KR20200129656A - Electric precipitator apparatus - Google Patents

Abstract

The present invention provides a dust collection apparatus to efficiently manage purified water. According to one aspect of the present invention, the dust collection apparatus comprises: a housing having an inlet formed therein to supply gas and having an outlet formed therein to discharge the gas; a dust collection module installed in the housing, and including a plurality of electric discharge electrodes to which voltage is applied and a dust collection electrode disposed between the electric discharge electrodes and connected to the earth; a purified water supply unit spraying purified water to the dust collection module; and a purified water processing unit disposed on the lower part of the dust collection module to receive the purified water fallen from the dust collection module. The purified water processing unit comprises: a water tank storing the purified water; an absorption belt formed by being connected in a caterpillar shape; a roller connected to the absorption belt to move the absorption belt; and a scraper scraping dust attached to the absorption belt to separate the dust from the absorption belt.

Description

Dust collector {ELECTRIC PRECIPITATOR APPARATUS}

The present invention relates to a wet dust collecting device for collecting dust by electrostatic force and removing dust attached to a dust collecting electrode using washing water.

Devices for removing particulate contaminants such as fine dust contained in the air have been developed in various ways, and one of them, the electric precipitator, generates a large amount of electrons (ions) by generating corona discharge, and the generated electrons (ions) Ionizes the air molecules around it. Air molecules ionized in the electric dust collector are combined with particulate matter (fine dust, etc.) contained in the air, and the particulate matter is charged (having electrical polarity), and the charged particulate matter is trapped in the dust collecting electrode by electrostatic force. .

The electric dust collector has a structure in which a dust collecting electrode is electrically grounded at regular intervals, and a discharge electrode to which a high voltage is applied is installed between the dust collecting electrode and the dust collecting electrode. When a high voltage is applied to the discharge electrode, a corona discharge phenomenon occurs between the discharge electrode and the dust collecting electrode, and generally, an electrical conductor material is used for both the dust collecting electrode and the discharge electrode.

Since a corna discharge is formed between the discharge electrode and the dust collecting electrode, there is a problem that a lot of vibration occurs in the discharge electrode and the dust collecting electrode. In addition, when the distance between the discharge electrode and the dust collecting electrode increases, the dust collection efficiency decreases, and a problem arises that a large voltage must be applied for corona discharge. If the distance between the discharge electrode and the dust collecting electrode is reduced, the dust collection efficiency is improved, but if the discharge electrode and the dust collecting electrode are not firmly supported, there is a problem that the discharge electrode and the dust collecting electrode may be shorted.

In addition, the washing water is used to remove foreign substances attached to the dust collecting electrode.If the used washing water is immediately discharged, there is a problem that washing water is wasted and the environment is polluted.If the washing water is stored and discharged, the washing water is periodically removed. There is a problem that must be discharged.

Korean Registered Patent No. 10-1478770 (2015.01.05)

Based on the technical background as described above, the present invention provides a dust collecting device capable of efficiently managing washing water. In addition, the present invention provides a dust collecting device capable of preventing damage and reducing vibration by maintaining a gap between a dust collecting electrode and a discharge electrode.

A dust collecting device according to an embodiment of the present invention includes a housing having an inlet through which gas is introduced and an outlet through which gas is discharged, a dust collecting electrode installed in the housing and disposed between a plurality of discharge electrodes to which voltage is applied and the discharge electrode to be grounded. And a washing water treatment unit disposed below the dust collection module to receive washing water falling from the dust collection module, and a washing water treatment unit receiving washing water. It may include a water tank, an adsorption belt connected in the form of an endless track, a roller connected to the adsorption belt to move the adsorption belt, and a scraper for scraping off dust attached to the adsorption belt and removing it from the adsorption belt.

Here, the adsorption belt according to an embodiment of the present invention may have a mesh shape.

A part of the adsorption belt according to an embodiment of the present invention may be immersed in the washing water, and another part of the adsorption belt may be positioned higher than the washing water.

The scraper according to an embodiment of the present invention is installed standing on the bottom of the tank, and dust lumps separated from the suction belt may accumulate on the bottom of the tank.

The scraper according to an embodiment of the present invention may include a support stand erected at the bottom of the water tank and a tip portion protruding upward from the support stand and having elasticity.

In the dust collecting apparatus according to an embodiment of the present invention, a first setting beam is formed to support the discharge electrodes by forming a plurality of lower slots into which the discharge electrodes are inserted, and the first setting beam is formed to be connected in the stacking direction of the discharge electrodes to support the first setting beam. A lower frame for applying a voltage to the discharge electrode through the setting beam may be further included.

The dust collecting device according to an embodiment of the present invention further includes an insulating connection member having a lower insulating insulator and a high-voltage terminal rod penetrating the lower insulating insulator, and the lower frame may be installed to be suspended from the insulating connection member.

The dust collecting device according to an embodiment of the present invention further includes a tubular girder fixed to the wall surface of the housing and inserting a plurality of insulating connecting members, and the lower insulating insulator may be mounted inside the tubular girder.

In the discharge electrode according to an embodiment of the present invention, a first reinforcing rod connected in the width direction of the discharge electrode is installed, and the first reinforcing rod protrudes from both sides of the discharge electrode to be supported by the first setting beam.

The first setting beam according to an embodiment of the present invention includes a lower beam and an upper beam coupled to the lower beam, and the lower beam includes two sidewalls that are bent at both side ends of the bottom and the bottom and protrude upward. And the lower slot may be formed only on the sidewall.

The upper beam according to an embodiment of the present invention is bent at the lower support part and the lower support part in contact with the bottom part, but the outer support part in contact with the side wall located outside, the inclined part bent obliquely upward from the outer support part, and bent at the inclined part It may include an upper support portion spaced apart from the bottom portion and disposed in parallel, and an inner support portion bent at the upper support portion and connected to the lower portion.

The first reinforcing rod according to an embodiment of the present invention has a support protrusion protruding and penetrating the upper surface of the first setting beam, and a portion of the first reinforcing rod extending in the width direction of the discharge electrode is a lower beam Is fixed to, the support protrusion and the upper beam may be fixed by a second welding portion.

The first setting beam according to an embodiment of the present invention may include a tubular support pipe having a circular cross section and a lower support plate fixed to a lower end of the support pipe.

The dust collection module according to an embodiment of the present invention has a plurality of slots into which the dust collection electrode is inserted, and is installed between the two second setting beams and the second setting beams to maintain the distance between the dust collection electrodes to insert the top of the dust collection electrode It may further include a central setting beam.

A second reinforcing rod may be installed in the dust collecting electrode according to an exemplary embodiment of the present invention, and the second reinforcing rod may be installed to pass through a slot formed in the second setting beam.

The dust collecting device according to an embodiment of the present invention may further include a prestress locking member fixed inside the housing in a state in which a pressing force is applied to the dust collecting module.

The prestress locking member according to an embodiment of the present invention may include a casing, an insulating insulator installed in the casing, and a pressure support for pressing the dust collecting module by being fixedly installed on the pressure bar and the pressure bar protruding downward. have.

In the dust collecting device according to an embodiment of the present invention, a first tie rod fixed to the discharge electrode and installed to penetrate the dust collecting electrode, a second tie rod fixed to the dust collecting electrode and installed to penetrate the discharge electrode, some of the first tie rods It includes a plurality of fixed upper supports, and the prestress locking member may be fixedly installed to press the upper support inward.

The adsorption belt according to an embodiment of the present invention may protrude to the outside of the housing, the scraper may be installed outside the housing, and a dust separation container for accommodating dust separated from the adsorption belt may be installed under the scraper.

A blocking member for dividing a space in which a dust collecting module is installed and a space in which a washing water treatment unit is installed is installed in the housing according to an embodiment of the present invention, and the blocking member includes a plurality of blocking plates and a rotating column coupled to the blocking plate. And, it may be installed rotatably inside the housing.

As described above, according to an embodiment of the present invention, since the washing water treatment unit includes a belt, a roller, and a scraper, the period of use of the washing water may be increased by adsorbing dust to the belt and sinking the solidified dust under the tank.

1 is a perspective view showing a dust collecting device according to a first embodiment of the present invention.
2 is a cross-sectional view showing a dust collecting device according to a first embodiment of the present invention.
3 is a perspective view showing an adsorption belt and a roller according to a first embodiment of the present invention.
4 is a perspective view showing a dust collecting module according to the first embodiment of the present invention.
5 is a front view showing a discharge electrode according to a first embodiment of the present invention.
6 is a front view showing a dust collecting electrode according to the first embodiment of the present invention.
7 is a perspective view showing a discharge electrode, a support part, and a frame assembly in the dust collecting module according to the first embodiment of the present invention.
8 is a view showing a state in which the discharge electrode is supported by the first setting beam according to the first embodiment of the present invention.
9 is a view showing a state in which the dust collecting electrode is supported by the second setting beam according to the first embodiment of the present invention.
10 is a perspective view showing a frame assembly according to a first embodiment of the present invention.
11 is a cross-sectional view showing an insulating connecting member and a lower frame according to the first embodiment of the present invention.
12 is a perspective view showing an outer upper support according to the first embodiment of the present invention.
13 is a perspective view showing a central upper support according to the first embodiment of the present invention.
14 is a perspective view showing a prestress locking member according to the first embodiment of the present invention.
15 is a side view showing a prestress locking member according to a first embodiment of the present invention,
16 is a cross-sectional view showing a washing water treatment unit according to a second embodiment of the present invention.
17 is a cross-sectional view showing a washing water treatment unit according to a third embodiment of the present invention.
18 is a partial perspective view showing a first setting beam and a discharge electrode according to a fourth embodiment of the present invention.
19 is a partial perspective view showing a first setting beam and a discharge electrode according to a fifth embodiment of the present invention.

The present invention is intended to illustrate specific embodiments and to be described in detail in the detailed description, since various transformations can be applied and various embodiments can be provided. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present invention, terms such as'comprise' or'have' are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this case, it should be noted that in the accompanying drawings, the same components are indicated by the same reference numerals as possible. In addition, detailed descriptions of known functions and configurations that may obscure the subject matter of the present invention will be omitted. For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated.

Hereinafter, a dust collecting device according to a first embodiment of the present invention will be described.

1 is a perspective view showing a dust collecting apparatus according to a first embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a dust collecting apparatus according to a first embodiment of the present invention.

1 and 2, the dust collecting device 1000 according to the first embodiment is an electrostatic dust collecting device having a discharge electrode 12 and a dust collecting electrode 13, which can be used in plants, buildings, and homes. It is a general purpose dust collecting device. Further, the dust collecting apparatus 1000 according to the first embodiment may be a wet dust collecting apparatus that cleans the dust collecting electrode 13 using washing water.

The dust collecting apparatus 1000 may include a housing 1200, a dust collecting module 100, a frame assembly 200, a washing water supply unit 1300, and a washing water treatment unit 1400. The housing 1200 has a substantially rectangular parallelepiped shape and has a box shape having an inner space.

An inlet duct 1210 may be formed on one side of the housing 1200, and an exhaust duct 1220 may be formed on the other side facing the housing 1200. However, the present invention is not limited thereto, and the housing may be formed in various shapes such as a cylindrical shape and a hexagonal column. The inlet duct 1210 is formed with an inlet 1211 for introducing air or combustion gas, and the exhaust duct 1220 is formed with an outlet 1221 for discharging air or combustion gas.

3 is a perspective view showing an adsorption belt and a roller according to a first embodiment of the present invention.

Referring to FIGS. 1 to 3, the washing water supply unit 1300 includes a washing water supply line 1310, a pump 1320 and an injection line 1340. The washing water supply line 1310 is made of a pipe inserted into the water tank 1410 disposed under the housing 1200, and is installed extending from the water tank 1410 to the upper portion of the housing 1200. The pump 1320 is connected to the washing water supply line 1310 to move the washing water. The spray line 1340 is installed above the dust collection module 100 and sprays washing water toward the dust collection module 100. A nozzle may be installed in the spray line 1340, and the spray line 1340 may be connected in a stacking direction of the discharge electrode 12 and the dust collecting electrode 13. The washing water supply unit 1300 operates intermittently, and for example, may operate several minutes every several hours. When the washing water is supplied, no voltage is applied to the discharge electrode 12.

The washing water treatment unit 1400 receives washing water falling from the dust collecting module 100 and solidifies dust contained in the washing water. The washing water treatment unit 1400 includes a water tank 1410 for storing washing water and a roller 1430 and an adsorption belt 1420 for moving the adsorption belt 1420 and the adsorption belt 1420 installed above the water tank 1410. It may include a scraper (1450) for separating the attached dust. Here, the washing water may be made of water or an aqueous sodium hydroxide solution. When an aqueous sodium hydroxide solution is used as the washing water, cleaning power can be improved.

The water tank 1410 is disposed on the bottom of the housing 1200 and stores the washing water supplied through the washing water supply unit 1300 from the bottom. A washing water replenishing line 1460 for replenishing washing water may be connected to the water tank 1410, and a valve 1462 may be installed in the washing water replenishing line 1460.

The adsorption belt 1420 may have a mesh shape, and may be made of a metal or resin material having a plurality of holes formed thereon. When the adsorption belt 1420 is made of a mesh, dust contained in the washing water is attached to the adsorption belt 1420, and the washing water passes through the adsorption belt 1420 to move to the water tank.

The adsorption belt 1420 is formed by connecting end portions in the longitudinal direction to form an endless track. The lower portion of the adsorption belt 1420 is immersed in the washing water, and the upper portion of the adsorption belt 1420 is positioned higher than the washing water and is exposed outside the washing water. That is, in the ring-shaped adsorption belt 1420 having a flat longitudinal section, the lower portion may be immersed in the washing water and the upper portion may be located outside the washing water based on the center portion in the height direction. The adsorption belt 1420 has a flat upper surface and a flat lower surface, and a curved side connecting the upper surface and the lower surface, wherein the flat lower surface is located in the washing water, and the flat upper surface is located outside the washing water.

The adsorption belt 1420 disposed at the lower part adsorbs dust while using the inside of the washing water, and the adsorption belt 1420 disposed at the upper part adsorbs dust contained in the falling wash water.

Two rollers 1430 support the adsorption belt 1420 at both ends of the adsorption belt 1420 in the longitudinal direction. A motor for rotating the roller 1430 is connected to the roller 1430 to move the adsorption belt 1420. The roller 1430 is operated intermittently, but can be operated only while the washing water is supplied.

The scraper 1450 abuts against the lower portion of the adsorption belt 1420 to scrape off the dust attached to the adsorption belt 1420 to separate from the adsorption belt 1420. The scraper 1450 may include a support 1451 and a tip portion 1452 fixed to an upper portion of the support 1451. The support 1451 is fixed to the water tank 1410 and is installed standing on the bottom of the water tank. The tip portion 1452 protrudes upwardly inclined with respect to the support 1451 and may be made of a material having elasticity. The dust lumps separated by the scraper 1450 are solidified and accumulated on the bottom of the water tank 1410, and relatively clean washing water is located at the top of the water tank 1410. The upper washing water may be supplied to the washing water supply unit 1300 and used for additional washing.

Accordingly, according to the first embodiment, the washing water stored in the water tank 1410 is not discharged and can be used for a predetermined period. In addition, when the washing water needs to be replaced, the operator can remove the dust lump from the bottom of the water tank 1410 and replace the washing water.

As described above, according to the first embodiment, the dust lumps sink to the bottom of the water tank 1410 so that the washing water may be purified, and accordingly, the use period of the washing water may increase.

Figure 4 is a perspective view showing a dust collecting module according to the first embodiment of the present invention, Figure 5 is a front view showing a discharge electrode according to the first embodiment of the present invention, Figure 6 is the present invention according to the first embodiment It is a front view showing the following dust collecting pole.

4 to 6, the dust collecting module 100 includes a discharge electrode 12, a dust collecting electrode 13, a first tie rod 16, a second tie rod 17, and a first setting beam 14. ), a second setting beam 15, and a center setting beam 18. The dust collecting module 100 may be installed inside the housing 1200 via the frame assembly 200 while being fixed by the tie rods 16 and 17 and the setting beams 14, 15 and 18.

The discharge electrode 12 has a flat plate shape, and a plurality of openings 122 are formed in the discharge electrode 12. The opening 122 may have a rectangular shape, and a plurality of discharge pins are formed at an edge portion of the discharge electrode 12. The discharge pins may have a needle shape, and a plurality of discharge pins may be spaced apart from each other along the outer end of the discharge electrode 12 and the opening 122.

The discharge electrode 12 includes a first reinforcing rod 121 installed under the plate, and the first reinforcing rod 121 is coupled to the first setting beam 14 to support the discharge electrode 12. The first reinforcing rod 121 is formed to be longer than the width of the discharge electrode 12 so as to protrude from both side ends of the discharge electrode 12. In addition, a plurality of first holes 123 through which the second tie rod 17 passes may be formed in the discharge electrode 12.

In addition, cut-out grooves 125 for installing the first setting beam 14 are formed under both sides of the discharge electrode 12. The first setting beam 14 is fixed by inserting the first reinforcing rod 121 and the upper end of the cut groove 125 together.

The dust collecting electrode 13 is made of a flat plate, and a plurality of second holes 133 through which the first tie rod 16 passes are formed in the dust collecting electrode 13. The dust collecting electrode 13 includes a second reinforcing rod 131 disposed on the upper part and supporting the dust collecting electrode 13. The second reinforcing rod 131 is formed to be longer than the width of the dust collecting electrode 13 so as to protrude to both side ends of the dust collecting electrode 13.

The plurality of discharge electrodes 12 and the dust collecting electrode 13 are disposed parallel to each other, and the discharge electrodes 12 are disposed at equal intervals between the plurality of dust collecting electrodes 13. The distance G1 between the dust collecting electrode 13 and the discharge electrode 12 may be 50 mm to 70 mm.

Avoidance grooves 135 are formed at both lower side ends of the dust collecting electrode 13, and the first setting beam 14 is installed to pass through the portion in which the avoidance groove 135 is formed. The upper end of the avoidance groove 135 is formed higher than the first reinforcing rod to prevent the dust collecting electrode 13 from being short-circuited with the discharge electrode 12.

A high voltage is applied to the discharge electrode 12, whereby a corona discharge occurs between the discharge electrode 12 and the dust collection electrode 13, and an electrostatic force is generated. During the movement of the gas to the region where corona discharge and electrostatic force are generated, particulate matter is charged by binding with ions (electrons) generated by corona discharge, and the charged particulate matter is attached to the dust collecting electrode 13 by electrostatic force.

Meanwhile, the lower end 134 of the dust collecting electrode 13 may be formed to be inclined with respect to the ground, and the lowermost end 138 located at the bottom of the inclined portion is formed. The lowermost end 138 may be the center of the dust collecting electrode 13 and may be one side end of the dust collecting electrode 13 in the width direction.

The lower end 134 of the dust collecting electrode 13 is formed to be inclined downward with respect to the ground from both sides toward the center in the width direction. Accordingly, the central part of the dust collecting electrode 13 is located further below both sides, and the washing water flowing along the surface of the dust collecting electrode 13 is located at the lowest position along the lower end of the dust collecting electrode 13. ) Is collected at the lowermost end 138 of the central part.

The first tie rod 16 is fitted to the plurality of discharge electrodes 12 and is installed to pass through the second hole 133 formed in the dust collecting electrode 13 and does not contact the dust collecting electrode 13. A plurality of first tie rods 16 are installed on the upper portion of the discharge electrode 12, and a plurality of first tie rods 16 are coupled to the lower portion of the discharge electrode 12.

A thread is formed at the longitudinal end of the first tie rod 16, and the first tie rod 16 disposed at the lower portion of the first tie rod 16 is fixed to the lower support 51, and the first tie rod ( The first tie rod 16 disposed at the top of the 16) is fixed to the upper support 61.

Meanwhile, the second tie rod 17 is fitted and coupled to the plurality of dust collecting electrodes 13, and the second tie rod 17 is installed to pass through the first hole 123 formed in the discharge electrode 12 to pass through the discharge electrode ( 12) do not contact.

The second tie rods 17 are respectively coupled to the upper and lower portions of the dust collecting electrode 13, and the longitudinal end of the second tie rod 17 may be fixed to the dust collecting electrode 13. However, the present invention is not limited thereto, and the second tie rod 17 may be fixed to another member in the housing 1200.

A spacer may be installed on the first tie rod 16 and the second tie rod 17 to maintain a distance between the discharge electrode 12 and the dust collecting electrode 13. The spacer installed in the discharge electrode 12 penetrates the second hole 133, but the longitudinal end thereof is installed to abut the surface of the discharge electrode 12, and the spacer installed in the dust collecting electrode 13 penetrates the first hole 123 However, the longitudinal end may be installed so as to contact the surface of the dust collecting electrode 13.

7 is a perspective view showing a discharge electrode, a support part, and a frame assembly in the dust collecting module according to the first embodiment of the present invention, and FIG. 8 is a state in which the discharge electrode is supported by the first setting beam according to the first embodiment of the present invention. 9 is a view showing a state in which the dust collecting electrode is supported by the second setting beam according to the first embodiment of the present invention.

7 to 9, the first setting beam 14 is formed to be connected in the stacking direction of the discharge electrode 12, and a plurality of side ends of the discharge electrode 12 are inserted into the first setting beam 14. A lower slot 143 is formed. The first reinforcing rod 121 is inserted and installed in the first setting beam 14, the first reinforcing rod 121 is installed to penetrate the first setting beam 14, and the lower end of the first reinforcing rod 121 Is supported on the bottom of the first setting beam 14.

The first setting beam 14 may include a lower beam 141 and an upper beam 142 coupled to the lower beam 141. The lower beam 141 includes a bottom portion 141a and two sidewalls 141b and 141c that are bent at both side ends of the bottom portion 141a and protrude upward. On the other hand, the upper beam 142 is bent at the lower support portion 142a and the lower support portion 142a in contact with the bottom portion 141a, but the outer support portion 142b and outer support portion 142b contacting the side wall 141c located outside The inclined portion 142c bent obliquely toward the top at, and the upper support portion 142d bent at the inclined portion 142c and disposed parallel to the bottom portion 141a, the inner side bent at the upper support portion 142d and connected downward It includes a support part 142e. Moisture present on the first setting beam 14 can be easily discharged to the outside through the inclined portion 142c.

The lower slot 143 is formed only on the sidewalls 141b and 141c, and is not formed on the bottom portion 141a. In addition, a lower slot 143 is also formed in the upper beam 142, and the lower slot 143 is formed in the lower support 142a and the outer support 142b. The lower slot 143 formed in the lower beam 141 and the lower slot 143 formed in the upper beam 142 are connected to each other, and the first reinforcing rod 121 has a lower slot 143 formed in the outer sidewall 141b and It protrudes through the lower slot 143 formed in the outer support part 142b.

When the upper beam 142 and the lower beam 141 are combined, the first setting beam 14 has a tubular shape with one side cut off. When the first setting beam 14 is formed separately into the upper beam 142 and the lower beam 141 in this way, the discharge electrode 12 can be easily welded to the lower beam 141. That is, after welding the discharge electrode 12 to the lower beam 141, the upper beam 142 is coupled to the lower beam 141, and the discharge electrode 12 is welded to the upper beam 142, the first setting beam 14 Although) is formed in a tubular shape, the discharge electrode 12 may be stably fixed to the first setting beam 14.

In addition, the first reinforcing rod 121 may be made of the same material as the first setting beam 14 and may be formed to be thicker than the thickness of the discharge electrode 12. Accordingly, the first reinforcing rod 121 can be easily welded to the first setting beam 14. The thickness of the discharge electrode 12 should be minimized, and the electrical conductivity should be excellent. However, if the conductivity of the discharge electrode 12 is high and the thickness is thin, welding is difficult. As described above, according to the first embodiment, since the discharge electrode 12 includes the first reinforcing rod 121, the discharge electrode 12 can be easily welded to the first setting beam 14.

The second setting beam 15 is formed to be connected in the stacking direction of the dust collecting electrode 13, and a plurality of upper slots 156 into which the side ends of the dust collecting electrode 13 are inserted are formed in the second setting beam 15. The upper slots 156 are spaced apart from each other in the longitudinal direction of the second setting beam 15, and the second setting beam 15 may be positioned higher than the first setting beam 14. On the other hand, as shown in FIG. 4, a central setting beam 18 formed in a T-shape in the center of the upper width direction of the dust collecting electrode 13 and having a plurality of slots for inserting the upper center of the dust collecting electrode 13 is installed do.

The second reinforcing rod 131 is fixed to the upper end of the dust collecting electrode 13, and a second reinforcing rod 131 is inserted and installed in the second setting beam 15. The second reinforcing rod 131 is installed to pass through the second setting beam 15, and the lower end of the second reinforcing rod 131 is supported by the second setting beam 15.

The second setting beam 15 is a lower plate 151, a side plate 152 bent at the lower plate 151 and connected to the upper side, an upper plate 153 bent at the side plate 152 and disposed to face the lower plate 151, and It includes a support plate 154 disposed under the lower plate 151. A second reinforcing rod 131 is inserted into a portion of the lower plate 151 and the side plate 152, and the lower end of the second reinforcing rod 131 abuts the upper surface of the support plate 154. The second reinforcing rod 131 may be fixed to the second setting beam 15 by welding.

As described above, the dust collecting module 100 according to the first embodiment includes the first tie rod 16, the second tie rod 17, the first setting beam 14, the second setting beam 15, and the center The distance between the discharge electrode 12 and the dust collecting electrode 13 is maintained by the setting beam 18 and can be stably fixed.

10 is a perspective view showing a frame assembly according to a first embodiment of the present invention, and FIG. 11 is a cross-sectional view showing an insulating connecting member and a lower frame according to the first embodiment of the present invention.

10 and 11, the frame assembly 200 includes a lower frame 30, a tubular girder 48, an outer upper support 61, a lower support 51, a prestress locking member 70, and Including an insulating connecting member 40

The lower frame 30 is formed by connecting the discharge electrode 12 and the dust collecting electrode 13 in the stacking direction, and is supported by the insulating connection member 40. Two lower frames 30 are arranged in parallel, and two insulating connecting members 40 are installed in each lower frame 30. A plurality of cradles 35 protruding in the lateral direction of the lower frame 30 are formed on the lower frame 30, and a first setting beam 14 is mounted on the cradle 35. The lower frame 30 is charged with a high voltage, and the first setting beam 14 and the discharge electrode 12 are also charged with a high voltage through the lower frame 30.

Meanwhile, the lower support 51 is mounted on the two lower frames 30 by connecting the lower frames 30 in a spaced apart direction, and the lower support 51 is disposed at the outer and the center of the dust collecting module 100, respectively. do. The lower support 51 has a side end protrusion 51a positioned on the lower frame 30, a lower protrusion 51b protruding downward and contacting the side surface of the lower frame 30, and the first tie rod 16 are fixed. It includes a supporting bar (51c).

The lower support 51 is provided with a plurality of connectors 55 to which the first tie rods 16 are coupled, and the connectors 55 are screwed with the first tie rods 16 to thereby attach the first tie rods 16 to each other. Fix it. One end of the first tie rod 16 in the longitudinal direction is fixed to the lower support 51 disposed outside, and the other end of the first tie rod 16 is fixed to the lower support 51 disposed at the center.

As described above, according to the first embodiment, by fastening the first tie rod 16 to the lower support, the dust collecting module 100 can be easily fixed and installed to the frame assembly 200.

On the other hand, the lower frame 30 is provided with an insulating connection member 40, the insulating connection member 40, a high voltage terminal rod 42 for applying a high voltage to the discharge electrode 12 and a lower insulating insulator 41 for insulation Is installed. A hole for injecting air to the lower portion of the insulating connecting member 40 may be formed, through which the high-pressure terminal rod 42 protrudes downward and is fixed to the lower frame 30. An anchor 43 for supporting the lower frame 30 is installed on the high-voltage terminal rod 42.

Accordingly, a high voltage is applied to the discharge electrode 12 through the lower frame 30 and the first setting beam 14. In addition, the lower frame 30 is installed in a structure suspended from the insulating connecting member 40.

The insulating connecting member 40 is inserted and installed in the tubular girder 48 having an inner space, and the tubular girder 48 is formed to be connected in the same direction as the lower frame 30. The tubular girder 48 may be fixedly installed on the inner wall of the housing 1200, and the purge air supply pipe 49 may be installed in the tubular girder 48. A discharge hole 44 through which purge air is discharged may be formed under the tubular girder 48.

Inside the tubular girder 48, a cradle 46 supporting the lower insulating insulator 41 is installed, and the lower insulating insulator 41 is mounted on the cradle 46. A power supply for applying a high voltage is connected to the insulating connecting member 40, and the high voltage terminal rod 42 is fixedly installed and insulated on the tubular girder 48 via the lower insulating insulator 41. The high-voltage terminal rod 42 is installed to penetrate the center of the lower insulating insulator 41, and a power supply line may be connected to the upper end of the high-voltage terminal rod 42. Accordingly, the high-voltage terminal rod 42 is charged with high voltage, and the tubular girder 48 can be grounded.

The second setting beam 15 is fixed to the upper surface of the tubular girder 48, and the lower end of the second setting beam 15 may be fixedly installed to the tubular girder 48 by welding or the like. The second setting beam 15 is arranged to be connected in the same direction as the longitudinal direction of the tubular girder 48.

12 is a perspective view showing an outer upper support according to a first embodiment of the present invention, and FIG. 13 is a perspective view showing a central upper support according to the first embodiment of the present invention.

Referring to FIGS. 12 and 13, the outer upper support 61 is disposed on the upper side of the dust collecting module 100, and is disposed at both outer ends of the dust collecting module 100, respectively. The upper central support 63 is disposed between the upper upper support 61 and may be located at the upper center of the dust collecting module 100.

A plurality of connectors 65 (shown in FIG. 10) to which the first tie rod 16 is coupled are installed on the outer upper support 61 and the center upper support 63, and the connector 65 includes a first tie rod 16 ) And screwed to fix the first tie rod (16). One end of the first tie rod 16 in the longitudinal direction is fixed to the outer upper support 61 and the other end of the first tie rod 16 in the longitudinal direction is fixed to the central upper support 63.

The outer upper support 61 includes a front plate 611 and a rear plate 612 disposed to face each other, and a support plate 613 connecting the front plate 611 and the rear plate 612. The front plate 611 and the rear plate 612 may be made of a flat plate, and the support plate 613 may be made of a curved plate. A plurality of holes 619 are formed in the support plate 613 for discharging the washing water. In addition, a hole 618 for coupling a connector may be formed in the front plate 611.

The rear plate 612 has a smaller height than the front plate 611, and a coupling plate 615 protruding downward is formed at a portion of the rear plate 612 to which the prestress locking member 70 is coupled. The coupling plate 615 is located on both edges of the outer upper support 61 in the longitudinal direction.

In addition, the outer upper support 61 further includes a reinforcing rib 617, the reinforcing rib 617 is located between the front plate 611 and the rear plate 612, the front plate 611 and the rear plate 612 ) And support it. A plurality of reinforcing ribs 617 are spaced apart from each other in the longitudinal direction of the upper outer support 61.

Meanwhile, the upper central support 63 includes a support surface 633 formed of a curved surface while connecting the two wall surfaces 631 and 632 connected to the lower side and the wall surfaces 631 and 632. A plurality of grooves 635 into which the connector 65 is inserted may be formed in the wall surfaces 631 and 632, and a plurality of holes 636 for discharging the washing water may be formed in the support surface 633.

A prestress rocking member 70 for pressurizing support is connected to the outer upper support 61, and the prestress locking member 70 is an outer upper support 61 to reduce vibration of the dust collecting module 100. It is fixedly installed in the state of applying a pressing force to pressurize the inside.

14 is a perspective view showing a prestress locking member according to the first embodiment of the present invention, and FIG. 15 is a side view showing the prestress locking member according to the first embodiment of the present invention.

14 and 15, the prestress locking member 70 is fixed to the inner wall of the housing 1200, and the casing 73 and the insulating insulator 75 and the insulating insulator 75 installed in the casing 73 It includes a pressure rod 71 coupled to the installed pressure rod 71 and a pressure support 72 coupled to the pressure rod 71.

The casing 73 has a cylindrical shape having an inner space, and a bracket 76 for fixing to the housing 1200 is fixedly installed on one side of the casing 73. In addition, an air inlet 731 may be installed in the casing 73 and a purge air supply pipe 79 may be connected to the air inlet 731. The purge air introduced into the casing 73 is discharged to the bottom to prevent a short circuit due to moisture.

The insulating insulator 75 connects the upper insulator 75a fixed to the upper part of the casing 73, the lower insulator 75b fixed to the lower part of the casing 73, and the upper insulator 75a and the lower insulator 75b. It may include an insulating tube (75c). The pressure rod 71 is fixedly installed on the insulating insulator 75 and protrudes to the lower portion of the prestress locking member 70. A thread for fastening with the pressure support 72 is formed in the lower portion of the pressure rod 71.

The pressure support 72 is fixed to the lower portion of the pressure bar 71, and the pressure support 72 includes an inner support plate 721 for fixing with the pressure bar 71. The inner support plate 721 is screwed with the pressure rod 71. The pressure support 72 abuts the outer upper support 61 and presses the outer upper support 61 into the inside of the dust collection module 100.

When the outer upper support 61 is installed in a state pressed by the prestress locking member 70 as in the first embodiment, vibration of the dust collecting module 100 can be effectively reduced.

Hereinafter, a dust collecting device according to a second embodiment of the present invention will be described. 16 is a cross-sectional view showing a washing water treatment unit according to a second embodiment of the present invention.

Referring to FIG. 16, the dust collecting apparatus 2000 according to the second exemplary embodiment has the same structure as the dust collecting apparatus according to the first exemplary embodiment, except for the washing water treatment unit 2400. Duplicate explanation is omitted.

The dust collecting apparatus 2000 according to the second exemplary embodiment is made of a wet dust collecting apparatus and includes a washing water treatment unit 2400 inserted into the housing 2200. The housing 2200 has a substantially rectangular shape, and an opening 2250 through which the adsorption belt 2420 protrudes is formed on a lower side of the housing 2200.

The washing water treatment unit 2400 stores the washing water that has passed through the dust collection module and separates dust contained in the washing water. The washing water treatment unit 2400 is attached to a plurality of rollers and an adsorption belt 2420 for moving the adsorption belt 2420 and adsorption belt 2420 installed on the water tank 2410 and the water tank 2410 for storing the washing water. It may include a scraper (2450) for separating the dust. Here, the washing water may be made of water or an aqueous sodium hydroxide solution. When an aqueous sodium hydroxide solution is used as the washing water, cleaning power can be improved.

The water tank 2410 is disposed on the bottom of the housing 2200 and stores the washing water supplied through the washing water supply unit 2300. The adsorption belt 2420 may be formed in a mesh shape. That is, the adsorption belt 2420 may be formed of a metal or synthetic resin mesh as a mesh structure in which the blade and the transverse are entangled. In addition, a plurality of fine protrusions for adsorption of dust may be formed on the wire forming the adsorption belt 2420. Here, the fine protrusion means a protrusion having a diameter smaller than 0.1 mm. Meanwhile, the adsorption belt 2420 may be formed of a metal or resin plate having a plurality of holes. When the adsorption belt 2420 is made of a mesh, dust contained in the washing water adheres to the adsorption belt 2420, and the washing water passes through the adsorption belt 2420 to move to the water tank.

The adsorption belt 2420 is formed by connecting end portions in the longitudinal direction to form an endless track. The lower portion of the adsorption belt 2420 is immersed in the washing water, and the upper portion of the adsorption belt 2420 is disposed above the washing water to be exposed outside the washing water.

The adsorption belt 2420 is provided with a plurality of rollers that support and move the adsorption belt 2420, and the rollers include two support rollers 2431 and 2432 located at both ends of the adsorption belt in the longitudinal direction and the adsorption belt 2420. Two first direction conversion rollers 2433 and 2435 that support vertically bending and a second direction that is disposed adjacent to the first direction conversion rollers 2433 and 2435 and supports the suction belt 2420 so as to bend in the lateral direction. It includes direction change rollers 2434, 2436. The support rollers 2431 and 2432 abut the inner surface of the suction belt 2420, the first direction change rollers 2433 and 2435 abut the upper surface of the suction belt 2420, and the second direction change roller ( The 2434, 2436 abuts the lower surface of the suction belt 2420.

The support roller 2431 is located in the water tank, and the support roller 2432 is located outside the housing 2200, and thus, a part of the adsorption belt 2420 may protrude outside the housing 2200. The suction belt 2420 protrudes to the outside of the housing 2200 through the opening 2250. A scraper 2450 is installed on the outer wall of the housing 2200, and the scraper 2450 may be formed to be connected in the width direction of the adsorption belt 2420. The scraper 2450 abuts against the lower surface of the adsorption belt and scrapes the dust attached to the adsorption belt 2420 to separate from the adsorption belt 2420. A dust separating container 2460 is installed under the scraper 2450 in which a lump of dust separated from the adsorption belt 2420 is accommodated.

As described above, according to the second embodiment, since the scraper 2450 is disposed outside the housing 2200, the dust adhering to the adsorption belt 2420 is separated from the water tank 2410 to accommodate the cleaning water. have.

Hereinafter, a dust collecting device according to a third embodiment of the present invention will be described. 17 is a cross-sectional view showing a washing water treatment unit according to a third embodiment of the present invention.

Referring to FIG. 17, since the dust collecting apparatus according to the third exemplary embodiment has the same structure as the dust collecting apparatus according to the first exemplary embodiment, except for the housing and the blocking member, a redundant description of the same configuration will be omitted. .

The dust collecting apparatus 3000 according to the third exemplary embodiment may include a housing 3200, a dust collecting module 300, a frame assembly, a washing water supply unit 3300, and a washing water treatment unit 3400. The housing 3200 may have a substantially rectangular parallelepiped shape, and inlet ducts 3210 and 3220 may be formed on opposite sides thereof, and discharge ducts 3230 may be formed on the upper surface.

Inlet ducts 3210 and 3220 are provided with inlets 3211 and 3221 for inflow of gas, respectively, and outlet 3231 for discharging gas is formed in the discharge duct 3230. In addition, blowers 3213 and 3223 for forcibly introducing gas are installed in the inlet ducts 3210 and 3220, and a blower 3233 for forcibly discharging the gas is installed in the discharge duct 3230. Accordingly, gas may be introduced from both sides of the housing 3200 and the purified gas may be discharged upward.

Meanwhile, a blocking member 3500 is installed between the dust collecting module 300 and the washing water treatment unit 3400. The blocking member 3500 is rotatably installed inside the housing, and may include a plurality of blocking plates 3520 and a rotating pillar 3510 connected to the center of the blocking plate 3520 in the width direction. A driving unit for rotating the rotating pillar 3510 may be installed on the rotating pillar 3510, and accordingly, the blocking member 3500 may rotate around the rotating pillar 3510.

When the blocking plate 3510 is disposed horizontally with the ground, the side ends of the blocking plates 3520 come into contact to separate the space where the dust collecting module 300 is located and the space where the washing water treatment unit 3400 is located. In addition, when washing is performed, the blocking plate 3520 is vertically placed on the ground, so that the washing water can be easily moved from the dust collecting module 300 to the washing water treatment unit 3400.

As described above, according to the third embodiment, since gas is introduced from both sidewalls of the housing 3200, a larger amount of gas can be quickly purified. In addition, since the blocking member 3500 is installed, gas can be easily escaped through the discharge duct 3230.

Hereinafter, a dust collecting module according to a fourth embodiment of the present invention will be described. 18 is a partial perspective view showing a first setting beam and a discharge electrode according to a fourth embodiment of the present invention.

Referring to FIG. 18, since the dust collecting module according to the fourth embodiment has the same structure as the desulfurization apparatus according to the first embodiment, except for the first setting beam, a redundant description of the same configuration will be omitted. .

The first setting beam 440 is formed to be connected in the stacking direction of the discharge electrode 12, and a plurality of lower slots 443 into which the side ends of the discharge electrode 12 are inserted are formed in the first setting beam 440. The first reinforcing rod 121 is inserted into the first setting beam 440, and the first reinforcing rod 121 is installed to penetrate the first setting beam 440, and the lower end of the first reinforcing rod 121 Is supported by the first setting beam 440.

The first setting beam 440 includes a tubular support pipe 441 having a circular cross section and a lower support plate 442 fixed to a lower end of the support pipe 441. A plurality of lower slots 443 are formed in the support pipe 441, and side ends of the first reinforcing rod 121 and the discharge electrode 12 are inserted into the lower slot 443.

Meanwhile, the lower support plate 442 is formed in a flat plate shape, and is fixedly installed at the lower end of the support pipe 441. The lower support plate 442 abuts the lower surface of the first reinforcing rod 121 to support the first reinforcing rod 121.

As described above, according to the fourth embodiment, the first setting beam 440 and the discharge electrode 12 may be more easily combined.

Hereinafter, a current collector module according to a fifth embodiment of the present invention will be described. 19 is a partial perspective view showing a first setting beam and a discharge electrode according to a fifth embodiment of the present invention.

Referring to FIG. 19, the dust collecting module according to the fifth exemplary embodiment has the same structure as the dust collecting module according to the first exemplary embodiment, except for the structure of the first reinforcing rod 530. Duplicate explanation is omitted.

The discharge electrode 12 includes a first reinforcing rod 530 installed under the plate, and the first reinforcing rod 530 is coupled to the first setting beam 14 to support the discharge electrode 12. The first reinforcing rod 530 is formed to be longer than the width of the discharge electrode 12 so as to protrude from both side ends of the discharge electrode 12. The first reinforcing rod 530 may be joined to the first setting beam 14 through the first welding part 551.

A support protrusion 531 protruding upward is formed on the first reinforcing rod 530. The support protrusion 531 is installed to pass through the upper end of the first setting beam 14 and may be joined to the first setting beam 14 by welding. Accordingly, the support protrusion 531 is joined to the first setting beam 14 through the second welding portion 552.

The first setting beam 14 is formed to be connected in the stacking direction of the discharge electrode 12, and a plurality of lower slots 143 into which the side ends of the discharge electrode 12 are inserted are formed in the first setting beam 14. The first reinforcing rod 530 is inserted and installed in the first setting beam 14, the first reinforcing rod 530 is installed to penetrate the first setting beam 14, and the lower end of the first reinforcing rod 530 Is supported on the first setting beam 14.

The first setting beam 14 may include a lower beam 141 and an upper beam 142 coupled to the lower beam 141. The first welding portion 551 fixes a portion extending in the longitudinal direction of the discharge electrode from the first reinforcing rod 530 and the lower beam 141, and the second welding portion 552 has a support protrusion 531 and an upper beam 142 ) Is fixed.

As described above, according to the fifth embodiment, the support protrusion 531 is formed on the first reinforcing rod 530, and the first reinforcing rod 530 includes the first setting beam 14 and the first welding part 551 and Since it is fixed by the second welding part 552, the discharge electrode 12 can be more stably fixed.

As described above, the present invention has been described through limited embodiments and drawings, but the present invention is not limited thereto, and the technical spirit of the present invention and the following description by those of ordinary skill in the technical field to which the present invention pertains. Various modifications and variations are possible within the equal scope of the claims.

1000, 2000, 3000: dust collector 1200, 2200, 3200: housing
1210, 3210, 3220: inlet duct 1220, 3230: outlet duct
1300, 3300: washing water supply unit 1310: washing water supply line
1320: pump 1340: injection line
1400, 2400, 3400: washing water treatment unit 1410, 2410: water tank
1420, 2420: suction belt 1430: roller
1450, 2450: scraper 1451: support
1452: tip portion 1460: washing water supplement line
1462: valve 100, 300: dust collection module
200: frame assembly 12: discharge electrode
121, 530: first reinforcing rod 13: dust collecting electrode
131: second reinforcing rod 16: first tie rod
17: second tie rod 14, 440: first setting beam
141: lower beam 142: upper beam
143, 443: lower slot 15: second setting beam
151: lower plate 152: side plate
153: upper plate 154: support plate
18: center setting beam 30: lower frame
35: cradle 40: insulation connecting member
41: lower insulating insulator 42: high voltage terminal rod
43: anchor 46: cradle
48: tubular girder 49: purge air supply pipe
51: lower support 61: outer upper support
611: front panel 612: rear panel
613: support plate 615: bonding plate
617: reinforcing rib 63: center upper support
631, 632: wall surface 633: support surface
70: prestress locking member 71: pressure rod
72: pressure support 73: casing
75: insulator 2431, 2432: support roller
2433, 2435: first direction change roller 2434, 2436: second direction change roller
2460: dust separation container 3500: blocking member
3510: rotating column 3520: blocking plate

Claims (20)

A housing having an inlet through which gas is introduced and an outlet through which gas is discharged;
A dust collecting module installed in the housing and including a plurality of discharge electrodes to which voltage is applied, and a dust collecting electrode disposed between the discharge electrodes and grounded;
A washing water supply unit for spraying washing water onto the dust collecting module; And
A washing water treatment unit disposed below the dust collecting module to receive washing water falling from the dust collecting module;
Including,
The washing water treatment unit,
A water tank accommodating the washing water,
An adsorption belt formed by connecting in a caterpillar shape,
A roller connected to the adsorption belt to move the adsorption belt,
And a scraper that scrapes off dust attached to the adsorption belt and detaches from the adsorption belt. The method of claim 1,
The suction belt is a dust collecting device, characterized in that made of a mesh shape. The method of claim 1,
Part of the adsorption belt is immersed in the washing water, and another part of the adsorption belt is positioned higher than the washing water. The method of claim 1,
The scraper is installed standing on the bottom of the tank, dust collecting device, characterized in that the dust lumps separated from the suction belt accumulate on the bottom of the tank. The method of claim 4,
The scraper is a dust collecting device, characterized in that it comprises a support stand erected from the bottom of the water tank and a tip part protruding upward from the support and having elasticity. The method of claim 1,
The dust collecting device includes a first setting beam having a plurality of lower slots into which the discharge electrodes are inserted to support the discharge electrodes, and connected in a stacking direction of the discharge electrodes to support the first setting beam, and the first setting beam And a lower frame for applying a voltage to the discharge electrode through the dust collecting device. The method of claim 6,
The dust collecting device further comprises an insulating connection member having a lower insulating insulator and a high voltage terminal rod penetrating the lower insulating insulator, wherein the lower frame is installed to be suspended from the insulating connection member. The method of claim 7,
The dust collecting device further comprises a tubular girder fixed to a wall surface of the housing and inserting a plurality of the insulating connecting members, wherein the lower insulating insulator is mounted inside the tubular girder. The method of claim 6,
A dust collecting device, wherein a first reinforcing rod connected in a width direction of the discharge electrode is installed on the discharge electrode, and the first reinforcing rod protrudes from both side ends of the discharge electrode and is supported by the first setting beam. The method of claim 9,
The first setting beam includes a lower beam and an upper beam coupled to the lower beam,
The lower beam includes a bottom portion and two sidewalls bent at both side ends of the bottom portion and protruding upward, and the lower slot is formed only on the sidewall. The method of claim 10,
The upper beam is bent at the lower support part and the lower support part in contact with the bottom part, but an outer support part contacting the side wall located outside, an inclined part bent obliquely upward from the outer support part, and the inclined part bent at the inclined part. A dust collecting device comprising: an upper support portion spaced apart from the bottom portion and disposed in parallel; and an inner support portion bent at the upper support portion and connected downward. The method of claim 10,
A support protrusion protruding from the first reinforcing rod and penetrating the upper surface of the first setting beam is formed,
A portion of the first reinforcing rod extending in the width direction of the discharge electrode is fixed to the lower beam by a first welding portion, and the support protrusion and the upper beam are fixed by a second welding portion. The method of claim 9,
The first setting beam comprises a tubular support pipe having a circular cross section and a lower support plate fixed to a lower end of the support pipe. The method of claim 1,
The dust collecting module has a plurality of slots into which the dust collecting electrodes are inserted, and is installed between two second setting beams and the second setting beams to maintain the distance between the dust collecting electrodes, and a center setting to insert the upper end of the dust collecting electrode Dust collecting device, characterized in that it further comprises a beam. The method of claim 14,
A dust collecting device, wherein a second reinforcing rod is installed on the dust collecting electrode, and the second reinforcing rod is installed to pass through a slot formed in the second setting beam. The method of claim 1,
The dust collecting device further comprises a prestress locking member fixed inside the housing in a state in which a pressing force is applied to the dust collecting module. The method of claim 16,
The prestress locking member comprises a casing, an insulating insulator installed in the casing, and a pressure rod protruding downward and fixedly installed on the pressure rod to pressurize the dust collecting module. cyclone. The method of claim 17,
The dust collecting device,
A first tie rod fixed to the discharge electrode and installed to penetrate the dust collecting electrode, and a second tie rod fixed to the dust collecting electrode and installed to penetrate the discharge electrode,
And a plurality of upper supports to which some of the first tie rods are fixed,
The prestress locking member is a dust collecting device, characterized in that fixedly installed to press the upper support inward. The method of claim 1,
The suction belt protrudes to the outside of the housing, the scraper is installed on the outside of the housing, and a dust separating container for receiving the dust separated from the suction belt is installed under the scraper. The method of claim 1,
A blocking member for dividing a space in which the dust collecting module is installed and a space in which the washing water treatment unit is installed is installed in the housing,
The blocking member includes a plurality of blocking plates and a rotating pillar coupled to the blocking plate, and is rotatably installed inside the housing.

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