KR102073202B1 - Self-cleanable discharge rod for electric dust collector and self-cleaning method of discharge rod for electric dust collector using the same - Google Patents

Abstract

The present invention relates to a self-cleaning electric dust collector comprising: a dust collection unit for attaching foreign materials in waste gas to a dust collecting electrode through an electrical discharge phenomenon; and an electrical discharge rod for generating the electrical discharge phenomenon with the dust collection electrode. The electrical discharge rod includes: a plurality of discharge needles disposed on the external circumference of the electrical discharge rod to facilitate generation of the electrical discharge phenomenon; and a plurality of gas spray nozzles disposed around the discharge needles to spray gas toward the discharge needles. The electric dust collector according to the present invention can be autonomously cleaned without any external separate instrument or device. In addition, water is not needed and disassembly is not required for cleaning such that operation can be made continuously without suspension of a process.

Description

Self-cleanable discharge rod for electric dust collector and self-cleaning method of discharge rod for electric dust collector using the same}

The present invention relates to an electric dust collector discharge rod capable of self-cleaning, and an electric dust collector discharge rod cleaning method using the same, specifically, particles attached to a discharge rod that becomes one electrode in an electric dust collector for removing particles of gas using electricity. The present invention relates to an electric dust collector discharge rod capable of self-cleaning, which can be cleaned by only its own device without an external device or device, and a method of cleaning the electric dust collector discharge rod using the same.

Very high precision processes, such as semiconductor and display manufacturing processes, produce very small particles. Due to the nature of the process, the amount of particles generated is large because of the large scale. Various equipment, such as a scrubber and an electrostatic precipitator, is used also for removal of a particle | grain.

An electrostatic precipitator or electrostatic precipitator removes foreign substances by applying a high voltage to a discharge rod to generate a negative charge and attach it to a dust collecting electrode having a positive electrode. Thus, according to the method of removing the foreign matter attached to the dust collector is divided into dry and wet removal method.

The dry removal method generally cleans the dust collecting plate by the impact of rapping, and the wet removal method uses water sprayed from the nozzle for cleaning.

Particles should adhere to the dust collector plate and are designed to prevent particles from sticking to the discharge rod, but in actual operation, a very large amount of particles stick to the discharge rod. These particles are one of the major causes of corona generation and poor dust collection performance. Since high-pressure current flows through the discharge rod, it is impossible to clean it using water like a wet removal method.

 Particles can be removed using high pressure air, but the location where the electrostatic precipitator is installed is difficult to access, and in the case of the plate-shaped or cylindrical-shaped dust collecting plate, it is not easy to blow high-pressure air into the inside. .

In such a case, since a very large vibration is used to clean the discharge rod or the apparatus needs to be periodically cleaned by disassembling the device, it is very difficult to operate the efficient process.

Patent document 1 is a water leakage type electrostatic precipitator, a main body 21 composed of a primary foreign material removing body 23 and a secondary foreign material removing body 25, and a dust collecting electrode provided inside the main body 21 ( 26) and a discharge rod 51 for causing a discharge phenomenon, and foreign matter removing means 60 for cleaning foreign matter such as dust attached to the dust collecting electrode 26 with washing water that leaks. The foreign matter removed in Patent Literature 1 is removed by the washing water leaked by the foreign matter removing means, and thus it cannot be used in the dry method as in the present invention, and it is difficult to apply to a discharge rod through which a high-current current flows.

Patent document 2 also does not describe a specific method of cleaning a dirty discharge rod or the like. No effective solution to the problem to be solved in the present invention has been proposed yet.

Korean Unexamined Patent Publication No. 2009-0080837 Korean Pole Publication No. 2014-0047441

The present invention is to solve the above problems, to provide a discharge rod capable of cleaning the particles attached to the discharge rods only by its own device without a separate mechanism or device, and a method for cleaning the discharge rods using the same.

In order to solve the above problems, the present invention is a dust collecting unit for attaching the foreign matter in the waste gas to the dust collecting electrode by the discharge phenomenon; An electrostatic precipitator including: a discharge rod causing the dust collecting electrode and the discharge phenomenon, comprising: a plurality of discharge needles disposed on the outer periphery of the discharge rod so as to easily cause a discharge phenomenon; And a plurality of gas injection holes disposed around the discharge needle and into which gas may be injected toward the discharge needle.

The dust collecting electrode has a flat plate shape or a cylindrical shape, the discharge rod has a long columnar shape in the longitudinal direction, and the radius of curvature of the end of the discharge needle is smaller than the discharge rod. In addition, the cross section of the discharge needle may be selected from a circle or a polygon.

The hole shape of the gas injection hole may be at least one of a straight line, a curve, a circle, or a mixed shape, and the gas injected from the gas injection hole is disposed near the gas injection hole or the discharge needle closest to the gas injection hole. The gas injection port may be disposed to be simultaneously injected to the discharge needle.

In addition, it is disposed inside the discharge rod, it may further include a gas supply line which is connected to the gas injection port for supplying gas.

The gas injection port should be disposed close to the discharge needle, or the cross section of the gas injection hole should be inclined so that the gas injected from the gas injection hole can directly impact the outer surface of the discharge needle.

The present invention provides a method for cleaning the discharge rod according to the following steps using the electric dust collector.

1) measuring the concentration of the waste gas passed through the electric dust collector;

2) when the waste gas concentration of step 1) exceeds a preset reference value, the supply of the waste house is stopped or supplied to the preliminary electric dust collector, and the power of the electric dust collector is shut off;

3) injecting a high pressure gas through the gas injection port to remove particles attached to the discharge rod and the discharge needle;

In this case, the high pressure gas may be one or more of air, carbon dioxide, water vapor, or an inert gas, and the high pressure gas may be supplied through the inside of the discharge rod.

While proceeding to step 3), the particles of the dust collecting electrode can be removed at the same time by water or vibration.

The method for cleaning the discharge rod according to the present invention may provide a method for cleaning the discharge rod that is performed continuously or intermittently only the steps of 3) irrespective of the steps 1) and 2).

As described above, the self-cleaning electrostatic precipitator discharge rod and the method of cleaning the electrostatic precipitator discharge rod using the same according to the present invention has the advantage that it can be cleaned only by its own device without an external device or device. In addition, there is no need for water, and there is no need to disassemble the device for cleaning, which has the advantage of continuous operation without interruption of the process.

The present invention may be cleaned after stopping the electric dust collector, if necessary, but there is an advantage that the discharge rod can be cleaned intermittently even while the electric dust collector is in operation.

1 is a perspective view of an electric dust collecting device having a flat dust collecting pole according to an embodiment of the present invention.
2 is a perspective view of an electric dust collecting device having a cylindrical dust collecting pole according to an embodiment of the present invention.
3 is a perspective view and a side view of a discharge rod according to a first embodiment of the present invention.
4 is a perspective view and a side view of a discharge rod according to a second embodiment of the present invention.
5 is a perspective view and a side view of a discharge rod according to a third embodiment of the present invention.
6 is a perspective view and a side view of a discharge rod according to a fourth embodiment of the present invention.

In order to solve the above problems, the present invention is a dust collecting unit for attaching the foreign matter in the waste gas to the dust collecting electrode by the discharge phenomenon; An electrostatic precipitator including: a discharge rod causing the dust collecting electrode and the discharge phenomenon, comprising: a plurality of discharge needles disposed on the outer periphery of the discharge rod so as to easily cause a discharge phenomenon; And a plurality of gas injection holes disposed around the discharge needle and into which gas may be injected toward the discharge needle.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 6.

1 is a perspective view of an electric dust collecting device 100 composed of a plate-type dust collecting pole according to an embodiment of the present invention, Figure 2 is an electric dust collecting device consisting of a cylindrical dust collecting pole according to an embodiment of the present invention (200) ) Is a perspective view.

The electric dust collectors 100 and 200 may include dust collectors 110 and 210 for attaching foreign substances in the waste gas to the dust collectors 115 and 215. If necessary, the collecting electrode may have a flat plate 115 or a cylindrical shape 215. The dust collecting electrodes 115 and 215 and the discharge rods 120 and 220 causing the discharge phenomenon are generally long pillars in the longitudinal direction. Conventional discharge rod is configured by adding only the discharge needle (125A, 125B, 125C, 125D) is arranged in a plurality so that the discharge phenomenon on the outer periphery easily.

When the waste gas moves to the electrostatic precipitator 100 (black arrow in FIG. 1), or the waste gas moves into the cylinder of the electrostatic precipitator 200 of FIG. 2, the dust may be discharged to the dust collectors 115 and 215. Attached. 1 and 2 have not been described in detail about the electrical connection, this point is a configuration that can be obvious to those skilled in the art will not be described in detail.

Particles around the discharge rods 120 and 22 may be used to remove particles using the discharge rod according to the present invention according to FIGS. 3 and 4.

3 to 6 are a perspective view and a side view of a discharge rod according to various embodiments of the present invention. 3 to 6 illustrate some types of discharge needles 125A, 125B, 125C, and 125D and gas injection holes 127A, 127B, 127C, and 127D as an example, and rights according to the present invention are not limited thereto. . 3 to 6 each show a perspective view and a side view of one embodiment at the same time.

The end radius of curvature of the discharge needles 125A, 125B, 125C, and 125D should be smaller than the discharge rods 120 and 220. This is because the charge collects better on the tip of the electricity. The cross sections of the discharge needles 125A, 125B, 125C, and 125D may be selected from circles or polygons. The discharge needles 125A, 125B, 125C, and 125D may be planar triangles or quadrangles, and may have any shape such as cylinders or polygonal pillars, provided that the limits of the radius of curvature are observed.

The hole shapes of the gas injection holes 127A, 127B, 127C, and 127D may be at least one or a mixture of straight lines, curved lines, and circles. The direction of the gas injected from the gas injection holes 127A, 127B, 127C, and 127D is used to remove the foreign matter adhering to the discharge needles 125A, 125B, 125C, and 125D. It is preferable to face the surface of or parallel to the surface. The gas injected from the gas injection holes 127A, 127B, 127C, and 127D may be injected toward the closest discharge needles 125A, 125B, 125C, and 125D, and are around the gas injection holes 127A, 127B, 127C, and 127D. It can be sprayed simultaneously toward the plurality of discharge needles (125A, 125B, 125C, 125D) disposed.

3 to 6 illustrate that the discharge needles 125A, 125B, 125C, and 125D and the gas injection holes 127A, 127B, 127C, and 127D are coupled to each other in pairs, but according to one embodiment, each discharge The needle and the respective gas injection holes can also be arranged in different combinations. For example, only 125A, 125B, 125C, and 125D all have the same 127A gas nozzle. The shape of the discharge needle and the gas injection port can be variously modified as long as the shape defined in the present invention is satisfied.

3 to 6 may be a variety of forms, such as a circle, some form of the circumference, line segments, and can only inject the gas through the gas injection port, it is not limited by the specific form.

In addition, a gas supply line (not shown) may be additionally disposed inside the discharge rod and connected to the gas injection hole to supply gas.

The gas supply line is disposed inside the pillars of the discharge rods 120 and 220 and serves to discharge high pressure air to the gas injection holes 127A, 127B, 127C, and 127D.

The gas injection holes 127A, 127B, 127C, and 127D are disposed to be close to the discharge needles 125A, 125B, 125C, and 125D, or the cross sections of the gas injection holes 127A, 127B, 127C, and 127D are inclined, so that the gas injection holes are disposed. The gas injected at 127A, 127B, 127C, 127D should be able to impinge directly on the outer surface of the discharge needles 125A, 125B, 125C, 125D.

Since discharge of the discharge rods occurs mostly through the discharge needles 125A, 125B, 125C, and 125D, it is most important to remove particles around the discharge needles 125A, 125B, 125C, and 125D.

The present invention provides a method for cleaning the discharge rod according to the following steps using the electric dust collector.

1) measuring the concentration of the waste gas passed through the electric dust collector;

2) when the waste gas concentration of step 1) exceeds a preset reference value, the supply of the waste house is stopped or supplied to the preliminary electric dust collector, and the power of the electric dust collector is shut off;

3) injecting a high pressure gas through the gas injection port to remove particles attached to the discharge rod and the discharge needle;

At this time, the high-pressure gas may be one or more of air, carbon dioxide, water vapor, inert gas, or nitrogen, and the high-pressure gas is supplied through a gas supply line (not shown) disposed inside the discharge rod. During the step 3), the particles of the dust collecting electrodes 115 and 215 may be simultaneously removed by water or vibration. When the particles of the discharge rods 120 and 220 are removed, the particles eventually adhere to the dust collecting electrodes 115 and 215, and therefore, cleaning is performed at the same time.

The method for cleaning a discharge rod according to the present invention may provide a method for cleaning a discharge rod in which step 3) continues independently or intermittently regardless of steps 1) and 2). If the amount of contaminants to be attached is large, it is preferable to proceed to step 3) to increase the removal efficiency.

Since the present invention cleans the discharge rods 120 and 220 using only gas, the discharge rods 120 and 220 can be cleaned even in a state in which the operation is not stopped unlike the conventional electric dust collector.

Those skilled in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

100, 200: electric dust collector
110, 210: dust collector
115, 215: dust collection
120, 220: discharge rod
125A, 125B, 125C, 125D: discharge needle
127A, 127B, 127C, 127D: Gas Nozzle

Claims (10)

A dust collecting part for attaching foreign substances in the waste gas to the dust collecting electrode by a discharge phenomenon;
In the electric dust collecting device comprising a;
A plurality of discharge needles disposed on the outer circumference of the discharge rod so that a discharge phenomenon may easily occur; And
And a plurality of gas injection holes disposed around the discharge needle to remove particles around the discharge needle by injecting a gas toward the discharge needle.
It is disposed inside the discharge rod, the gas supply line which is connected to the gas injection port for supplying the gas is additionally arranged, the gas supply line is disposed inside the pillar of the discharge rod is supplied with high-pressure air To the nozzle ,
The gas injection hole is disposed close to the discharge needle, or the cross section of the gas injection hole is inclined so that the gas injected from the gas injection hole directly collides with the outer surface of the discharge needle or is parallel to the outer surface of the discharge needle. and,
The hole shape of the gas injection hole may be at least one of a straight line, a curve, a circle, or a mixed shape, and the gas injected from the gas injection hole is disposed near the gas injection hole or the discharge needle closest to the gas injection hole. An electric dust collector, wherein the gas injection port is disposed to be simultaneously injected to a discharge needle. The method of claim 1,
The dust collecting pole is in the form of a plate or a cylinder,
The discharge rod is in the form of a long column in the longitudinal direction,
The end curvature radius of the discharge needle is smaller than the discharge rod electric dust collector. The method of claim 1,
Cross section of the discharge needle is an electric dust collector selected from a circle or a polygon. delete delete Method for cleaning the discharge rod according to the following steps using the electrostatic precipitator according to any one of claims 1 to 3.
1) measuring the concentration of the waste gas passed through the electric dust collector;
2) 1) When the waste gas concentration of the step is greater than a preset reference value, the method comprising: stopping supply of the lung's or while feeding a preliminary electric dust collector, power from the electric dust collector;
3) injecting a high pressure gas through the gas injection port to remove particles attached to the discharge rod and the discharge needle;
Method for cleaning the discharge rod comprising a. The method of claim 6,
The high pressure gas is at least one of air, carbon dioxide, water vapor, an inert gas, or nitrogen. The method of claim 6,
In the process of step 3), wherein the particles of the dust collector to remove the discharge rods at the same time by water or vibration. The method of claim 7, wherein
The high pressure gas is supplied through the inside of the discharge rod cleaning method for the discharge rod The method of claim 6,
Irrespective of steps 1) and 2) above, wherein step 3) is performed continuously or intermittently.

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