KR101924311B1 - A Cleaning Apparatus for a Electrical Dust Collecting Apparatus - Google Patents

Abstract

The present invention relates to a washing apparatus for an electric dust collector, and more specifically, to a washing apparatus for an electric dust collector, which periodically removes contaminants accumulated inside the electric dust collector generating electrostatic discharge between a discharge electrode and a dust collection electrode. The washing apparatus for an electric dust collector comprises: a water supply module (11); a supply control unit (12) accommodating the water supplied by the water supply module (11); a spraying block (20) spraying the water supplied by the supply control unit (12) to a predetermined location; a pair of guide units (13a, 13b) guiding vertical movement of the spraying block (20); a pair of moving brackets (14a, 14b) moving along the pair of the guide units (13a, 13b); and a nozzle block (21) joined to the spraying block (20) to be rotated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cleaning apparatus for an electric dust collector,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cleaning device for an electric dust collector, and more particularly to a cleaning device for an electric dust collector which periodically removes contaminants accumulated in an electric dust collector for generating a discharge between a discharge electrode and a dust collecting electrode will be.

Tunnels or similar spaces that are installed in a motorway or similar facility may include an air conditioning facility to allow the external environment and air circulation to occur. The air inside a space such as a tunnel may contain a large amount of foreign matter, and if it is directly discharged to the outside, it may pollute the external environment. Therefore, it needs to be filtered after being filtered by the filter equipment. The pollutant that is collected during the operation of the dust collector may accumulate in the dust collector and the accumulated pollutant may need to be periodically removed to improve the collection performance. Are known in the art.

Patent Registration No. 10-1451811 discloses a dust collecting filter capable of adjusting the clearance between the surface of the dust collecting filter and the high-pressure washing water injection nozzle therein, and the dust collecting filter Filter high-pressure washing and drying apparatus. In addition, Patent Registration No. 10-1610739 discloses a wet dust collector cleaning apparatus capable of efficiently cleaning dust and water stains on dust collecting balls used in wet dust collectors.

The prior art or known technology is difficult to apply to the cleaning of a dust collecting apparatus in which a plurality of electrostatic dust collecting filters are connected to each other. It is advantageous to have a structure capable of being moved in a predetermined direction while being able to inject a cleaning stream such as water to a predetermined position of the dust filter in order to clean a plurality of dust filters. However, the prior art does not disclose such a structure.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-1451811 (Research Institute of Advanced Technology, Announcement on October 16, 2014) Dust filter High pressure washer and dryer Prior Art 2: Patent Registration No. 10-1610739 (KJIN Corporation, issued on April 20, 2016) Wet dust collector cleaning device

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cleaning device for an electrostatic precipitator capable of cleaning contaminants accumulated while a plurality of spray nozzles movable at predetermined positions are simultaneously rotated.

According to a preferred embodiment of the present invention, the cleaning device for an electric dust collector comprises a water supply module; A supply regulating unit in which the water supplied from the water supply module is accommodated; A spray block for spraying water supplied from the supply control unit to a predetermined position; A pair of guide units for guiding the spray block up and down; A pair of moving brackets moving along the pair of guide units; And a nozzle block rotatably coupled to the spray block.

According to another preferred embodiment of the present invention, the supply regulating unit is coupled to the moving bracket.

According to another preferred embodiment of the present invention, the supply pressure of water to the spray block is regulated by the pressure regulating unit coupled to the supply regulating unit.

According to another preferred embodiment of the present invention, the nozzle block includes a rotation induction hole formed in at least one end while being linearly extended.

According to another preferred embodiment of the present invention, the rotation inducing hole is capable of adjusting the opening portion.

According to another preferred embodiment of the present invention, the apparatus further comprises a dry air injection module for supplying dry air after the cleaning process or cleaning.

According to another preferred embodiment of the present invention, a plurality of nozzles are arranged in the nozzle block, and the direction of ejection of each nozzle is adjustable.

According to another preferred embodiment of the present invention, the ejecting direction is controlled by a pair of adjusting grooves arranged to face each other and a moving member moving simultaneously along each adjusting groove.

According to still another preferred embodiment of the present invention, the dust collecting apparatus comprises an electrostatic dust collecting filter composed of a plurality of cylindrical anode units and a cathode unit linearly extending into each of the anode units.

According to another preferred embodiment of the present invention, a detection module for detecting the dust collection state inside the dust collecting apparatus is further included.

According to another preferred embodiment of the present invention, the dry air injection module further comprises a gas temperature setting unit for detecting the temperature or humidity of the dust collector to determine the temperature of the air to be injected.

According to another preferred embodiment of the present invention, the detection module further includes a period data unit for determining a cleaning period in accordance with the detected information.

The cleaning apparatus according to the present invention allows the dust collecting apparatus, to which a plurality of electric dust collecting filters are connected to each other, to be effectively cleaned. The cleaning device according to the present invention is structurally simple and improves the cleaning efficiency due to the rotation of the spray nozzle while the spray nozzle is moved to various positions. Also, the cleaning device according to the present invention can be applied to various dust collecting facilities by being made detachable from the dust collecting equipment.

1 shows an embodiment of a cleaning device for an electric dust collector according to the present invention.
Figures 2, 3 and 4 show an embodiment of an electrostatic precipitator to which a cleaning device according to the invention is applied.
5 shows an embodiment of a spray structure applied to a cleaning apparatus according to the present invention.
Fig. 6 shows an embodiment of the operating structure of the cleaning device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 shows an embodiment of a cleaning device for an electric dust collector according to the present invention.

1, a cleaning device for an electrostatic precipitator includes a water supply module 11; A supply regulating unit 12 in which water supplied from the water supply module 11 is accommodated; A spraying block 20 for spraying water supplied from the supply regulating unit 12 to a predetermined position; A pair of guide units (13a, 13b) for guiding the up and down movement of the spray block (20); A pair of moving brackets (14a, 14b) moving along the pair of guide units (13a, 13b); And a nozzle block (21) rotatably coupled to the spray block (20).

The cleaning apparatus can be applied to various dust collecting apparatuses, for example, but is not limited to, cleaning of the dust collecting apparatuses arranged such that a plurality of electric dust collecting filters described below are connected to each other. The dust collecting device may be installed in an area where it is difficult to circulate the outside environment and natural air such as an underground driveway or a tunnel, and the dust collecting device may form an air circulating device or a part of the air conditioning equipment. For example, the dust collecting device may be installed in a flow path through which air is discharged from an air circulation device or an air conditioning device so that contaminants may be removed from the discharged air. Contaminants that are removed from the air can accumulate inside the dust filter, and accumulated contaminants need to be removed periodically. A cleaning device may be used to remove contaminants accumulated in the electric dust filter.

The cleaning can be carried out by various fluids, for example water, air or similar fluids can be used for cleaning, and water or air can be sprayed into the interior of the dust collector for the removal of the accumulated contaminants . A water supply module 11 may be disposed for supplying wash water and a supply pump 111 may be disposed in the water supply module 11 to supply water to the supply control unit 12. [ A feed pump 111 may be disposed in the water supply module 11 and one feed tube H1 may be connected to the feed pump 111 to feed the feed control unit 12 through the one connector 122 Water can be supplied. 1 connector 122 may be releasably coupled to the supply regulating unit 12 and an internal flow path connecting the one connector 122 and the spray block 20 may be formed within the supply regulating unit 12 . The pressure regulating unit 121 may be disposed in the supply regulating unit 12 so that the pressure of the fluid flowing into the spray block 20 can be regulated. The pressure of the water entering the spray block 20 can be further regulated by the dry air injection module 16. A pressure regulating unit 17 is disposed in the dry air infusion module 16 so that the amount of air or the pressure of the air flowing into the supply regulating unit 12 can be regulated. The dry air injection module 16 may have a function of controlling the pressure of water supplied during the cleaning process and at the same time drying the spray block 20 and the inside of the dust collector after cleaning. The interior of the spray block 20 or the dust collector needs to be dried after the dust collector has been cleaned with water. To this end, hot dry air needs to be supplied, and a temperature control heater 18 may be installed in the dry air injection module 16. The temperature can be adjusted in the process of supplying air for drying by the temperature control heater 18 to the inside of the spray block 20 or the dust collector. The dry air injection module 16 and the supply control unit 12 can be connected by two supply tubes H2 and two connectors 123 can be coupled to one end of the two supply tubes H2. Various paths for supplying water or air into the spray block 20 may be formed inside the supply regulating unit 12. [

The spray block 20 may include a nozzle block 21 that is coupled to the actuation control unit 22 and the actuation control unit 22 and through which water or air is sprayed into the dust collector as it rotates. The operation control unit 22 may include a drive motor capable of adjusting the rotational speed, and the nozzle block 21 may be rotated by the operation of the drive motor. The operation regulating unit 22 may be coupled to the position regulating member 15 and the position regulating member 15 may be a pair of positioning members 15 arranged in such a manner as to be opposed to each other by the moving brackets 14a and 14b at both ends, And can be coupled to the guide units 13a and 13b. At least one of the pair of moving brackets 14a and 14b can be moved up and down along the guide unit 13a by the height adjusting unit 19 and the height adjusting unit 19 can be moved up or down by the driving motor or the height detecting unit . Specifically, by the operation of the height adjusting unit 19, the moving brackets 14a and 14b can be moved up and down along the guide unit 13a along the adjusting screw member 181, And the position adjusting member 15 can be moved up and down.

The position regulating member 15 may have a hollow tube structure in which a fluid flow path is formed therein, or may be a circular cross-section or a polygonal cross-sectional material. A fluid such as water or air supplied from the supply regulating unit 12 may be moved along the flow path when a flow path is formed therein. Alternatively, the supply conditioning unit 12 may be releasably coupled to the spray block 20, whereby water or air for cleaning from the supply conditioning unit 12 may be supplied directly to the spray block 20 .

When a flow path is formed along the position regulating member 15, the pressure regulating means 124 may be disposed opposite the portion to which the supply regulating unit 12 is connected. The pressure regulating means 124 may have a function of keeping the interior of the position regulating member 15 at a uniform pressure. Thereby allowing the fluid supplied into the spray block 20 to be supplied at a uniform pressure.

The cleaning apparatus can be made to be movable by a moving means (CT1, CT2) such as a caster disposed in the base unit (B). The stopper 141 is disposed in at least one of the guide units 13a and 13b so that the movement of the moving brackets 14a and 14b is restricted while the moving brackets 14a and 14b are automatically moved to the guide units 13a and 13b To be moved up and down. Specifically, when the stopper 141 is disposed on the upper and lower sides of at least one guide unit 13a, 13b and the moving brackets 14a, 14b are brought into contact with the stopper 141, The rotation direction of the motor can be set to be changed. The spray block 20 is automatically moved up and down to clean the dust collecting apparatus.

Referring to the right portion of FIG. 1, the nozzle block 21 may include a rotation induction hole 212 formed in at least one end portion while being linearly extended. The operation control unit 22 can be coupled to the intermediate portion of the linearly extending nozzle block 21. [ The operation control unit 22 includes a tube connector 223 coupled to and fixed to the nozzle block 21; A fluid distribution block 221 fixed to the tube connector 223; The supply connector 222 and the fluid distribution block 221 extending perpendicularly to the extending direction of the nozzle block 21 are connected to the fluid distribution block 221 with the rotation drive unit 224 for rotational operation, (Not shown). The feed connector 222 may be connected to the position regulating member 15 or to the feed regulating unit 12. Although the rotary connector 225 is shown in the embodiment shown in FIG. 1 as being disposed at a position facing the supply connector 222, the rotary connector 225 may be disposed at various positions of the fluid distribution block 221, For example, below or above the fluid distribution block 221, so that the position of the rotation drive unit 224 can be appropriately determined.

A plurality of nozzles 211 may be arranged at uniform intervals along the linearly extending nozzle block 21 and a fluid such as water or air may be sprayed through the nozzle 211 to the dust collecting device. The nozzle 211 may have various structures capable of atomizing the fluid.

According to one embodiment of the present invention, the nozzle block 21 includes a rotation induction hole 212 formed in at least one end while linearly extending. In addition, the rotation induction hole 212 is capable of adjusting the opening portion.

Air or water can be discharged from the outside of the nozzle block 21 to the inside through the rotation induction hole 212 so that the nozzle block 21 can be rotated without rotating driving means separately. However, the rotation induction hole 212 may be provided irrespective of whether or not the rotation driving means is provided, and at least one of the rotation induction holes 212 may be formed in the nozzle block 21. A flow path can be formed inside the nozzle block 21 and water or air can be led to the respective nozzles 211 along the flow path. The rotation induction holes 212 may be formed in at least one end of the nozzle block 21 and may be formed in a direction perpendicular to the spray direction of the nozzle 211 .

The rotation guide hole 212 may be formed in a structure capable of adjusting the opening portion and the adjustment of the opening portion may be made such that a plurality of rotation adjustment holes 212 are formed or a rotation induction hole 212 is formed in the nozzle block 21 And is made into a slit shape along the extending direction. Specifically, as shown in the lower right portion of FIG. 1, an elastic unit 212a such as a spring is disposed at the end of the nozzle block 21, and a pressure balance block 212b is disposed at one end of the elastic unit 212a . The rotation induction hole 212 may be formed at a portion where the cylinder-shaped pressure balance block 212b is located and may be formed so that the open region changes along the extension portion as the pressure balance block 212b moves. The pressure applied to the pressure balance block 212b may be determined according to the pressure applied to the interior of the nozzle block 21. [

The adjustment of the open portion may be performed by forming a slit structure or a plurality of rotation induction holes 212. When the rotation induction hole 212 is formed at both ends of the nozzle block 21, such an adjustable structure of the opening portion may have a function of adjusting the pressure of both portions of the nozzle block 21 to be equal to each other. Also, the open portion can be adjusted so that the rotation of the nozzle block 21 is slowed or accelerated.

The nozzle block 21 can be made in various structures and the present invention is not limited to the embodiments shown.

Figures 2, 3 and 4 show an embodiment of an electrostatic precipitator to which a cleaning device according to the invention is applied.

2, 3 and 4, the dust collecting apparatus 30 includes an adjusting case 32 having a plurality of electric dust collecting filters 40a and 40b and an operating module for operating the electric dust collecting filters 40a and 40b . The plurality of electric dust collecting filters 40a and 40b may be installed in a path through which the air inside is discharged to the outside and the circulating air in the inside may be discharged to the outside via each of the electric dust collecting filters 40a and 40b . The plurality of electrostatic dust collecting filters 40a and 40b may be disposed adjacent to each other inside the filter housing 31 and each of the electrostatic dust collecting filters 40a and 40b may be electrically connected to each other. For example, a multilayer structure may be formed inside the filter housing 31, and a plurality of electrostatic dust collecting filters 40a and 40b may be arranged in a row in contact with each other. And the electrostatic dust collecting filters 40a and 40b of the respective layers may be electrically connected to each other. Thus, the electrostatic dust collecting filters 40a and 40b of the respective layers can be maintained at the same voltage.

Each of the electric dust collecting filters 40a and 40b may be composed of a hollow cylindrical anode unit 411 having both open sides and a linear cathode unit 422 disposed inside the cylindrical anode unit 411 have. And the hollow cylinder-shaped anode unit 411 can form an air flow path, and each cathode unit 422 can be arranged in a structure that linearly extends along the longitudinal direction of the anode unit 411 . By applying a high voltage between the anode unit 411 and the anode unit 422 in the arrangement structure of the anode unit 411 and the anode unit 422 arranged in such a structure, It can be charged. The anode unit 411 can be made in various structures capable of forming an air flow path, and can be formed into various shapes such as, for example, a polyhedron or an ellipsoid. And further includes a substrate-shaped uniform unit 33 including a plurality of adjustment holes disposed in front of the plurality of electrostatic dust collecting filters 40a and 40b.

It is advantageous that the air is sucked at a proper speed at which the dust can be collected since the dust collecting is performed on the peripheral surface of the linear negative electrode unit 422 or the positive electrode unit 411 inside the electric dust collecting filters 40a and 40b. The flow pressure of the air introduced into the electric dust collecting filters 40a and 40b can be controlled by an air induction unit having pressure regulating means. The air whose flow rate is regulated flows into the inside of the electrostatic dust collecting filters 40a and 40b through the uniform unit 33, and contaminants contained in the air can be charged and collected. The adjustment holes formed in the uniform unit 33 can be made into an appropriate structure capable of air flow and uniformly arranged with a uniform diameter. A uniform amount of air can be introduced into the respective electrostatic dust collecting filters 40a and 40b by the adjusting holes at a uniform speed. The pollutants contained in the introduced air can be collected in the electrostatic dust collecting filters 40a and 40b by discharging between the anode electrode and the cathode electrode.

As described above, the dust collecting apparatus 30 further includes a filter housing 31 in which a plurality of electrostatic dust collecting filters are accommodated, and an adjusting case 32 is disposed on a side surface of the filter housing 31, , And 40b may be adjusted.

The filter housing 31 may be box-shaped with a receiving space formed therein, and includes a housing frame 311; And an inlet connection unit 312 formed on one wall surface of the housing frame 311. [ The inflow connection unit 312 may be formed to protrude along the circumference of the housing frame 311 and the inflow control module may be connected to the inflow connection unit 312 for inflow of external air. The uniform unit 33 may be disposed on a wall surface of the housing frame 311 in which the inflow connection unit 312 is formed. The uniform unit 33 can be made of a substrate structure in which a plurality of control holes are uniformly arranged on the surface. And the uniform unit 33 can be divided into a plurality of divided regions by the separating member 333. [ For example, the separating member 333 can divide the uniform unit 33 having a rectangular shape into six equal-sized regions in the vertical direction. And each of the regions may be connected to the electrostatic dust collecting filters 40a and 40b housed therein. Air introduced into each of the divided regions may be led to the respective electrostatic dust collecting filters 40a and 40b.

The voltage applied to the electrostatic dust collecting filters 40a and 40b can be adjusted according to the amount of air introduced into the electrostatic dust collecting filters 40a and 40b or the amount of contaminants contained in the air, The applied voltage can be adjusted. A voltage regulating unit for regulating an applied voltage such as a high-voltage transformer may be disposed inside the regulating case 32. The adjustment case 32 may be connected to the side surface of the housing frame 311 and the uniform unit 33 may form a front surface of the housing frame 311 and the adjustment case 32 may be connected to the side surface of the housing frame 311 Or the like.

A control board, a high voltage transformer, a detection module or a unit for a similar operation may be accommodated in the accommodation space formed inside the adjustment case 32. A plurality of circulation slits may be formed in the side wall 322 of the control case 32 to generate heat generated in the control case 32. [ Further, an opening / closing door 323 may be provided in front of the adjustment case 32, and various switches related to operation may be disposed on the opening / closing door 323. [

The number of the electrostatic dust collecting filters 40a and 40b housed in the housing frame 311 may be appropriately selected according to the size of the entire circulating equipment and the plurality of electrostatic dust collecting filters 40a and 40b And they can be electrically connected and disposed adjacent to each other.

Referring to FIG. 3, a receiving space having a rectangular parallelepiped structure may be formed inside the housing frame 311, and the receiving space may be divided into two upper and lower divided spaces. A plurality of electrostatic dust collecting filters 40a and 40b may be electrically connected to each other in two divided spaces. U-shaped sliding guides GR1 and GR2 having concave portions at the middle portion may be formed on the bottom surfaces CB1 and CB2 of the divided spaces. Each of the electric dust collecting filters 40a and 40b may be formed in a sliding manner and the sliding guides GR1 and GR2 may be formed in a structure in which the sliding guides GR1 and GR2 protrude upward from the bottom surfaces CB1 and CB2. The sliding guides GR1 and GR2 have a function of separating and fixing the electrostatic dust collecting filters 40a and 40b to the bottom surface and at the same time having the function of insulating the electrostatic dust collecting filters 40a and 40b, . A dust collection area PV may be formed between the electrostatic dust collecting filters 40a and 40b and the rear surface of the housing frame 311. [ The electric dust collecting filters 40a and 40b can be fixed to the sliding guides GR1 and GR2 and the air having pollutants removed through the electrostatic dust collecting filters 40a and 40b can be discharged to the outside via the discharging module have.

The uniform unit 33 can be disposed in front of the electrostatic dust collecting filters 40a and 40b and the separate protecting unit 332 can be disposed between the electrostatic dust collecting filters 40a and 40b and the front surface on which the uniform unit is disposed . The separation protection unit 332 may be made in a shape similar to that of a uniform unit, or may be made in a structure in which a path is connected to a uniform unit. The separation protection unit 332 may be provided while forming a separation interval from the front portion of the electrostatic dust collecting filters 40a and 40b, and the dust collection area PV may be formed by the separation interval. Air containing contaminants introduced through the uniform unit can fall on the lower surface of the housing frame 311 while part of the contaminants pass through the dust collection area PV. The contaminants that have fallen on the lower surface can then be removed by an appropriate cleaning or removal unit. The separation protection unit 332 can be made of an insulating material, and thus can have a function of electrically protecting the electrostatic dust collecting filters 40a and 40b.

The electric dust collecting filters 40a and 40b may be installed inside the housing frame 311 by opening and closing a placement door 341 formed on a side surface of the housing frame 311. [ The adjustment case 32 described above may be installed on the outer surface of the placement door 341. [ The lock unit 342 may be disposed in the placement door 341 and the fixing members 361 and 362 may be disposed in the form of penetrating the placement door 341 from the inside of the adjustment case 32. [ The fixing members 361 and 362 can be made rotatable and the locking tabs 361a and 362a can be formed at the ends of the fixing members 361 and 362. [ The fixing members 361 and 362 may be in the shape of a long member protruding from the inner surface of the placement door 341 and may be formed at the end of the fixing members 361 and 362 and extend perpendicularly to the longitudinal direction Locking tabs 361a and 362a may be formed. The locking tabs 361a can be coupled and fixed to the anode module 41 or the cathode module 42 of the electrostatic precipitator filter by the rotation of the fixing members 361 and 362. [ The fixing members 361 and 362 may have a function of contacting the electrostatic dust collecting filters 40a and 40b to supply a necessary voltage for discharging. For this purpose, the fixing members 361 and 362 may be made of an elastic structure so as to stably contact the electrostatic dust collecting filters 40a and 40b.

4, the electrostatic dust collecting filter 40a includes a positive electrode module 41 having a plurality of cylinder-shaped positive electrode units 411; A negative electrode module (42) including a negative electrode unit (422) arranged inside a plurality of cells; And at least one insulation module (43a, 43b, 43c, 43d) for electrically insulating the anode module (41) and the cathode module (42).

Each of the plurality of anode units 411 may be in the shape of a hollow cylinder, and may be arranged in close contact while being in contact with each other. Both ends of each anode unit 411 can be fixed by a pair of fixing plates 431a and 431b arranged to face each other. The hollow cylindrical anode unit 411 may have a structure in which both ends thereof are open, and may be arranged in a honeycomb-like structure to function as a dust-collecting cell.

The linear negative electrode unit 422 may be formed into a needle or needle shape, and may be arranged to extend along the center in the longitudinal direction of each anode unit 411. The negative electrode unit 422 is for inducing a discharge due to a difference in voltage from the positive electrode unit 411 and the contaminant is charged by the discharge between the negative electrode unit 422 and the positive electrode unit 411, To be adhered to the negative electrode unit 422. The positive electrode module 41 and the negative electrode module 42 must be electrically separated for discharging between the positive electrode unit 411 and the negative electrode unit 422 and electrically disconnected by the insulating units 43a, 43b, 43c and 43d .

Air flows through the interior of the anode unit 411, and the cathode module 42 can be made in a structure that does not interfere with air flow. The cathode module 42 includes a frame member 421 forming a rectangular frame; A plurality of linear members 421a separated from each other and arranged in parallel on the frame member 421; And a negative electrode unit 422 having one end fixed to each of the linear members 421a and extending into the interior of the positive electrode unit 411. [ And one end of which is fixed to the fixing plate 431a and the other end thereof can be electrically separated from each other by the insulation modules 43a and 43b fixed to the frame member 421. [ The isolation modules 43a and 43b may include insulating components such as, for example, insulators, and may isolate the anode module 41 and the cathode module 42 in a variety of ways.

It is necessary that the cathode unit 422 and the anode unit 411 are kept in a separated state without contacting each other while the cathode unit 422 extends into the inside of the anode unit 411. [ For this purpose, it is advantageous that both ends of the negative electrode unit 422 are fixed. The lower end of the negative electrode unit 422 can be fixed by the fixing member 434 and the fixing groove 434a can be formed in the fixing member 434 so that one end of the negative electrode unit 422 can be fixed. Specifically, the linear member 421a may be a member having a height or a thickness, and a through hole may be formed along the height direction. The negative electrode unit 422 may be fixed to the linear member 421a through a linear member 421a and fixed by a fixing means such as a fixed screw 422b. The discharge nuclei 422a may be formed in a direction perpendicular to the extending direction of the negative electrode unit 422 and a plurality of discharge nuclei 422a may be formed along the extending direction of the negative electrode unit 422. [ The lower end of the negative electrode unit 422 can be fixed to the fixing groove 434a and the elastic member 435 can be disposed in the fixing groove 434a to absorb the vibration of the negative electrode unit 422. [ The cathode unit 422 can be fixed in a predetermined position inside the anode unit 411 in various ways and is not limited to the illustrated embodiment. The insulation modules 43c and 43d may be disposed between the fixing member 434 and the fixing plate 431b for insulation of the negative electrode unit 422 and the insulation modules 43c and 43d may be disposed between the insulation module 43a , 43b, respectively.

5 shows an embodiment of a spray structure applied to a cleaning apparatus according to the present invention.

Referring to FIG. 5, the spray block 20 can be made to rotate and simultaneously move in a horizontal direction. As described above, the moving brackets 14a and 14b can be made in a structure capable of moving up and down. According to one preferred embodiment of the present invention, the cleaning device comprises: a horizontal adjusting member (52) having both ends fixed to moving brackets (14a, 14b) facing each other; And a horizontal movement unit 53 that is movable along the horizontal adjustment member 52 and moves the supply adjustment unit 12 in the horizontal direction.

The leveling member 52 may have a linear member structure extending parallel to the position adjusting member 15 and the horizontal moving unit 53 may be moved along the leveling member 52 by a driving means such as a driving motor So that the supply regulating unit 12 can be moved along the position regulating member 15. [0052] As shown in Fig. In this structure, the water supply means 54 for supplying the water to the water supply module 11 through the supply control unit 12 to the spray block 20 can be connected to the position adjustment member 15 having the internal flow path have. The length of the water supply means 54 must be adjusted with the movement of the supply adjusting unit 12 when the water supply means 54 is connected to the supply adjusting unit 12. [ A control module 51 may be provided to control the operation of the entire cleaning device and may be configured to control the operation of the entire cleaning device such as, for example, the pressure of water or air supplied to the spray block 20, the rotational speed of the spray block 20, Can be controlled.

The spraying block 20 needs to adjust the spraying direction since it rotates and injects water or air into the dust collecting device. According to one embodiment of the present invention, it is possible to adjust the spraying direction of the nozzle 211 disposed in the spraying block 20. Further, the ejecting direction can be adjusted by a pair of adjusting grooves 554a and 554b disposed to face each other and moving members 555a and 555b simultaneously moving along the respective adjusting grooves 554a and 554b.

A plurality of nozzle units 55 may be disposed in the nozzle block 21 and the nozzle unit 55 may include an engaging body 551 to which the nozzle 211 is fixed while being coupled to the nozzle block 21; A pair of moving members 555a and 555b for adjusting the direction of the engaging body 551; And a pair of adjusting grooves 554a and 554b forming a moving path of the pair of moving members 555a and 555b. One end of each of the moving members 555a and 555b may be fixed to one end of the engaging body 551 and the other end may be movably coupled to the adjusting groove 554a and 554b having a semicircular rail structure. The structure of such a nozzle unit 55 is such that water or air is jetted in various directions by one nozzle 211 and water or water is supplied from the nozzle 211 in a predetermined direction regardless of the rotation of the nozzle block 21 Allow air to be sprayed.

The nozzle 211 can be coupled to the nozzle block 21 in various configurations and is not limited to the illustrated embodiment.

Fig. 6 shows an embodiment of the operating structure of the cleaning device according to the present invention.

Referring to FIG. 6, a positioning unit 61 that can control the overall operation of the cleaning apparatus by the control module 51 and determines the spraying position of the spray block or nozzle; And an operation setting unit 62 for determining the jetting pressure of water or air or the rotational speed of the nozzle block. The jetting direction of the nozzles is determined by the jet adjusting unit 63 so that water or air can be jetted to the dust collecting device 30. [ The state of the dust collector 30 can be detected by the detection module 64 and the detection module 64 can detect the amount of the pollutants accumulated inside the dust collector. It is also possible to detect the electrical connection state of the dust collecting device cleaned by the cleaning device. The detection module 64 can measure the contamination degree of the air that has passed through the dust collecting device, and can detect a change in resistance of the dust collecting electrode or the discharging electrode by generating a test current. And send the detection result to the period data unit 65. [ The periodic data unit 65 may determine whether the cleaning device is operating based on the information transmitted from the detection module 64 and transmit the determined result to the control module 51. [ The period data unit 65 can also set the period in which the cleaning apparatus is operated. The detection module 64 may also generate a test current after the cleaning device has been activated to detect the electrical condition of the dust collecting device.

When the water is sprayed by the cleaning device to the dust collecting device and thereby the dust collecting device is cleaned, the temperature or humidity of the dust collecting device is detected by the temperature / humidity detecting unit 66 and transmitted to the gas temperature setting unit 67 . The gas temperature setting unit 67 can set the temperature and humidity of the air for drying the dust collecting apparatus based on the transmitted information, and the setting result can be transmitted to the operation setting unit 62. Then, the operation setting unit 62 can supply the hot dry air to the nozzle block based on the transmitted information to make the dust collecting apparatus dry.

The cleaning apparatus can be operated in various ways and is not limited to the embodiments shown.

The cleaning apparatus according to the present invention allows the dust collecting apparatus, to which a plurality of electric dust collecting filters are connected to each other, to be effectively cleaned. The cleaning device according to the present invention is structurally simple and improves the cleaning efficiency by the rotation of the spray nozzle while the spray nozzle is moved to various positions. Also, the cleaning device according to the present invention can be applied to various dust collecting facilities by being made detachable from the dust collecting equipment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

11: water supply module 12: supply control unit
13a, 13b: guide unit 14a, 14b:
15: Position control member 16: Dry air injection module
17: Pressure control unit 18: Temperature control heater
19: height adjusting unit 20: spraying block
21: nozzle block 22: operation control unit
30: dust collector 31: filter housing
32: regulating case 33: uniform unit
40a, 40b: Electrostatic particulate filter 41:
42: cathode module 43a, 43b, 43c, 43d: insulation module
51: control module 52: horizontal adjustment member
53: horizontal movement unit 54: water supply means
55: nozzle unit 61: positioning unit
62: Operation setting unit 63:
64: Detection module 65: Period data unit
66: Temperature / humidity detection unit 67: Gas temperature setting unit
111: Feed pump 121: Pressure regulating unit
122: 1 connector 123: 2 connector
124: pressure adjusting means 141: stopper
181: screw member 211: nozzle
212: rotation induction hole 212a: elastic unit
212b: pressure balance block 221: fluid distribution block
222: supply connector 223: tube connector
224: rotation drive unit 225: rotation connector
311: housing frame 312: inflow connecting unit
322: side wall 323: opening / closing door
332: separation protecting unit 333: separating member
341: Arrangement door 342: Locking unit
361, 362: fixing member 361a, 362a: locking tab
411: anode unit 421: rim member
421a: Linear member 422: Negative electrode unit
422a: discharge nucleus 422b: fixed screw
431a, 431b: Fixing plate 434: Fixing member
434a: fixing groove 435: elastic member
551: engaging body 54a, 554b: adjusting groove
555a, 555b: moving member B: base unit
CB1, CB2: bottom surface CT1, CT2: moving means
GR1, GR2: Sliding guide H1: 1 Supply tube
H2: 2 supply tube PV: dust collection area

Claims (12)

A cleaning apparatus for an electric dust collector, comprising:
A water supply module (11);
A supply regulating unit 12 in which water supplied from the water supply module 11 is accommodated;
A spraying block 20 for spraying water supplied from the supply regulating unit 12 to a predetermined position;
A pair of guide units (13a, 13b) for guiding the up and down movement of the spray block (20);
A pair of moving brackets (14a, 14b) moving along the pair of guide units (13a, 13b); And
And a nozzle block (21) rotatably coupled to the spray block (20)
A plurality of nozzles 211 are arranged in the nozzle block 21, the direction of ejection of each nozzle 211 is adjustable,
The spraying direction being controlled by a pair of adjusting grooves (554a, 554b) arranged to face each other and moving members (555a, 555b) moving simultaneously along the respective adjusting grooves (554a, 554b). The cleaning device according to claim 1, wherein the supply regulating unit (12) is coupled to the moving bracket (14b). The cleaning device according to claim 1, characterized in that the supply pressure of water to the spray block (20) is regulated by the pressure regulating unit (121) coupled to the supply regulating unit (12). The cleaning apparatus according to claim 1, wherein the nozzle block (21) includes a rotation induction hole (212) formed in at least one end portion while being linearly extended. The cleaning device according to claim 4, wherein the rotation induction hole (212) is adjustable in an opening portion. The cleaning device of claim 1, further comprising a dry air injection module (16) for supplying dry air after a cleaning process or cleaning. delete delete The dust collecting apparatus according to claim 1, wherein the dust collecting apparatus comprises an electrostatic dust collecting filter (40a) comprising a plurality of cylindrical anode units (411) and a cathode unit (422) linearly extending into each anode unit (411) Characterized by a cleaning device. The cleaning device according to claim 1, further comprising a detection module (64) for detecting a dust collection condition inside the dust collection device. 7. The cleaning device of claim 6, wherein the dry air injection module (16) further comprises a gas temperature setting unit (67) for detecting the temperature or humidity of the dust collector to determine the temperature of the air to be injected. The cleaning device of claim 11, further comprising a periodic data unit (65) that determines a cleaning period in accordance with information detected by the detection module (64).

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