KR102028499B1 - Tower type fine particles removal system using natural wind - Google Patents

Abstract

The present invention relates to a fine dust removal system using natural wind, which removes fine dust by an electric dust collection method using natural wind, and has a self-cleaning function and a sewage recycling function. The present invention comprises: a pillar structure vertically installed on the ground as a structure made of steel and concrete; a dust collection structure in which a guide wall is formed such that the entire side is opened, the natural wind is introduced into the center regardless of the direction, and the introduced natural wind is discharged from the center to the atmosphere, as a structure made of steel and concrete installed radially on the upper part of the pillar structure; a fine dust collection core unit connecting a plurality of bidirectional electric dust collection walls formed by stacking a plurality of bidirectional electric dust collection cells in a horizontal direction and a vertical direction on the center part of the dust collection structure to form an inner space having a pillar shape, and collecting fine dust contained in the natural wind flowing into the inner space of the dust collection structure firstly and then collecting fine dust contained in the natural wind flowing out of the center space into the atmosphere secondly; a driving control unit controlling driving of the fine dust collection core unit; and a high voltage supply unit supplying a high voltage of the fine dust collection core unit according to a control signal of the driving control unit. Regardless of the seasonal wind, the natural wind blowing from all directions can widely remove the fine dust contained in the atmosphere with relatively low energy.

Description

Tower type fine particles removal system using natural wind}

The present invention relates to a tower-type fine dust removal system is a large facility that is installed outdoors to remove the fine dust contained in the atmosphere, in particular, to remove the fine dust by the electrostatic precipitating method using the natural wind, self-cleaning function and sewage recycling function It relates to a fine dust removal system having.

One of the air pollutants, called 'fine dust', is an air pollutant containing sulfurous acid gas, nitrogen oxide, lead, ozone, carbon monoxide, etc., which is generated in automobiles and factories, and floats in air for a long time. It is a fine dust of 'PM10'. If the particle is 2.5μm or less, it is written as 'PM 2.5' and is called 'ultrafine dust'.

Such fine dust is a particulate material with a diameter of 10 μm or less floating or scattering in the air. It is an air pollutant that greatly affects the human body. The fine dust particles of 10 μm or less (PM10) increase the incidence and mortality rate of vulnerable groups. It has been found that the likelihood of harmful effects on the human body is high.

In 2009, a study of fine dust and mortality by the National Institute of Environmental Research and Inha University's research team showed that every 10 µg / m increase in PM10 concentration in Seoul increased The mortality rate is estimated to increase by 0.4%.

The effect of ultrafine dust (PM2.5) is greater, and it is estimated that the death rate of the sensitive group increases 1.1% for every 10µg / m3 increase.

In addition, a study by Prof. Ha Eun-hee of the Ewha Womans University Medical School found that the increase in the concentration of fine dust increased from 5.2% to 7.4% for low birth weight infants, and the risk of stillbirth between 4-9 months of pregnancy increased to 8.0-13.8%. It penetrates deep into the alveoli of humans, and the fine dust accumulated in the bronchus and lungs directly causes various respiratory diseases and reduces the body's immune function.

Most of the fine dust is fatal to humans, but among them, sulfate ions and nitrate ions are adsorbed with dust in the yellow dust, which is converted into oxides and enters the lungs with respiration, causing bronchitis, asthma and chronic obstructive pulmonary disease (COPD).

As such, the fine dust is deadly to the health of the human body and the scope of damage is enormous, and the national countermeasures are prepared, and personal efforts are being made to protect the human body from the fine dust.

The country's countermeasures include abolishing aging coal power generation in the power generation sector, switching to an energy plan based on a new paradigm, and reviewing the adjustment of the eco-friendly tax rate system for power generation. In addition, the government has imposed an air discharge charge on nitrogen oxides, which are a source of fine dust and ozone, and strengthens the leak standard concentration of fugitive leakage facilities.

Also, in the road transportation sector, 2 million eco-friendly vehicles, including electric and hybrid vehicles, will be distributed by 2022, and a public-private council will be established to expand the supply of electric and hydrogen car charging stations by 2022. It aims to add nitrogen oxides to the emission inspection items for diesel vehicles, intensively manages road refurbishment dust and promotes crushing and spraying support projects for proper disposal of agricultural residues that are mostly incinerated. In addition, VOCs content standards for building and industrial coatings are being reinforced.

On the other hand, a large air purification facility is installed to improve air quality by removing fine dust locally as a means for reducing fine dust generated.

The large air purifying facility is a small facility of several tens of meters to hundreds of meters, and the air quality is improved by inhaling and purifying the air in the atmosphere and then discharging it. And, by continuously removing the fine dust contained in the air there is an effect of reducing the fine dust concentration of the entire air quality.

As an related art, an application number 10-2005-0106953 has been disclosed.

The prior art relates to an air purification system, wherein one end is exposed to the outside and the other end is disposed in a predetermined installation space, and the outer pipe and the inner pipe disposed vertically in the duct member are installed with a predetermined distance from each other. Falling guide portion to guide the falling water continuously from the upper portion of the duct member along the wall surface, the duct member is adsorbed by the falling water to remove dust or fine dust in the outside air introduced by the falling water A plurality of air inflow portions introduced into the space between the inner wall and the outer pipe of the vertical section and into the space between the outer pipe and the inner pipe, a drop collecting portion formed at a lower portion of the duct member and collecting the falling water; Pulling the person up to the upper duct, the inner and outer pipes of the inner wall and the outer pipe of the vertical section of the duct member It is supplied to the outer peripheral surface of the main surface and the inner pipe flows down, and when the water is collected in the downflow collecting part comprises a downflow circulation to repeat the above method, and the dust or fine dust in the incoming outside air to It can be supplied by purifying by adsorption method, but can be reused while circulating water, and can be used for a long time or continuously, and can suppress the discharge of fine dust or dust generated into the air due to high purification efficiency. There has been disclosed a technique capable of preventing the generation of microorganisms without causing them.

However, there is a limit to removing fine dust as described above, and there is a problem in that a large amount of water is required as water is used, and at the same time, a large amount of water must be purified to prevent contamination.

In addition, the prior art also has a limitation of the fine dust removal capacity in removing the fine dust contained in the atmosphere.

The present invention was devised to solve the problems of the prior art as described above, using a natural wind blowing in all directions irrespective of the monsoon tower type that can remove a wide range of fine dust in the atmosphere with a relatively low energy An object of the present invention is to provide a fine dust removal system.

In addition, an object of the present invention is to provide a tower type fine dust removal system that can remove the fine dust more effectively by collecting the fine dust twice.

In addition, an object of the present invention is to provide a tower-type fine dust removal system that can maintain the fine dust removal efficiency by the automatic cleaning of the wet method.

In addition, an object of the present invention is to increase the energy efficiency and recycling the waste water, the object of the tower-type fine dust removal system is not discharged.

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

The present invention has the following technical features to achieve the problem to be solved by the present invention as described above.

Tower type fine dust removal system using the natural wind of the present invention is a structure made of steel and concrete vertically installed on the ground, the column structure formed the vehicle entrance so that the vehicle can enter and exit from the outside; A structure consisting of steel frame and concrete installed radially on the top of the pillar structure, the entire side is open, and dust collection is formed so that natural wind flows into the center regardless of the direction and the introduced natural wind flows from the center into the atmosphere. structure; A plurality of bidirectional electrostatic precipitating cells are stacked on the center of the dust collecting structure in a horizontal direction and a vertical direction to connect a plurality of bidirectional electrostatic precipitating walls to form a central internal space in the form of a column, and flow into the central internal space of the dust collecting structure. A fine dust collecting core unit for collecting fine dust contained in the natural wind as a first and then collecting fine dust contained in the natural wind flowing out into the air from the inner space of the central portion in a second manner; A driving control unit controlling driving of the fine dust collecting core unit; And a high voltage supply unit supplying a high voltage of the fine dust collecting core unit according to a control signal of the driving control unit, wherein the bidirectional electrostatic precipitating cell constituting the bidirectional electrostatic precipitating wall is opened in a direction in which air flows, and both sides The cell enclosure is closed to provide an installation space therein; Installed at both ends of the open air in the air flow direction of the cell enclosure, the plurality of projections along the longitudinal direction in a saw shape having a predetermined length to connect the high voltage supply to the corona discharge to charge the fine dust A bidirectional charging unit formed of at least one multicross pin ionizer formed in a lengthwise direction with a plurality of side protrusions formed on both sides; A dust collecting electrode part disposed between one charging part and the other charging part of the bidirectional charging part and collecting a fine dust by installing a metal plate in parallel arranged in parallel with the flow direction of air; And a voltage plate part connected to the high voltage supply part by a metal plate disposed between the metal plates of the dust collecting electrode part.

In addition, the center of the dust collecting structure of the tower-type fine dust removal system using the natural wind of the present invention, the cross-section of the central portion is any one of the column of the regular triangle, square, regular pentagon, regular hexagon and regular octagonal each side of the bidirectional electrostatic precipitating wall Is installed, the sides of each side is connected to the guide wall; has a technical feature.

In addition, the bidirectional electrostatic precipitating wall of the tower type fine dust removing system using the natural wind of the present invention further includes a cleaning means on the outside or inside or both sides of the bidirectional electrostatic precipitating wall, wherein the washing means is formed on the lower portion of the bidirectional electrostatic precipitating wall. A wastewater collecting portion for collecting wastewater; A wastewater storage unit for receiving and storing wastewater from the wastewater collecting unit; A wastewater purification unit receiving wastewater stored in the wastewater storage unit and purifying it with fresh water; Fresh water storage unit for storing the purified fresh water through the waste water purification unit; An air pipe disposed horizontally and moving up and down, the plurality of air injection nozzles being formed at equal intervals; A washing water pipe disposed horizontally and moving up and down and having a plurality of washing water spray nozzles formed at equal intervals; A driving unit for moving the air pipe and the washing water pipe up and down; An air supply unit connected to the air pipe to supply high pressure air; And a washing water supply unit connected to the washing water pipe to receive and supply the high pressure washing water from the fresh water storage unit.

In addition, the upper surface of the dust collecting structure of the tower-type fine dust removal system using the natural wind of the present invention forms a gradient to collect rainwater, the rainwater collected from the upper surface of the dust collecting structure is purified and used as the washing water; The technical feature.

In addition, the pillar structure of the tower-type fine dust removal system using the natural wind of the present invention forms a column structure upper space in the lower space in contact with the dust collection structure, the fresh water storage unit, the air supply unit and the cleaning in the column structure upper space Installing a water supply; and technical features.

In addition, the upper surface of the dust collecting structure of the tower-type fine dust removal system using the natural wind of the present invention is that a plurality of solar panels are installed;

In addition, the present invention, the tower-type fine dust removal system using the natural wind The pillar structure is characterized in that it further comprises a lifting device for transferring a person.

The present invention has the effect of removing the fine dust contained in the atmosphere with a relatively low energy by using the natural wind blowing in all directions regardless of the seasonal wind through the means for solving the above problems.

In addition, the present invention has the effect of removing the fine dust more effectively by collecting the fine dust twice.

In addition, the present invention has the effect of maintaining the fine dust removal efficiency to a predetermined level or more by automatic cleaning of the wet method.

In addition, the present invention has an effect that the waste water is not discharged by relatively increasing the energy efficiency and recycling the waste water.

Other effects of the present invention may be understood through the features of the present invention, more clearly understood through the embodiments of the present invention, and may be exerted by means and combinations indicated in the claims.

1 is a view showing the appearance according to an embodiment of the tower-type fine dust removal system using the natural wind of the present invention,
2 is a view for explaining the basic morphological structure of the tower-type fine dust removal system using the natural wind of the present invention,
Figure 3 is a view showing a horizontal cross-section of the dust collecting structure according to the tower-type fine dust removal system using the natural wind of the present invention,
4 is a view showing an example of the shape of the dust collecting structure according to the tower-type fine dust removal system using the natural wind of the present invention,
5 is a view for explaining the bidirectional electrostatic precipitating wall of the tower-type fine dust removal system using the natural wind of the present invention,
6 is a view for explaining the bidirectional charging unit of the bidirectional electrostatic precipitating cell according to the tower-type fine dust removal system using the natural wind of the present invention,
7 is a view for explaining the cleaning means of the bidirectional electrostatic precipitating wall according to the tower-type fine dust removal system using the natural wind of the present invention,
8 is a view for conceptually explaining the configuration of the cleaning means according to the tower-type fine dust removal system using the natural wind of the present invention,
9 is a view showing an embodiment of the tower-type fine dust removal system using the natural wind of the present invention,
10 is a view showing an embodiment of a pillar structure according to the tower-type fine dust removal system using the natural wind of the present invention,
11 is a view showing an example in which a solar panel is added to the tower-type fine dust removal system using the natural wind of the present invention,
12 is a view showing an example in which the lifting unit is added to the tower-type fine dust removal system using the natural wind of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the 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 with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Tower type fine dust removal system (1) using the natural wind of the present invention is shown in Figure 1 (a) of the external appearance according to an embodiment of the tower type fine dust removing system using the natural wind of the present invention, the height is several tens of meters As a large structure that reaches the center of the population and vehicles, such as the city is concentrated in the air as shown in Figure 1 (b) using fine natural dust flowing in the air through the natural air flow over a few tens of meters It is a fine dust removal system for collecting and removing dust, characterized in that to use the natural wind without a separate suction means and to collect and remove the fine dust by the electric dust collection method.

Hereinafter, the tower-type fine dust removal system using the natural wind of the present invention will be described in detail through an embodiment of the tower-type fine dust removing system using the natural wind of the present invention.

2 is a view for explaining the basic structural structure of the tower-type fine dust removal system using the natural wind of the present invention. As shown in FIG. 2, the tower type fine dust removing system 1 using the natural wind of the present invention includes a pillar structure 10, a dust collecting structure 20, a fine dust collecting core part 30, and a driving control unit 40. It comprises a high voltage supply unit 50.

The pillar structure 10 is a structure made of steel and concrete, as shown in Figure 2, is fixed to the ground and installed vertically, the vehicle entrance 11 is formed so that the vehicle can enter and exit from the outside.

As shown in (b) of FIG. 1, the pillar structure 10 is a structure for positioning the dust collecting structure 20 over several tens of meters in which air flow is formed in a predetermined direction. It is formed to a height of about 80m, the width is formed to more than 20m.

On the other hand, the pillar structure 10 is preferably a cylindrical structure as shown in FIG. 2, but may also be in the form of a square pillar or a polygonal pillar.

As shown in FIG. 2, the dust collecting structure 20 is a structure made of steel frame and concrete that is radially installed on the pillar structure 10. The core part 30 flows into the central part where the core part 30 is located, and the introduced natural wind forms the guide wall 21 so that the natural air flows out of the central part.

That is, Figure 3 as shown in the figure showing a horizontal cross-section of the dust collecting structure according to the tower-type fine dust removal system using the natural wind of the present invention, both sides are open to the guide wall 21 in any direction regardless of the direction of the monsoon wind Natural wind (fine dust air) is introduced into the fine dust dust collecting core portion 30 located at the center of the dust collecting structure 20 along the flow path formed by the natural wind, and the introduced natural wind penetrates again through the fine dust dust collecting core portion 30. By passing through the bidirectional electrostatic precipitating wall 31 twice in the process of outflowing into the atmosphere, the fine dust is first removed in the process of flowing into the center of the dust collecting structure 20 with respect to the fine dust air, and the first is fine dust. In the process of flowing into the air in the center with respect to the removed air to remove the fine dust secondary.

On the other hand, the number is determined according to the shape of the fine dust dust collecting core portion 30 of the guide wall 21 of the dust collecting structure (20).

As shown in FIG. 3, when the central portion of the dust collecting structure 20 has a regular hexagonal pillar shape, six guide walls 21 are formed, and six air flow paths 22 are formed by the six guide walls 21. ) Is generated.

That is, the guide wall 21 is provided as many as the number of bidirectional electrostatic precipitating wall 31, through which the air flow passage 22 is generated.

Accordingly, as shown conceptually in the figure showing an example of the shape of the dust collecting structure according to the tower-type fine dust removal system using the natural wind of the present invention, the dust-collecting structure of the tower-type fine dust removing system (1) using the natural wind of the present invention ( 20) the center of the center of the cross-section of any one of the square, square, regular pentagon and regular hexagon (the Fig. 3) in the form of a column, each side is the bidirectional electrostatic precipitating wall 31 is installed, the sides of each side It is connected to the guide wall 21 to form an air channel 22 according to the shape of the center.

As such, the dust collecting structure 20 has a disk shape as shown in FIG. 2, the size of the entire diameter is about 50m, the diameter of the central portion is about 20m, it is preferable that the height is about 20m.

The fine dust dust collecting core portion 30 is located at the central portion through which the natural wind penetrates in the dust collecting structure 20 and is a means for collecting fine dust included in the natural wind twice in an electric dust collecting manner in FIGS. 2 to 4. As shown, a plurality of bidirectional electrostatic precipitating walls 31 are connected to each other.

That is, the fine dust dust collecting core part 30 connects the plurality of bidirectional electrostatic precipitating walls 31 in accordance with the shape of the center of the dust collecting structure 20 to form an inner space in the center of the columnar shape.

Therefore, as shown in FIG. 3, the fine dust included in the natural wind flowing into the central space of the dust collecting structure 20 is first collected in the process of flowing into the central space of the fine dust collecting core unit 30. In the process of flowing out to the atmosphere from the inner space of the central portion of the fine dust collecting core portion 30 is collected second.

Meanwhile, the bidirectional electrostatic precipitating wall 31 forming the fine dust collecting core part 30 is a view for explaining the bidirectional electrostatic precipitating wall of the tower type fine dust removing system using the natural wind of the present invention and FIG. As shown in the drawings for explaining the bidirectional charging part of the bidirectional electrostatic precipitating cell according to the tower type fine dust removal system using the microparticles removal system, the fine dust included in the air flowing in both directions can be collected regardless of the direction in which the air is introduced. Regardless of the direction in which air is introduced, bidirectional electrostatic precipitating cells 310 capable of collecting fine dust contained in air introduced from both directions are stacked in a horizontal direction and a vertical direction.

As described above, the bidirectional electrostatic precipitating cell 310 irrespective of the inflow direction of the air is opened in a direction in which air flows, and both sides are closed to provide an installation space therein, and the cell housing 311. Are installed at both ends of the open air in the air circulation direction, and are connected to the high voltage supply unit 50 to generate corona discharge to charge fine dust. A bidirectional charging unit 312 and a bidirectional charging unit 312a-1 formed with one or more multicross pin ionizers 312a each having a plurality of side protrusions 312a-2 formed on both sides thereof in a longitudinal direction. A dust collecting electrode which is disposed between the one side charging portion 312b and the other side charging portion 312c of 312 and is disposed in parallel with a metal plate 313a, which is grounded and arranged in parallel with the flow direction of air, to collect charged fine dust. Part (31 3) and a metal plate 314a disposed between the metal plate 313a of the dust collecting electrode part 313 and the voltage plate part 314 connected to the high voltage supply part 50.

Therefore, the fine dust included in the natural wind is charged while passing through the bidirectional charging unit 312, and then the Coulomb force is introduced into the electric field formed between the metal plate 313a and the voltage plate portion 314a of the dust collecting electrode portion 313 The dust collecting electrode 313 is attracted to the metal plate 313a and collected.

For example, as shown in FIG. 3, when the fine dust collecting core unit 30 is composed of eight bidirectional electrostatic precipitating walls 31, 640 bidirectional electrostatic precipitating cells 310 are required. In this case, the present invention has an accuracy of 3,456,000 m 3 or more per hour, and has an accuracy of 82,944,000 m 3 or more per day.

The drive control unit 40 controls the operation of the bidirectional electrostatic precipitating wall 31 forming the fine dust collecting core unit 30 as a means for controlling the driving of the fine dust collecting core unit 30.

The high voltage supply unit 50 is a means for supplying a high voltage to the bidirectional charging unit 312 and the voltage plate unit 314 of the bidirectional electrostatic precipitating cell 310 forming the bidirectional electrostatic precipitating wall 31. It is made by the drive control unit 40.

Tower-type fine dust removal system 1 using the natural wind of the present invention organically coupled as described above includes the following embodiments.

The bidirectional electrostatic precipitating wall 31 of the tower type fine dust removing system 1 using the natural wind of the present invention is shown in FIG. 7 for explaining the cleaning means of the bidirectional electrostatic precipitating wall according to the tower type fine dust removing system using the natural wind of the present invention. As described above, the cleaning means 320 for spraying the high pressure cleaning liquid and the high pressure air toward the bidirectional electrostatic precipitating wall 31 in a configuration for wet automatic cleaning on the outside, the inside or both sides of the bidirectional electrostatic precipitating wall 31 is provided. It includes more.

The cleaning means 320 according to the present invention is a means for maintaining the dust collection efficiency of the bidirectional electrostatic precipitating wall 31 to a predetermined level or more by wet removal of fine dust collected on the bidirectional electrostatic precipitating wall 31. As shown in the drawings for explaining the configuration of the cleaning means according to the tower-type fine dust removal system using the natural wind wastewater collecting unit 321 and wastewater storage unit 322, wastewater purification unit 323 and fresh water storage unit ( 324, an air tube 325, a washing water tube 326, a driving unit 327, an air supply unit 328, and a washing water supply unit 329.

The wastewater collecting unit 321 is disposed below the bidirectional electrostatic precipitating wall 31 to collect wastewater that is injected through the washing water pipe 326 and flows down with the fine dust collected on the bidirectional electrostatic precipitating wall 31. .

The wastewater storage unit 322 serves to store the wastewater collected without being discharged in order to recycle the wastewater collected by the wastewater collection unit 321.

The wastewater purification unit 323 receives the wastewater stored in the wastewater storage unit 322 using various filters such as a physical filter or a chemical filter to purify the fresh water.

The fresh water storage unit 324 supplies water consumed to clean the bidirectional electrostatic precipitating wall 31 to the washing water supply unit 329 as a means for storing the clean water purified through the wastewater purification unit 323. do.

The washing water pipe 326 is horizontally disposed to move up and down by the driving unit 327, and a plurality of washing water injection nozzles are formed at equal intervals, so that washing water is supplied from the washing water supply unit 329 and is bidirectionally electric. The washing water is injected at a high pressure toward the dust collecting wall 31.

As such, the fine dust collected in the bidirectional electrostatic precipitating wall 31 is washed down with the washing water due to the washing water sprayed at a high pressure toward the bidirectional electrostatic precipitating wall 31.

The air pipe 325 is horizontally disposed and moved up and down by the driving unit 327, and a plurality of air injection nozzles are formed at equal intervals so that high-pressure air is supplied from the air supply unit 328 to provide bidirectional electricity. It serves to spray to the dust collecting wall (31).

The air pipe 325 serves to quickly dry the cleaned bidirectional electrostatic precipitating wall 31 by injecting high pressure air toward the bidirectional electrostatic precipitating wall 31.

In addition, the tower-type fine dust removal system using the natural wind of the present invention is shown in Figure 9 an embodiment of the tower-type fine dust removal system using the natural wind of the present invention, the upper surface (23) corresponding to the roof of the dust collecting structure (20) In forming a), a technical feature is to form a gradient so that rainwater is collected to collect water in order to use rainwater.

The rainwater collected on the upper surface of the dust collecting structure 20 is stored in the wastewater storage unit 322 or stored in a separate rainwater storage unit, and the rainwater stored in this way is purified through the wastewater purification unit 323. The fresh water storage unit 324 is stored.

In addition, the tower-type fine dust removal system using the natural wind of the present invention corresponds to the top of the columnar structure 10, as shown in the figure showing an embodiment of the columnar structure according to the tower-type fine dust removal system using the natural wind of the present invention. The pillar structure upper space 12 is formed in the lower space in contact with the dust collecting structure 20, the fresh water storage unit 324, the air supply unit 328 and the washing water supply unit in the column structure upper space 12 It is characterized by providing 329.

This is to reduce the pressure loss by reducing the height difference between the air pipe 325 and the washing water pipe 326 and the fresh water storage unit 324, the air supply unit 328 and the washing water supply unit 329.

In addition, the tower-type fine dust removal system (1) using the natural wind of the present invention is shown in Figure 11 the solar panel is added to the tower-type fine dust removal system using the natural wind of the present invention, the dust collecting structure 20 It is characterized in that the photovoltaic power generation by installing a plurality of solar panels 24 on the upper surface (23).

The dust collecting structure 20 is located in the upper tens of meters above the surface of the dust collecting structure 20 in order to actively use such an environment by creating an environment capable of photovoltaic power generation without being relatively influenced by the surroundings A plurality of photovoltaic panels 24 are installed at 23 to generate photovoltaic power. Through this, a part of energy required by the tower type fine dust removal system 1 using the natural wind of the present invention is used as renewable energy.

Finally, the tower-type fine dust removal system (1) using the natural wind of the present invention, as shown in Figure 12 showing an example in which the lifting unit is added to the tower-type fine dust removal system using the natural wind of the present invention, the dust collection structure 20 Lifting device 14 is installed in the columnar structure 10 in order to transport people or equipment.

The present invention has been described above based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

1: Tower type dust removal system using the natural wind of the present invention
10: pillar structure
11: vehicle entrance
12: upper space of pillar structure
14 lifting device
20: dust collecting structure
21: guide wall
22: by air distribution
23: upper surface
24: solar panel
30: fine dust dust core part
31: bidirectional electrostatic precipitating wall
40: drive control unit
50: high voltage supply unit
310: bidirectional electrostatic precipitating cell
311: cell enclosure
312: two-way charging unit
312a: Multicrosspin Ionizer
312a-1: projection
312a-2: side projection
312b: One side charging unit
312c: other charging part
313 dust collecting electrode
313a: metal plate
314: voltage plate
314a: metal plate
320: cleaning means
321 wastewater collection unit
322 wastewater storage unit
323 wastewater purification unit
324: fresh water storage unit
325: air pipe
326: washing water pipe
327 drive unit
328: air supply
329: washing water supply

Claims (7)

A structure consisting of steel frame and concrete, installed vertically on the ground, and having a door structure formed with a vehicle entrance so that the vehicle can enter and exit from the outside;
A structure consisting of steel frame and concrete installed radially on the top of the pillar structure, the entire side is open, and dust collection is formed so that natural wind flows into the center regardless of the direction and the introduced natural wind flows from the center into the atmosphere. structure;
A plurality of bidirectional electrostatic precipitating cells are stacked on the center of the dust collecting structure in a horizontal direction and a vertical direction to connect a plurality of bidirectional electrostatic precipitating walls to form a central internal space in the form of a column, and flow into the central internal space of the dust collecting structure. A fine dust collecting core unit for collecting fine dust contained in the natural wind as a first and then collecting fine dust contained in the natural wind flowing out into the air from the inner space of the central portion in a second manner;
A driving control unit controlling driving of the fine dust collecting core unit; And
And a high voltage supply unit supplying a high voltage of the fine dust collecting core unit according to a control signal of the driving control unit.
The bidirectional electrostatic precipitating cell forming the bidirectional electrostatic precipitating wall is
A cell enclosure which is opened in a direction in which air is flown and both sides are closed to provide an installation space therein;
Installed at both ends of the open air in the air flow direction of the cell enclosure, the plurality of projections along the longitudinal direction in a saw shape having a predetermined length to connect the high voltage supply to the corona discharge to charge the fine dust A bidirectional charging unit formed of at least one multicross pin ionizer formed in a lengthwise direction with a plurality of side protrusions formed on both sides;
A dust collecting electrode part disposed between one charging part and the other charging part of the bidirectional charging part and collecting a fine dust by installing a metal plate in parallel arranged in parallel with the flow direction of air; And
And a metal plate disposed between the metal plates of the dust collecting electrode part, the voltage plate part being connected to the high voltage supply part. According to claim 1, wherein the central portion of the dust collecting structure
The cross-section of the central portion is any one of a regular triangle, a square, a regular pentagon and a regular hexagon, each side of the bi-directional electrostatic precipitating wall is installed, the sides of each side is connected to the guide wall; Tower type fine dust removal system using. The method of claim 1, wherein the bidirectional electrostatic precipitating wall is
Further comprising washing means on the outside or inside or both sides of the bidirectional electrostatic precipitating wall,
The cleaning means
A wastewater collecting unit formed at a lower portion of the bidirectional electrostatic precipitating wall to collect wastewater;
A wastewater storage unit for receiving and storing wastewater from the wastewater collecting unit;
A wastewater purification unit receiving wastewater stored in the wastewater storage unit and purifying it with fresh water;
Fresh water storage unit for storing the purified fresh water through the waste water purification unit;
An air pipe disposed horizontally and moving up and down, the plurality of air injection nozzles being formed at equal intervals;
A washing water pipe disposed horizontally and moving up and down and having a plurality of washing water spray nozzles formed at equal intervals;
A driving unit for moving the air pipe and the washing water pipe up and down;
An air supply unit connected to the air pipe to supply high pressure air; And
And a washing water supply unit connected to the washing water pipe to receive and supply high pressure washing water from the fresh water storage unit. The method of claim 3,
The upper surface of the dust collecting structure forms a gradient to collect rainwater,
Rainwater collected from the upper surface of the dust collecting structure is purified and used as washing water; Tower-type fine dust removal system using the natural wind, characterized in that. The method of claim 3, wherein the pillar structure
A column structure upper space is formed in a lower space in contact with the dust collecting structure,
And installing the fresh water storage unit, the air supply unit and the washing water supply unit in an upper space of the columnar structure. The method of claim 1, wherein the upper surface of the dust collecting structure
A plurality of solar panels are installed; Tower type dust removal system using the natural wind, characterized in that. The method of claim 1, wherein the pillar structure
Lifting device for transporting people; Tower-type fine dust removal system using a natural wind further comprising.

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