KR0154578B1 - Electrostatic precipitator - Google Patents

Abstract

The present invention relates to an electrostatic precipitator that is installed in an electrostatic precipitator and protects an insulator that insulates the insulation by cutting off electricity.

The gist of the present invention is configured by connecting an air supply pipe for directly injecting hot air to the chamber by forming a chamber under the insulator installed at the upper side of the main body of the electrostatic precipitator. It is characterized by preventing insulator damage caused by foreign substances in the gas.

Description

Electrostatic precipitator

1 is a cross-sectional view of an example electrostatic precipitator installed to which the present invention is applied.

2 is a partial cross-sectional view seen from the right side of FIG.

3 is a dust collection principle in a flat electric field.

4 is an enlarged excerpt of the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

6 is an enlarged excerpt of another embodiment of the present invention.

7 is a cross-sectional view taken along line B-B in FIG.

8 is an enlarged excerpt of the prior art.

9 is a cross-sectional view taken along the line C-C of FIG.

* Explanation of symbols for main parts of the drawings

P: Main body of electrostatic precipitator 1: Inlet hood

2: dust collecting plate 3: discharge electrode

4: outlet hood 5: hopper

6: Screw Conveyor 7: Dust Outlet

8: house 9, 9a: cap plate

10: hole 11,11a: insulator

12,13: upper and lower fixing rod 14: roof

15 chamber 12 air supply nozzle

17: yarn skirt 18: hanger rod

19: Retainer Plate 20: Spring

21: lapping block 22: rod insulator clamp

23: rod insulator 24: wrapper assembly

The present invention relates to an electrostatic precipitator, and more particularly, to an electrostatic precipitator for protecting an insulator (Insulator) that is installed in the electrostatic precipitator and insulates the insulation by blocking electricity. .

In general, the electrostatic precipitator is a device for collecting dust contained in the gas by inducing a corona discharge by sending a high pressure (60Kv or more) to the discharge electrode.

That is, as shown in FIGS. 1 and 2, the gas containing dust flows through the inlet hood 1 of the dust collector main body P and passes through the dust collecting plate 2 and the discharge electrode 3. The dust contained therein is attached to the dust collecting plate 2 to purify the gas containing the dust. In more detail, the principle of this is as shown in FIG. 3, in which a wide and flat dust collecting plate (conductor or collecting electrode) 2 and a discharge electrode (conductor) 3 having an edge portion are disposed in the same space as shown in FIG. When the dust collecting plate 2 is connected to the positive electrode of the high-voltage direct current power source and the discharge electrode is connected to the negative electrode, and the impregnated gas passes therebetween, gas molecules are strongly ionized near the discharge electrode, and the electrons generated therefrom are collected. Go to (2). Therefore, most of the anode space is filled with (-) electrons, and (-) electrons adhere to the fine particles of the impregnated gas passing through the space, and move toward the dust collector plate 2 as a (-) charge. The dust moved and adhered to the dust collecting plate 2 is electrically agglomerated and subjected to mechanical impact on the collected dust layer or to a water film on the surface of the dust collecting plate 2 to be removed to the bottom. The dust layer removed to the bottom is dropped to the screw conveyor 6 through the hopper 5 as in FIGS. 1 and 2, and the dropped dust is discharged to the dust outlet 7 by the screw conveyor 6. Removed.

On the other hand, when the gas flowing into the inlet hood 1 discontinuously flows, foreign matter in the gas rises and adheres to the insulator. Hot air is put into the insulator 11 through the holes 10 formed in the cap plate 9 as shown in FIGS. 8 and 9. At this time, the pressure drop is high, and since the air passing through the hole 10 is diffused, it spreads inside the insulator 11, so that a purge effect is reduced. In addition, the pipe 10 can be rotated when the air is purged by using a pipe or the like in the hole 10 of the cap plate 9, but the effect of the rotation is small due to the fact that the hole cannot be made larger. In particular, the conventional problem is that impurities (eg, dust, H ₂ O, S _ox , HCl, etc.) in the gas are raised to the insulator 11 by the discontinuous gas flow in the electrostatic precipitator. Since the discharge is attached to the surface of the insulator 11 and the insulation is destroyed by this, high pressure is applied to the surface of the insulator 11, thereby causing the insulator 11 to be destroyed.

Therefore, the object of the present invention was invented to solve the above-mentioned conventional problems, and to form a chamber under the insulator to prevent impurities in the gas from adhering to the insulator, and hot air in the chamber. It is designed to inject directly to the insulator to protect the insulator by preventing foreign substances in the gas from rising up to the insulator even in the discontinuous gas flow in the dust collector.The pressure loss is minimized to maintain high pressure in the insulator and the chamber. The purpose of the present invention is to provide an electrostatic precipitator that can reduce the capacity of the blower due to the small amount and maximize the purge effect.

Hereinafter, described in detail by the accompanying drawings shown as an embodiment as follows.

As shown in FIG. 1 and FIG. 2, the inlet hood 1 through which gas is introduced is formed at one side of the main body P, and the outlet hood 4 through which the purified gas is discharged is formed at the lower side. (9) Inside, a plurality of discharge electrodes 3 are fixed to the upper and lower mounts 12 and 13, and a dust collecting plate 2 is provided therebetween. The hopper 5 for guiding the fall of the dust layer is installed at the lower side of the dust collecting plate 2, and the screw conveyor 6 is installed at the bottom of the hopper 5. In addition, a penthouse 8 and a roof 14 are installed on the dust collecting plate 2.

In the electrostatic precipitator as described above, an insulator 11 a as shown in FIG.

The chamber 15 is installed in the lower part of the insulator 11a, and the chamber 15 is for injecting hot air directly into the insulator and prevents dust from attaching while the air rotates therein. Cylindrical or cyclone (Cyclone) type to be configured.

An air supply pipe 16 is connected to the chamber 15, which is configured to inject hot air tangentially into the chamber 15 as shown in FIG.

The seal skirt (Seal Skirt) is fixed to the lower portion of the chamber 15, the seal skirt 17 is a skirt-shaped plate for preventing foreign matter in the gas directly rising inside the insulator.

The hanger rod 18 is installed in the insulator 11a and the chamber 15, which is installed in the longitudinal direction and connected to the upper fixture 12. The hanger rod 18 is a rod for hanging the discharge electrode 3 and the upper fixing stand 12, and transfers a force during lapping (trapping), and transmits a high voltage electricity to the discharge electrode 3.

The cap plate 9a is fixed to the upper end of the insulator 11a and the hanger rod 18 is penetrated through the center of the cap plate 9a. The retainer plate (19) is fixedly installed on the upper side of the cap plate (9a) to support the hanger rod (18), and to be connected with a spring to facilitate the movement of the discharge electrode.

The spring 20 is installed between the cap plate 9a and the retainer plate 10 so as to absorb the thrust force at the time of rudder while giving up and down flow, so that dust and the like are easily exhausted.

Lapping block 21 is installed on the top of the retainer plate 19, which prevents twisting, skewing, etc. of the hanger rod 18 at the time of thrust, prevents horizontal movement of the upper wrapper, and transmits thrust force.

The rod insulator 23 is connected to and installed on the lapping block 21 to insulate the high voltage electricity between the casing and the discharge electrode and to transfer the force at the time of the thrust.

The wrapper assembly 24 is formed on the upper portion of the rod insulator 23 to dedust dust attached to the dust collecting plate 2. The wrapper assembly 24 selects and uses electrical and mechanical methods.

Next, another embodiment of connecting the air supply pipe 16 to the chamber 15 in the present invention will be described with reference to FIG. 6 and FIG.

As shown, the tip portion is bent so that the air supply pipe 16 is injected into the lower portion of the chamber 15 and connected to the chamber 15.

As described above, the present invention configures the chamber 15 under the insulator 11a and connects the air supply pipe 16 to the chamber 15 to inject hot air directly into the chamber 15. It can be minimized to maintain high pressure in the insulator 11a, the chamber 15 and the seal skirt 17, and in particular, as the chamber 15 is formed above the insulator 11a, the inside of the main body P of the dust collector. Even in the case of discontinuous gas flow at, the foreign matter in the gas is prevented from rising to the insulator 11a. Therefore, the foreign matter mixed in the gas is prevented from adhering to the insulator 11a to protect the insulator 11a.

As the hot air is injected in the tangential direction to the inside of the chamber 15, the purge effect is maximized and the adhesion of moisture is prevented. In addition, by directly injecting into the chamber 15, the pressure loss is small, so that the capacity of the blower can be reduced.

Claims (1)

An inlet hood 1 through which gas is introduced and an outlet hood 4 through which purified gas is discharged are formed at both sides of the main body P of the electrostatic precipitator, and a plurality of discharge electrodes 3 are disposed in the main body. (13) is fixedly installed and the dust collecting plate (2) is installed between the discharge electrode (3), the penthouse and the loop (14) is installed above the dust collecting plate (2) and the discharge electrode (3), the insulator in the loop (14) (11) (11a), hanger rod (18), rod insulator (23) and wrapper assembly (24) are installed, and contaminants infiltrate into the insulator (11) (11a) by air injection at a constant air pressure. In order to prevent this, the cylindrical chamber 15 is installed on the lower side of the insulator (11) (11a), but the foreign matter is injected in the tangential direction to prevent the inflow of the air supply pipe to the insulator (11) (11a) by the vortex Electrostatic precipitator, characterized in that configured to be in contact with the inner wall of the chamber (16) .