KR20180049368A - electric precipitator for oil mist - Google Patents

Abstract

The present invention relates to an electric dust collector for oil mist and, more specifically, to an electric dust collector for oil mist including: a case which has a dust collecting space unit inside and has an inlet unit in which oil mist flows and an outlet unit for discharging collected and filtered fluid; a charge unit which charges particles of oil mist supplied to the dust collecting space unit through the inlet unit; a dust collection unit which collects particles of oil mist by charging to correspond to the charge applied by the charge unit; and a plasma filter unit which secondarily filters oil mist primarily filtered by the dust collection unit. The present invention like the above can improve dust collection efficiency by increasing the amount of collected dust per unit time by improving the straightness of oil mist as well as effectively collect dust from particles included in the oil mist.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric precipitator for oil mist,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric dust collector, and more particularly, to an electric dust collector that more effectively collects and filters oil mist particles by charging an electric charge by charging oil mist, To an electric dust collector for an oil mist capable of improving working efficiency.

Generally, an electric precipitator is a device for separating and collecting granular contaminants contained in a fluid by using an electric force to purify the fluid, and is widely used because of its simple structure and low maintenance cost.

The fluid to be applied to the electric dust collector may mainly be a fluid state material such as air, and various types of contaminants may be contained in the fluid depending on the environment in which the dust collecting apparatus is installed.

Particularly, in a restaurant using flour or charcoal such as charcoal, oil mist is generated, and the particles distributed in the oil mist are collected using a dust collecting device.

Conventional dust collecting apparatuses have a plurality of dust collecting electrodes as disclosed in Japanese Patent Laid-Open No. 10-2012-0072172, and the particles are collected by the applied electric charges and filtered.

Such an electric dust collecting apparatus discharges electric charges to the entire oil mist to be introduced and maximizes the contact area of each particle having a charge with the dust collecting electrode, thereby efficiently collecting the oil mist.

However, if the ionization rate is reduced in the incoming oil mist, no matter how much the dust collecting electrode is disposed, the reaction can not be carried out and the trapping can not be achieved.

Accordingly, there is an urgent need to develop a technique capable of improving the filtering efficiency by maximizing the contact area with the dust collecting part, as well as transferring the electric charge to the entire oil mist.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a dust collecting apparatus having a dust collecting space inside and having an inlet for introducing oil mist, A dust collecting part for collecting particles of the oil mist by electrifying the electric charge corresponding to the electric charge applied by the charging part, and a dust collecting part for collecting the oil mist particles by the dust collecting part, And a plasma filter unit for second-order filtering the oil-mist filtered by the oil-mist filter, thereby effectively collecting the particles contained in the oil mist and improving the straightness of the oil mist to increase the collection amount per unit time, And an object thereof is to provide an electric dust collector for an oil mist which can be improved.

According to another aspect of the present invention, there is provided a dust collecting apparatus including a dust collecting space having an interior, a case having an inlet for introducing the oil mist and a discharge unit for discharging the filtered fluid, A dust collecting part for collecting the particles of the oil mist by electrifying charges corresponding to the charges applied by the charging part; and a dust collecting part for collecting the oil mist particles by the dust collecting part, And a plasma filter section for filtering.

Preferably, the inflow portion includes an inflow end for forming one end of the case, and an inflow port formed at a central portion of the inflow end for supplying the oil mist to the dust collecting space portion, And a discharge port formed at a central portion of the discharge end for discharging the fluid filtered at the vacuum evacuation section.

The inlet end is formed to have the same sectional area connected to the case at the inlet, and the outlet end is formed so that the sectional area gradually decreases from the case to the outlet.

The charging unit may include a large-sized frame having a charging space formed therein and provided in the case, a charge applying unit provided in the large-sized frame so as to be located in the charging space, and a plurality of charge- And a plurality of discharge chambers which are provided so as to be in contact with each other to charge the charged particles of the oil mist applied by the charge applying section.

The large overall frame is provided with a plurality of diaphragms so as to partition a plurality of charging space portions.

In addition, the charge applying unit may include a plurality of diaphragms, each end of the plurality of diaphragms being positioned in the frame, the plurality of diaphragms being spaced apart from the diaphragm, a discharge electrode provided at each end of the charge- And a discharge control unit for controlling power supply to the discharge electrode.

The discharge chamber includes a discharge body of a plate-like shape having a predetermined thickness, and a plurality of discharge projections formed along each side end of the discharge body.

The discharge protrusions may include a plurality of discharge protrusions formed along one end of the discharge body and spaced apart from each other by a predetermined distance and a plurality of discharge protrusions formed along the other end of the discharge body, And a second discharge protrusion formed so as to be in contact with the first discharge protrusion.

And each of the second discharge projections is located between two adjacent first discharge projections.

In addition, a plurality of third discharge protrusions are formed along the longitudinal direction of the discharge body, and the third discharge protrusions are partially protruded from the discharge body to protrude in the direction of the surface of the discharge body.

The dust collecting unit includes a dust collecting body having a plurality of dust collecting tanks through which the oil mist applied with electric charges is passed, an electric charge corresponding to the electric charges of the charging unit is provided through the respective dust collecting troughs, A plurality of charging plates for attaching the particles, a dust collecting electrode provided at an end of each of the charging plates, and a dust control unit for controlling power supply to each of the dust collecting electrodes.

Further, the dust collecting container is a honeycomb structure.

The charging plate includes a plate-shaped charging body having a predetermined thickness, and a plurality of charging projections formed along respective side ends of the charging body.

Further, the charging plate is formed so as to be spirally twisted.

The plasma filter unit generates a corona discharge by a high voltage current controlled by the plasma controller, thereby filtering the oil mist.

And a cleaning unit for removing particles of the oil mist collected in the dust collecting unit.

The case is provided with an opening / closing door for opening the dust collecting space.

As described above, according to the electric dust collector for an oil mist according to the present invention, it is possible to effectively collect particles contained in the oil mist, improve the straightness of the oil mist, increase the collection amount per unit time, It is a very useful and effective invention that makes it possible to improve.

1 is a view showing an electric dust collector for an oil mist according to the present invention,
2 is a plan view of the electric dust collector according to the present invention,
3 is a view showing a charging unit according to the present invention,
4 is a view showing a dust collecting part according to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description, together with the accompanying drawings, is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without these specific details.

In some instances, well-known structures and devices may be omitted or may be shown in block diagram form, centering on the core functionality of each structure and device, to avoid obscuring the concepts of the present invention.

Throughout the specification, when an element is referred to as "comprising" or " including ", it is meant that the element does not exclude other elements, do. Further, the term "part" described in the specification means a unit for processing at least one function or operation. Also, the terms " a or ", "one "," the ", and the like are synonyms in the context of describing the invention (particularly in the context of the following claims) May be used in a sense including both singular and plural, unless the context clearly dictates otherwise.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing an electric dust collector for an oil mist according to the present invention, FIG. 2 is a plan view of an electric dust collector according to the present invention, FIG. 3 is a view showing a charging part according to the present invention And FIG. 4 is a view showing a dust collecting part according to the present invention.

As shown in the drawing, an electric dust collector 10 for an oil mist includes a casing 100, a charging section 200, a dust collecting section 300, and a plasma filter section 400.

The case 100 has a vacuum degassing section 102 therein and includes an inlet 110 for introducing the oil mist and a discharge section 120 for discharging the filtered fluid.

The charging unit 200 is provided to charge the particles of the oil mist supplied to the vacuum degassing unit 102 through the inlet 110 of the case 100.

The dust collecting unit 300 is provided for collecting particles of the oil mist by charging charges corresponding to the charges applied by the charging unit 200.

The plasma filter unit 400 is provided for secondary filtering the oil mist primarily filtered by the dust collecting unit 300.

The charging unit 200, the dust collecting unit 300 and the plasma filter unit 400 are disposed inside the case 100 to sequentially collect the oil mist flowing into the inlet unit 110, The filtered fluid is discharged.

Here, the inflow section 110 is composed of an inflow end 112 and an inflow port 114.

The inlet end 112 is provided to form one end of the case 110 and the inlet 114 is formed at the center of the inlet end 112 to supply the oil mist to the vacuum interstice 102.

And the discharge portion 120 is composed of the discharge end 122 and the discharge port 124.

The discharge end 122 is provided to form the other end of the case 100 and the discharge port 124 is formed at the center of the discharge end 122 to discharge the filtered fluid from the vacuum evacuated part 102 do.

The inlet end 112 is formed to have the same sectional area connected to the case 100 from the inlet port 114 and the outlet end 122 is formed to gradually decrease in cross sectional area from the case 100 to the outlet 124 do.

As shown in FIG. 3, the charging unit 200 includes a large-sized full frame 210, a charge applying unit 220, and a discharge chamber 230.

The large frame 210 is provided inside the case 100 with a charging space 212 formed therein.

A plurality of partition plates (240) are provided in the main frame (210) so as to partition a plurality of the charging space portions (212).

A plurality of the charge applying units 220 are provided in the large-sized frame 210 so as to be positioned in the charging space 212 of the large-

The discharge chamber 230 is provided to contact a plurality of the charge applying units 220, and is provided to charge the charged particles of the supplied oil mist by the charge applied by the charge applying unit 220.

Here, the charge applying unit 220 includes an evacuating electrode 222, a discharge electrode 224, and a discharge control unit 226.

The evacuator 222 is provided so as to pass through the plurality of diaphragms 240 such that the respective ends thereof are positioned in the large-sized frame 210, but spaced apart from the diaphragm.

The discharging electrode 224 is provided at each end of the charging electrode 222 and the discharging control unit 226 is provided for controlling the power supply to the discharging electrode 224.

Charges can be applied to the respective discharge chambers 230 by applying charges to the respective electrodes 222 by the discharge control unit 226.

Here, + electric charge is applied to the charge applied to each discharge chamber 230.

Each discharge chamber 230 is composed of a discharge body 232 and a discharge projection 234.

The discharge body 232 is formed in a plate shape having a predetermined thickness, and a plurality of discharge projections 234 are formed along each side end portion of the discharge body 232.

The discharge protrusion 234 includes a first discharge protrusion 234a and a second discharge protrusion 234b.

A plurality of first discharge protrusions 234a are formed along one end of the discharge body 232 and are spaced apart from each other by a predetermined distance.

A plurality of second discharge protrusions 234b are formed along the other end of the discharge body 232 and are spaced apart from each other by a predetermined distance.

Here, each second discharge projection 234b is positioned between two adjacent first discharge projections 234a.

In other words, the first discharge protrusion 234a and the second discharge protrusion 234b are integrally formed by repetitively zigzagging along the discharge body 232. [

Also, a plurality of third discharge protrusions 236 are formed along the longitudinal direction of the discharge body.

The third discharge protrusion 236 is partially protruded from the discharge body 232 to protrude in the direction of the surface of the discharge body 232.

Of course, the third discharge protrusion 236 protrudes beyond one surface direction of the discharge body 232.

In each of the discharge chambers 230, the applied + electric charges are discharged, and the positive charges are charged by the particles of the oil mist flowing in through the inlet 110.

4, the dust collecting unit 300 includes a dust collecting body 310, a charging plate 320, a dust collecting electrode 330, and a dust collecting controller 340.

The dust collecting body 310 is formed with a plurality of dust collecting tanks 312 through which the oil mist applied with charge is passed through the charging part 200.

The dust collecting container 312 improves the straightness of the oil mist introduced into the honeycomb structure.

In addition, a plurality of charging plates 320 are provided so as to be penetrated through the dust collecting baskets 312, and charges corresponding to the charges of the charging unit 200, that is, - charges are charged and particles of oil mist are attached.

The dust collecting electrode 330 is provided at the end of each of the charging plates 320 and the dust collecting controller 340 is provided for controlling power supply to each dust collecting electrode 330.

The charging plate 320 is composed of a charging body 322 and a charging projection 324.

The charging body 322 is formed in a plate shape having a predetermined thickness, and a plurality of charging projections 324 are formed along each side end portion of the charging body 322.

The charging plate 320 is formed in a spiral shape so as to be twisted to increase the passage velocity of the oil mist together with the dust collecting bases 312 having a honeycomb structure and to increase the contact area with the charging plate 320 .

The plasma filter unit 400 generates a corona discharge by a high voltage current controlled by the plasma controller 430 so that the filtering efficiency can be improved as the oil mist is secondarily filtered.

Further, the washing unit 500 for removing the particles of the oil mist collected in the dust collecting unit 300 is further provided.

The cleaning unit 500 discharges the collected oil mist particles by injecting a high-pressure fluid, and is preferably sprayed with hot air at a high temperature.

The case 100 is provided with an opening and closing door 130 for opening the vacuum degassing section 102. A plurality of opening and closing doors 130 are provided to open the vacuum degumming section 102, 200, the dust collecting unit 300, and the plasma filter unit 400 can be detached and attached to easily manage replacement, repair, and the like.

10: electric dust collector 100: case
200: Charging part 230: Whole room
300: dust collecting part 320:
400: plasma filter section

Claims (10)

A case having a dust collecting space inside and having an inlet for introducing the oil mist and an outlet for discharging the filtered fluid;
A charging unit for charging the particles of the oil mist supplied to the dust collecting space through the inlet unit;
A dust collecting part for collecting particles of the oil mist by charging the electric charge corresponding to the electric charge applied by the charging part; And
And a plasma filter part for secondary filtering the oil mist primarily filtered by the dust collecting part. The image forming apparatus according to claim 1,
A large overall frame provided inside the case with a charging space portion formed therein;
A plurality of charge applicators provided in the large-size frame so as to be located in the charging space; And
And a plurality of discharge chambers provided so as to be in contact with the plurality of charge applying sections to charge the charged particles of the oil mist applied by the charge applying section. 3. The method of claim 2,
And a plurality of diaphragms so that a plurality of charging spaces are partitioned. The charge pump according to claim 3,
An evacuation rod penetrating the plurality of diaphragms such that each end is located in the entire frame, the charge being spaced apart from the diaphragm;
A discharge electrode provided at each end of the evacuating electrode; And
And a discharge control unit for controlling power supply to the discharge electrode. The apparatus according to claim 2,
A plate-shaped discharge body having a predetermined thickness; And
And a plurality of discharge protrusions formed along each side end of the discharge body. The dust collecting apparatus according to claim 1,
A dust collecting body having a plurality of dust collecting bases through which the oil mist applied with charges is passed;
A plurality of charging plates installed through the dust collecting tanks and charged with electric charges corresponding to the charges of the charging unit to attach particles of the oil mist;
A dust collecting electrode provided at an end of each of the charging plates; And
And a dust control unit for controlling power supply to each of the dust collecting electrodes. 7. The dust collecting apparatus according to claim 6,
Wherein the electric dust collecting device is a honeycomb structure. 7. The charging device according to claim 6,
A planar charging body having a predetermined thickness; And
And a plurality of charging projections formed along each side end of the charging body. 9. The charging device according to claim 8,
And is formed so as to be twisted in a spiral shape. The plasma processing apparatus according to claim 1,
And a corona discharge is generated by a high-voltage current controlled by the plasma control unit, whereby the oil mist is secondarily filtered.

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