KR200317841Y1 - Electro static precipitator with automatic cleaning device - Google Patents

Abstract

The present invention relates to an electric dust collector for industrial and commercial use to collect the foreign matter in the air to purify the air, and more specifically, by removing dust by automatically cleaning the dust collecting electrode attached to the air in the air purification process The present invention relates to an automatic regenerative electric dust collector that does not degrade the air purification function of the electric dust collector.

The present invention provides a scraper that closely contacts the surface of the dust collecting electrode and the collecting electrode between the dust collecting electrode and the collecting electrode of the electrostatic precipitator, and moves the scraper vertically or horizontally to the surface of the dust collecting electrode. By removing the attached dust by physical force, the dust removal efficiency is increased while maintaining the electrostatic precipitator easily and automatically.

Description

Electrostatic precipitator with automatic cleaning device

The present invention relates to an electric dust collector for industrial and commercial use to collect foreign substances in the air to purify the air. More specifically, the dust is removed by automatically cleaning the dust collecting electrode attached to the dust in the air during the air purification process. The present invention relates to an automatic regenerative electrostatic precipitator in which the air purifying function of the electrostatic precipitator is not deteriorated by zooming.

Increasing interest in the atmospheric environment, which greatly affects the health of today, in particular, the improvement of the air quality for dust is becoming important, and the dust collector which removes dust primarily removes dust from various industries, automobiles and boilers. Or to improve the air quality in offices, above, buildings and underground spaces.

In order to remove the dust in the air, a fibrous filter installed in the air passage and an electric dust collector are mainly used. Among them, the electric dust collector has a high dust removal efficiency and can handle a large amount of air at a low power cost. Although it is spotlighted as a device, dust collected in the electrostatic precipitator accumulates on the surface of the dust collecting electrode, and the dust is periodically removed to maintain high dust removal efficiency.

Manual removal of dust attached to the dust collecting electrode of the electric dust collector is a very cumbersome and expensive operation, and devices that can automatically remove the dust are being developed. (Iv) removal method, wet removal method by flowing water to the collecting electrode or by spraying water with a high pressure nozzle, air removal method by injecting hot steam or air to the collecting electrode. Etc.

1 shows a conventional self-cleaning electrostatic precipitator which removes dust from a dust collecting electrode using water, and a large amount of unipolar ions is generated by a high voltage applied between the discharge wire 1 and the flat dust collecting electrode 2. Is generated, which electrically charges the sucked dust, and the charged dust is attracted to the dust collecting electrode 2 by the high voltage applied between the collecting electrode 2 and the collecting counter electrode 3. Attached to the surface of the electrode 2 to be collected, the dust collected in the dust collecting electrode 2 is periodically washed by the water sprayed from the spray nozzle 12, the dust collecting electrode 2 as described above A plurality of nozzles directed to the nozzle is moved up and down along the dust collecting electrode 2 by the nozzle carrier 4 to be cleaned.

The most common method of removing the dust attached to the dust collecting electrode of the electric dust collector is the dusting method by the dusting of the dust collecting electrode, in which the dust is not properly dusted when the dust of the collected dust contains a large amount of oil. There is a disadvantage in that re-splashing occurs, and the method of removing dust by washing the dust collecting electrode with water inevitably generates wastewater during washing of the dust collecting electrode, which requires an additional facility for treating the generated wastewater. It was.

The present invention is a method of removing the dust attached to the dust collector electrode of the existing electric dust collector, when the dust to be collected contains a large amount of oil or moisture, the dust is not properly removed due to the adhesion of the collected dust The wet method of flowing water to the dust collecting electrode or spraying water with the nozzle is designed to solve the inconvenience of having to reprocess the water containing dust and drying the sludge. By using a scraper to scrape the dust attached to the dust collector electrode of the electric dust collector without using, to maintain a high dust removal efficiency of the electric dust collector and to make the maintenance of the electric dust collector automatically and easily.

The present invention provides a scraper that closely contacts the surface of the dust collecting electrode and the collecting electrode between the dust collecting electrode and the collecting electrode of the electrostatic precipitator, and moves the scraper vertically or horizontally to the surface of the dust collecting electrode. By removing the attached dust by physical force by scraping, it is possible to increase the dust removal efficiency and to facilitate maintenance by not utilizing the secondary treatment device.

1 is a plan view showing a conventional dust removal electrode dust collection example

2 is a plan view of an embodiment of the present invention

3 is a front view of an embodiment of the present invention

Figure 4 is a side view showing the inside of the scraper of the present invention

5 is a side view showing a dust removal state of the present invention

Figure 6 is a front view of the installation state of the conveyor belt for dust movement of the present invention

7 is a front view of the installation state of the dust collecting hopper of the present invention

8 is a plan view of another embodiment of the present invention

9 is a side view of another embodiment of the present invention

10 is a front view showing a brush rotational power transmission element of the present invention

11 is an embodiment front view of the brush rotational power transmission element of the present invention;

12 is a front view of an embodiment for moving the scraper of the present invention from side to side

13 is a plan view of the dust removal pipe installation state when using the brush of the present invention

14 is a side view of the dust removal pipe installation state when using the brush of the present invention

[Description of Symbols for Main Parts of Drawing]

DESCRIPTION OF REFERENCE NUMERALS 1 discharge wire 2 dust collecting electrode 3 collecting electrode

10: scraper feeder 11: transfer screw 14: vacuum suction

20: scraper 21: exhaustion day 26: spring

27 frame 28 dust inlet 30 brush

32: sprocket 33: gear 34: motor

40: conveyor belt 41: hopper

According to the present invention, in the electrostatic precipitator in which the discharge wire 1 and the collecting counter electrode 3 are disposed between the collecting electrodes 2, a scraper 20 is installed between the collecting electrode 2 and the collecting counter electrode 3. However, the dust exhaust blades 21 and 22 constituting the scraper 20 are elastic and closely adhered to the surfaces of the dust collecting electrode 2 and the collection counter electrode 3, and the scraper 20 is periodically moved up and down. It is made to be moved or left and right according to the installation position of the scraper 20.

One side of the scraper 20 is fixed to the scraper feeder (10), the scraper feeder (10) is coupled to a pair of feed screw (11) placed vertically, the feed screw (11) to the motor 12 By rotating the scraper feeder 10 to be transported up and down.

Here, the scraper 20 is provided with four flat type dust exhaust blades 21 in a rhombus shape, and forms a coupling table 22 on both sides inside the dust exhaust blade 21, and on the side of the dust exhaust blade 21. The coupling table 22 positioned is connected to the hinge 23, while the coupling table 22 positioned above and below the exhaust blade 21 is coupled to the hinges 24 at both sides of the connecting table 25, and the connecting table ( 25 is coupled to the frame 27 located in the center of the four exhaust blades 21 by a spring (26).

The frame 27 is fixed to one side of the scraper feeder 10, the dust inlet 28 is installed on both sides of the frame 27, while the dust discharge hose 15 is installed along the frame 27 The dust sucked into the dust inlet 28 is discharged to the outside by the discharge hose 15.

The vacuum hose 14 is installed in the discharge hose 15, but the filter 13 is installed at the front end of the vacuum suction unit 14 to remove the dust and to be discharged.

And the present invention can be installed so that the scraper 20 can be moved to the left and right of the dust collecting electrode 2, as shown in Figure 12, when the scraper 20 is moved to the left and right the dust collecting electrode What is necessary is just to make it adhere to the surface of (2).

Then, the scraper 20 removes dust accumulated on the surface of the dust collecting electrode 2 while moving to the left and right by the transfer screw 11, and the dust removed from the scraper 20 is sucked into the vacuum inhaler 14. To be discharged.

Meanwhile, the scraper 20 of the present invention can use the brush 30, and place the brush 30 between the dust collecting electrode 2 and the collection corresponding electrode 3, but the tip of the brush 30 is the dust collecting electrode ( 2) to clean the surface, the brush 30 is coupled to the scraper carriage 10, the brush 30 is coupled to the sprocket 32 or gear 33 of the scraper carriage 10 The rotational power of the motor 34 fixed to one side is transmitted to the chain 31 or the gear 33 to be rotated.

That is, since the rotational force of the motor 34 is transmitted to the sprocket 32 through the gear 33 or the chain 31, the brush 30 is rotated when the motor 34 rotates to remove dust attached to the dust collecting electrode 2. Will be removed.

Here, the upper and lower portions of the brush 30 are provided with a dust suction pipe 35 for sucking dust scattered by the brush 30 as shown in FIGS. 13 to 14, and the dust is placed on the dust suction pipe 35. The suction hole 36 may be sucked through the suction hole 36, and the dust sucked into the dust suction pipe 35 may be discharged through the vacuum suction machine 14.

When using the brush 30 as described above, there are various cases in which the dust is sucked out and discharged, but the dust collecting electrode 2 is cleaned using the rotating brush 30 and the dust generated at this time is sucked out. If you can, it is not beyond the scope of the present invention.

On the other hand, the dust is scraped off by the dust removal blade 21 of the scraper 20 by installing a conveyor belt 40 or a hopper 41 to move the dust on the lower portion of the dust collecting electrode (2) To gather on one side or to the hopper 41.

When the high voltage is supplied to the electrostatic precipitator in the present invention and the air purifying function is normally performed, the vertically movable scraper 20 is moved to the upper or lower portion of the dust collecting electrode 2 or the left and right movable scraper 20 is moved to the right. In order to prevent the occurrence of sparks or short-circuit in the dust collecting electrode (2), and to stop the operation of the electric dust collector and to operate the scraper 20 so that no electric accident occurs.

For the general use of the electrostatic precipitator in the present invention of such a configuration, the description thereof will be omitted, and the process of scraping off the dust of the dust collecting electrode 2 using the scraper 20 will be described.

First, when dust is attached to the dust collecting electrode 2 of the electric dust collector, the high voltage applied to the electric dust collector is cut off, and then the motor 12 is operated to drive the scraper 20.

At this time, the driving time of the scraper 20 may be operated by checking the air purification capacity with a sensor, or may be operated periodically, and the operation time of the scraper 20 starts from the top or bottom of the dust collecting electrode 2. Will be, in the present invention will be described for the process of removing dust moving from the top to the bottom.

As the scraper 20 rotates the feed screw 11 when the motor 12 is operated and the feed screw 11 rotates, the scraper 20 moves down along the feed screw 11, so that the dust collecting electrode 2 and the collecting electrode 3 are collected. Will descend.

At this time, the scraper 20 is the spring 26 is pulled on the connecting rod 25, the upper and lower parts of the exhaust blade 21 is pulled inward, the left and right sides are placed in the open state to the outside, the dust exhaust blade 21 is dust collected Do not deviate significantly outside of the electrode 2.

When the scraper 20 is lowered and the dust extraction blade 21 contacts the dust collecting electrode 2 and the collecting counter electrode 3, the dust removing blade 21 is formed of the fixed dust collecting electrode 2 and the collecting counter electrode 3. The left and right sides of the dust extraction blade 21 are pressed against the surface of the dust collecting electrode 2 and the collection counter electrode 3 while the left and right sides are pushed inward to enter the space between them, and the spring 26 is pulled out to receive the original position. do.

As such, the dust extraction blade 21 descends by the operation of the motor 12 while being in close contact with the surfaces of the dust collecting electrode 2 and the collection counter electrode 3 to scrape off the dust attached to the surface of the dust collecting electrode 2. do.

At this time, by operating the vacuum suction unit 14 to suck the dust dropped by the dust extraction blade 21 to the dust suction port 28 fixed to the frame 27, the dust sucked into the suction port 28 is discharge hose 15 After being purified from the filter 13 through the discharge.

In addition, the dust that is not sucked into the dust inlet 28 during the operation of the scraper 20 is dropped to the lower part of the dust collecting electrode 2 to be collected in one place by the conveyor belt 40 or to the hopper 41 to be treated. To help.

In this way, when the scraper 20 moves from the top to the bottom, the dust of the dust collecting electrode 2 is removed. Even if the scraper 20 moves from the bottom of the dust collecting electrode 2 to the top, the process of removing dust is the same. When the dust is removed and the electrostatic precipitator is restarted, the air purification ability is improved. The present invention directly scrapes the dust of the dust collecting electrode 2, so that the oil containing the oil that could not be removed by the chase method is included. It can also be easily removed, there is an advantage that does not generate waste water or sludge because no water is used.

And the present invention can be installed to move the above-mentioned scraper 20 to the left and right as shown in Figure 12, the operation and movement of the scraper 20 as described above, but the direction of movement of the scraper 20 Only it is different.

Therefore, when the dust of the dust collecting electrode 2 is removed using the scraper 20, the scraper 20 may be moved in the up, down, left, and right directions, and the movement direction of the scraper 20 may be determined by the designer. It can be changed as needed.

Meanwhile, the present invention may use the brush 30 instead of the scraper 20, and install the brush 30 in the scraper feeder 10, but the sprocket 32 in which the chain 31 is caught by the brush 30. Alternatively, the gear 30 may be installed to rotate the chain 31 or the gear 33 by the rotational force of the motor 34 fixed to one side of the scraper feed table 10 so that the brush 30 may be rotated.

When the brush 30 is rotated, the brush 30 rubs the surfaces of the dust collecting electrode 2 and the collecting counter electrode 3 to remove the dirt.

Here, the dust generated when the brush 30 is rotated is provided with a dust suction pipe 35 in the upper and lower parts in accordance with the rotation direction of the brush 30, the suction port 36 in the longitudinal direction to the dust suction pipe 35 It is formed to suck the dust, and the sucked dust to be discharged through the vacuum inhaler (14).

On the other hand, if the dust scattering is greatly a problem when using the scraper 20 in the present invention can be sprayed with water to prevent dust scattering from the scraper 20, in this case the amount of water used in the conventional wet method It is smaller than the water to be used, so there is no problem with the treatment.

In addition, it is helpful for the air purification that the air sucked from the scraper 20 passes through a dust treatment device such as a cyclone or a bag filter.

As described in the preferred embodiment of the present invention, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the present invention.

The present invention is capable of regenerating the dust collecting electrode by scraping off the dust attached to the dust collecting electrode of the electric dust collector, and prevents the reduction of dust collecting efficiency due to the accumulation of dust by regenerating the dust collecting periodically, The installation and operating costs can be reduced by simplifying equipment and processes.

Claims (11)

In the device for removing the dust attached to the dust collecting electrode of the electrostatic precipitator which sucks in the air dust and electrically charged to remove it, It is provided with a scraper 20 which moves up and down between the dust collecting electrode 2 and the collecting counter electrode 3 and is in close contact with the surfaces of the collecting electrode 2 and the collecting counter electrode 3. Automatically regenerated electrostatic precipitator characterized in that it comprises a transport means for periodically removing the dust by moving the scraper 20 in the up and down direction of the dust collecting electrode (2). The automatic regenerator type electrostatic precipitator according to claim 1, wherein the scraper 20 moving in close contact with the dust collecting electrode 2 and the collecting counter electrode 3 is moved to the left and right directions of the dust collecting electrode 2. . According to claim 1, the scraper 20 is provided with four flat-type dust exhaust blade 21 in the form of a rhombus, the inner side of the dust exhaust blade 21 to form a coupler 22 on both sides, the dust exhaust blade ( Coupler 22 located on the side of the 21 is connected to the hinge 23, while the coupling table 22 located on the upper and lower sides of the exhaust blade 21 is coupled to the hinge 24 on both sides of the connecting table (25). And, the connecting rod 25 is an automatic regeneration type electrostatic precipitator, characterized in that coupled to the spring (26) to the frame 27 located in the center of the four exhaust blades (21). According to claim 3, The suction inlet 28 for sucking dust on both sides of the frame 27, the dust inlet 28 is connected to the discharge hose 15, the discharge hose 15 is the frame 27 Auto regeneration type electrostatic precipitator, characterized in that to be connected to the outer side vacuum suction (14). In the device for removing the dust attached to the dust collecting electrode of the electrostatic precipitator which sucks in the air dust and electrically charged to remove it, A brush 30 moving between the dust collecting electrode 2 and the collecting counter electrode 3 and being in close contact with the surfaces of the collecting electrode 2 and the collecting counter electrode 3, Automatic regeneration type electrostatic precipitator, characterized in that the transfer means for moving the brush 30 in the up and down direction of the dust collecting electrode (2). The self-generating electrostatic precipitator according to claim 5, wherein the brush 30 moving in close contact with the dust collecting electrode 2 and the collecting counter electrode 3 is moved in the left and right directions of the dust collecting electrode 2. . The method of claim 5. The brush 30 is coupled to the scraper carriage 10, the brush 30 is coupled to the sprocket 32 is fastened to the chain 31, the chain 31 is on one side of the scraper carriage 10 Self-generating electrostatic precipitator, characterized in that configured to rotate the brush 30 by the motor 34 is coupled to the fixed motor (34). The method of claim 5. Brush 30 is coupled to the scraper carriage 10, the brush 30 is coupled to the gear 33, the gear 33 is a motor 34 fixed to one side of the scraper carriage 10 Auto-regenerated electrostatic precipitator, characterized in that configured to rotate the brush 30 by the motor (34) by coupling to. According to claim 1 or 6, The conveying means is a scraper feeder 10 is fixed to one side of the scraper 20 or the brush 30, and the feed screw coupled to both of the scraper feeder (10) ( 11) and a motor 12 for rotating the transfer screw 11, characterized in that the automatic regenerative electrostatic precipitator. 6. The automatic regenerator type electrostatic precipitator according to claim 1 or 5, wherein a conveyor belt (40) for moving the dust mass to one side is provided below the dust collecting electrode (2). The dust suction pipe 35 having the suction port 36 formed in the upper and lower portions of the brush 30 in the longitudinal direction to suck the dust scattered by the brush 30 into the suction port 36. Automatic regenerative electrostatic precipitator, characterized in that configured.