KR101622667B1 - Electrostatic precipitator - Google Patents

Abstract

The present invention discloses an electric dust collector capable of easily realizing the interval between the dust collecting cells, having an advantage in maintenance and improving the dust collecting efficiency. The electric dust collecting apparatus includes a charge unit for charging fine dust contained in air passing therethrough in accordance with the application of a voltage and a plurality of dust collecting cells arranged on the downstream side of the charge unit in the air flow direction for collecting charged fine dust A dust collecting module, an air blowing module for sucking outside air into the dust collecting module, and means for connecting an electric signal to the dust collecting module and the blowing module, and generates a high voltage so as to perform an ionizing and dust collecting function And a power module for supplying power to the dust collecting module and supplying driving power to the blowing module. The dust collecting module includes spacing means for connecting the dust collecting cells and keeping the interval between the dust collecting cells constant. Therefore, the dust collecting cells can be easily assembled in a one-touch manner so as to be spaced apart from each other by a predetermined distance, maintenance is easy, and dust collecting efficiency can be improved by increasing the collecting cross-sectional area.

Description

ELECTROSTATIC PRECIPITATOR

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric dust collector, and more particularly, to an electric dust collector having a means for efficiently removing dust collected inside the apparatus using compressed air.

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.

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. 1 is a perspective view showing a conventional electrostatic precipitator, and FIG. 2 is a cross-sectional view showing a conventional ionizer.

1 and 2, a conventional electrostatic precipitator includes a prefilter 10, an ionization unit 20, a dust collecting unit 30, an after-filter 40, an ultraviolet lamp 50, A photocatalyst 60 and a case 70. [ 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 part 20 is located at the transmission part of the dust collecting part 30 to generate charges between the discharge electrode 22 and the earth electrode 21 to thereby charge the neutron dust.

The dust collecting unit 30 includes a plurality of dust collecting cell plates 31 densely arranged at regular intervals and a door 71 formed in the case 70 includes a high voltage terminal 72 and a ground terminal 73. In this case, terminals connected to the high voltage terminal 72 and the ground terminal 73 of the door 71 are provided on one side of the ionization part 20 and the dust collecting part 30.

In the electrostatic precipitator constructed as described above, the fine dust in the external air, which is supplied with a high voltage from the inlet, is negatively charged through a discharge electrode. The dust that has become negatively charged is collected by the collecting electrode, and clean air filtered by fine dust is discharged through the discharge part.

However, the conventional electrostatic precipitator has some problems.

First, in a conventional electrostatic precipitator, when a high voltage is applied, a plurality of dust collecting cells are spaced apart from each other at a predetermined interval in order to collect dust without generating sparks. In order to maintain the spacing of the dust collecting cell, a hole is formed in the dust collecting cell to insert a round bar, and a circular sleeve is fitted between the dust collecting cell and the dust collecting cell. However, if the gap is adjusted through the sleeve, the dust collecting area is reduced, which lowers the dust collecting efficiency and easily adheres to foreign matter, thereby causing errors.

Second, the conventional electrostatic precipitator has a structure in which a terminal of a door is connected to a terminal of a dust collecting unit in order to apply a high voltage to a dust collecting unit. However, a contact failure occurs due to various deformation at a connecting portion of the terminal, Is not transmitted stably, thereby causing a problem of causing an error in the dust collecting device.

Third, when the conventional electrostatic dust precipitator is used in a sealed area of a ship and an offshore structure having relatively narrow passage and work space dimensions, it is not easy to install and fix the dust collector, and it takes a long time to install and remove the dust collector There was a problem.

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

In order to solve such a conventional problem, the present invention provides an electric dust collector capable of easily realizing the interval between the dust collecting cells, having an advantage in maintenance, and improving the dust collecting efficiency.

Also, the present invention provides an electric dust collector which can stably flow a high voltage over a terminal portion for connection between a dust collecting module and a power module, thereby minimizing errors.

In addition, the present invention provides an electric dust collector capable of facilitating installation and fixing work in a closed space of a ship and an offshore structure having very narrow dimensions of passageways and work spaces, and drastically reducing installation time.

The electrostatic precipitator according to the present invention includes a charge unit for charging fine dust contained in air passing therethrough according to a voltage applied thereto, a plurality of dust collecting units arranged downstream of the charge unit in the air flow direction for collecting charged fine dust, A dust collecting module having a dust collecting cell, an air blowing module for sucking outside air into the dust collecting module, and means for connecting an electric signal to the dust collecting module and the blowing module, And a power module for generating a high voltage to supply the power to the dust collecting module and supplying the driving power of the blowing module. The dust collecting device includes spacing means for connecting the dust collecting cells and keeping the interval between the dust collecting cells constant.

In the above, the separating means is constituted by a plate-shaped separating plate for separating and connecting the collecting cells in the longitudinal direction, and the separating plate and the collecting cells are disposed orthogonally.

In this case, the spacing plates are provided with a plurality of insertion grooves formed at predetermined intervals in the longitudinal direction, and the dust-collecting cells are inserted into the insertion grooves.

In the above, a terminal portion for electrically connecting the dust collecting module and the power module is provided, and a hook terminal formed of an electrically conductive material is provided on the terminal portion.

The hook terminal is formed on the terminal portion formed on the side surface of the dust collecting module and when the terminal contacts the terminal portion of the door covering the side surface of the dust collecting module, the hook terminal is elastically deformed and comes into surface contact with the terminal portion of the door.

In the above, it is preferable that a first magnet portion is provided on one surface and a second magnet portion is provided on the other surface, and one of the first magnet portion and the second magnet portion is attached to at least one of the dust collecting module, And a fixing module attached to the worksite.

In the above, the first magnet portion and the second magnet portion are composed of electromagnets, and include a first switch for controlling the operation of the first magnet portion and a second switch for controlling the operation of the second magnet portion.

The electric dust collector according to the present invention can easily assemble the dust collecting cells with a one-touch method so that the dust collecting cells are spaced apart from each other by a predetermined distance, can easily be maintained, and can improve the dust collecting efficiency by increasing the collecting cross-

In addition, the electric dust collector according to the present invention has an excellent voltage conductivity, thereby improving the dust collecting efficiency and minimizing errors of the dust collecting apparatus by supplying stable high voltage.

In addition, the electric dust collecting apparatus according to the present invention can easily perform installation and separation operations in a narrow closed block or the like.

1 is a perspective view showing a conventional electrostatic precipitator,
2 is a cross-sectional view showing a conventional ionization unit,
3 is a perspective view illustrating an electric dust collector according to an embodiment of the present invention,
4 shows a schematic configuration of an electric dust collector according to an embodiment of the present invention,
5 is a perspective view illustrating the inside of the dust collecting module of the electric dust collector according to the embodiment of the present invention,
6 is a plan view showing the inside of the dust collecting module of the electric dust collector according to the embodiment of the present invention,
7 is a perspective view showing a separating plate of an electric dust collector according to an embodiment of the present invention,
8 is a perspective view showing a hook terminal abusing the "A" portion in Fig. 5,
9 is a perspective view illustrating an electric dust collector according to another embodiment of the present invention,
10 is a perspective view illustrating a fixing module of an electric dust collector according to another embodiment of the present invention.

Hereinafter, the technical structure of the electric dust collector will be described in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view illustrating an electric dust collector according to an embodiment of the present invention, FIG. 4 is a schematic view of an electric dust collector according to an embodiment of the present invention, FIG. 5 is a cross- 6 is a plan view illustrating the inside of a dust collecting module of an electric dust collector according to an embodiment of the present invention. FIG. 7 is a cross-sectional view of a dust collecting module of an embodiment of the present invention FIG. 8 is a perspective view showing a hook terminal abusing the "A" portion in FIG. 5; FIG.

In the following description, the direction from left to right in Fig. 6 is the "air flow direction" and the up and down direction is the "width direction ".

3 to 8, the electric dust collector 7 according to the embodiment of the present invention includes a dust collecting module 73, a blowing module 4, and a power module 3.

The dust collecting module 73 includes a charge portion for charging fine dust contained in the air passing therethrough in accordance with the application of a voltage and a plurality of dust collecting portions disposed downstream of the charge portion in the air flow direction for collecting the charged fine dust, And a cell 733. And the dust collecting cell 733 is provided inside the case 71. [

An air inlet 77 for introducing air into the inside is formed in one side of the case 71 and a flow path for air flowing into the air inlet 77 is formed in the inside of the case 71 . In the case 71, a charging part and a dust collecting cell 733 are disposed in order 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.

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 cell 733. The dust collecting cell 733 is disposed on the downstream side of the charging unit in the air flow direction to collect the charged fumes.

The air blowing module 4 is a means for sucking outside air into the inside of the dust collecting module 73 and may be disposed at the suction port or the discharge port side of the dust collecting module 73 and may be detachably attached to the dust collecting module 73 . In this embodiment, the air blowing module 4 is disposed at the outlet side of the dust collecting module 73. The outside air introduced through the inlet 77 of the dust collecting module 73 is charged by the discharging part and attached to the dust collecting cell 733. The clean air filtered by the fine dust is formed on the upper side of the air blowing module 4 And is discharged to the outside through the discharge port (41).

The power module 3 includes a dust collecting module 73 and means for connecting an electric signal to the blowing module 4 and generates a high voltage to perform an ionizing and collecting function and supplies the generated voltage to the dust collecting module 73, And supplies the driving power of the air blowing module (4). The power module 3 may be coupled to the upper side of the dust collecting module 73 and may be disposed inside the dust collecting module 73 or at another position.

Particularly, the dust collecting module 73 has a separating means. The spacing means connects the dust collecting cells 733 and functions to maintain the space between the dust collecting cells 733 constant. The separating means comprises a plate-shaped separating plate 9 for separating and connecting the dust collecting cells 733 in the longitudinal direction. In this case, the spacing plate 9 and the dust collecting cells 733 are arranged orthogonally. That is, the separation plate 9 is formed to be long in parallel with the width direction of the dust collecting module 73, and the dust collecting cells 733 are arranged to be spaced apart from each other by a predetermined distance in the width direction of the dust collecting module 73.

Thus, the spacing plate 9 is formed in a relatively thin plate shape having a predetermined thickness and serves as means for maintaining the interval between the dust collecting cells 733, so that there is no need to form a hole in the dust collecting plate, The dust collection efficiency can be increased by increasing the cross-sectional area.

The spacing plate 9 has a plurality of insertion grooves 91 formed at predetermined intervals in the longitudinal direction and a dust collection cell 733 is inserted into the insertion slot 91. With this configuration, when the dust collecting cell 733 is fitted into the insertion groove 91 of the separating plate 9 and the assembling is completed, the assembling property is maintained in a one-touch manner at the time of assembling so as to keep the intervals of the collecting cells 733 constant It can be greatly improved. When the dust collecting cell 733 is to be replaced, it is possible to replace only some of the dust collecting cells 733 to be replaced without replacing all the dust collecting cells 733, which is advantageous in maintenance.

The electric dust collector 7 has a terminal portion for electrically connecting the dust collecting module 73 and the power module 3 and has a hook terminal 5 formed in the terminal portion in the shape of a hook of an electrically conductive material. The terminal portion is provided with insulators 739 for electrical insulation. A door is coupled to the side surface of the case 71 to cover the side surface of the dust collecting module 73.

The hook terminal 5 is formed in a terminal portion formed on a side surface of the dust collecting module 73 and when the hook terminal 5 contacts the terminal portion of the door covering the side surface of the dust collecting module 73, Surface contact. The hook terminal 5 is preferably made of a copper plate material.

With such a configuration, the high voltage from the power module 3 can be stably transferred to the dust collecting module 73, minimizing the error of the dust collecting device, lowering the maintenance rate, and improving the efficiency of voltage collection.

FIG. 9 is a perspective view illustrating an electric dust collector according to another embodiment of the present invention, and FIG. 10 is a perspective view illustrating a fixing module of an electric dust collector according to another embodiment of the present invention.

9 and 10 further include a fixing module 6 in comparison with the above-described embodiment, and a description of the dust collecting module 73, the blowing module 4, and the power module 3 is omitted.

9 and 10, the electrostatic precipitator 7 includes a fixing module 6. The fixing module 6 has a first magnet portion 63 on one side and a second magnet portion 65 on the other side. That is, the first magnet portion 63 and the second magnet portion 65 are respectively coupled to both sides of the substantially plate-shaped fixed module main body 61.

In this case, one of the first magnet portion 63 and the second magnet portion 65 is attached to at least one of the dust collecting module 73, the blowing module 4, and the power module 3, And is attached to the workplace. The workplace to be installed is a place where electric dust collectors are installed, and can be a closed space with a narrow passage and space in ship drying.

The first magnet portion 63 and the second magnet portion 65 are composed of electromagnets. The fixing module 6 includes a first switch 64 for controlling the operation of the first magnet portion 63 and a second switch 66 for controlling the operation of the second magnet portion 65. [ When the first switch 64 is pressed, the magnetism of the first magnet portion 63 is activated or deactivated. When the second switch 66 is pressed, the magnetism of the second magnet portion 65 is activated or deactivated. The fixing module body 61 may be provided with a handle 67.

First, the first switch 64 is pressed to activate the first magnet portion 63, and the activated surface is attached to the dust collecting module 73 (surface to be attached). Thereafter, the operation of installing the electric dust collector 7 can be easily performed by pressing the second switch 66 to activate the second magnet portion 65, and then attaching it to the sealing block (surface to be attached) have. The separating operation of the electric dust collecting device 7 can easily proceed in the reverse order of the installation work.

Although the electrostatic precipitator according to the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

7: Electrostatic precipitator
71: case 73: dust collecting module
733: dust collecting cell 3: power module
4: blow module 5: hook terminal
6: fixed module 63: first magnet portion
64: first switch 65: second magnet portion
66: second switch 9: spacing plate
91: Insert groove

Claims (7)

delete delete delete And a plurality of dust collecting cells 733 disposed on the downstream side of the charging unit in the air flow direction for collecting the charged fine particles. A dust collection module 73;
A blowing module 4 for sucking outside air into the dust collecting module 73;
A dust collecting module 73 and means for connecting electric signals to the blowing module 4 so as to generate a high voltage so as to perform an ionizing and dust collecting function and supply the generated voltage to the dust collecting module 73, And a power supply module (3) for supplying driving power of the power source (4)
And a terminal portion for electrically connecting the dust collecting module 73 and the power module 3, wherein the terminal portion is provided with a hook terminal 5 having a hook shape of an electrically conductive material,
The hook terminal 5 is formed in a terminal portion formed on a side surface of the dust collecting module 73 and when the hook terminal 5 is in contact with the terminal portion of the door covering the side surface of the dust collecting module 73, And is in surface contact with the terminal portion. delete delete delete

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