KR101928450B1 - Apparatus for removing dust of uv paint - Google Patents

Abstract

The present invention relates to a dust collecting apparatus and, more specifically, to a dust collecting apparatus for UV paint, in which a primary centrifugation module brings air containing UV paint into contact with water in a centrifugal separator made of a screen plate in order to primarily remove dust and contaminants of a predetermined size, a secondary centrifugation module brings the air, from which the dust and contaminants are primarily removed, into contact with water again in the centrifugal separator made of the screen plate in order to secondarily remove dust and contaminants of a predetermined size smaller than the size of the primarily removed dust and contaminants, and a tertiary centrifugation module brings the air, from which the dust and contaminants are secondarily removed, into contact with water again in the centrifugal separator made of the screen plate in order to tertiarily remove dust and contaminants of a predetermined size smaller than the size of the secondarily removed dust and contaminants. Therefore, the dust and contaminants contained in the UV paint are completely removed, and dust and contaminants less than 2% contained in the air, from which the dust and contaminants are tertiarily removed, are removed from a glass filter such that only the purified air can be discharged to the atmosphere, thereby increasing the lifetime of the filter.

Description

[0001] APPARATUS FOR REMOVING DUST OF UV PAINT [0002]

The present invention relates to a dust collecting apparatus, and more particularly, to a dust collecting apparatus in which air containing UV paint is contacted with water in a centrifugal separator formed of a screen plate in a primary centrifugal separation module to remove first- First, dust and contaminants are removed from the centrifugal separator in a centrifugal separator, which is then screened in a secondary centrifugal module to remove the dust and contaminants less than the first size, The dust and contaminant-free air is again contacted with water in a centrifugal separator made of a screen plate in a tertiary centrifugal module to remove dust and contaminants less than a predetermined size smaller than a third size, It completely removes dust and pollutants, and lastly it removes less than 2% of dust and pollutants contained in the air, Released to the atmosphere only the purified air is removed from the filter by to about precipitator for UV paint so as to increase the life of the filter.

Through rapid economic growth, urbanization and industrialization, pollution problems such as air, water quality and waste caused by deepening of environmental pollution in Korea are becoming social problems.

In particular, damage to human bodies, plants, and plants due to dust or gas discharged into the atmosphere is not only hazardous in itself, but also causes harmful harmful effects due to coexisting harmful gas, and the effect becomes larger as the particles become finer . In addition, fine dusts do not easily fall on the ground and float in the air for a long time, which causes visual disturbance, pneumoconiosis or smog.

Particularly, there is a large amount of paint dust during coating operation, dust of paint is scattered and pollutes the surrounding environment, and a large amount of volatile organic compounds (VOCs) are generated from the paint. As an organic compound which reacts with nitrogen oxides by the sunlight to increase the surface ozone concentration, the demand for reduction of volatile organic compounds is increasing internationally, and for the safety of workers, efforts for reducing volatile organic compounds have been demanded.

A dust collector has been developed to remove such paint dust.

Korean Patent No. 10-135083 (dust collecting device for UV paint dust) and Korean Patent No. 10-1525774 (dust removing device for paint) disclose a technique for removing such paint dust.

As shown in FIGS. 1 and 2, the dust collecting apparatus for UV paint dust includes an inlet duct 101 through which UV paint powder is supplied from a UV coating facility, and a UV paint dust gas flowing through the inlet duct 101 A dust collecting unit 200 for filtering dust containing a large amount of mucus-phase components by dust-collecting the UV paint dust gas containing a large amount of mucus-phase components flowing through the air blowing unit 100; And an exhaust unit 300 for exhausting the filtered air through the exhaust duct 301. Reference numeral 201 denotes an inlet housing, reference numeral 213 denotes a first maintenance door, reference numeral 231 denotes a motor, reference numeral 220 denotes a first dust collecting filter, reference numeral 227 denotes a fixed frame, reference numeral 240 denotes a second dust collecting filter, reference numeral 250 denotes a filter housing, A second maintenance door, and 259 is a perforated support plate.

3, the paint dust removing apparatus 1 includes a housing 10, an inlet duct 20, an outlet duct 30, a blower 40, a multi-centrifugal module 50 A rotary dust filter 60, and a fixed dust filter 70. [

The enclosure 10 is formed in a rectangular parallelepiped shape and is divided into one to three space portions S1 to S3 by partition walls 11. The enclosure 10 has an air inlet 12 at one upper end and an air outlet 12 at the other side, (13) is formed.

One end of the inlet duct 20 is connected to the air inlet 12 of the enclosure 10 and the other end of the inlet duct 20 is connected to a coating facility to supply contaminated air containing paint and contaminants from the coating facility To the air inlet (12).

One end of the discharge duct 30 is connected to the air discharge port 13 of the housing 10.

The blower 40 is installed at the other end of the discharge duct 30 to supply the contaminated air to the enclosure 10 through the inflow duct 20 and to supply purified air purified inside the enclosure 10 to the discharge duct 30 ) To the atmosphere.

Next, the multi-centrifugal separation module 50 is composed of a module case 51, a mixer 52, a gasket 53, a water film panel 54, a water tank 55 and a water tank 56.

The module case 51 is made of a metal and has upper and lower ends opened. The interior of the module case 51 is formed in a hollow rectangular parallelepiped shape and is installed in the first space S1 of the housing 10.

The mixer 52 has upper and lower ends opened so that a plurality of modules are interconnected and arranged vertically in the module case 51, an interior of the mixer 52 is formed into an empty rectangular parallelepiped shape, and a staggered collection plate 52a is vertically installed And a water inflow hole (WH) is provided at the side of the central portion to mix the water with the contaminated air supplied from the air inlet (12) of the enclosure (10) to remove the paint and contaminants first.

The gasket 53 seals the space between the mixer 52 and the adjacent mixer 52 so that all the polluted air passes through the mixer 52.

The water film panel 54 is spaced apart from the center of the module case 51 such that water is supplied to the inside of the mixer 52 and water is horizontally spaced apart from each other.

The water tank 55 is disposed at the lower end of the first space S1 inside the housing 10 away from the lower end of the module case 51 and water falling from the mixer 52 is collected.

The water tank 56 supplies water into the water film panel 54 through the water inlet 51a of the module case 51 to supply water to the water inlet holes WH of the respective mixers 52 10). At this time, water in the water tank 56 is supplied into the water film panel 54 by the blowing pressure and supplied to the water inflow hole WH of the mixer 52. At this time, a pipe is provided between the water tank 56 and the water inlet 51a of the module case 51.

The rotary dust filter 60 is installed in the second space S2 of the housing 10 and includes a rotary motor 61 provided on the bottom surface of the housing 10 and a rotary shaft 63 To remove the paint and contaminants contained in the primary purified air discharged through the multi-centrifugal separation module 50 in a second order.

The fixed dust collection filter 70 includes a plurality of vertically installed partition walls 11 for partitioning the second space S2 and the third space S3 of the housing 10 into a multi- The paint and contaminants contained in the second purified air discharged through the third cleaner are removed.

When the contaminated air containing paint and contaminant dust is supplied to the air inlet 12 of the enclosure 10 by the blower 40 from the painting equipment, the multi-centrifugal module 50 into the module case 51 and dispersed by the gasket 53 into the respective mixers 52. [

The contaminated air is mixed with the water flowing through the water inlet hole WH while being moved downward from the upper part of the mixer 52 so that dust and water are collected in the zigzag form collecting plates 52a And then the mixture is further mixed and then dropped into the water tank 55. [

On the other hand, the primary purified air, which passes through the mixer 52 and is retained in the first space S1 by first removing dust of about 80% or more, passes through the rotary dust filter 60 being rotated, And about 95% or more of dust is removed secondarily.

Subsequently, the second purified air is moved to the second space S2 through the upper part of the rotary dust filter 60 and then passes through the fixed dust filter 70 installed in the partition 11 to the third space S3 . At this time, the secondary purified air passes through the fixed dust filter 70, and about 98% or more of the dust is thirdly removed.

The third purified air in the third space portion S3 is discharged to the atmosphere through the air outlet 13 of the housing 10 and the discharge duct 30 and the blower 40. [

However, in the conventional dust collecting apparatus for UV paint dust, the paint is dry-processed while passing through two dust collecting filters. In the case of paint dust, there is a problem that it is impossible to treat with a filter only because of high viscosity, The rotary dust filter is used in the apparatus because the filter has a short life span and thus the replacement time is fast and the maintenance cost is increased. Therefore, there is a problem that the company uses the filter without replacing the filter, thereby polluting the atmosphere.

(Prior art 1) Korean Patent No. 10-135083 (Prior art 2) Korean Patent No. 10-1525774

In order to solve the above problems, in the primary centrifugal separation module, air containing UV paint is contacted with water in a centrifugal separator formed of a screen plate to remove primary dust and contaminants of a predetermined size or more , The dust and contaminant-free air is firstly removed from the centrifugal separator, which is composed of a screen plate in the secondary centrifugal module, with water to remove dust and contaminants less than a certain size smaller than the first size, The dust and contaminants are removed from the car by the third centrifugal module in the centrifugal separator formed with the screen plate, and then the water is contacted with the water. And finally, thirdly, less than 2% of dust and contaminants in the dust and polluted air So that only the purified air is removed from the glass filter to increase the lifetime of the filter.

According to an aspect of the present invention,

An enclosure having an air inlet connected to the upper end of the coating unit for introducing contaminated air containing dust and contaminants of UV paint from the painting equipment and an air outlet for discharging purified air to the other side; A primary centrifugal module installed inside the enclosure to allow air to flow, contacting the contaminated air supplied from an air inlet of the enclosure with water to perform primary centrifugal separation of dust and contaminants of the UV paint and discharge the contaminants; A second centrifugal module disposed on the side of the primary centrifugal module in the inside of the enclosure and contacting the contaminated air discharged from the primary centrifugal module with water to perform secondary centrifugal separation of the dust and contaminants of the UV paint, A car centrifuge module; A third centrifugal module disposed on the side of the secondary centrifugal module in the inside of the enclosure, for contacting the polluted air discharged from the secondary centrifugal module with water, A car centrifuge module; A glass filter installed in the inside of the housing in a line on the side of the tertiary centrifuge module for removing dust and contaminants from the UV paint discharged from the tertiary centrifuge module and discharging the dust to the air outlet of the housing; A water storage tank installed on a bottom surface of the housing for storing and discharging water discharged from the first to third centrifugal modules; And a jetting module for jetting the water filtered in the water tank to the upper part of the first to third centrifugal modules.

Here, the first to third centrifugal modules are formed so as to have a planar shape of " diaphragm "so as to discharge polluted air purified on both sides thereof, and are formed to be smaller than the width of the housing, A case having air discharge holes formed on both sides thereof; An exhaust duct installed at a lower side of one side of the case to discharge water containing pollutants and dust of the UV paint collected in the case to the water storage tank; A centrifugal separator formed in a cylindrical shape of a screen plate in which a plurality of holes are perforated and formed horizontally in the inside of the case; A rotating shaft installed to be rotatable in the housing through the air discharge hole to rotate the centrifugal separator; And a rotation motor fixed to the outside of the housing and coupled to the rotation shaft and the belt to rotate the rotation shaft.

Here, the pair of centrifugal passing-through rotary shafts is installed in the case.

Here, the centrifugal separator of the first to third centrifugal modules may have a structure in which the size of the hole of the screen plate of the primary centrifugal module is larger than the size of the hole of the screen plate of the secondary centrifugal module, The size of the hole of the screen plate of the centrifugal module is formed to be larger than the size of the hole of the screen plate of the tertiary centrifugal module.

Here, the glass filter is horizontally installed in each of the plurality of air flow holes provided in the vertical partition dividing the housing.

Here, the water storage tank is formed in the shape of a rectangular parallelepiped having an open top, and the interior thereof is partitioned by a cross-shaped barrier wall so that the body composed of the collection tank, the first and second filtration tanks, Three of them are continuously installed so as to be respectively positioned on the bottom surface of the module, and the first to third water outlets are provided in the blocking wall.

Here, the first water outlet is formed at the upper end so as to sink dust and contaminants of the UV paint contained in the water discharged to the collection tank through each of the discharge ducts, and to discharge only the upper water to the first filtration tank And the second water outlet is formed at a lower end to block bubbles generated in the collecting tank and the first filtration tank from being discharged, And is formed at the upper end so as to cool only the supernatant to the reservoir, and is formed at the same height as the first water outlet.

Here, the injection module may include a water pump installed in the reservoir of the water reservoir and feeding water by pressure; A water pipe connected to each of the water pumps and extending to a centrifuge tube side of each of the cases; And a plurality of spray nozzles provided in the respective water pipes and spraying water into the centrifugal separator of each of the cases.

According to the dust collecting apparatus for UV paint according to the present invention, the air containing the UV paint is contacted with water in a centrifugal separator formed of a screen plate, so that primary dust and contaminants The dust and contaminant-free air is first removed from the centrifugal separator in the centrifugal separator in the secondary centrifugal module to remove the dust and contaminants of less than a certain size smaller than the first size , Secondly, dust and contaminant-removed air is again contacted with water in a centrifugal separator formed on a screen plate in a tertiary centrifugal module to remove dust and contaminants less than a predetermined size, To completely remove the dust and contaminants contained in the UV paint by completely removing the dust and contaminants contained in the UV paint, Jin and by emitting a pollutant to the atmosphere only the dust and contamination material of less than 2%, contained in the removed air removed from the glass filter purifying the air it is possible to increase the life of the filter.

FIG. 1 and FIG. 2 are views showing the construction of a conventional dust collecting apparatus for UV paint.
Fig. 3 is a view showing a configuration of a dust removal apparatus of a conventional paint.
4 is a front view showing a configuration of a dust collecting apparatus for UV paint according to the present invention.
5 is a plan view of Fig.
FIG. 6 is a perspective view illustrating the configuration of the first to third centrifugal modules among the dust collectors for UV paint according to the present invention.
7 is a perspective view showing the structure of a water tank of a dust collecting apparatus for UV paint according to the present invention.
8 is an explanatory diagram for explaining the operation of the dust collecting apparatus for UV paint according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a dust collecting apparatus for UV paint according to the present invention will be described in detail with reference to the accompanying drawings.

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

4 is a plan view of the dust collecting apparatus for UV paint according to the present invention, FIG. 5 is a plan view of FIG. 4, and FIG. 6 is a cross- FIG. 7 is a perspective view showing the structure of a water tank of the dust collecting apparatus for UV paint according to the present invention. FIG.

4 to 7, a dust collecting apparatus 100 for a UV paint according to the present invention includes a housing 110, a primary centrifugation module 120, a secondary centrifugation module 130, A centrifugal separation module 140, a glass filter 150, a water storage tank 160, and an injection module 170.

First, the enclosure 110 is formed in a closed rectangular parallelepiped shape. The enclosure 110 is connected to a painting facility (not shown) on the upper side of one side, and dusts of the UV paint and pollutants contained in the painting equipment An air inlet 111 through which air flows in, and an air outlet 113 through which air purified in the other side is discharged. At this time, the enclosure 110 is provided with a plurality of doors 115 for maintenance.

6, the primary centrifugal module 120 includes a case 210, an exhaust duct 220, a centrifugal separator 230, a rotary shaft 240, and a rotary motor 250 .

The case 210 is formed in a shape of a plane so as to discharge polluted air purified on both sides and is formed to be smaller than the width of the housing 110 and formed horizontally at both ends of the case 210 And air discharge holes 213 are formed on both sides thereof, and are installed at one side (right end in the drawing) of the housing 110. At this time, the blocking blade 211 extends to the housing 110 to maintain airtightness.

The discharge duct 220 is installed at the lower side of the case 210 so as to discharge the water containing pollutants and dust of the UV paint collected in the case 210 to the water storage tank 160.

The centrifugal separator 230 is formed in a cylindrical shape in the form of a screen plate 233 having a plurality of holes 231 having a predetermined size (for example, 2 mm) . At this time, it is preferable that a pair of centrifugal separators 230 are installed in the case 210. Water is sprayed on the surface of the centrifugal separator 230, and a plurality of holes 231 ), Dust and contaminants of the UV paint having a predetermined size or less are passed through the discharge duct 220 and discharged to the water storage tank 160 through the discharge duct 220 .

The rotating shaft 240 passes through the air discharge hole 213 of the case 210 so that both ends of the rotating shaft 240 are rotatable in the housing 110. The center of the rotating shaft 240 is connected to the centrifugal separator 230, . At this time, the rotating shaft 240 is connected to the centrifugal separator 230 by a wheel 241 having a wagon wheel shape.

The rotation motor 250 is fixed to the outside of the housing 110 and connected to the rotation shaft 240 through a belt 251 to rotate the rotation shaft 240.

The secondary centrifugal module 130 is installed on the side of the primary centrifugal module 120 in the inside of the enclosure 110 in the same line as the primary centrifugal module 120, The dust and contaminants of the UV paint are brought into contact with each other to be discharged by the second centrifugal separation and have the same structure as the primary centrifugal module 120 and the holes 231 of the screen plate 233 of the centrifugal separator 230 (E.g., 1 mm) smaller than that of the primary centrifugation module 120.

In addition, the tertiary centrifugal module 140 is installed in the inside of the enclosure 110 on the side of the secondary centrifugal module 130 in the same line, and the contaminated air and water discharged from the secondary centrifugal module 130 And the dust and contaminants of the UV paint are brought into contact with each other for the third centrifugal separation and discharge. The structure of the centrifugal separator is the same as that of the primary centrifugal module 120, and the hole 231 of the screen plate 233 of the centrifugal separator 230 ) Size is formed smaller than the secondary centrifugation module 130 (for example, 0.5 mm).

The glass filter 150 is a high density filter of 100 K and is installed in the enclosure 110 on the side of the tertiary centrifugal module 140 in the same line, And discharges the UV paint to the air outlet 113 of the housing 110. At this time, the glass filter 150 is preferably horizontally installed in the plurality of air flow holes 153 provided in the vertical partition 151 for partitioning the enclosure 110.

The water storage tank 160 is installed on the bottom surface of the housing 110 so that water discharged from the first to third centrifugal modules 120, 130 and 140 is stored and is filtered and recirculated. And is divided into a collection tank 163, first and second filtration tanks 164 and 165, and a storage tank 166. The first and second filtration tanks 164 and 165 and the reservoir tank 166 are separated from each other by a cross- Three main bodies 161 are continuously installed on the bottom surfaces of the first to third centrifugal modules 120, 130, and 140, respectively. At this time, the first to third water outlets 167, 168 and 169 are provided in the blocking wall 162, and the first water outlets 167 are discharged to the collecting tank 163 through the respective discharge ducts 123 And the second water outlet 168 is formed in the upper portion of the collecting tank 163 and the first filtration tank 164 so that only the supernatant is discharged to the first filtration tank 164, And the third water outlet 169 is provided at the lower end to block the bubbles generated in the first filtration tank 164 from being discharged. The third water outlet 169 sinks dust and contaminants of the UV paint contained in the water discharged from the first filtration tank 164, And is formed at the same height as the first water discharge port 167 of the collecting tank 163 so as to discharge only the supernatant to the storage tank 166.

The injection module 170 includes a water pump 171 for injecting the filtered water from the water storage tank 160 to the upper part of the first to third centrifugal modules 120, 130 and 140, a water pipe 173, And a nozzle 175.

The water pump 171 is installed in the reservoir 166 of the water storage tank 160 to pressurize the water.

The water pipe 173 is connected to each water pump 171 and extends toward the centrifuge tube 230 side of each case 121.

The injection nozzle 175 is installed in each water pipe 173 and injects water into the centrifugal separator 230 of each case 121.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a dust collecting apparatus for UV paint according to the present invention will be described in detail with reference to the accompanying drawings.

8 is an explanatory diagram for explaining the operation of the dust collecting apparatus for UV paint according to the present invention.

First, contaminated air containing dust and contaminants of UV paint is introduced into the air inlet 111 of the enclosure 110 from the painting equipment by a blowing fan.

Then, the contaminated air flows into the case 210 of the primary centrifugation module 120.

The centrifugal separator 230 of the primary centrifugal separator module 120 is rotated by the rotary motor 250 and the rotary shaft 240 so that the water pump 171 and the water pipe 173 of the injection module 170, And the spray nozzle 175 inject the filtered water stored in the reservoir 166 of the water storage tank 160 onto the surface.

When the centrifugal separator 230 is rotated and water is sprayed on the surface, the centrifugal separator 230 is rotated in a state in which the membrane is formed due to the surface tension, and is discharged through the plurality of holes 231 of the screen plate 233 ) Of the UV paint and drops pollutants and contaminants of the UV paint exceeding a predetermined size together with water to the collecting tank 163 of the water storage tank 160 through the discharge duct 220 Collected free fall. At this time, dust and contaminants of about 80% of UV paint are removed from the primary centrifugation module 120.

Subsequently, the contaminated air passing through the plurality of holes 231 of the screen plate 233 of the centrifugal separator 230 passes through the air discharge holes 213 formed on both sides of the case 210, 130). After passing through the above process, only the dust and contaminants of the UV paint of a certain size (for example, 1 mm) or less are passed through and the dust and contaminants of the UV paint exceeding the predetermined size are discharged to the water And falls down into the collecting tank 163 of the water storage tank 160 through the discharge duct 220 and collected. At this time, the secondary centrifugation module 130 removes dust and contaminants of about 15% of UV paint.

The contaminated air that has passed through the plurality of holes 231 of the screen plate 233 of the centrifugal separator 230 passes through the air discharge holes 213 formed on both sides of the case 210, (For example, 0.5 mm) and passes through only the dust and pollutants of the UV paint, and dust and contaminants of the UV paint exceeding a predetermined size are mixed with water Falls into the collecting tank 163 of the water storage tank 160 through the discharge duct 220, and is collected.

The air exhausted through the air exhaust holes 213 formed on both sides of the case 210 of the tertiary centrifugal module 140 is removed by the glass filter 150 to remove dust and contaminants of the UV paint of fine particles And then discharged to the atmosphere through the air outlet 113 of the enclosure 110. [ At this time, dust and contaminants of about 3% of UV paint are removed from the tertiary centrifugal module 140, and less than 2% of dust is filtered by the glass filter 150 to discharge dust less than 1%.

On the other hand, the water dropped into the collecting tank 163 sinks the dust and contaminants of the UV paint due to the difference in specific gravity, discharges only the upper water through the first water outlet 167 to the first filtration tank 164, The filtration tank 164 discharges water to the second filtration tank 165 through a second water discharge port 168 formed at the lower end to block the discharge of bubbles generated in the collecting tank 163, The dust and contaminants in the UV paint are submerged by the specific gravity difference, and only the upper water is discharged to the storage tank 166 through the third water discharge port 169.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

110: Enclosure 120: Primary centrifuge module
130: Secondary centrifugal module 140: Third centrifugal module
150: glass filter 160: water tank
170: injection module 210: case
220: exhaust duct 230: centrifuge tube
240: rotation shaft 250: rotation motor

Claims (8)

An enclosure having an air inlet connected to the upper end of the coating unit for introducing contaminated air containing dust and contaminants of UV paint from the painting equipment and an air outlet for discharging purified air to the other side;
A primary centrifugal module installed inside the enclosure to allow air to flow, contacting the contaminated air supplied from an air inlet of the enclosure with water to perform primary centrifugal separation of dust and contaminants of the UV paint and discharge the contaminants;
A second centrifugal module disposed on the side of the primary centrifugal module in the inside of the enclosure and contacting the contaminated air discharged from the primary centrifugal module with water to perform secondary centrifugal separation of the dust and contaminants of the UV paint, A car centrifuge module;
A third centrifugal module disposed on the side of the secondary centrifugal module in the inside of the enclosure, for contacting the polluted air discharged from the secondary centrifugal module with water, A car centrifuge module;
A glass filter installed in the inside of the housing in a line on the side of the tertiary centrifuge module for removing dust and contaminants from the UV paint discharged from the tertiary centrifuge module and discharging the dust to the air outlet of the housing;
A water storage tank installed on a bottom surface of the housing for storing and discharging water discharged from the first to third centrifugal modules; And
And a jetting module for jetting the water filtered in the water tank to the upper part of the first to third centrifugal modules,
In the first to third centrifugal separation modules,
A case in which a planar shape is formed in a "diagonal" shape so as to discharge polluted air purified on both sides, a size smaller than the width of the housing, a blocking blade formed horizontally at both ends of the housing, Wow;
An exhaust duct installed at a lower side of one side of the case to discharge water containing pollutants and dust of the UV paint collected in the case to the water storage tank;
A centrifugal separator formed in a cylindrical shape of a screen plate in which a plurality of holes are perforated and formed horizontally in the inside of the case;
A rotating shaft installed to be rotatable in the housing through the air discharge hole to rotate the centrifugal separator; And
And a rotating motor fixed to the outside of the housing and coupled to the rotating shaft by a belt to rotate the rotating shaft. delete The method according to claim 1,
The centrifugal separator-
And a pair of the UV curing agent is installed in the case. The method according to claim 1,
In the centrifugal separator of the first to third centrifugal modules,
Wherein the size of the hole of the screen plate of the primary centrifugal module is larger than the size of the hole of the screen plate of the secondary centrifugal module and the size of the hole of the screen plate of the secondary centrifugal module is larger than the size of the hole of the screen plate of the secondary centrifugal module, Is formed to be larger than the size of the hole of the screen plate of the UV paint. The method according to claim 1,
In the glass filter,
And a plurality of air flow holes provided in vertical barriers partitioning the enclosure. The method according to claim 1,
The water storage tank,
The first and second filtration tanks and the storage tank are positioned on the bottom surface of the first to third centrifugation modules so that the main body including the collection tank, And the first to third water outlets are provided in the blocking wall. The method according to claim 6,
Wherein the first water outlet comprises:
Wherein the UV filter is formed at the upper end to sink dust and contaminants of the UV paint contained in the water discharged to the collecting tank through each of the discharge ducts and to discharge only the upper water to the first filtration tank,
Wherein the second water outlet comprises:
A second filtration tank for collecting bubbles generated in the first filtration tank;
Wherein the third water outlet comprises:
Wherein the UV filter is formed at the upper end so as to cool the dust and contaminants of the UV paint contained in the water discharged from the first filtration tank and discharge only the upper water to the storage tank, Dust collector for paint. The method according to claim 6,
The injection module includes:
A water pump installed in the reservoir of the water reservoir to pressurize the water;
A water pipe connected to each of the water pumps and extending to a centrifuge tube side of each of the cases; And
And a plurality of spray nozzles provided in the respective water pipes for spraying water into the centrifugal separator of each of the cases.

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