KR20150045069A - Electrostatic precipitator with means for dedusting - Google Patents

Abstract

Disclosed is an electric dust collecting apparatus having a discharging means capable of efficiently discharging fumes attached to a dust collecting cell to improve an initial dust collecting efficiency. An electric dust collecting apparatus having a discharging means includes a case having a space formed therein, a charging unit disposed inside the case and charged with fumes contained in air passing therethrough according to the application of a voltage, And a dust collection module disposed on the downstream side for collecting the charged fumes, and an impacting unit for applying an impact force to the dust collection unit to remove the fumes attached to the dust collection unit to remove dust from the dust collection unit. According to another aspect of the present invention, there is provided an electric dust collecting apparatus having a discharging device, comprising: a case having a space formed therein; a charging unit disposed inside the case for charging a fume contained in air passing therethrough, And a dust collecting unit arranged on the downstream side of the charging unit in the flow direction to collect the charged fumes. The dust collecting module is rotatably provided in the axial direction, and the high pressure air flows inside, and the high pressure air And a pipe portion having at least one nozzle for spraying the water to the dust collecting portion side. Accordingly, it is possible to improve the initial dust collection efficiency, effectively exhaust fumes adhered to the dust collecting cell, effectively apply in an environment where a large amount of dust is generated in a narrow space such as a welding work of a ship block, and dramatically improve productivity .

Description

ELECTROSTATIC PRECIPITATOR WITH MEANS FOR DEDUSTING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric dust collecting apparatus having a discharging means, and more particularly, to an electric dust collecting apparatus having a discharging means for efficiently collecting and removing dust generated during welding work of a ship block.

Generally, the electrostatic precipitator is configured to clean fine dust and the like contained in contaminated air flowing in one direction and discharge it to the other side. The electric dust collector is configured to discharge charges generated by a corona discharge caused by application of a high voltage So that the dust is charged by charging the fine dust.

FIG. 1 illustrates the ionization process of fine particles through a discharge electrode in a general electrostatic precipitator.

Referring to FIG. 1, fine dust in the external air introduced into the inlet through a high voltage is negatively charged through a discharge electrode. The dust that has become negatively charged is collected in a collecting electrode, and clean air filtered by fine dust is discharged through the discharge part.

Korean Patent Registration No. 0786710 (Dec. 11, 2007), which is filed in the same year, discloses an electrostatic precipitator equipped with an ultraviolet lamp. Fig. 2 shows a schematic configuration of a conventional electrostatic precipitator.

2, the conventional electrostatic precipitator includes a pre-filter 10, an ionization unit, a dust collecting unit 31, an after-filter 40, and an ultraviolet lamp 50. The prefilter 10 is a network structure that physically filters dust of coarse particles contained in the contaminated air flowing from the outside. The ionization unit is located at the front end of the dust collecting unit 31 to generate charges between the discharge electrode 22 and the earth electrode 21, thereby charging the neutron dust.

In the dust collecting unit 31, a plurality of dust collecting cell plates are densely arranged at regular intervals. In the conventional electrostatic precipitator constructed as described above, the fine dust in the external air introduced into the inlet portion through the high voltage is negatively charged through the discharge electrode 22. The dust that has become negatively charged is collected in the earth electrode 21, and clean air filtered by the fine dust is discharged through the discharge portion by a blowing fan or the like.

On the other hand, when the ship is dried, various kinds of welding such as arc welding are performed. In this welding operation, a large amount of fine dust is generated. Since the generated fine dust is not smoothly discharged to the outside due to a welding environment in a narrow space such as a block of a ship, the welding environment is very poor. Therefore, it is possible to pass through a narrow entrance of the block and to be installed in a narrow space, It is required to develop an electric dust collecting apparatus which is easy to use.

However, when the conventional electric dust collector is installed in a place where a lot of dust is generated in a relatively narrow space such as a welding environment of a shipbuilding block, the replacement period of the dust collecting cell is fast and requires frequent replacement, The dust collecting efficiency is lowered. In addition, the conventional electric dust collecting apparatus has a problem in that the efficiency of the initial dust collecting operation is deteriorated due to the fume attached to the dust collecting cell. This problem is further exacerbated in an electric dust collecting apparatus which seeks to reduce the size and improve the transportability.

Korean Patent Registration No. 0786710 (December 11, 2007)

In order to solve such a conventional problem, the present invention provides an electrostatic precipitator having a discharging means for efficiently discharging fumes attached to a dust collecting cell to improve an initial dust collecting efficiency.

The electric dust collecting apparatus according to the present invention comprises a case having a space formed therein and a charging part disposed inside the case for charging a fume contained in air passing therethrough according to the application of a voltage, And a dust collection unit disposed on the downstream side of the charge unit and collecting the charged fumes, and impact means for applying an impact force to the dust collection unit to remove the fumes attached to the dust collection unit from the dust collection unit to perform dust removal .

According to another aspect of the present invention, there is provided an electric dust collecting apparatus having a discharging device, comprising: a case having a space formed therein; a charging unit disposed inside the case for charging a fume contained in air passing therethrough, And a dust collecting unit arranged on the downstream side of the charging unit in the flow direction to collect the charged fumes. The dust collecting module is rotatably provided in the axial direction, and the high pressure air flows inside, and the high pressure air And a pipe portion having at least one nozzle for spraying the water to the dust collecting portion side.

The electric dust collector having the exhausting device according to the present invention can improve the initial dust collecting efficiency and can efficiently exhaust the fumes adhered to the dust collecting cell so as to perform the welding operation of the ship block in an environment where a large amount of dust is generated It can be effectively applied, and the productivity is remarkably improved.

FIG. 1 is a view showing an ionization process of fine particles through a discharge electrode in a general electrostatic precipitator,
Fig. 2 shows a schematic configuration of a conventional electrostatic precipitator,
3 is a perspective view illustrating an electric dust collector having a discharge means according to a first embodiment of the present invention,
4 is a perspective view showing an impact means of an electric dust collector having a discharge means according to the first embodiment of the present invention,
5 is a schematic view of a dust collecting module of an electric dust collector having a discharging device according to a first embodiment of the present invention,
6 is a perspective view showing an electric dust collector having a discharge means according to a second embodiment of the present invention,
FIG. 7 is a perspective view showing an electric dust collector having a discharge means according to a third embodiment of the present invention,
FIG. 8 is a perspective view illustrating an electric dust collector having a discharge means according to a fourth embodiment of the present invention,
9 is a side view showing an electric dust collector having a dust exhausting unit according to a fourth embodiment of the present invention,
10 shows a pipe section of an electric dust collecting apparatus having a discharging means according to a fourth embodiment of the present invention,
11 is a perspective view showing an electric dust collector having a discharging device according to a fifth embodiment of the present invention,
12 shows a pipe section of an electrostatic precipitator having a discharge means according to a fifth embodiment of the present invention.

Hereinafter, the technical structure of the electrostatic precipitator having the draining means will be described in detail as follows.

FIG. 3 is a perspective view showing an electrostatic precipitator having a discharging unit according to a first embodiment of the present invention, and FIG. 4 is a view showing the impact unit of the electrostatic precipitator having the discharging unit according to the first embodiment of the present invention And FIG. 5 is a schematic view of a dust collecting module of an electric dust collector having a discharging unit according to a first embodiment of the present invention.

In the following description, the direction from left to right in Fig. 5 is "air flow direction ".

3 to 5, an electrostatic precipitator 7 having a discharging device according to the first embodiment of the present invention includes a case 71, a power supply part, a dust collecting module 73 composed of a charging part and a dust collecting part , And an impact means (75).

The case 71 has a space formed therein. The case 71 is formed with an air inlet for introducing air into the inside thereof, and an air outlet for discharging the air inside. The air inlet and the air outlet And a flow path for air to flow is formed. Inside the case 71, a charging part and a dust collecting part, which will be described later, are sequentially arranged in the air flow direction. The case 71 is provided with a caster at the lower part thereof and can be configured to be rotatable with respect to the ground. Further, a fan rotated by a motor is provided on the air outlet side so that the air inside the case 71 is blown out to the outside. The power supply unit supplies voltage to the dust collection module 73, and may include a power pack, a relay, and the like.

The dust collecting module 73 is modularized into a lower part and a dust collecting part, and a plurality of dust collecting modules 73 may be provided in the case 71 in the air flowing direction. The dust collecting module 73 may be detachably attached to the case 71. The load part is disposed inside the case 71 and functions to charge the fumes contained in the air passing therethrough according to the application of the voltage. The charge unit includes a discharge electrode 731 and an earth electrode 732 to charge a fume passing between the discharge electrode 731 and the earth electrode 732. The fumes contained in the polluted air passing through the discharge electrode 731 are charged And is attached to the dust collecting portion. The dust collecting unit has a dust collecting cell 733, and the dust collecting cell 733 is disposed downstream of the dust collecting unit in the air flow direction to collect the charged fumes. It is preferable that the insulator 739 is provided on the side surface of the dust collecting module 73.

The impact means 75 applies an impact force to the dust collecting portion to remove the fume attached to the dust collecting portion to perform dust draining. The impact means 75 is provided on the upper portion of the dust collecting portion. That is, the impact means 75 may be provided on the upper central side of the case 71. The impact force applied to the case 71 by the impact means 75 is transmitted to the dust collecting cell 733 provided in the case 71 and the fume attached to the dust collecting cell 733 is transmitted to the dust collecting cell 733 and falls downward. In this case, it is preferable that the lower part of the case 71 is provided with collecting means for collecting the fumes to be dropped.

The impact means 75 may comprise an impact hammer or a vibrator. The impact hammer and the vibrator all apply an impact force to the fixture by a hitting operation. In the present embodiment, an impact hammer will be described as an example. The impact means 75 includes a bracket 751 coupled to the upper portion of the case 71, a main body 752 coupled to the bracket 751, And a hammering unit 753. The bracket 751 is formed with a fastening hole 7511 for fastening the case 71 to the screw.

With this configuration, it is possible to implement the discharging means with a relatively simple configuration and at a low cost, and the entire case 71 is vibrated by the impact force applied at the upper center side of the dust collecting cell 733, 733 can be efficiently exhausted.

6 is a perspective view showing an electric dust collector having a discharge means according to a second embodiment of the present invention. The embodiment of Fig. 6 is a modification of the configuration of the impact means as compared with the first embodiment described above, and only the modified impact means will be described.

Referring to Fig. 6, an electric dust collector 7 having a discharging means according to a second embodiment of the present invention is provided with an impact means 75. Fig. The impact means 75 is connected to the inserting portion of the dust collecting module 73 by a wire 754, and is configured to charge the dust collecting portion by applying tension. That is, the impact means 75 is constituted by a solenoid 755 connected to the wire 754 at the center of the insertion portion of the dust collecting module 73 and is attached to the dust collecting cell 733 by charging the dust collecting cell 733 by applying tension And exhausted the fumes.

With this configuration, indirectly performing depressurization by tension without directly hitting the case 71 or the dust collecting module 73, it is possible to effectively perform the dust collecting operation while minimizing the shaking caused by the impact force of the apparatus, The fumes attached to the cell 733 can be removed.

7 is a perspective view showing an electric dust collector having a discharge means according to a third embodiment of the present invention. The embodiment of Fig. 7 is a modification of the configuration of the impact means as compared with the first embodiment described above, and only the modified impact means will be described.

Referring to Fig. 7, an electric dust collector 7 having a discharging means according to a third embodiment of the present invention is provided with an impact means 75. Fig. The impact means (75) are respectively provided at lower corners of the case (71). In this case, the impact means 75 may be composed of a vibrator or a solenoid. That is, the impact means 75 mounts vibrators such as a vibrator or a solenoid at four corners of the lower portion of the dust collecting module 73 to exhaust the fumes attached to the dust collecting cell 733. The vibrating bodies are provided at four lower corners of each dust collecting module 73 and can be controlled to operate individually according to the degree of the fumes attached to the dust collecting cells 733 of each dust collecting module 73.

With this configuration, vibration is generated at many points in the downward direction of the dust collecting cell 733 so that the vibration is uniformly transmitted to the dust collecting cell 733. The fumes adhered to the dust collecting cell 733 are exhausted as a whole, . In addition, efficient exhaust control can be achieved with minimum power consumption through individual control of a plurality of vibrating bodies, thereby providing a great advantage in practical use.

FIG. 8 is a perspective view showing an electrostatic precipitator having a discharging unit according to a fourth embodiment of the present invention, FIG. 9 is a side view showing an electrostatic precipitator having a discharging unit according to a fourth embodiment of the present invention, 10 shows a pipe section of an electrostatic precipitator having a discharge means according to a fourth embodiment of the present invention.

In the following description, the left-to-right direction of FIG. 9 is the "air flow direction", and the left-right direction of FIG. 10 is the "longitudinal direction of the pipe", that is, "the orthogonal direction of the air flow direction".

8 to 10, an electrostatic precipitator having a discharging unit according to a fourth embodiment of the present invention includes a case, a power source, a dust collecting module 73 composed of a charging unit and a dust collecting unit, 77).

The case has a space formed therein. One side of the case is formed with an air inlet for introducing air into the inside thereof. The other side of the case is formed with an air outlet for discharging air inside. An air inlet and an air outlet are connected to the inside of the case A flow path for air to flow is formed. Inside the case, a charging part and a dust collecting part, which will be described later, are disposed in sequence in the air flow direction. A caster is provided on the lower part of the case and can be configured to be rotatable relative to the ground. Further, a fan rotated by a motor is provided on the air outlet side so that the air inside the case is blown out to the outside. The power supply unit supplies voltage to the dust collection module 73, and may include a power pack, a relay, and the like.

The dust collecting module 73 is modularized into a dust collecting part and a dust collecting part, and a plurality of dust collecting modules 73 may be provided inside the case in the air flowing direction. The dust collecting module 73 may be configured to be detachable with respect to the case. The load part is disposed inside the case and functions to charge the fumes contained in the air passing therethrough as voltage is applied. The charge unit includes a discharge electrode 731 and an earth electrode 732 to charge a fume passing between the discharge electrode 731 and the earth electrode 732. The fumes contained in the polluted air passing through the discharge electrode 731 are charged And is attached to the dust collecting portion. The dust collecting unit has a dust collecting cell 733, and the dust collecting cell 733 is disposed downstream of the dust collecting unit in the air flow direction to collect the charged fumes. It is preferable that the insulator 739 is provided on the side surface of the dust collecting module 73.

The pipe portion 77 has a hollow tube shape and is rotatably provided in the axial direction. In this case, the pipe portion 77 is disposed on the upper portion of the dust collecting portion. High pressure air flows inside the pipe portion 77 and has a nozzle 771 on its outer circumferential surface. One or a plurality of nozzles 771 are provided so as to inject high-pressure air flowing inside the pipe section 77 toward the dust collecting cell 733 side of the dust collecting section. The pipe 77 discharges high-pressure air through the nozzle 771 toward the dust-collecting cell 733 to remove the fume adhered to the dust-collecting cell 733 from the dust-collecting unit to perform dust-discharging. The fumes attached to the dust collecting cell 733 fall off the dust collecting cell 733 by the high-pressure air and fall down to the bottom. In this case, it is preferable that the lower part of the case is provided with collecting means for collecting the fumes to be dropped.

The pipe portion 77 includes a motor 78 for driving the pipe portion 77 to rotate. A drive gear 781 is coupled to the motor 78 and a driven gear 773 is coupled to the pipe portion 77 or a driven gear 773 is formed on the outer peripheral surface of the pipe portion 77 as shown in FIG. . The drive gear 781 and the driven gear 773 are engaged with each other so that the rotation of the motor 78 causes the pipe portion 77 to rotate about 90 degrees in the axial direction and swing. The swing angle of the pipe portion 77 can be variously changed. The pipe portion 77 is provided with at least one bearing 775 for supporting the rotation of the pipe portion 77. The bearing 775 is provided at both ends of the pipe portion 77 to smooth the rotation of the pipe portion 77.

With this configuration, the exhaustion of the dust collecting cell 733 can be freely controlled by the driving force of the motor 78, and the angle, the rotating speed, and the like can be controlled. Thereby, there is an advantage that the exhaustion of the dust collecting part can be carried out more precisely and stably.

FIG. 11 is a perspective view showing an electrostatic precipitator having a discharging unit according to a fifth embodiment of the present invention, and FIG. 12 shows a pipe unit of an electrostatic precipitator having a discharging unit according to a fifth embodiment of the present invention .

The embodiment of Figs. 11 and 12 is a modification of the configuration of the pipe section in comparison with the above-described fourth embodiment, and only the modified pipe section will be described.

An electrostatic precipitator having a discharging means according to a fifth embodiment of the present invention includes a pipe portion 77. The pipe portion 77 has a hollow tube shape and is rotatably provided in the axial direction. High pressure air flows inside the pipe portion 77 and has a nozzle 771 on its outer circumferential surface. One or a plurality of nozzles 771 are provided so as to inject high-pressure air flowing inside the pipe section 77 toward the dust collecting cell 733 side of the dust collecting section. The pipe 77 discharges high-pressure air through the nozzle 771 toward the dust-collecting cell 733 to remove the fume adhered to the dust-collecting cell 733 from the dust-collecting unit to perform dust-discharging. The fumes attached to the dust collecting cell 733 fall off the dust collecting cell 733 by the high-pressure air and fall down to the bottom. In this case, it is preferable that the lower part of the case is provided with collecting means for collecting the fumes to be dropped.

The pipe portion 77 is disposed on the flow path of the air passing through the dust collecting portion. In addition, the high-pressure air jetting direction of the nozzle 771 and the flow direction of the air passing through the dust collecting part are configured to be non-parallel. Preferably, the high-pressure air jetting direction of the nozzle 771 and the flow direction of the air passing through the dust collecting portion are arranged orthogonally to each other. The pipe portion 77 is provided with at least one bearing 775 for supporting the rotation of the pipe portion 77. The bearing 775 is provided at both ends of the pipe portion 77 to smooth the rotation of the pipe portion 77.

With such a configuration, since no separate driving means such as a motor is provided and the injection direction of the nozzle 771 and the air flow direction are not parallel to each other without using the power for driving the driving means, When the high pressure air is blown into the pipe 77, the pipe portion 77 rotates in the axial direction.

Although the electrostatic precipitator having the discharging device according to the present invention has been described with reference to the embodiments shown in the drawings, the present invention is merely illustrative and any person skilled in the art can make various modifications and equivalent embodiments therefrom. I will understand. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

7: Electric dust collecting device having exhausting means
71: case 73: dust collecting module
731: discharge electrode 732: ground electrode
733: dust collecting cell 739: insulator
75: Impact means 77: Pipe section
771: Nozzle 773:
775: Bearing 78: Motor
781: drive gear

Claims (11)

A case which is disposed inside the case and in which a fume contained in air passing therethrough is applied in accordance with the application of a voltage and a charged part disposed on the downstream side of the charging part in the air flow direction, And a dust collecting part for collecting the dust; And an impacting means for applying an impact force to the dust-collecting portion to remove the fume attached to the dust-collecting portion from the dust-collecting portion to perform dust-discharging. The method according to claim 1,
And the impact means is provided on the dust collecting unit. 3. The method of claim 2,
Characterized in that the impact means comprises an impact hammer or a vibrator. The method of claim 3,
Wherein the impact means comprises a bracket coupled to an upper portion of the case, a main body coupled to the bracket, and a hammer hitting the main body while moving relative to the main body. The method according to claim 1,
Wherein the impact means comprises a solenoid which is connected to the dust collecting module inserting portion by a wire so as to give tension to the dust collecting portion to charge the dust collecting portion. The method according to claim 1,
And the impact means are respectively provided at lower corners of the case. The method according to claim 6,
Wherein the impact means comprises a vibrator or a solenoid. A case which is disposed inside the case and in which a fume contained in air passing therethrough is applied in accordance with the application of a voltage and a charged part disposed on the downstream side of the charging part in the air flow direction, And a dust collecting part for collecting the dust; And a pipe part having at least one nozzle which is rotatably provided in the axial direction and in which high-pressure air flows, and which injects high-pressure air flowing in the inside of the outer peripheral surface toward the dust collecting part. cyclone. 9. The method of claim 8,
The pipe portion being disposed on an upper portion of the dust collecting portion;
Further comprising a motor for rotating the pipe unit. 9. The method of claim 8,
The pipe portion being disposed on a flow path of air passing through the dust collecting portion;
Wherein the high-pressure air jetting direction of the nozzle and the flow direction of the air passing through the dust collecting unit are opposed to each other. 11. The method according to claim 9 or 10,
Wherein the pipe portion is provided with at least one bearing for supporting the rotation of the pipe portion.

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