KR20200031871A - air purification apparatus and air purification method using the same - Google Patents

Abstract

The present invention relates to an air purification apparatus and an air purification method using the same, wherein odors can be removed by activated carbon, and when the activated carbon has an accumulated fatigue degree, the activated carbon is cleaned with plasma to be recycled.

Description

Air purification apparatus and air purification method using the same}

The present invention relates to an air purifying apparatus and an air purifying method using the same, and more particularly, to an air purifying apparatus capable of maintaining high efficiency for a long time by purifying and regenerating a malodor removing filter by plasma, and an air purifying method using the same. will be.

Most of the existing air purifiers focus on removing fine dust, and do not exhibit good performance for removing odors. The reason is that activated carbon is mainly used as disclosed in Korean Patent Registration No. 10-0670677 to remove odor. In the case of activated carbon, once a certain amount of odor and fine dust is adsorbed on the activated carbon, its performance falls rapidly and it is difficult to expect the effect of removing the odor for a long time. Exercising can take days or even hours. In order to remove the odor substances adsorbed on the activated carbon, a method of regeneration by heating to a certain temperature is also used, but there is a problem in that the odor substances that fall off must be treated again. In addition, this regeneration process involves removing the filter, moving it to the filter regeneration device, removing the odorous substances that have been adsorbed, and then having to install the air purification device again.

In order to remove the odor, a corona plasma device is also used, and the air purification performance is very good, but since ozone generated at this time harms the human body, it is not suitable for use in household and commercial purposes, and is rarely applied at present. . As a technique in which the performance of removing odor is partially exhibited, one of the techniques mainly used at present is an anion generating device, which is a traditional technique used in many air purification devices. However, the negative ion generation technology improves the odor removal performance when the voltage is applied a little higher, but there is also a problem that ozone is generated, and when it is operated weakly, the effect of removing the odor is limited. There is a problem that has limitations at the same time.

Water-soluble odors are also reduced by using water, but maintenance is inconvenient, and in the case of non-aqueous odors, there is no clear removal method applicable to household and commercial use. There is a lack of alternatives.

The present invention solves the short exchange cycle of the malodor removal filter represented by activated carbon by purifying the malodor removal filter using plasma and regenerating its performance, as well as reducing the incidental ozone when applying plasma and anion generation technology. An object of the present invention is to provide an ideal odor removal device.

The present invention can solve the above problems by an air purifying apparatus that removes odors with activated carbon, and when activated carbon has a fatigue level, which is washed and regenerated by plasma and thereby purifies the air.

The present invention, by the above-described problem solving means, by allowing the odor removal ability of the activated carbon to be steadily maintained without the problem of ozone generation, it is possible to provide a variety of air purification devices for odor removal.

1 is a conceptual diagram schematically showing an air purifying apparatus according to an embodiment of the present invention, and
FIG. 2 is a graph showing the fatigue properties and plasma regeneration characteristics of an activated carbon filter in removing ammonia using the air purifying device of FIG.

Hereinafter, the air purifying apparatus of the present invention will be described in detail with reference to the drawings.

In the following description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, the terms to be described later are terms set in consideration of functions in the present invention, which may vary according to the intention or custom of the producer who produces the product, and thus the definition should be made based on the contents throughout the present specification.

1 schematically shows an air purifying apparatus according to an embodiment of the present invention.

The air purifying device comprises an inlet passage 110 having an inlet 19 through which contaminated air to be treated is introduced, and an outlet passage 120 having an outlet 21 through which purified air to be treated is discharged. ) The housing 100 provided on the other side; Main processing flow paths and circulation flow paths 130 and 22 provided to be in circulation with each other in the housing 100 between the inlet flow path 110 and the outlet flow path 120; An opening / closing valve 17 interposed in the middle of the downstream end of the inlet flow passage 110 in the air flow direction; It is interposed between the downstream end of the main processing flow path 130 in the airflow direction, the upstream end of the circulation flow path 22 and the upstream end of the outlet flow path 120, and the downstream end of the main processing flow path 130 and the circulation A posture capable of selectively converting posture to a first posture in which the upstream ends of the flow path 22 are mutually distributed, and a second posture in which the downstream end of the main processing passage 130 and the upstream end of the outlet passage 120 are mutually distributed. It includes a valve 18.

In addition, in order to remove the odor and fine dust contained in the contaminated air, the inlet passage 110 is sequentially in the reverse direction in the air flow direction, the opening / closing valve 17, the medium filter or the HEPA filter ( HEPA filter) is interposed with a micro-mill 12 and a pre-filter 11.

In addition, a plasma filter regeneration unit 20 is built in the main processing flow path 130 to remove the odor contained in the air processed in the inlet flow path 110, and the plasma filter regeneration unit 20 is Plasma source 13 and activated carbon filter 14, HEPA filter 15 and blower 16 are sequentially included in the main processing flow path 130 in the built-in air flow direction.

Further, during the circulation passage 22, an ozone removal filter 23 is interposed to remove ozone generated during plasma regeneration by operating the plasma source 13 by plasma cleaning the activated carbon filter 14. .

The air purifying device configured as described above may be operated as follows.

As the blower 16 is operated, external contaminated (odor and fine dust) air 1 flows through the inlet 19 of the inlet passage 110 and is contained in the introduced air 1 The crude coarse dust is first filtered by the pre-filter 11, and then the intermediate or fine dust is secondarily removed by the fine filter 12, and the malodorous substances contained in the secondly removed air 2 are As it passes through the activated carbon filter 14, it is adsorbed and reduced by the activated carbon filter 14, and then, the activated carbon powders generated in the activated carbon filter 14 are filtered by the hepa filter 15, and the activated carbon powder is The filtered purified air passes through the blower 16 and is discharged out of the outlet 21. At this time, the on-off valve 17 is in an open state, the release valve 18 is positioned in a second position, air is the inlet flow path 110, the main processing flow path 130 and the outlet flow path 120 ) To sequentially flow through the outlet 21.

When the air purifying device is used for a long time, odor components and fine dust particles are adsorbed on the activated carbon filter 14, resulting in a problem of lowering odor removal performance. Therefore, an appropriate amount is used, and the plasma source 13 is operated by a certain period or by detection of an odor sensor (not shown), and the activated carbon filter 14 is plasma-cleaned, regenerated, and then the air purification device is operated again.

During the plasma cleaning and regeneration treatment, in order to prevent external discharge of ozone generated by plasma, the opening / closing valve 17 is closed as shown in FIG. 1 and the release valve 18 is shown as shown in FIG. 1. By changing the posture to the first posture, the air flow is closed and repeatedly circulated in the regeneration plasma air circulation direction 4 between the main processing flow path 130 and the circulation flow path 22 to regenerate the activated carbon filter 14 And prevent the ozone from leaking

When the activated carbon filter 14 is plasma-cleaned by operating the plasma source 13, ozone may be generated, and the ozone removal filter 23 in which air is interposed in the circulation passage 22 is used. By passing through, the ozone is removed while the air flow is closed and repeatedly circulated between the main processing flow path 130 and the circulation flow path 22. Since some residual ozone is present even after the plasma source 13 is turned OFF, air is circulated through the circulation passage 22 for a certain period of time to completely remove residual ozone by the ozone removal filter 23.

After a certain period of plasma cleaning, the plasma source 13 is turned off, the on-off valve 17 is opened, and the flow rate can be formed in the direction of the purified air 3 so that the anisotropic valve 18 has a second posture. Operation) to maintain the air purification performance by performing the air purification operation.

As shown in FIG. 2, the activated carbon filter 14 used for the first time was treated from 10 ppm to 0 ppm in 54 minutes, but after repeated treatment for 120 minutes at 50 ppm at high concentration twice, the adsorption fatigue was increased and then again. In the case of treating 10 ppm of ammonia, it was measured to decrease only to about 4 ppm even after 120 minutes of treatment. This is judged to increase the adsorption fatigue, and then, after removing the adsorbed ammonia by treating with plasma for 60 minutes, and then treating 10 ppm of ammonia again, the ammonia treatment rate and ability are increased, indicating that there is an effect of regeneration.

 According to the air purifying apparatus configured as described above, it is possible to provide a household and commercial air purifying apparatus for removing odor by allowing the odor removing ability of activated carbon to be maintained steadily without the problem of ozone generation.

13: plasma source, 14: activated carbon filter, 20: plasma filter regeneration unit, 110: inlet passage, 120: outlet passage, 130: main treatment passage

Claims (4)

Housing having an inlet passageway (110) having an inlet (19) through which contaminated air to be treated flows in, and an outlet passageway (120) with an outlet (21) through which purified water to be treated is discharged (100);
Main processing flow paths and circulation flow paths 130 and 22 provided to be in circulation with each other in the housing 100 between the inlet flow path 110 and the outlet flow path 120;
An opening / closing valve 17 interposed in the middle of the downstream end of the inlet flow passage 110 in the air flow direction; And
It is interposed between the downstream end of the main processing flow path 130 in the airflow direction, the upstream end of the circulation flow path 22 and the upstream end of the outlet flow path 120, and the downstream end of the main processing flow path 130 and the circulation A two-way valve capable of selectively converting posture to a first posture in which the upstream ends of the flow path 22 are mutually distributed, and a second posture in which the downstream end of the main processing passage 130 and the upstream end of the outlet passage 120 are mutually distributed. (18),
In order to remove the odor and fine dust contained in the contaminated air, the inlet passage 110 is sequentially in the reverse direction in the air flow direction, the on-off valve 17, the micro-mill 12 and the pre-filter 11 Is interposed,
The main treatment flow path 130, the air purification apparatus characterized in that the plasma filter regeneration unit 20 is built in to remove the odor contained in the air treated in the inlet flow path (110). According to claim 1,
The plasma filter regeneration unit 20 includes the plasma source 13 and the activated carbon filter 14, the HEPA filter 15, and the blower 16 sequentially in the main processing flow path 130 in the built-in air flow direction. Doing
An air purifying device characterized in that an ozone removal filter (23) is interposed in the middle of the circulation passage (22). In the method for purifying air by the air purifying apparatus according to claim 2,
As the blower 16 is operated, external contaminated air 1 flows through the inlet 19 of the inlet passage 110,
The coarse dust contained in the introduced air 1 is primarily filtered by the pre-filter 11,
Subsequently, intermediate or fine dust is secondarily removed by the fine filter 12,
The odorous substances contained in the secondary removed air 2 are reduced by being adsorbed to the activated carbon filter 14 while passing through the activated carbon filter 14,
Then, the activated carbon powders generated in the activated carbon filter 14 are filtered by the hepa filter 15,
The purified air filtered with the activated carbon powder passes through the blower 16 and is discharged out of the outlet 21,
At this time, the on-off valve 17 is in an open state, the anisotropic valve 18 is positioned in the second position,
When the air purifying device is used for a predetermined time, the plasma source 13 is operated to plasma-clean the activated carbon filter 14 and regenerate the ozone generated by the ozone removal filter 23. Air purification method characterized by performing the step of removing. According to claim 3,
The plasma cleaning and regeneration treatment steps
It is performed by closing the on-off valve 17 and changing the posture of the anisotropic valve 18 to a first posture,
After the plasma cleaning and regeneration treatment, the plasma source 13 is turned off, the opening / closing valve 17 is opened, and the air purifying method characterized in that the release valve 18 has a second posture.

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