KR100236335B1 - Electrical dust collector - Google Patents

Abstract

The present invention relates to an electrostatic precipitator, wherein the fine dust before passing through the dust collecting filter is coarse into large particles to increase the dust collection efficiency so that the air discharged to the outside is always kept clean.

To this end, the present invention is provided with an ionizing portion (A), a gold mesh, and a collecting portion (B) in the main body, wherein the particle coarsening portion (C) for coarsening the fine dust particles in the air is provided in front of the ionizing portion.

Description

Electric dust collector

The present invention relates to an electrostatic precipitator, and more particularly, by installing a particle coarsening unit in front of the ionizing part constituting the dust collecting filter to collect dust by the dust collecting filter in the coarse state of the fine dust particles to improve the dust collection efficiency. will be.

1 and 2, a conventional electrostatic precipitator is provided with a fan 2 that generates suction while rotating under the driving force of a motor inside the main body 1, and the main body 1 has a fan 2 The suction grill (3) is installed to suck the indoor air by the suction force according to the rotation of the exhaust gas and the discharge grill (4) for discharging the sucked air to the outside is installed, immediately after the suction grill (3) in the main body (1) A prefilter 5 is installed in the room to remove dust in the air primarily, and immediately after the prefilter 5 in the main body 1 is forced to ionize dust in the air passing through the prefilter. An ionizing portion (A) is provided, and immediately after the ionizing portion (A) in the main body (1), a gold screen (6) for filtering relatively large dust out of the ionized dust from the ionizing portion is installed, and in the main body (1) In the room immediately after the gold net (6), the dust not ionized by the gold net (6) out of the ionized in the ionizing unit (A) More, and the collecting unit (B) installed in collecting the dust, the deodorizing filter 7 for removing the odor component in the air is trapped portion (B) immediately after the room in the main body 1 are provided.

In the above configuration, the ionizing portion A, the gold screen 6, and the collecting portion B are called dust collecting filters.

The ionizing part (A) of the dust collecting filter is an ionizing part case (8) fixed to the main body (1), the discharge counter electrode (9) is fixed to the ionizing part case at a predetermined interval spaced apart to form a ground electrode, The ionizing part casing 8 is constituted by a discharge electrode 11 supported by a support 10 with a discharge counter electrode 9 therebetween and applied with a voltage to form a positive electrode.

In addition, the collecting part B is a collecting part case 12 fixed to the main body 1, a collecting electrode plate 13 fixed to the collecting part case in a state spaced at a predetermined interval to form a ground electrode, and the collecting part. An acceleration electrode plate 14 having a positive pole applied to the case 12 by a collecting electrode plate 13 interposed therebetween, and formed on the collecting electrode plate 13 to form a collecting electrode plate and an acceleration electrode. It is comprised by the some processus | protrusion 15 which keeps the space | interval between the boards 14 correctly.

The discharge counter electrode 9 constituting the ionizing portion A and the collecting electrode plate 13 constituting the collecting portion B are grounded with a voltage applying terminal 16 and constitute the ionizing portion A. The accelerating electrode plate 14 constituting the discharge electrode 11 and the collecting unit B receives a positive voltage through the positive voltage applying terminal 17.

The operation according to the above configuration will be described.

When the power is applied, the fan 2 installed inside the main body 1 rotates under the driving force of a motor (not shown) to generate suction power, so that the air in the room is installed on the front of the main body 1 (3). Is sucked into the main body 1 through the pre-filter (5) installed immediately after the suction grill (3) in the main body (1) of the dust contained in the air Is removed.

The air passing through the prefilter 5 passes through an ionizing part A installed immediately after the prefilter 5 as the fan 2 continues to rotate, in which case the + voltage of the collecting part B is applied. + Voltage is applied to the application terminal 17 and-voltage is applied to the voltage application terminal 16, but the-voltage application terminal is grounded with the discharge counter electrode 9 of the ionizing unit A. The + voltage applied to the + voltage applying terminal 17 of (B) is applied to the discharge electrode 11 constituting the ionizing portion A as it is, and accordingly, the discharge electrode 11 and the discharge counter electrode of the ionizing portion A are discharged. Since corona discharge occurs between (9), dust particles in the air are charged and are forcibly ionized to the positive pole in the process of passing air through the ionizing portion (A).

The dust particles charged in the ionizing portion (A) pass through the gold mesh 6 installed immediately after the ionizing portion, and large dust in the charged dust particles is caught, and the air passing through the gold mesh is the Passing through the collecting portion (B) installed in the immediately after, where the-voltage applying terminal 16 of the collecting portion (B) to which the-voltage is applied and the collecting electrode plate (13) constituting the collecting portion (B); Since only the accelerating electrode plate 14 constituting the collecting part B together with the collecting electrode plate is grounded as it is grounded, dust in the air passing through the collecting part B is ionized. Considering that it is already charged to + in the state of the dust, fine dust not filtered out of the gold mesh 6 among the dusts is a collecting electrode plate which is a ground electrode as a cooling force is applied due to the same polarity with the acceleration electrode plate 14. It is collected by the collecting electrode plate while being pushed toward (13).

Meanwhile, in the process of collecting fine dust in the air while the air passes through the collecting unit B, the collecting electrode plate is formed by a plurality of protrusions 15 formed on the collecting electrode plate 13 of the collecting unit B. As the distance between the 13 and the acceleration electrode plate 14 is kept constant throughout, the air passes smoothly through the collecting part B, and in the process of passing, the dust of all parts has the same cooling force. Receiving is understandable.

On the other hand, the air passing through the collecting portion B passes through the deodorizing filter 7 installed immediately after the collecting portion, and thus, the odor component in the air is deodorized, thereby becoming clean air, and the clean air is installed in the main body 1. Through the discharge grill (4) is discharged to the outside of the main body 1 is to clean the room.

However, in the dust, various microorganisms are attached and move along the air, and such dust is deposited on each pole plate of the collecting section for a long time, and the smaller the particles of dust are, the better the deposition is. As a result of the decay and odor is generated as well as the micro-fine dust including microorganisms not collected in the collecting portion is discharged to the outside through a deodorizing filter, there is a problem that the room is contaminated by microorganisms.

The present invention has been made in order to solve the above-mentioned conventional problems, by coagulating the fine dust in the air before the air passes through the dust collecting filter to large particles to increase the dust collection efficiency by the dust collecting filter external The purpose is to ensure that the air discharged to the furnace is always kept clean.

According to an aspect of the present invention for achieving the above object, in the main body having an ionizing portion (A), a gold screen, and a collecting portion (B), the particle coarsening portion for coarse the fine dust particles in the air in front of the ionizing portion An electrostatic precipitator provided with (C) is provided.

Figure 1 is a longitudinal cross-sectional view showing a conventional electrostatic precipitator

Figure 2 is an exploded perspective view showing a dust collecting filter of the conventional electrostatic precipitator

Figure 3 is an enlarged longitudinal sectional view showing the main configuration of the electrostatic precipitator of the present invention;

Explanation of symbols for main parts of the drawings

A. ionizer B. collector

C: Particle Coarse Part 1.Main Body

6. Gold mesh 18. DC electrode plate

19. AC electrode plate

Hereinafter, the present invention will be described in more detail with reference to the accompanying FIG. 3.

3 is an enlarged longitudinal sectional view showing the main configuration of the electrostatic precipitator of the present invention. The present invention is provided with an ionizing portion A having a discharge electrode 11 and a discharge counter electrode 9 into the main body 1. A gold screen 6 is installed immediately after the ionizing portion A in the main body 1, and has an acceleration electrode plate 14 and a collecting electrode plate 13 immediately after the gold screen 6 in the main body 1. In the collecting part B, the particle coarsening part C is provided in front of the ionizing part A in the main body 1, and fine dust particles in the air are coarsened by the particle coarsening part C. Be sure to

The grain coarsening unit (C) forms one row and at least one DC discharge electrode (18) to which a direct current (AC) is applied through the direct current application unit, and the other alternating current (DC) is formed through the alternating current application unit. It consists of at least one alternating discharge electrode 19 which is applied, each discharge electrode 18, 19 being a thin line.

Since the configuration of the present invention is the same as the conventional configuration will be omitted.

Therefore, when the indoor air is sucked into the main body 1 through the suction grill 3 as the fan 2 in the main body 1 rotates, it is alternating to each AC discharge electrode 19 constituting the particle coarsening part C. Since the DC power is applied, the dust passing through each AC discharge electrode has a positive polarity, and since the DC power is applied to each DC discharge electrode 18, the periphery of each DC discharge electrode has a positive polarity. It acts as a vibrator because it becomes a band.

That is, when the fine dust particles having a + pole passing through the AC discharge electrode 19 reaches around the DC discharge electrode 18, each particle vibrates and collides with each other to aggregate into large particles.

The coarse particles are ionized with charge in the ionizing portion (A), and the ionized dust is charged by particles in the ionizing portion (A) because the particles are already in a state where the particles have already grown through the particle coarsening portion (C). The amount of charge to be increased.

The charged dust particles passing through the ionizing portion (A) are first filtered through the gold screen (6) and then passed through the collecting portion (B), wherein the dust particles are accelerated electrode plate (14) constituting the collecting portion. Due to the force applied to the collecting electrode plate 13, the dust particles whose charge amount is increased are further subjected to the kling force, thereby improving the collecting efficiency of the collecting electrode plate 13.

As described above, the present invention makes it possible to clean the air discharged to the outside by improving the collection efficiency by coarse the fine dust that can pass through the ionizing part (A), the gold screen (6), and the collecting part (B) in advance. It is possible.

As described above, according to the present invention, by forming a particle coarsening unit in front of the ionizing unit constituting the dust collecting filter, coarse fine dust particles to obtain a dust collector in which the air discharged to the outside is kept clean by increasing the dust collecting efficiency. Can be.

In particular, the present invention can be very usefully used in a hospital or a clean room of a semiconductor manufacturing process that needs to remove even fine dust particles due to the improvement of dust collection efficiency.

Claims (2)

An electrostatic precipitator comprising an ionizing unit (A), a gold mesh and a collecting unit (B) in a main body, wherein a particle coarsening unit (C) is provided in front of the ionizing unit to coarse fine dust particles in the air. The method of claim 1, Particle coarsening unit (C) is a column and at least one DC discharge electrode is applied with direct current through the direct current application unit, Electrostatic precipitator, characterized in that composed of at least one AC discharge electrode is applied to the alternating current through the alternating current applying unit forming another row.

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