KR20110061426A - Apparatus and method for purifying air using ozone - Google Patents

Abstract

PURPOSE: An air cleaning device and method using ozone is provided to efficiently reduce the harmful materials included in the indoor air. CONSTITUTION: An air cleaning device using ozone comprises a housing(10), an oil generation part(20), and a removing ozone part(30). The oil generation part is installed in the housing. The oil generation part comprises a suction fan and a plurality of ultra-violet ray lamp. The suction fan inhales external air. The ultra-violet ray lamps are installed 90mm-110mm intervals. The removing ozone part comprises a suction fan and a plurality of ultra-violet ray lamps. The ultra-violet ray lamps emits the ultraviolet ray to the air, which is sucked into the suction fan, and eliminate the ozone included in the air.

Description

Air purification device and purification method using ozone {APPARATUS AND METHOD FOR PURIFYING AIR USING OZONE}

The present invention relates to an air purifier and a purifying method capable of purifying indoor air using ozone, and more particularly, to remove various harmful substances contained in indoor air by generating ozone through ultraviolet rays, The present invention relates to an air purifier and a purifying method using ozone, which can achieve a comfortable indoor environment by converting and removing ozone remaining in the room after removal.

In recent years, artificially produced furniture and building materials have generated various harmful substances such as volatile organic compounds (VOCs) such as formaldehyde. These various harmful substances are harmful to the human body and various methods for removing them have been proposed. However, most of the methods are aimed at a weaker occurrence rather than completely removing the harmful substances, and thus do not achieve much effectiveness.

It is also known that ozone is excellent for the removal of various harmful substances such as volatile organic compounds (VOCs). Ozone has strong oxidizing power and can be efficiently used for removing various harmful substances such as volatile organic compounds (VOCs) removal ability, deodorization ability (odor removal ability) and various microorganism removal ability. Accordingly, when ozone is supplied to the room, various harmful substances are removed, and the indoor air can be purified.

However, conventional ozone generators generate a small amount of ozone by bubbles, which has a disadvantage in that practical use is impossible. Specifically, the ozone generator used for air purification in the conventional room has a problem in that the efficiency of the ozone generator is low and the efficiency is low.

In addition, the conventional method of purifying air using ozone removes harmful substances by supplying ozone to the room through an ozone generator, and does not devise technical means for treating ozone remaining in the room after removing the harmful substances. Ozone has its own smell and is harmful to the human body. Accordingly, the ozone remaining in the room should be removed. However, in the related art, the technical means for this cannot be taken, and thus the health may be harmed by the ozone. In addition, although the ozone remaining in the room is removed through conventional ventilation (opening of the window), in this case, it takes a lot of time, and ozone is heavier than air, so it is difficult to achieve complete removal.

The present invention is to solve the problems of the prior art as described above, by generating ozone through ultraviolet rays to efficiently remove various harmful substances contained in the indoor air, the ozone remaining in the room after the removal of harmful substances to oxygen It is an object of the present invention to provide an air purifier and a purifying method using ozone, which can achieve a comfortable indoor environment by converting and removing them.

The present invention to achieve the above object,

housing; An ozone generator installed inside the housing; And an ozone removal unit,

The ozone generator,

A suction fan for introducing outside air,

It includes a plurality of ultraviolet lamps for generating ozone by irradiating the ultraviolet light to the air introduced by the suction fan, the plurality of ultraviolet lamps are installed at intervals of 90mm ~ 110mm with the adjacent ultraviolet lamp;

The ozone removal unit,

A suction fan for introducing outside air,

It includes a plurality of ultraviolet lamps to remove the ozone contained in the air by irradiating the ultraviolet rays to the air introduced by the suction fan, the plurality of ultraviolet lamps are air purifiers installed at intervals of 100mm ~ 120mm with the adjacent ultraviolet lamp To provide.

At this time, the housing is partitioned into an upper room and a lower room by the diaphragm, the upper room is preferably ozone generating unit, the lower room is preferably installed ozone removal unit.

In addition, the present invention,

Using the air purifier according to the present invention;

The ozone generating unit of the air purifier is driven, and ultraviolet rays having a wavelength in the range of 170 to 200 nm are irradiated from the ultraviolet lamp to the air introduced from the outside to generate ozone, and the ozone is discharged to the outside to be contained in the air. Removing material;

While operating the ozone removal unit of the air purifier, it provides an air purification method for removing ozone contained in the introduced air by irradiating ultraviolet rays in the 240 ~ 270nm wavelength range from the ultraviolet lamp to the air introduced from the outside.

According to the present invention, ozone is generated by ultraviolet rays, and the amount of ozone generated is large, which effectively removes various harmful substances contained in the indoor air. In addition, ozone remaining in the room after removal of harmful substances is removed (converted to oxygen) to have a comfortable indoor environment.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. The accompanying drawings show exemplary embodiments of the present invention, which are provided merely to illustrate the present invention in detail, and thus the technical scope of the present invention is not limited thereto.

1 and 2 are a perspective view and an exploded perspective view of the air purifier according to an embodiment of the present invention, Figures 3 and 4 are a perspective view and an exploded perspective view of the air purifier shown in Figure 1 from another direction, Figure 5 Is a sectional view of the main part of FIG.

The air purifier according to the present invention is used for the purpose of purifying air. The air purifier according to the present invention may be installed, for example, in a building (housing, factory, etc.), a vehicle, a food processing chamber, or the like. The air purifier according to the present invention improves the indoor environment by efficiently eliminating volatile organic compounds (VOCs), deodorizing (deodorizing) and removing various microorganisms.

1 to 5, the air purifying apparatus according to the present invention comprises a housing 10; It includes an ozone generator 20 and the ozone removal unit 30 installed in the housing 10.

As shown in the drawing, the housing 10 includes a main body 12 and a cover 14 coupled to the main body 12 to be opened and closed, and may have a rectangular parallelepiped shape. The main body 12 and the cover 14 may be combined in a detachable structure through the binding hole 14a. In addition, the housing 10 is not particularly limited, but may be made of, for example, a metal material, a synthetic resin material, or a ceramic material. A diaphragm 15 is provided inside the housing 10. The housing 10 is partitioned into two spaces by the diaphragm 15. The ozone generator 20 is installed in one of the two spaces, and the ozone remover 30 is installed in the other space.

The ozone generating unit 20 generates ozone to supply to the outside to remove various harmful substances contained in the air. The ozone generator 20 includes a suction fan 22 and a plurality of ultraviolet lamps 24 for generating ozone. The ozone generator 20 is provided with a voltage supply 26 for applying a voltage to the ultraviolet lamp 24.

The suction fan 22 introduces external air into the housing 10. Air is introduced into the air through the first suction port 16 formed in the first side wall 11 of the housing 10 by driving the suction fan 22. The suction fan 22 may be installed inside the housing 10, and may be installed in close contact with the first side wall 11 on which the first suction port 16 is formed.

The ultraviolet lamp 24 generates ozone by irradiating ultraviolet light into the air introduced by the suction fan 22. A plurality of ultraviolet lamps 24 are arranged and installed inside the housing 10 at appropriate intervals. At least two or more ultraviolet lamps 24 may be installed in the ozone generator 20, but two to ten may be provided. In the drawings, four ultraviolet lamps 24 are installed in the ozone generator 20. At this time, the ultraviolet lamp 24 is supported by the support 23 can be arranged side by side, it is installed, the ultraviolet lamp 24 between each other maintains the interval (D ₂₄ ) of 90mm ~ 110mm. Specifically, as shown in FIG. 5, a plurality of ultraviolet lamps 24 are installed in up, down, left and right directions, and are arranged and installed at intervals D ₂₄ between 90 mm and 110 mm with adjacent UV lamps 24. Referring to FIG. 5, in the present invention, the interval D ₂₄ means a minimum distance between the outer circumferential surface of one ultraviolet lamp 24 and the outer circumferential surface of another adjacent ultraviolet lamp 24. At this time, the UV lamp 24, the interval (D ₂₄₎ is when tightly arranged as less than 90mm when undesirable irradiated ultraviolet light in air strongly, exceeding 110mm reduces the contact frequency of the incoming air with UV ozone generation amount off between Not desirable In addition, the ultraviolet lamp 24 is driven to irradiate ultraviolet rays in the wavelength range of 170 ~ 200nm. At this time, when the wavelength is less than 170nm, the amount of ozone is lowered, and when it exceeds 200nm, the generated ozone may be converted into oxygen, which is not preferable. In this way, while allowing the ultraviolet rays in the wavelength range of 170 to 200 nm to be irradiated, when the distance D ₂₄ between the ultraviolet lamps ₂₄ is in the range of 90 mm to 110 mm, ozone is efficiently generated and effective for removing harmful substances.

As described above, the ozone generating unit 20 generates ozone by irradiating the ultraviolet air to the incoming air (O _2- > O ₃ ). At this time, the generated ozone is discharged to the outside. Ozone is discharged to the outside through the first outlet 17 formed in the second side wall 13 of the housing 10 to remove harmful substances. After removal of harmful substances, ozone remains in the air. At this time, ozone (remaining ozone) contained in the air is removed through the ozone removal unit 30.

The ozone removing unit 30 includes a suction fan 32 and a plurality of ultraviolet lamps 34 for removing ozone. In addition, the ozone removal unit 30 is provided with a voltage supply 36 for applying a voltage to the ultraviolet lamp 34.

The suction fan 32 of the ozone removing unit 30 introduces external air (air containing ozone after harmful substances are removed) into the housing 10. Air is introduced into the air through the second suction opening 18 formed in the first side wall 11 of the housing 10 by driving the suction fan 32. The suction fan 32 may be installed inside the housing 10, and may be installed in close contact with the first side wall 11 on which the second suction opening 18 is formed.

The ultraviolet lamp 34 of the ozone removing unit 30 removes ozone contained in the air by irradiating ultraviolet light to the air introduced through the suction fan 32. A plurality of ultraviolet lamps 34 are arranged and installed at appropriate intervals inside the housing 10. At least two or more ultraviolet lamps 34 may be installed in the ozone removal unit 30, but two to ten may be provided. In the drawing, four ultraviolet lamps 34 are installed in the ozone removal unit 30. At this time, the ultraviolet lamp 34 is supported by the support 33 can be arranged side by side, it is installed, the ultraviolet lamp 34 mutually maintains the interval (D ₃₄ ) of 100mm ~ 120mm. Specifically, as shown in FIG. 5, a plurality of ultraviolet lamps 34 are installed in the vertical, left, and right directions, and are arranged and installed at intervals D ₃₄ between 100 mm and 120 mm with the adjacent UV lamps 34. At this time, when the distance D ₃₄ between the ultraviolet lamps 34 is closely arranged as less than 100 mm, ultraviolet rays are irradiated to the air, which is not preferable. (Conversion efficiency to oxygen) is poor, which is not preferable. In addition, the ultraviolet lamp 34 of the ozone removing unit 30 is driven to irradiate ultraviolet rays in the wavelength range of 240 ~ 270nm. At this time, when the wavelength is less than 240nm, the conversion efficiency to oxygen is lowered, rather, ozone may be generated. If the wavelength is greater than 270nm, the ozone removal ability is also lowered, which is not preferable. In this manner, while allowing the ultraviolet rays in the 240-270 nm wavelength range to be irradiated, when the distance D ₃₄ between the ultraviolet lamps ₃₄ is in the range of 100 mm to 120 mm, ozone is efficiently removed and a comfortable indoor environment can be achieved.

As described above, the ozone removing unit 30 removes the ozone remaining in the air by irradiating ultraviolet light to the air after removing the harmful substances. That is, ozone is converted into oxygen (O _3- > O ₂ ). At this time, the air from which ozone is removed is discharged to the outside. The ozone-depleted air is discharged to the outside through the second discharge port 19 formed in the second side wall 13 of the housing 10.

In addition, the housing 10 is partitioned into two spaces by the diaphragm 15, it is preferable to be partitioned into two upper and lower spaces. That is, the housing 10 may be divided into the upper room 10a and the lower room 10b by the diaphragm 15. As shown in the figure, the ozone generator 20 is provided in the upper room 10a, and the ozone remover 30 is preferably provided in the lower room 10b. That is, the ozone generator 20 and the ozone remover 30 may be embedded in the housing 10, but the ozone remover 30 may be lower than the ozone generator 20. Ozone (O ₃ ) is heavier than air. As described above, when the ozone removal unit 30 is located low, it is possible to easily enter and remove the ozone that has sunk in the air.

In addition, the air purifier according to the present invention may further include a control unit 40. The controller 40 controls the operations of the ozone generator 20 and the ozone remover 30. For example, the control unit 40 is equipped with a timer (timer) to drive the ozone generator 20 for a predetermined time, and after the predetermined time has passed the ozone generator ( 20) and the operation of the ozone removal unit 30 can be controlled. In addition, the controller 40 may enable the ozone generator 20 and the ozone remover 30 to operate by reservation setting.

On the other hand, the air purification method according to the present invention, using the air purifier of the present invention as described above, the step of generating ozone to remove harmful substances (harmful substance removal step); And removing ozone contained in the air after removing the harmful substances (ozone removal step).

At this time, the step of removing the harmful substances generates ozone having a strong oxidizing power through the ozone generating unit 20, and then discharged to the outside to the various harmful substances contained in the air, for example volatile organic compounds (VOCs), odor And various microorganisms. At this time, while driving the ozone generator 20, as described above, the ultraviolet rays in the 170 ~ 200nm wavelength range from the ultraviolet lamp 24 to the air introduced from the outside to generate ozone. As described above, when irradiated with ultraviolet rays in the wavelength range of 170 to 200 nm (preferably 184.9 wavelengths), ozone is efficiently generated, which is effective for removing harmful substances.

In addition, ozone remains in the air after the removal of harmful substances, in which the ozone removing step removes ozone by irradiating UV light to air (including ozone) through the ozone removing unit 30 (O _3- > O _2). )do. At this time, while driving the ozone removal unit 30, the ultraviolet rays in the 240 ~ 270nm wavelength range (preferably 253.7nm wavelength) is irradiated from the ultraviolet lamp 34 to the air introduced from the outside ozone contained in the introduced air Remove it. As described above, when irradiated with ultraviolet rays in the wavelength range of 240 ~ 270nm, ozone is efficiently removed to achieve a comfortable indoor environment.

Meanwhile, in the present invention, the ultraviolet lamps 24 and 34 may use Medallion Healthy Homes products (address: 18902 2nd place West, Bothell, Washington, 98012, USA). In addition, a voltage of 20 to 25V may be applied to the ultraviolet lamps 24 and 34 so that ultraviolet rays in the wavelength range as described above may be irradiated.

According to the present invention described above, by effectively generating ozone through the ultraviolet ray to effectively remove various harmful substances such as volatile organic compounds (VOCs), odors and microorganisms. In addition, ozone remaining in the air after the removal of harmful substances is converted to oxygen to promote a comfortable indoor environment.

1 and 2 are a perspective view and an exploded perspective view of the air purifier according to an embodiment of the present invention.

3 and 4 are perspective and exploded perspective views of the air purifier shown in FIG. 1 viewed from different directions.

5 is a cross-sectional view illustrating main parts of FIG. 1.

Description of the Related Art

10 housing 15 diaphragm

20: ozone generator 22, 32: suction fan

24, 34: UV lamp 30: ozone removal unit

40: control unit

Claims (3)

housing; An ozone generator installed inside the housing; And an ozone removal unit, The ozone generator, A suction fan for introducing outside air, It includes a plurality of ultraviolet lamps for generating ozone by irradiating the ultraviolet light to the air introduced by the suction fan, the plurality of ultraviolet lamps are installed at intervals of 90mm ~ 110mm with the adjacent ultraviolet lamp; The ozone removal unit, A suction fan for introducing outside air, It includes a plurality of ultraviolet lamps to remove the ozone contained in the air by irradiating the ultraviolet rays to the air introduced by the suction fan, the plurality of ultraviolet lamps are characterized in that installed at intervals of 100mm ~ 120mm with the adjacent ultraviolet lamp Air filter made. The method of claim 1, The housing is divided into an upper room and a lower room by a diaphragm, wherein the upper room is provided with an ozone generating unit, the lower room is characterized in that the ozone removing unit is installed. Using an air purifier according to claim 1; The ozone generating unit of the air purifier is driven, and ultraviolet rays having a wavelength in the range of 170 to 200 nm are irradiated from the ultraviolet lamp to the air introduced from the outside to generate ozone, and the ozone is discharged to the outside to be contained in the air. Removing material; Operating the ozone removal unit of the air purifier, the air purification method characterized in that to remove the ozone contained in the introduced air by irradiating the ultraviolet rays in the 240 ~ 270nm wavelength range from the ultraviolet lamp to the air introduced from the outside.

Images