance and maintenance of the air cleaner.

On the other hand, in the case of an electric air purifier equipped with an ion generating device, a unipolar (positive or negative) ionizer and a dust collector are mounted, and this method attaches particles to a dust collector of two metal parallel plates by making unipolar charges and static electricity between particles Since there is no visible cohesive effect, the air purifier has a very poor cleaning ability. In the case of an air purifier using a dielectrophoresis method, there is no corona discharge, so electricity consumption is small, and a structure employing a microelectrode structure for creating an unbalanced electric field is advantageous in decompression, etc. When the characteristics of the collecting principle, the collecting ability is significantly reduced. Therefore, in order to maintain the collection efficiency, it is necessary to replace the electrode plate detachably or to clean the electrode plate to remove dust.

An object of the present invention for solving the above-described problem is, if the state trapped on the surface of the micro-electrode plate serving as a filter to filter dust contained in the air flowing into the air cleaner continues to accumulate, dielectric migration Due to the characteristics of the method, as the inclined shape of the unbalanced electric field is changed by the accumulated dielectric, the collection performance decreases, and dust collected on the surface of the electrode filter must be continuously removed by cleaning.

Since the dust collection efficiency of the dust collecting device can be increased by removing the periodic or aperiodic adhesion dust, the user must clean the dust filter, that is, the electrode or replace it with a new one. Physical means that can be utilized inside the air cleaner In other words, it is possible to remove dust (including foreign substances such as oil) by its own dust removal function such as pressurized air pressure, heating method, etc., thereby increasing the convenience of use, maintaining high efficiency of the collecting ability, and cleaning the inside of the air cleaner. Therefore, it is to provide a healthy life to users by keeping the indoor clean state at its best.

As an effect of the present invention as described above, dust contained in the impregnated air flowing into the air purifier is collected by the electrode filter and collected on the electrode surface, and as the operation period becomes longer, the collection efficiency increases when fine dust accumulates and begins to agglomerate. The removal efficiency can be increased while removing the falling phenomenon.

In addition, the present invention enables the continuous removal of collected dust by allowing the user to remove dust (including foreign matter) by an automatic cleaning function by the dust removal function of the device itself, rather than by directly cleaning or replacing the dust filter, Due to this, the dust collection efficiency of the dust collecting device can be increased, and the life of the device can be extended.

In addition, since the present invention can measure and measure the degree of filling of the dielectric material between electrodes due to the characteristics of the electrode filter, it is possible to electrically check the dust collecting state in the electrode filter, and to check the cleanliness of the filter as well as to clean the filter properly. And the time of replacement.

In addition, the present invention prevents the collection efficiency from falling by cleaning the dust filtered on the electrode filter periodically and aperiodically, and always keeping the inside of the air cleaner clean to reduce noise caused by filter clogging. It is a very useful invention that allows users to maintain a healthy life without worrying about dust by minimizing the maintenance work of the purifier.

1 is a view showing the principle of dust collection of a conventional filter-type air purifier
Figure 2 is a view showing the principle of dust collection of a conventional electric dust collecting method air purifier
Figure 3 is a view showing the principle of collecting fine dust and oil in the electric air purifier of the present invention
Figure 4 is a view showing the electrical heating method of the dust collecting plate of the present invention
Figure 5 is a reference diagram also removes the fine particulate matter by heating of the present invention
6 is a view showing an embodiment of the selective blowing method for cleaning the electrode plate in the present invention.

Looking at the solution according to an embodiment of the present invention for achieving the above object, the air inlet for introducing air into the air purifier enclosure, and for supplying air introduced through the air inlet to the device A blower having a blower fan and a plurality of filters and a microelectrode structure collecting means coupled to the inside of the inlet of the air inlet to collect dust introduced with the air, and an inner side of the electrode filter coupled to one side of the filter Dust dust means for removing the dust attached to the dust collecting bin formed on the lower portion of the filter and communicating with the opening, and one side connected to the dust collecting bin and the other side to discharge purified air It is characterized by consisting of.

According to an embodiment of the present invention, in order to naturally settle by increasing the viscosity of the oil adhering as a physical means for performing dust dusting, as a means to increase the temperature by heating, an electric heater type that is electrically heated is used. As a result, it is characterized in that the dust attached to the surface of the electrode filter is collected as it flows down to the dust container.

According to an embodiment of the present invention, the dust cleaning means is characterized in that it consists of a structure for collecting aggregated dust of the electrode plate by using a heating method and a selective blower due to the formation of a structural flow path.

According to an embodiment of the present invention, one or both sides of the electrode plate is characterized in that it comprises a plate with a separate window for selectively adjusting the air inflow rate and a flow path and a control unit for controlling the window.

According to an embodiment of the present invention, a cleaning driving unit is formed on one side of the main body to express a function of rapidly localizing the flow rate, and is configured to intermittently clean the electrode plate.

According to an embodiment of the present invention, the dust discharge portion formed on the other side of the dust collection box is characterized in that it is configured to operate in a form of forming a flow path bent to the ground.

According to an embodiment of the present invention, a damper is formed at the front end of the air inlet and the air outlet, and is characterized by consisting of dust removal cleaning and dust collection of the electrode filter.

100: body 110: inlet
200: dust collecting unit 210: particle collecting electrode layer
220: fine pattern electrode
300: electrode layer cleaning unit 310: cleaning heating unit
320: optional air flow control plate 330: bimetal drive
400: dust container
500: power control unit 600: fine dust sensor unit

Claims (8)

A plurality of electrode plates having an electrode pattern formed of a first electrode having a voltage difference from a first electrode of the ground is provided, and fine particles, moisture, and oil particles are collected in the air introduced by using a dielectrophoresis method on the surface of the electrode plate. Separating and collecting particles,
By supplying a heat source around the electrode plate through an electric circuit for heating formed parallel to the electrode pattern at a position adjacent to the electrode pattern, the viscosity of the oil and fine particles solidified on the surface of the electrode plate is lowered to decrease the viscosity of the electrode plate. Electrode cleaning unit that induces the natural sedimentation of the fine particles collected on the surface of the, and
A part of the variable area control window installed at the front and rear ends of the particle separation unit includes control means for controlling the area through which the air passes and the positions of the top, bottom, left and right through a structure that is deformed by electrical and mechanical heat,
The control means is an electrostatic precipitator that provides a local rapid flow rate to direct the fine particles collected on the surface of the electrode plate or fine particles induced by natural sedimentation by the electrode cleaning part to the dust container. In claim 1,
The electrode plate,
A conductive electrode pattern using an electrical circuit for applying a voltage and an insulating material surrounding the electrode pattern,
The electrode pattern has one or more shapes among linear, plate, and figure shapes, and the electrode plate has one or more shapes among a plurality of linear, square plate shapes, circular shapes, and roll shapes,
The particle separator is an electrostatic precipitator for collecting particles or oil passing between a plurality of electrode plates on the surface of the electrode plate. In claim 2,
The electrode plate,
An electrostatic precipitator in which an uneven electric field is formed according to a difference in voltage between electrodes by applying different voltages to the first electrode of the ground and the second electrode having a voltage difference. In claim 3,
The electric circuit for heating,
It is formed adjacent to the first electrode and adjacent to the second electrode, or
An electric dust collecting device in which a first heating electric circuit is formed at a position adjacent to the first electrode, and a second heating electric circuit is formed at a location adjacent to the second electrode to form a high temperature electrode plate environment. In claim 1,
The variable area control window,
The flow rate of the passage is varied by varying the air passage area on one side or both sides of the front and rear ends of the electrode plate by using the area control plate for selective blowing flow provided to effectively remove one or more of dust, oil, and moisture collected on the electrode plates. Electrostatic precipitator to accelerate or decelerate. In claim 5,
The control means,
In the variable area control window, an electric dust collecting device for controlling flow path load and flow rate through the electrode plate, including a folding hinge structure and a dedicated driving unit, which applies a deformable bimetal when electric or mechanical heat is applied to all or part of the window frame. In claim 1,
Further comprising a body for purifying the air in the process of inflow and outflow of air containing one or more of fine dust, dust, foreign matter,
The main body is an inlet through which air containing the fine particles flows,
The passage portion through which the air containing the microparticles or the air from which the microparticles are removed moves,
Dust collection bin for storing foreign particles such as fine particles and oil, and
An electrostatic precipitator comprising a discharge portion through which the air from which the fine particles are removed is discharged. delete

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