KR102311176B1 - Bi-directional electric dust collecting module including pin type discharge plate - Google Patents

Abstract

The bidirectional electric dust collecting module having a pin-type discharge plate of the present invention includes a pin-type discharge plate as an integral body, and the maintenance of the pin-type discharge plate is easy, and a plurality of two-way electric dust collecting modules are fastened to constitute a single two-way electric dust collecting filter device. It relates to, based on a rectangular parallelepiped shape, both sides are closed based on the circulation direction of the contaminated air, and both the front and the back of the module box providing an open space; a collecting unit installed in the open space of the module housing and configured to collect charged fine particles by installing a plurality of folded collecting plates in a plate shape made of a conductive material in parallel in a direction in which the contaminated air flows; and a plurality of discharge pins for discharging are formed on both sides of the plate shape in a plate shape made of a conducting material, and connected to a high voltage supply means to generate a corona discharge from the discharge pins. and a voltage part that is installed at equal intervals between the collecting plate and the fin-type discharge plate to form an electric field between the discharge plate and the fin-type discharge plate. There is an effect of improving durability, and through this, there is an effect of preventing a decrease in the dust collecting efficiency of the electric dust collector.

Description

Bi-directional electric dust collecting module including pin type discharge plate}

The present invention relates to an electric dust collection module capable of collecting electricity in both directions in a place where polluted air is circulated in both directions, such as a subway vent. In particular, it is made integrally including a pin-type discharge plate, but has relatively high extensibility and dust collection efficiency. It relates to a bidirectional electric dust collecting module that is easy to maintain for maintenance.

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 that are contained in the polluted gas and collects the charged object. The coulomb force (electrostatic force) acts on the pole, and it works on the principle of collection by being drawn toward the dust collecting electrode.

As shown in the drawing for explaining the dust collection principle of the electrostatic precipitator in FIG. 1, the electric dust collector using such a principle has a discharge electrode 10 that generates a corona discharge, a high DC voltage of 11,000 Volts or more from the high voltage applying means (PS). , 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 such as dust, dust or moisture contained in the contaminated air introduced from the outside are in an electrically neutral state, and the fine particles 1 in a neutral state enter the charged region A2. When it comes, it becomes the charged microparticles (2) in a negative state by collision or adsorption with gas molecules having an 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) Silver 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. When free electrons move toward (30) and 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.

The gas molecules bearing anion in this way collide or adsorb with the fine particles 1 in the charged region A2 to charge the fine particles.

At the same time, it is spaced apart from the discharge electrode 10 at a predetermined distance 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 fin-type discharge plates 20 on a hanging plate, 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 fin-type discharge plate 20 and the dust collecting electrode 30 , and the charged fine particles 1 flowing into the electric field exert an attractive force with the dust collecting electrode 30 , and the fin-shaped discharge plate A repulsive force acts with (20) and is drawn to and attached to the dust collecting electrode (30).

The fine particles 2 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 a detailed description thereof will be omitted.

An electric dust collector using the principle of electric dust collection is generally divided into a single-stage type and a two-stage type. The first stage type integrates a discharge unit including a discharge electrode and a dust collection unit, and is called a Cottrell dust collector, and air pollution prevention means 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, so it is widely used as an industrial dust emission prevention device that prevents the discharge of liquid and solid particles generated in various industrial plants.

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 a reverse ionization phenomenon occurs. 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 must 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-containing concentration because the discharge part, the dust collecting part, and the electric field are separated.

On the other hand, the two-stage type has an 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.

On the other hand, in the case of forming a charged region by arranging a plurality of wires at predetermined intervals for the discharge electrodes of the discharge unit charged while the contaminated air passes through the two-stage electric dust collector, the wire vibrates due to wind speed, etc. The problem of frequent breakage of the wire occurs due to vibration, and when the wire is broken, a problem occurs that sufficient electric charge is not made to the collection target. There is a problem in that the maintenance of the wire is very difficult.

In addition, there is a problem in that it is difficult to construct an electric dust collector required to respond to a place where the flow rate is fast and the flow rate is relatively large, such as a ventilation device in a subway vent or a ventilation device in a large underground facility.

That is, there is a problem in that the electrostatic precipitator must be individually designed according to the conditions of the installation site in consideration of the wind speed, air volume, dust concentration, etc. of the place where the electrostatic precipitator is installed.

Therefore, there is a demand for a bidirectional electric dust collecting module that is structurally simple, has relatively high mechanical rigidity of each component, and has almost no effect of vibration due to wind speed, and has relatively high scalability. Accordingly, there is a demand for a bidirectional electric dust collecting module that can configure an electric dust collector by combining blocks according to the conditions of the installation site without any difficulty.

The present invention was devised to solve the problems of the prior art as described above, and it is an object of the present invention to provide a bidirectional electric dust collecting module that is structurally simple, has relatively high mechanical rigidity of each component, and has little effect of vibration due to wind speed. do it with

In addition, the present invention provides a bidirectional electric dust collecting module that can provide an electric dust collector that meets the conditions by assembling the blocks in accordance with the conditions according to the installation space, wind speed, air volume, dust collection efficiency, etc. when installing the electric dust collector. aims to provide

In addition, an object of the present invention is to provide a bidirectional electric dust collecting module that can be applied to a subway vent with a relatively high wind speed and a large amount of air to collect even ultra-fine dust with relatively high efficiency.

In addition, the present invention has a simple structure compared to the conventional bidirectional electric dust collecting module using a protruding discharge electrode in the form of an iron plate, and the weight and volume can be relatively reduced. An object of the present invention is to provide a bidirectional electric dust collection module that can relatively reduce the size and volume.

Other objects of the present invention can be understood through the features 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.

The bidirectional electric dust collecting module having a fin-type discharge plate of the present invention has a rectangular parallelepiped shape, with both sides closed based on the direction in which the contaminated air flows; a collecting unit installed in the open space of the module housing and configured to collect charged fine particles by installing a plurality of folded collecting plates in a plate shape made of a conductive material in parallel in a direction in which the contaminated air flows; and a plurality of discharge pins for discharging are formed on both sides of the plate shape in a plate shape made of a conducting material, and connected to a high voltage supply means to generate a corona discharge from the discharge pins. It is characterized in that it comprises a; voltage unit installed at equal intervals therebetween to form an electric field between the collecting plate and the pin-type discharge plate.

In addition, the module housing of the bidirectional electric dust collecting module having a fin-type discharge plate of the present invention forms a left and right closed side and a pair of side plate parts having a coupling frame formed at the same height vertically along an outer circumferential surface; and the pair It consists of a fixing member for interconnecting the side plate parts of the side plate part, and all other surfaces except for the side surface formed by the side plate part are all open; it is a technical feature.

In addition, the pair of side plate parts of the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention are inserted into the coupling frame to finish the side exposed portion of the side plate part. .

In addition, the coupling frame of the side plate portion of the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention is characterized in that a bolt fastening hole is formed for bolt fastening.

In addition, the present invention is characterized in that the discharge pins formed on the fin-type discharge plate of the bidirectional electric dust collecting module having the fin-type discharge plate are arranged side by side in the vertical direction of the air flowing direction.

In addition, the discharge pins formed on the fin-type discharge plate of the bidirectional electric dust collecting module having the fin-type discharge plate of the present invention have a height of 40% to 60% compared to the distance between the fin-type discharge plate and the collection plate; a technical feature.

In addition, the fin-type discharge plate of the bidirectional electric dust collecting module having a fin-type discharge plate of the present invention forms discharge pins only in a section of 5% to 20% of the total width at the front and rear ends based on the direction in which air flows; characterized.

In addition, the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention is characterized in that it further includes an air guide installed on the front and rear surfaces of the module case.

In the present invention, through means for solving the above problems, the bidirectional electric dust collecting module according to the present invention has a simplified structure and improved mechanical stability and There is an effect of improving durability, and through this, there is an effect of preventing a decrease in the dust collecting efficiency of the electric dust collector.

In addition, the bidirectional electric dust collecting module according to the present invention forms a dust collecting wall in rows and columns in a manner that combines blocks according to conditions such as installation space, wind speed, air volume, dust collection efficiency, etc., and installs multiple to meet the installation conditions. There is an effect that the electric dust collector can be configured relatively easily.

In addition, the bidirectional electric dust collecting module according to the present invention has the effect of being able to collect even ultra-fine dust with relatively high efficiency by being applied to a subway ventilation hole with a relatively high wind speed and a large amount of air.

In addition, the bidirectional electric dust collecting module according to the present invention can relatively reduce the weight and volume compared to the conventional bidirectional electric dust collecting module, thereby significantly reducing the overall weight and volume of the electric dust collecting device in which the bidirectional electric dust collecting module is used relatively. can have an effect.

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 the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
3 is a view for explaining an embodiment of a module enclosure according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
4 is a view for explaining an embodiment of the module housing according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
5 is a view for explaining a collection unit according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
6 is a view for explaining a discharge unit according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
7 is a view for explaining a dust collecting environment according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
8 is a view for explaining a discharge pin according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
9 is a view for explaining an embodiment of a pin-type discharge plate according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention;
10 is a view for explaining the function of the air guide according to the bidirectional electric dust collection module having a pin-type discharge plate of the present invention;
11 is a view showing a design example of an electric dust collector using a bidirectional electric dust collecting module having a pin-type discharge plate of the present invention.

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 equivalents as claimed in the claims. 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 the bidirectional electric dust collecting module having the pin-type discharge plate of the present invention, the bidirectional electric dust collecting module 100 having the pin-type discharge plate of the present invention is a module housing 110 forming an exterior , is electrically grounded, and includes a collecting unit 120 for collecting dust on a collecting target, and a voltage unit 130 electrically connected to a high voltage supply means (PS) to form a charged region and an electric field.

The module 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 so that the contaminated air can penetrate from both directions. provide space.

In addition, as shown in FIG. 2 , the module housing 110 forms the exterior of the bidirectional electric dust collecting module 100 according to the present invention and serves as a support frame.

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

On the other hand, by making the module housing 110 in a standardized rectangular parallelepiped shape, the bidirectional electric dust collecting module 100 according to the present invention can be combined like a block to configure an electric dust collecting device of various standards.

And, the upper and lower surfaces of the rectangular parallelepiped module housing 110 may be opened or closed as needed, but preferably open as shown in FIG. 2 .

As such, the module housing 110 according to the present invention has various structures and structures in order to provide an open space with both sides closed and both front and back, based on the direction in which the contaminated air is basically distributed, as shown in FIG. 2 . It may be in any form, but it is preferable to be a module housing 110 having a structure as shown in FIG. 2 .

This is to allow the washing water to flow downward by gravity when washing the bidirectional electric dust collecting module 100 according to the present invention.

As such, the module housing 110 according to the present invention, which is all open except for the side, is a view for explaining an embodiment of a module housing according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention in FIG. 3 in order to have a rectangular parallelepiped appearance As shown in, the module housing 110 of the bidirectional electric dust collecting module 100 according to the present invention forms the left and right closed sides, and the coupling frame 113 formed at the same height vertically along the outer circumferential surface. A pair of side plate parts (112-R, 112-L) having a pair and the pair of side plate parts (112-R, 112-L) may be made by combining the four fixing bars 111 interconnecting each other.

On the other hand, when the module housing 110 of the bidirectional electric dust collecting module 100 according to the present invention includes a pair of side plate portions 112-R, 112-L as shown in FIG. 3, the pin-type discharge plate of the present invention The pair of side plate parts 112 of the bidirectional electric dust collecting module having a finishing cover 118 made of a synthetic resin material is inserted into the coupling frame 112 to close the side exposed portion of the side plate part 112. Also, in the coupling frame 113 of the side plate 112 of the bidirectional electric dust collecting module 100 according to the present invention, a bolt fastening hole 114 for fastening the bolt 115 is formed.

In constructing a two-way electric dust collector by combining a plurality of bidirectional electric dust collecting modules 100 according to the present invention, each of the bidirectional electric dust collecting modules 100 according to the present invention is coupled using a welding method or various fastening means. This is possible, but as shown in FIG. 4 , a bolt fastening hole 114 for fastening the bolt 115 is formed in the coupling frame 113 of the side plate 112 and the bolt 115 is used as a fastening means. By combining the bidirectional electric dust collection module 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 two-way electric dust collecting module 100 according to the present invention, between the two-way electric dust collecting module 100 . It serves to provide a bonding surface for bonding.

The collecting unit 120 is installed in the open inner space of the module housing 110 as shown in Figs. and a plurality of plate-shaped collecting plates 121 made of a conductive material are installed in a row in a 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 module housing (110).

As shown in the drawings for explaining the discharge unit according to the bidirectional electric dust collecting module having the fin-type discharge plate of the present invention in FIGS. 2 and 6, the voltage unit 130 has high electrical conductivity and mechanical rigidity like a tungsten material. A fin-type discharge plate 131 having a plurality of discharge pins 132 that discharge is formed on both sides of the plate shape using a good material is placed between the collecting plates 121 of the collecting unit 120 . Installed at equal intervals, these pin-type discharge plates 131 are electrically connected to the high voltage supply means (PS) to generate a corona discharge from the discharge pins 132 to form a charged region, thereby forming a collection plate 121 and a pin-type discharge plate. The collection object contained in the contaminated air flowing in between the discharge plates 131 is charged, and at the same time, an electric field is generated between the pin-type discharge plate 131 and the collection plate 121 so that the charged collection objects are collected on the collection plate 121 . It provides a physical environment where it can be captured.

That is, as shown in FIGS. 2 and 5 , 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 a 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 ) to generate a corona discharge to create a charged region (A2).

That is, as shown in FIG. 7 for explaining the dust collection environment according to the bidirectional electric dust collecting module having the pin-type discharge plate of the present invention, the pin-type discharge inserted at equal intervals between the collecting plates 121 of the collecting unit 120 . The plate 131 is electrically connected to the high voltage supply means (PS) to receive 10 KV to 12 KV of DC from the high voltage supply means (PS), and a plurality of discharge pins ( In 132, a corona discharge due to a high voltage occurs to form a charged region A2, and fine dust, which is a collection target passing through such a charged region A2, is charged, and is thus charged by the discharge pin 132. Fine dust and the like are attracted toward the collecting plate 121 by the electric field generated due to the difference in the amount of charge between the collecting plate 121 having a positive charge (+) and the fin-type discharge plate 131 having a negative charge (-). A repulsive force acts with the discharge plate 131 to be collected by the collection 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 bidirectional electric dust collecting module having the pin-type discharge plate of the present invention, the pin-type discharge plate 131 It is preferable that the discharge pins 132 formed on the surface are arranged side by side in a vertical direction in the direction in which the contaminated air flows.

This is to ensure that the charged area A2 is evenly generated over the entire range through which the contaminated 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 can be formed evenly from the center.

In addition, the pin-type discharge plate 131 of the bidirectional electric dust collecting module 100 having a pin-type discharge plate of the present invention is shown in FIG. 9 As shown in the figure, the discharge pins 132 may be formed only in sections (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 the air flows.

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 is based on the air flow directions F and R. The discharge pins 132 are formed only between the front end portions (0.05L to 0.2L) and the rear end portions (0.05L to 0.2L) of the plate 131, so that the charge section A2 and the discharge pins 132 are not formed. It can be divided into dust collection sections.

In addition, as shown in the drawing for explaining the air guide according to the bidirectional electric dust collecting module having a pin-type discharge plate of the present invention in FIG. ) It is preferable to further include an air guide 180 installed on the front and back.

As shown in FIG. 10, when the air guide 180 is configured by combining the two-way electric dust collecting module 100 according to the present invention in 5 rows and 3 columns, the closed surface 181 due to the module housing 110 is generated, and such a closed surface 181 increases in proportion to the number of use of the bidirectional electric dust collecting module 100 according to the present invention.

On the other hand, the closed surface 181 has a problem in that it interferes with the smooth flow of air and generates a vortex, which may cause resonance. It is solved by adding an air guide 180 to the front (F) and rear (R) of the dust collector to allow air to flow naturally while covering the closed surface 181 .

The bidirectional electric dust collecting module 100 according to the present invention has been described in detail through embodiments, and the bidirectional electric dust collecting module 100 according to the present invention is shown in Fig. 11 according to the design specifications of the required electric dust collecting device. As shown in the drawing showing a design example of an electric dust collector using a bidirectional electrostatic precipitator module having a discharge plate, the bidirectional electrostatic precipitator 100 according to the present invention is combined in a row/column/column to facilitate a bidirectional electrostatic precipitator. can be configured.

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 Any 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: Collection target
10: discharge electrode
20: pin-type discharge plate
30: dust collecting electrode
100: bidirectional electric dust collection module according to the present invention
110: module enclosure
111: fixture
112: side plate
113: coupling frame
113: finish cover
114: bolt fastener
115: volt
118: finish cover
120: collection unit
121: collection plate
130: voltage unit
131: pin-type discharge plate
132: discharge pin
180: air guide

Claims (8)

A modular enclosure providing both sides closed and both front and back open space based on the direction in which the contaminated air flows in a rectangular parallelepiped shape; a collecting unit installed in the open space of the module 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 for discharging are formed on both sides of the plate shape in a plate shape made of a conducting material, and connected to a high voltage supply means to generate a 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;
The module case comprises: a pair of side plate parts having a coupling frame formed at the same height vertically along an outer circumferential surface and forming closed sides of the left and right sides; and a fixing bar interconnecting the pair of side plate parts; and the side plate All other sides except the side formed by the part are open,
The discharge fins formed on the fin-type discharge plate are arranged side by side in a vertical direction in the direction in which air flows, and have a height of 40% to 60% compared to the distance between the fin-type discharge plate and the collecting plate; Bi-directional electrostatic precipitation module with plate. delete According to claim 1, wherein the pair of side plate portion
Bi-directional electric dust collecting module having a pin-type discharge plate, characterized in that it further comprises; a finishing cover made of a synthetic resin material inserted into the coupling frame to close the side exposed portion of the side plate. According to claim 1, wherein the coupling frame of the side plate portion
A two-way electric dust collecting module having a pin-type discharge plate, characterized in that a bolt fastening hole for fastening the bolt is formed.. delete delete The method of claim 1, wherein the fin-type discharge plate is
Bi-directional electric dust collecting module having a pin-type discharge plate, characterized in that the discharge pins are formed only in a section of 5% to 20% of the total width at the front and rear ends based on the direction in which air flows. According to claim 1,
Bi-directional electric dust collecting module having a pin-type discharge plate, characterized in that it further comprises; air guides installed on the front and rear surfaces of the module case.

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