KR101577567B1 - Apparatus for plasma dust collection and air sterilization installed in duct line - Google Patents

Abstract

The present invention relates to a plasma dust collection and air sterilization device for efficiently purifying the air which flows into a duct. The plasma dust collection and air sterilization device includes: a pre-filter primarily filtering particles in the air which flow from the outside of the duct; a middle filter secondarily filtering small particles in the air, which are not filtered through the pre-filter; a plasma reacting part formed to alternately arrange a panel-shaped earth electrode and a discharge electrode, receiving a high voltage by being connected to a power supply part, charging microparticles in the air, passing through the middle filter, by plasma reaction, and sterilizing the air; an electric dust collection part connected to the power supply part, including multiple dust collection panels, electrically collecting the microparticles, charged by the plasma reacting part, and sterilizing the air; and the power supply part supplying power to the plasma reacting part and the electric dust collection part. According to the present invention, the plasma dust collection and air sterilization device is capable of enhancing dust collection efficiency by efficiently disposing particulate and gaseous pollutants, having an excellent sterilization function as well as an excellent rate of microparticle removal, having a semi-permanent lifespan, and being maintained at low costs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma dust collection and air sterilization apparatus installed in an air conditioning line,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dust collecting and sterilizing apparatus installed in an air conditioning line, and more particularly, to a plasma dust collecting and air sterilizing apparatus for effectively purifying air introduced into a duct.

In recent years, air conditioning facilities installed in buildings and underground facilities have become almost indispensable for providing air purification capability as well as cooling and heating functions. Contaminated particles in human residential spaces are very diverse, ranging in particle size from submicron to tens of microns. They have very different physical, chemical, and biological properties, and depending on these properties, The hazard is also different.

Therefore, the air-conditioning equipment sucks the outside air and purifies it, thereby creating pleasant indoor air and protecting human health. In the central control type air-conditioning system, the whole building is connected through a duct, It is necessary to be able to remove not only particulate dust but also gaseous or germ-contaminated particles.

Conventionally, there has been developed a device for continuously collecting from a large dust to fine bacteria by continuously arranging a pre-filter, a hepar filter, a carbon filter, etc. called an antibacterial filter in connection with the basic sterilization and deodorizing function of ordinary activated carbon, The removal efficiency is low and the replacement cost is high.

Patent Document 1 discloses a sterilizing and deodorizing apparatus for an air conditioner comprising a coupling member provided in a duct of an air conditioner and a sterilizing and removing unit for sterilizing and deodorizing air passing through the duct, have.

In Patent Document 2, a photocatalytic decomposer for removing bacteria and contaminants contained in the air supplied from the air supply pipe and a connection portion for connecting the photocatalytic decomposition device to the air supply pipe is composed of a connection portion for connecting purified air to the air supply pipe An air conditioning apparatus air sterilizing purifier using a photocatalytic decomposer is disclosed.

Patent Document 3 discloses a pretreatment chamber for filtering dust particles from contaminant air inlets, contaminated air introduced through one end of an inlet and having a filter therein, and an inlet connected to an outlet end of the pretreatment chamber, A photooxidation reaction chamber for photo-oxidizing the odor and volatile organic substances in the polluted air having passed through the pretreatment chamber and having an ozone-generating UV lamp and a TiO ₂ -based photocatalyst, an ozone reaction catalyst connected to the outlet end of the photooxidation reaction chamber, Processing chamber for removing residual ozone contained in the air passing through the photooxidation reaction chamber and an air outlet connected to the outlet end of the post-treatment chamber, An apparatus for treating volatile organic materials is disclosed.

However, the above-mentioned conventional techniques have merely added a sterilization function by using a decomposition device of a photocatalyst after filtration by a plurality of filters, or by irradiating a sterilizing line through an ultraviolet lamp, There is a problem that the fine particles of 2.5 탆 or less can not be properly removed.

Korean Utility Model Registration No. 20-0296334 (published on November 23, 2002) Registered Utility Model No. 20-0282427 (published on July 19, 2002) Korean Utility Model Registration No. 20-0225374 (published on June 1, 2001)

Disclosure of Invention Technical Problem [8] The present invention has been devised to solve all of the problems described above, and it is an object of the present invention to provide a dust collecting apparatus and a dust collecting apparatus which can efficiently treat particulate and gaseous pollutants, And a plasma sterilization and air sterilizing device installed in an air conditioning line which is semi-permanent and low maintenance cost.

According to an aspect of the present invention, there is provided a pre-filter for filtering particles contained in air introduced from the outside of a duct. An intermediate filter for secondarily filtering small particles not filtered in air passing through the pre-filter; And a discharge electrode connected to the power supply unit and arranged to alternate with the discharge electrode to receive the high voltage. The plasma is generated by charging the fine particles contained in the air passing through the intermediate filter by the plasma reaction, A reaction part; A secondary plasma reaction unit formed between the primary plasma reaction unit and the electric dust collection unit and further comprising fine particle charging and air sterilization; An electric dust collection unit electrically connected to the power supply unit and having a plurality of dust collecting plates disposed in a vertical direction and electrically charged with fine particles charged by the first plasma reaction unit and the second plasma reaction unit and sterilizing air; A plurality of filters arranged vertically and horizontally disposed on the rear side of the electric dust collecting part to finally block the fine particles passing through the electric dust collecting part, An after filter including a plate and a front and a rear connecting member arranged in a vertical direction to connect the front and rear portions of the plurality of filter plates, respectively; A power supply unit for supplying power to the first plasma reaction unit, the second plasma reaction unit, and the electric dust collection unit; A suction fan installed in front of the apparatus; A blowing fan installed at the rear of the apparatus; And a heat exchanger installed at the rear of the electric dust collection unit, wherein a door is formed at one side of a housing provided on the outside, and the prefilter, the intermediate filter, the primary plasma reaction unit and the electric dust collection unit are removably attached And a plasma sterilizing device for sterilizing the air.

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According to the present invention, it is possible to efficiently treat particulate and gaseous pollutants so that the dust collecting efficiency is high, the removal efficiency of fine particles as well as the sterilizing function against bacteria are excellent, the life of the apparatus is semi-permanent, have.

FIG. 1 shows a bird's-eye view of an air conditioning line installed with an apparatus according to an embodiment of the present invention.
Figure 2 is an exterior photograph of the device according to an embodiment of the present invention.
3 shows a configuration of an apparatus according to an embodiment of the present invention.
FIGS. 4A and 4B are photographs of a first plasma reaction unit of an apparatus according to an embodiment of the present invention, and FIG. 4C are views of a first plasma reaction unit.
FIG. 5A is a photograph of an electrostatic dust collecting portion of an apparatus according to an embodiment of the present invention, and FIG. 5B is a view of an electrostatic dust collecting portion.
Figure 6 illustrates the collection and disinfection of the device according to one embodiment of the present invention.
7 is a diagram illustrating an after-filter according to an embodiment of the present invention.
8 is a view of a heat exchanger of an apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, with reference to the accompanying drawings, specific details of a plasma dust collecting and air sterilizing apparatus installed in an air conditioning line according to the present invention will be described in detail with reference to embodiments.

1, a plasma dust collecting and air sterilizing apparatus 1 installed in an air conditioning line according to the present invention is for efficiently purifying air introduced into a duct, and includes a pre-filter 100, an intermediate filter 200, A first plasma reaction unit 300, an electric dust collection unit 400, and a power supply unit 500.

The pre-filter (PRE FILTER) 100 is a pretreatment filter that primarily filters particles having a relatively large particle size contained in the air introduced from the outside of the duct D, thereby preventing the apparatus from being overloaded. Particles having a size of 100 mu m or more can be collected.

The MEDIUM FILTER 200 collects and filters the smaller particles that have not been filtered in the air that has passed through the pre-filter 100, and filters the smaller particles. For example, small particles having a size of about 1 to several tens of micrometers.

4A to 4C, the primary plasma reactor 300 is separated from the electrostatic precipitator 400 in a detachable manner, and is connected to a plate-shaped ground electrode 310 and a power supply unit 500, And the air is passed through the intermediate filter 200 by the plasma reaction to charge the fine particles contained in the air and sterilize the air.

That is, the discharge electrode 320 receives a high voltage from the power supply unit 500 to generate charges between the ground electrode 310 and the discharge electrode 320 to negatively charge the fine particles contained in the air, The air is also sterilized by the discharge.

3, a secondary plasma reactor 600 is formed between the primary plasma reactor 300 and the dust collector 500 to further charge the microparticles and sterilize the air. As a result, The sterilization efficiency can be doubled.

5A and 5B, the electric dust collecting unit 400 is connected to a power supply unit 500, and a plurality of dust collecting plates 410 are densely arranged. As shown in FIG. 6, 500 is charged with a high voltage and the dust collecting plate 410 is charged to a negative pole to attract and attract the fine particles charged by the first plasma reactor 300 to the positive polarity, Together.

Therefore, it is possible to efficiently treat particulate and gaseous contaminants so that the dust collecting efficiency is high, and not only the removal rate of fine particles but also the bactericidal function against bacteria are excellent.

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2 and 3, the plasma dust collecting and air sterilizing apparatus 1 according to the present invention includes a housing H, a door R is formed at one side of the housing H, The intermediate filter 200, the primary plasma reaction unit 300 and the electric dust collection unit 400 can be detachably installed in a slide manner, so that the lifespan of the device is semi-permanent, Convenient, and easy to maintain.

Further, a suction fan 700 may be installed inside the duct D installed in the apparatus, and a blowing fan 800 may be installed at the rear.

Further, an after-filter 900 is provided at the rear of the electric dust collection unit 400. The after-filter 900 finally blocks the fine particles that have passed through the electrostatic dust collecting unit 400 without being removed, and a plurality of horizontally disposed fine dust particles are installed vertically, A plurality of filter plates 910 bent in a predetermined angle so as to have a shape of "∧" in the middle thereof, and a plurality of filter plates 910 installed in the vertical direction to connect the front portion and the rear portion of the plurality of filter plates 910 And a front and a rear connecting member 920.

6, the electric dust collecting unit 400 having the dust collecting plate 410 formed in the vertical direction and the after filter 900 having the filter plate 910 formed in the horizontal direction are successively arranged, The fine particles passing through the filter 400 are collected by the after-filter 900 arranged in a direction perpendicular to the dust collecting plate 410, that is, in the horizontal direction, and are collected by the filter plates 910 Clean air filtered after the fine particles are finally blocked by the after-filter 900 is introduced into the room through the blowing fan 800 in the rear, so that more pleasant indoor air is formed, It can protect human health.

Referring to FIG. 8, a heat exchanger E is disposed behind the electric dust collector 400, so that fine particles can be removed, and the air can be cooled using sterilized clean air.

As a result, the plasma dust collecting and air sterilizing apparatus 1 installed in the air conditioning line according to the present invention can efficiently treat particulate and gaseous pollutants, thereby improving the dust collecting efficiency and reducing the removal rate of fine particles as well as the sterilizing function against bacteria The life of the device is semi-permanent, and the maintenance cost is low.

The present invention is not limited to the above-described embodiments. Anything having substantially the same constitution as the technical idea described in the claims of the present invention and achieving the same operational effect is included in the technical scope of the present invention.

1. Plasma dust collection and air sterilizer
100. Pre-filter 200. Intermediate filter
300. First Plasma Reactor 310. Earth Plate
320. Discharge electrode 400. Electric dust collection unit
410. Collector 500. Power supply
600. Second Plasma Reactor 700. Suction Fan
800. Blower fan 900. After filter
910. Filter plate 920. Connecting member
D. Duct E. Heat exchanger
H. Housing R. Door

Claims (6)

A prefilter for primarily filtering particles contained in air introduced from the outside of the duct;
An intermediate filter for secondarily filtering small particles not filtered in air passing through the pre-filter;
And a discharge electrode connected to the power supply unit and arranged to alternate with the discharge electrode to receive the high voltage. The plasma is generated by charging the fine particles contained in the air passing through the intermediate filter by the plasma reaction, A reaction part;
A secondary plasma reaction unit formed between the primary plasma reaction unit and the electric dust collection unit and further comprising fine particle charging and air sterilization;
An electric dust collection unit electrically connected to the power supply unit and having a plurality of dust collecting plates disposed in a vertical direction and electrically charged with fine particles charged by the first plasma reaction unit and the second plasma reaction unit and sterilizing air;
A plurality of filters arranged vertically and horizontally disposed on the rear side of the electric dust collecting part to finally block the fine particles passing through the electric dust collecting part, An after filter including a plate and a front and a rear connecting member arranged in a vertical direction to connect the front and rear portions of the plurality of filter plates, respectively;
A power supply unit for supplying power to the first plasma reaction unit, the second plasma reaction unit, and the electric dust collection unit;
A suction fan installed in front of the apparatus;
A blowing fan installed at the rear of the apparatus; And
And a heat exchanger disposed behind the electric dust collection unit,
Wherein the air filter is provided with a door on one side of a housing provided on the outside of the air filtering unit, and the pre-filter, the intermediate filter, the primary plasma reaction unit and the electric dust collection unit are detachably attached by a sliding method. Sterilizing device.
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