KR102405895B1 - Electrostatic precipitator with composite charging unit to improve fine dust removal function - Google Patents

Abstract

The present invention relates to an electrostatic precipitator having a composite charging unit for improving the fine dust removal function, which is composed of a composite charging unit and does not change in size, but has relatively improved dust collection performance of ultrafine dust, etc., a housing providing an installation space for installing the collecting unit and the voltage unit; a discharge unit installed in the front or rear installation space of the housing and having an ionizer connected to a high voltage supply means to generate a corona discharge to charge a collection target; a collecting unit installed in the installation space of the housing and configured to collect charged fine particles by installing a plurality of folded collecting plates made of a conductive material in parallel in a direction in which the contaminated air flows; And a plurality of discharge pins are formed on the plate-shaped surface of the plate-shaped surface made of a conducting material, and are connected to a high voltage supply means to generate corona discharge from the discharge pins. A voltage unit installed at equal intervals between the plates to form an electric field between the collecting plate and the pin-type discharge plate; By expanding the charged area while maintaining its size, it is applied to subway vents with relatively high wind speed and high wind volume, so that even ultra-fine dust can be collected with relatively high efficiency.

Description

Electrostatic precipitator with composite charging unit to improve fine dust removal function

The present invention relates to an electrostatic precipitator that collects various air pollutants, including ultrafine dust, in one or both directions in one direction or in both directions in places where ventilation is required, such as in large facilities used by the public or in subway vents. It relates to an electric dust collector that relatively improves the dust collection performance of ultrafine dust, although there is no change in size.

Briefly explaining the electrostatic precipitation principle of a device commonly referred to as an electrostatic precipitator (ESP), the electrostatic precipitator (ESP) charges the dust, dust or moisture particles contained in the polluted gas to be collected, thereby charging the charged collection target. Coulomb force (electrostatic force) acts on the surface and it is attracted to the dust collecting electrode and works on the principle of collection.

As shown in the drawing for explaining the dust collection principle of the electrostatic precipitator in FIG. 1, the electric dust collector using this principle has a discharge electrode 10 that generates a corona discharge from the high voltage applying means PS, with a high DC voltage of 11,000 Volts or more. , and the electric charge applied at such a high voltage is charged in the discharge electrode 10 and discharged by corona discharge, thereby forming a charged region A2.

At this time, the fine particles (1) to be collected such as dust, dust or moisture included in the polluted air introduced from the outside are in an electrically neutral state, and the fine particles (1) in a neutral state are in the charged area (A2) When it enters into , it becomes charged fine particles (2) in a negative state due to collision or adsorption with gas molecules bearing anion in a neutral state.

Briefly explaining the principle that the fine particles (1) to be collected contained in the polluted air are charged, a strong electric field area (A1) is formed around the discharge electrode (10) through corona discharge, and such a strong electric field area (A1) Accelerates the free electrons in the surrounding gas, and the accelerated free electrons move at high speed and collide with other gas molecules. do.

The gas molecules formed as cations move toward the discharge electrode 10 and collide with the gas molecules surrounding the discharge electrode 10 or the discharge electrode 10 itself. The free electrons move toward (30), and when they leave the electric field region (A1), the electric field is weakened and the movement speed drops sharply. It is adsorbed on the surface to form anionic gas molecules.

As such, the anion-bearing gas molecules collide or adsorb with the fine particles 1 in the charged region A2 to charge the fine particles 1 to generate the charged fine particles 2 .

At the same time, it is spaced apart from the discharge electrode 10 at a predetermined interval and is connected to a high voltage supply means between a plurality of grounded plate-shaped dust collecting electrodes 30 and 30-1 and the dust collecting electrodes 30 and 30-1 to generate a high voltage. By forming a plurality of voltage plates 20 in a hanging plate shape, both dust collecting electrodes 30 and 30-1) are positively charged by electrostatic induction and electrostatic discharge.

Therefore, an electric field is formed between the voltage plate 20 and the dust collecting electrode 30, and the charged fine particles 2 flowing into the electric field exert an attractive force with the dust collecting electrode 30, and the pin-type discharge plate ( 20) and the repulsive force acts to be drawn and attached to the dust collecting electrode (30).

The fine particles 3 collected by being drawn and attached to the grounded dust collecting electrode 30 in this way lose charge and become electrically neutral fine particles.

In this case, the repulsive force and the attractive force are forces generated according to Coulomb's law, and detailed descriptions thereof will be omitted.

An electric dust collector using this principle of electric dust collection is usually divided into a single-stage type and a two-stage type. The first stage type is a discharge unit including a discharge electrode and a dust collection unit, which is called a Cottrell dust collector, and is a means of preventing air pollution. is currently the most commonly used.

It is usually operated between 30,000V and 100,000V, and has a simple structure and excellent dust collection performance.

However, this single-stage type is effective in preventing re-scattering because it repeatedly charges and collects dust, but there is a problem in that reverse ionization occurs, a high voltage must be applied to the dust collecting electrode, and the dust collecting electrode There is a problem with loss of ability.

In addition, when dust is collected on the dust collecting electrode and a dust layer is formed to a thickness of about 8 mm to 12.7 mm, the dust collecting ability can be continuously maintained only by Rapping the collected dust, so be sure to avoid a watering device or mechanical shock or vibration. There is a problem that must be added, such as a weighting device to apply.

If the dust is not exhausted, a reverse ionization phenomenon occurs to neutralize the charged dust, and the dust collection performance is greatly reduced, and the collected dust is neutralized and dispersed again.

In the two-stage type, the discharge unit including the discharge electrode and the dust collecting unit are separate, an electric field is formed by the voltage difference between the discharge electrode of the discharge unit and the dust collecting electrode of the dust collecting unit, and charged particles through the discharge unit are introduced into the electric field. It is collected by pulling it to the dust collecting electrode of the dust collecting part.

This two-stage type is mainly used for exhaust treatment with relatively low dust concentration because the discharge part, the dust collecting part, and the electric field are separated.

On the other hand, the two-stage type has the advantage that reverse deionization does not occur, but there is a problem of discharging the re-scattering dust as it is, and there is a problem of a relatively complicated structure.

In order to solve the problems of the one-stage electrostatic filter system and the two-stage electrostatic filter system as described above, as a prior art, Application No. 10-2005-0127542 "Electric dust collector using induced voltage" has been disclosed.

The prior art is characterized in that it includes an induction pin-type discharge plate for grounding the dust collecting electrode and generating an induced voltage induced by the independently existing protruding discharge electrode without electrical connection, and installing it between the dust collecting electrodes. The technical feature is to increase the dust collecting ability by adding a driving force to the charged dust that is drawn by the Coulomb force to the dust collecting electrode grounded by forming an electrostatic field.

The prior art is characterized in that by replacing the discharge electrode with a protruding discharge electrode having a saw-like shape, mechanical strength is increased and a relatively wide charge area is formed.

However, the electric dust collector according to the prior art has a problem in that the device itself becomes large to widen the charged area in order to increase the collection performance of collecting ultrafine dust, etc., so there is a design difficulty in improving the collection performance. There is a demand for an electric dust collector having a composite charging unit with an enlarged charge area while maintaining the size of the device.

The present invention was devised to solve the problems of the prior art as described above, and the purpose of the present invention is to provide an electric dust collector with relatively improved dust collection performance by expanding the charge area while maintaining the size of the conventional electric dust collector using an induced voltage. The purpose.

Another object of the present invention is to provide an electrostatic precipitator that is structurally simple, has relatively high mechanical rigidity of each component, and has little effect of vibration due to wind speed.

Another object of the present invention is to provide a modular electric dust collector in which a plurality of electric dust collectors can be coupled to each other in the form of a module.

Other objects of the present invention can be understood through the characteristics of the present invention, can be seen more clearly through the embodiments of the present invention, and can be realized by means and combinations indicated in the claims.

In order to achieve the problems to be solved by the present invention as described above, the present invention has the following technical features.

In the present invention, the electrostatic precipitator having a complex charging unit for improving the fine dust removal function has a rectangular parallelepiped shape, both sides are closed based on the direction in which the contaminated air flows, and the front, rear, upper and lower sides are all open, and the discharge unit and the collecting unit and a housing providing an installation space for installing the voltage unit; a discharge unit installed in the front or rear installation space of the housing and having an ionizer connected to a high voltage supply means to generate a corona discharge to charge a collection target; a collecting unit installed in the installation space of the housing and configured to collect charged fine particles by installing a plurality of folded collecting plates made of a conductive material in parallel in a direction in which the contaminated air flows; And a plurality of discharge pins are formed on the plate-shaped surface of the plate-shaped surface made of a conducting material, and are connected to a high voltage supply means to generate corona discharge from the discharge pins. and a voltage unit installed at equal intervals between the plates to form an electric field between the collecting plate and the pin-type discharge plate.

In addition, the housing of the electrostatic precipitator having a composite charging unit for improving the fine dust removal function of the present invention forms the left and right closed sides, and a pair of side plate units having a coupling frame formed at the same height vertically along the outer circumferential surface It is a modular enclosure consisting of; and a fixing bar interconnecting the pair of side plate parts, and all other surfaces except for the side formed by the side plate part are open and are mutually fastened to the adjacent housing; .

In addition, the discharge unit of the electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention is an ionizer in which a plurality of protrusions are formed along the longitudinal direction in a saw shape having a predetermined length to charge the fine particles by corona discharge. What consists of; is characterized by a technical characteristic.

In addition, the discharge unit of the electrostatic precipitator having a complex charging unit for improving the fine dust removal function of the present invention has a saw shape having a predetermined length, and a plurality of projections causing corona discharge are formed along the longitudinal direction, and additionally on both sides. It is characterized in that it consists of a multi-cross pin ionizer in which a plurality of side projections are formed in the longitudinal direction.

In addition, the present invention is characterized in that the discharge unit of the electrostatic precipitator having a complex charging unit for improving the fine dust removal function of the present invention is composed of a wire-type wire ionizer made of a metal material.

In addition, the wire ionizer of the electric dust collector having a complex charging part for improving the fine dust removal function of the present invention forms a contact end having a concave portion to be in contact while surrounding the rod-shaped electrode, and the wire through which the discharge is made is the contact It is characterized by being coupled to the stage.

In addition, the present invention is characterized in that the discharge pins formed on the pin-type discharge plate of the electric dust collector having a composite charging unit for improving the fine dust removal function of the present invention are arranged in parallel in the vertical direction of the air flowing direction.

In addition, the discharge fins formed on the fin-type discharge plate of the electrostatic precipitator having a complex charging unit for improving the fine dust removal function of the present invention have a height of 40% to 60% compared to the distance between the fin-type discharge plate and the collecting plate; is a technical feature.

In addition, the fin-type discharge plate of the electric dust collector having a complex charging part for improving the fine dust removal function of the present invention forms a discharge fin only in a section of 5% to 20% of the total width from the front end to the rear end based on the direction in which the air flows To do; is a technical feature.

The present invention has the effect of expanding the charging area while maintaining the size of the electrostatic precipitator by forming a composite charging unit with a discharge unit and a pin-type discharge plate in the electrostatic precipitator according to the present invention through means of solving the above problems. .

In addition, the electrostatic precipitator according to the present invention has an effect of improving mechanical stability and durability and improving dust collection efficiency with a simple structure.

In particular, the electrostatic precipitator according to the present invention is applied to a subway vent with a relatively high wind speed and a large amount of air, so that even ultra-fine dust can be collected with relatively high efficiency.

Furthermore, the electric dust collecting wall according to the present invention is formed in rows and columns by combining blocks according to the conditions according to the installation space, wind speed, air volume, dust collection efficiency, etc., and installed in multiple to meet the installation conditions. There is an effect that the dust collector can be configured relatively easily.

Other effects of the present invention can be understood through the characteristics of the present invention, can be seen more clearly through the embodiments of the present invention, and can be exhibited by means and combinations shown in the claims.

1 is a view for explaining the dust collection principle of an electric dust collector;
2 is a view for explaining the configuration of an electric dust collector having a composite charging unit for improving the fine dust removal function of the present invention;
3 is a view for explaining an embodiment of the housing according to the present invention according to the electric dust collector having a composite charging unit for improving the fine dust removal function;
4 is a view for explaining an embodiment of the ionizer of the discharge unit according to the electrostatic precipitator having a complex charging unit for improving the fine dust removal function of the present invention;
5 is a view for explaining a collection unit according to the present invention, the electric dust collector having a composite charging unit for improving the fine dust removal function;
6 is a view for explaining a voltage unit according to the present invention, the electrostatic precipitator having a complex charging unit for improving the fine dust removal function;
7 is a view for explaining the formation of a complex charging unit according to an electric dust collector having a compound charging unit for improving the fine dust removal function of the present invention;
8 is a view for explaining a discharge pin according to an electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention;
9 is a view for explaining an embodiment of the pin-type discharge plate according to the present invention according to the electrostatic precipitator having a complex charging unit for improving the fine dust removal function.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention set forth below refers to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the position or arrangement of individual components in each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all scopes equivalent to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

2, as shown in the drawing for explaining the configuration of an electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention, the electric dust collecting apparatus 100 according to the present invention is a rectangular parallelepiped in which contaminated air is circulated. Based on the direction in which both sides are closed, the front, back, top, and bottom are all open, and the installation space for installing the discharge units 140-1 and 140-2, the collection unit 120 and the voltage unit 130 is provided. Discharge unit 140 having a housing 110 to provide, and an ionizer installed in the front or rear installation space of the housing 110 and connected to the high voltage supply means (PS) to generate a corona discharge to charge the collection target And, it is installed in the installation space of the housing 110, and a plate-shaped folded collection plate made of a conductive material is installed in a row in parallel in the direction in which the contaminated air is circulated to collect the charged fine particles. A plurality of discharge pins for discharging are formed on the plate-shaped surface of the unit 120 and a plate-like material made of a conducting material, and connected to a high voltage supply means to generate a corona discharge at the discharge pins. and a voltage unit 130 for forming an electric field between the collecting plate and the fin-type discharge plate by installing at equal intervals between the collecting plates of the collecting unit.

The housing 110 forming the exterior of the electric dust collector 100 according to the present invention is a view for explaining an embodiment of the housing according to the present invention, the electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention As shown in, the housing 110 has a rectangular parallelepiped shape, both sides are closed based on the direction in which the contaminated air flows, and the front (F) and the rear (R) are both open and the contaminated air from both directions It provides a space to pass through.

As shown in FIG. 2, such a housing 110 forms an exterior and serves as a support frame while providing a space for the components according to the present invention to be installed in an internal installation space.

Accordingly, the housing 110 is preferably made of a metal material having relatively high rigidity, and is preferably made of a metal material such as a stainless steel material strong against corrosion or a zinc-plated metal.

On the other hand, by making the housing 110 in a standardized rectangular parallelepiped shape, it is preferable to combine the electric dust collector 100 according to the present invention like a block to configure the electric dust collector of various standards.

To this end, the upper and lower surfaces of the rectangular parallelepiped-shaped housing 110 may be opened or closed as necessary, but it is preferable that both are open as shown in FIG. 2 .

As shown in FIG. 2, the enclosure 110 according to the present invention has various structures and shapes in order to provide a space with both sides closed and both front and back open, based on the direction in which the contaminated air flows. However, as shown in the embodiment in FIG. 3, the housing 110 forms the left and right closed sides, and a pair having a coupling frame 113 formed at the same height vertically along the outer circumferential surface. It is preferable that it is a modular housing 110 in which the side plate parts 112-R, 112-L and the pair of side plate parts 112-R, 112-L are combined with four fixing bars 111 interconnecting each other.

In the modular housing 110 as shown in FIG. 3, a plurality of the electric dust collectors 100 according to the present invention are combined to form an electric dust collector, and the The coupling is possible using a welding method or various fastening means, but a bolt fastening hole for fastening the bolt 115 is formed in the coupling frame 113 of the side plate 112, and a bolt and a nut are used as a fastening means. By combining the electric dust collector 100 according to the present invention in contact with each other, disassembly is possible in the future, and there is an advantage of fast assembly and relatively high mechanical stability.

On the other hand, the coupling frame 113 serves to increase the mechanical strength of the module housing 110 itself, and at the same time, when assembling a plurality of the electrostatic precipitator 100 according to the present invention, the coupling between the electrostatic precipitator 100 is performed. It serves to provide a bonding surface for

The discharge unit 140 is installed at the front or rear of the discharge unit installation space of the housing 110, and is connected to the high voltage supply means (PS) to generate a corona discharge to charge the collection target to form a charged area. Includes ionizer.

On the other hand, the discharge unit 140 is installed on either the front or rear side of the housing 110 to constitute a unidirectional electric dust collector according to the present invention, or is installed on both the front and rear sides as shown in FIG. It constitutes an electrostatic precipitator.

And, the corona discharge phenomenon occurs by the ionizer constituting the discharge unit 140 electrically connected to the high voltage supply means (PS) as described above.

The ionizer that causes corona discharge in the discharge unit 140 may be formed of ionizers of various shapes and structures capable of causing corona discharge, and is not limited to any specific ionizer, but is not limited to the specific ionizer. It is preferable that the ionizer has the shape and structure as shown in the drawings for explaining an embodiment of the ionizer of the discharge unit according to the electric dust collector having a complex charging unit for improving the function.

As an embodiment of the ionizer constituting the discharge unit 140, as shown in FIG. 4, an ionizer in which a plurality of protrusions are formed along the longitudinal direction in a saw shape having a predetermined length to charge fine particles by corona discharge. A multi-cross pin consisting of (I-1) or in which a plurality of projections causing corona discharge are formed along the longitudinal direction in a saw shape having a predetermined length, and a plurality of side projections are additionally formed on both sides in the longitudinal direction It may be made of an ionizer (I-2), and may be made of a wire-type wire ionizer (I-3) made of a metal material.

As shown in FIG. 4, the ionizer I-1 with the protrusions has a number of protrusions along the longitudinal direction in a saw shape, and corona discharge occurs in the plurality of protrusions, so that the microscopic objects to be collected The particles form a charged region that is charged.

The multi-cross pin ionizer (I-2) also has a saw shape having a predetermined length, and a plurality of protrusions causing corona discharge are formed along the longitudinal direction, and a plurality of side protrusions are additionally formed on both sides in the longitudinal direction. It provides more protrusions compared to the ionizer (I-1) in which the protrusions are formed.

The wire ionizer (I-3) is a thin metal wire with a diameter of 1 mm or less commonly used to create a charged region, and a tungsten material is mainly used, and the wire ionizer (I-3) is a rod-shaped electrode It is preferable to form a contact end (I-3-1) having a concave portion to surround and contact, and the wire (I-3-2) through which the discharge is made is coupled to the contact end (I-3-1). do.

As shown in the drawings for explaining the collecting unit according to the electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention in Figs. 2 and 5, the collecting unit 120 is the opening of the housing 110. It is installed in the inner space, and a plurality of plate-shaped collecting plates 121 made of a conductive material are installed in parallel in the direction in which the contaminated air flows to collect the charged fine particles.

At this time, the collecting plates 121 constituting the collecting unit 120 are all electrically connected and grounded.

Accordingly, the collecting plates 121 of the collecting unit 120 are electrically positively charged (+) electrodes.

On the other hand, the size of the collecting plate 121 is preferably formed as wide as possible that can be installed inside the housing (110).

As shown in the drawings for explaining the voltage unit according to the electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention in Figs. 2 and 6, the voltage unit 130 is made of electricity such as copper or tungsten material Fig. 5 shows a fin-type discharge plate 131 in which a plurality of discharge fins 132 for discharge are formed on the plate-shaped surface using a material having high conductivity and relatively high mechanical rigidity. Installed at equal intervals between the collecting plates 121 of the collecting unit 120 as described above, these pin-type discharge plates 131 are electrically connected to the high voltage supply means (PS) and corona discharge from the discharge pins 132 to form a charged region to charge the collection target contained in the contaminated air flowing between the collection plate 121 and the fin-type discharge plate 131, and at the same time between the fin-type discharge plate 131 and the collection plate 121 An electric field is generated to provide a physical environment in which the charged collecting objects can be collected by the collecting plate 121 .

That is, as shown in FIGS. 2 and 6 , the voltage unit 130 is installed at equal intervals between the collecting plates 121 of the collecting unit 120 and electrically connected to each other to receive a high voltage from the high voltage supply means. It consists of a plurality of fin-type discharge plates 131 that become negatively charged electrodes by receiving a charge from ) through a corona discharge to create a charged region (A2).

Accordingly, the electric dust collector 100 according to the present invention is as shown in FIG. 7 for explaining the formation of a complex charging unit according to the electric dust collector having a complex charging unit for improving the fine dust removal function of the present invention, as shown in FIG. In addition to the charged region A2 formed by 140, the voltage unit 130 is electrically connected to the high voltage supply means PS, and the voltage unit 130 is composed of a pin-type discharge plate 132 having a plurality of discharge pins 132 formed therein. By forming the charged area A2 by the above-mentioned method, the composite charging unit is formed by the discharge unit 140 and the voltage unit 130 to form the charged area A2.

On the other hand, the pin-type discharge plates 131 inserted at equal intervals between the collecting plates 121 of the collecting unit 120 are electrically connected to the high voltage supply means PS, and 10 KV of direct current from the high voltage supply means PS ~ A plurality of discharge fins 132 integrally formed on the fin-type discharge plate 131 when supplied with 12 KV generate a corona discharge due to a high voltage to form a charged area A2, and such a charged area A2 The fine dust, etc., which is a collection target that passes through the An attractive force acts toward the collecting plate 121 by the electric field generated due to a difference in the amount of charge therebetween, and a repulsive force acts with the pin-type discharge plate 131 to be collected by the collecting plate 121 .

On the other hand, if the discharge pin 132 is further described, as shown in FIG. 8 for explaining the discharge pin according to the electrostatic precipitator having a composite charging unit for improving the fine dust removal function of the present invention, the pin type The discharge pins 132 formed on the discharge plate 131 are preferably arranged in a vertical direction in a direction in which the contaminated air flows.

This is so that the charged area A2 can be evenly generated over the entire range in which the polluted air flows.

In addition, the height h of the discharge fin 132 preferably has a height of 40% to 60% compared to the distance d between the fin-type discharge plate 131 and the collecting plate 121 .

For example, if the distance d between the fin-type discharge plate 131 and the collection plate 121 is 10 cm, it is preferable that the discharge fins 132 have a height h of 4 cm to 6 cm.

This is because the strongest electric field is formed at the end point of the discharge fin 132 so that the strongest electric field is located at the center between the fin-type discharge plate 131 and the collecting plate 121 to form the electric field as the center of the electric field A2) This is to ensure that the pin-type discharge plate 131 and the collecting plate 121 are formed evenly from the center.

In addition, the pin-type discharge plate 131 of the electrostatic precipitator 100 having a complex charging unit for improving the fine dust removal function of the present invention is shown in FIG. As shown in the drawing for explaining the embodiment of the fin-type discharge plate, discharge is only performed in a section (0.05L to 0.2L) of 5% to 20% of the total width (L) at the front and rear ends based on the direction in which air flows A pin 132 may be formed.

That is, the discharge fins 132 may be formed over the entire surface of both sides of the fin-type discharge plate 131, but as shown in FIG. 9, the fin-type discharge plate 131 is By forming the discharge pins 132 only between the front end (0.05L ~ 0.2L) and the rear end (0.05L ~ 0.2L), it can be divided into a charging section (A2) and a dust collecting section in which the discharge pins 132 are not formed. have.

In the above, the present invention has been described based on a preferred embodiment, but the technical spirit of the present invention is not limited thereto, and it is possible to make modifications or changes within the scope described in the claims. Those of ordinary skill in the art to which the present invention pertains It is apparent to the user, and such modifications or changes shall fall within the scope of the appended claims.

A1: electric field
A2: Charged area
PS: high voltage supply means
1: Fine particles to be collected
2: charged microparticles
3: Collected fine particles
10: discharge electrode
20: voltage plate
30: dust collecting electrode
100: electric dust collector according to the present invention
110: hull
111: fixture
112: side plate
113: coupling frame
120: collection unit
121: collection plate
130: voltage unit
131: pin-type discharge plate
132: discharge pin
140: discharge unit

Claims (9)

A box having a rectangular parallelepiped shape with both sides closed based on the direction in which the contaminated air flows, front, rear, top, and bottom open, and providing an installation space for installing a discharge unit, a collection unit, and a voltage unit; a discharge unit installed in the front or rear installation space of the housing and having an ionizer connected to a high voltage supply means to generate a corona discharge to charge a collection target; a collecting unit installed in the installation space of the housing and configured to collect charged fine particles by continuously installing a plurality of plate-shaped folded collecting plates made of a conductive material in parallel in a direction in which contaminated air flows; And a plurality of discharge pins are formed on the plate-shaped surface of the plate-shaped surface made of a conducting material, and are connected to a high voltage supply means to generate corona discharge from the discharge pins. A voltage unit installed at equal intervals between the plates to form an electric field between the collecting plate and the pin-type discharge plate; including,
The discharge unit includes: an ionizer in which a plurality of protrusions are formed along the longitudinal direction in a saw shape having a predetermined length to charge the fine particles by corona discharge; or a wire-type wire ionizer made of a metal material; and
The discharge fins formed on the fin-type discharge plate are arranged side by side in a vertical direction in the direction in which the air flows, and have a height of 40% to 60% compared to the distance between the fin-type discharge plate and the collecting plate; fine dust, characterized in that An electric dust collector having a complex charging unit for improved removal function. According to claim 1, wherein the enclosure is
A pair of side plate portions having a coupling frame formed at the same height vertically along the outer circumferential surface and forming closed sides of the left and right sides; and a fixing bar interconnecting the pair of side plate portions; and formed by the side plate portion An electric dust collector having a complex charging unit for improving the fine dust removal function, characterized in that all surfaces other than the side are open and are coupled to and coupled to an adjacent enclosure. delete According to claim 1, wherein the ionizer is formed with a plurality of projections
A multi-cross pin ionizer in which a plurality of protrusions causing corona discharge are formed along the longitudinal direction in a saw shape having a predetermined length, and a plurality of side protrusions are further formed on both sides in the longitudinal direction; An electric dust collector with a complex charging unit to improve the fine dust removal function. delete According to claim 1, wherein the wire ionizer
Electrostatic precipitation having a composite charging unit for improving fine dust removal function, characterized in that a contact end having a concave portion formed to be in contact with the rod-shaped electrode is formed, and a wire through which a discharge is made is coupled to the contact end. Device. delete delete The method of claim 1, wherein the fin-type discharge plate is
An electric dust collector having a complex charging part for improving the fine dust removal function, characterized in that the discharge pins are formed only in a section of 5% to 20% of the total width from the front end to the rear end based on the direction in which the air flows.

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