KR20230157773A - Industrial air purification sterilizer using the synergistic effect of ion cluster and UVC - Google Patents

Abstract

The present invention relates to an industrial air purification sterilization device using the synergy effect of ion clusters and UVC, including a housing, a removal unit, a first horizontal partition, a second horizontal partition, and an upper vertical passage.

Description

Industrial air purification sterilizer using the synergistic effect of ion cluster and UVC}

The present invention relates to an industrial air purification sterilization device using the synergy effect of ion clusters and UVC.

Recently, interest in providing clean air indoors has increased due to various types of environmental pollution. An ultraviolet sterilizer can sterilize various pathogenic microorganisms present in the air by flowing indoor air inside and irradiating ultraviolet rays to the flowing air. The air purification structure to sterilize and deodorize polluted air is a filter method that applies a filter with high adsorption of harmful substances such as activated carbon, an ultraviolet radiation method that emits ultraviolet rays with sterilizing properties, and an ozone that emits ozone that has sterilizing and deodorizing properties. A release method or a mixture method combining these methods is used.

Republic of Korea Registered Utility Model Publication No. 20-0408407 (2006.02.02.)

In one aspect, the purpose of the present invention is to provide an industrial air purification sterilization device that can improve sterilization efficiency by increasing the time that contaminated air stays in the housing and improve air quality through additional functions.

In one aspect, the present invention includes a housing 40 including an intake part 10 through which contaminated air is sucked and an exhaust part 30 through which purified air is discharged; A removal unit 20 provided downstream of the intake unit 10 and upstream of the exhaust unit 30 inside the housing 40; A first horizontal partition 21 disposed between the intake unit 10 and the removal unit 20 and provided with a first opening 41; a second horizontal partition 22 spaced apart from the housing 40 and disposed between the removal unit 20 and the exhaust unit 30; And an upper vertical passage 51 whose upper end starts from the first opening 41 and whose lower end extends to a point spaced upward from the second horizontal partition 22. The removal unit 20 includes, a vertical internal partition 61 whose lower end starts from the edge of the second horizontal partition 22 and whose upper end extends to a point spaced downward from the first horizontal partition 21; and a plurality of horizontal internal partitions 62 spaced apart from each other to form a multi-layer structure, wherein a first removal part vertical passage 71 is formed between the outer wall of the upper vertical passage 51 and the vertical internal partition 61, and , a second removal unit vertical passage 72 is formed between the vertical internal partition 61 and the housing 40, and the plurality of horizontal internal partitions 62 are connected to the first removal unit vertical passage 71 and the second removal unit. It is arranged horizontally in the vertical passage 72 to form a zigzag-shaped flow path, and a plasma discharge tube 50 is disposed between a plurality of horizontal internal partitions 62 spaced apart from each other, and each of the plurality of horizontal internal partitions 62 A UV lamp 60 is provided at the lower and/or upper part, and the contaminated air introduced through the intake unit 10 flows through the upper vertical passage 51, the first removal unit vertical passage 71, and the second removal unit vertical passage. An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, which moves along the passage 72, can be provided.

The industrial air purification and sterilization device according to one aspect of the present invention can improve air quality by including a filter, a UV lamp, and a plasma discharge tube, and the path of the incoming air is formed in a zigzag shape so that the air stays in the housing. Alternatively, the inflow amount can be increased, and bad odors can be removed by providing a liquid spray nozzle.

1 is a diagram schematically showing an industrial air purification sterilization device according to one embodiment of the present invention.
Figure 2 is a diagram schematically showing a perspective view of an industrial air purification sterilization device according to one embodiment of the present invention.

Figure 1 is a diagram schematically showing an industrial air purification and sterilization device according to one embodiment of the present invention, and more specifically, a vertical cross-sectional view, and Figure 2 is a diagram showing an industrial air purification and sterilization device according to an embodiment of the present invention. This is a drawing schematically showing a perspective view.

Referring to Figures 1 and 2, an industrial air purification sterilization device using the synergy effect of ion clusters and UVC according to one embodiment of the present invention includes a housing 40, a removal unit 20, and a first horizontal partition ( 21), a second horizontal partition 22, and an upper vertical passage 51.

The housing 40 may include an intake part 10 through which contaminated air is sucked and an exhaust part 30 through which purified air is discharged.

The intake unit 10 may include an intake port (not shown) through which contaminated air is sucked in, and an intake fan (not shown) for sucking in the contaminated air.

The exhaust unit 30 may include an exhaust port (not shown) through which purified air is discharged and an exhaust fan (not shown) for discharging the air.

The removal unit 20 may be provided downstream of the intake unit 10 and upstream of the exhaust unit 30 within the housing 40. The terms “upstream” and “downstream” used in this specification are defined based on the flow of air sucked through the intake unit 10.

The first horizontal partition 21 is disposed between the intake unit 10 and the removal unit 20 and may be provided with a first opening 41.

The second horizontal partition 22 may be spaced apart from the housing 40 and disposed between the removal unit 20 and the exhaust unit 30.

The upper vertical passage 51 may be formed with its upper end starting from the first opening 41 and its lower end extending to a point spaced upward from the second horizontal partition 22.

More specifically, the removal unit 20 may include a vertical internal partition wall 61 and a plurality of horizontal internal partition walls 62. The vertical internal partition 61 may have its lower end starting from the edge of the second horizontal partition 22 and its upper end extending to a point spaced downward from the first horizontal partition 21. The plurality of horizontal internal partition walls 62 may be configured to be spaced apart from each other to form a multi-layer structure.

Meanwhile, a first removal part vertical passage 71 is formed between the outer wall of the upper vertical passage 51 and the vertical internal partition 61, and a second removal part vertical is formed between the vertical internal partition 61 and the housing 40. A passage 72 may be formed.

Additionally, the plurality of horizontal internal partition walls 62 may be disposed horizontally in the first removal unit vertical passage 71 and the second removal unit vertical passage 72 to form a zigzag-shaped flow path.

In addition, a plasma discharge tube 50 is disposed between a plurality of horizontal internal partitions 62 spaced apart from each other, and a UV lamp 60 may be provided below and/or above each of the plurality of horizontal internal partitions 62.

The plasma discharge tube 50 may include a ground electrode and a discharge electrode. The plasma discharge tube 50 may be fixed directly inside the air purification sterilization device, but may also be fixed by a fixture made of a highly heat-resistant material. Since high-voltage current is transmitted to the ground electrode and the discharge electrode by the power supply, the fixture 50 may be fixed directly inside the air purification sterilization device. Ethylene resin such as Teflon, which has good heat resistance and insulation, can be used. The power supply unit (not shown) is provided to apply power for discharge at different voltages to one or both of the ground electrode and the discharge electrode. When power is supplied to the ground electrode and the discharge electrode through the power supply unit, the ground electrode and the discharge electrode are provided. Corona discharge occurs between electrodes. When a corona discharge occurs between the ground electrode and the discharge electrode, various chemically active species may be generated between the ground electrode and the discharge electrode. For example, oxidizing active species may be formed, and odor-causing substances passing through the corona discharge space may be removed by the oxidizing active species.

The UV lamp 60 suffices as a lamp that irradiates ultraviolet rays, and may be, for example, a UV LED lamp.

According to this configuration, in the industrial air purification and sterilization device according to the present invention, the contaminated air introduced through the intake unit 10 flows through the upper vertical passage 51, the first removal unit vertical passage 71, and the second removal unit vertical passage. You can move along the passage (72).

In Figures 1 and 2, arrows indicate the direction of air flow.

In another embodiment of the present invention, the UV lamps 60 provided on the plurality of horizontal internal partitions 62 may be arranged to face each other. By arranging the UV lamps 60 to face each other, contaminated air can be sterilized more effectively.

In another embodiment of the present invention, the plasma discharge tube 50 may be provided between UV lamps 60 arranged to face each other. By providing a plasma discharge tube 50 between UV lamps 60 arranged to face each other, contaminated air can be sterilized more effectively using the synergy effect of plasma and UV.

In another embodiment of the present invention, the industrial air purification sterilization device according to the present invention may further include a third horizontal partition 23 and a lower vertical passage 52.

The third horizontal partition 23 is disposed between the removal unit 20 and the exhaust unit 30 and may be provided with a second opening 42.

The lower vertical passage 52 may be formed so that its upper end starts from the second opening 42 and its lower end extends downward. A spray nozzle 31 may be provided in the lower vertical passage 52. The air that has passed through the removal unit 20 moves to the exhaust unit 30 along the lower vertical passage 52, and at this time, the spray nozzle 31 sprays liquid toward the air moving along the lower vertical passage 52. It can be configured to do so. Accordingly, the bad odor of the contaminated air can be removed and/or the contaminated air can be sterilized.

Liquid may be supplied to the spray nozzle 31 through a water supply pipe connected to the outside of the air purification and sterilization device. Water can be used as a liquid, and chemicals to remove odors, such as sodium hypochlorite (NaOCl), caustic soda (NaOH), hydrogen peroxide (H ₂ O ₂ ), hydrogen dioxide, ammonia, chlorine dioxide (ClO ₂ ), hypochlorite Water with added chloric acid (HOCl), chlorine dioxide, etc. can be used.

In another embodiment of the present invention, the industrial air purification sterilization device according to the present invention may further include a first filter 43 and/or a second filter 44. The first filter 43 may be disposed in the upper vertical passage 51, and the second filter 44 may be disposed between the removal unit 20 and the third horizontal partition 23.

The first filter 43 and the second filter 44 may be made of fine mesh or non-woven fabric. Preferably, it is composed of a multi-layer fine mesh or a multi-layer non-woven fabric, and a filler may be filled between the fine mesh or non-woven fabric. Fillers such as activated carbon may be used.

In another embodiment of the present invention, in the industrial air purification and sterilization device according to the present invention, a detection unit 80 configured to detect the degree of contamination of the air passing through the removal unit 20 will be provided inside the exhaust unit 30. You can.

Hereinafter, various embodiments of the present invention will be described.

(1) a housing 40 including an intake part 10 through which contaminated air is sucked and an exhaust part 30 through which purified air is discharged; A removal unit 20 provided downstream of the intake unit 10 and upstream of the exhaust unit 30 inside the housing 40; A first horizontal partition 21 disposed between the intake unit 10 and the removal unit 20 and provided with a first opening 41; a second horizontal partition 22 spaced apart from the housing 40 and disposed between the removal unit 20 and the exhaust unit 30; And an upper vertical passage 51 whose upper end starts from the first opening 41 and whose lower end extends to a point spaced upward from the second horizontal partition 22. The removal unit 20 includes, a vertical internal partition 61 whose lower end starts from the edge of the second horizontal partition 22 and whose upper end extends to a point spaced downward from the first horizontal partition 21; and a plurality of horizontal internal partitions 62 spaced apart from each other to form a multi-layer structure, wherein a first removal part vertical passage 71 is formed between the outer wall of the upper vertical passage 51 and the vertical internal partition 61, and , a second removal unit vertical passage 72 is formed between the vertical internal partition 61 and the housing 40, and the plurality of horizontal internal partitions 62 are connected to the first removal unit vertical passage 71 and the second removal unit. It is arranged horizontally in the vertical passage 72 to form a zigzag-shaped flow path, and a plasma discharge tube 50 is disposed between a plurality of horizontal internal partitions 62 spaced apart from each other, and each of the plurality of horizontal internal partitions 62 A UV lamp 60 is provided at the lower and/or upper part, and the contaminated air introduced through the intake unit 10 flows through the upper vertical passage 51, the first removal unit vertical passage 71, and the second removal unit vertical passage. An industrial air purification sterilization device using the synergy effect of ion clusters and UVC that moves along the passageway (72).

(2) An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, in which the UV lamps 60 provided on the plurality of horizontal internal partitions 62 are arranged to face each other.

(3) An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, where the plasma discharge tube 50 is provided between UV lamps 60 arranged to face each other.

(4) a third horizontal partition 23 disposed between the removal unit 20 and the exhaust unit 30 and provided with a second opening 42; and a lower vertical passage 52 whose upper end starts from the second opening 42 and whose lower end extends downward, wherein the lower vertical passage 52 is provided with a spray nozzle 31 and a removal unit. The air passing through (20) moves to the exhaust unit 30 along the lower vertical passage 52, and the spray nozzle 31 is configured to spray liquid toward the air moving along the lower vertical passage 52, Industrial air purification sterilization device using the synergy effect of ion cluster and UVC.

(5) a first filter (43) disposed in the upper vertical passage (51); And/or a second filter (44) disposed between the removal unit (20) and the third horizontal partition (23); Industrial air purification sterilization device using the synergy effect of ion clusters and UVC.

(6) An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, which is provided inside the exhaust unit 30 with a detection unit 80 configured to detect the degree of contamination of the air passing through the removal unit 20. .

10: intake section, 20: removal section, 30: exhaust section, 40: housing, 50: plasma discharge tube, 60: UV lamp

Claims (6)

A housing 40 including an intake part 10 through which contaminated air is sucked and an exhaust part 30 through which purified air is discharged;
A removal unit 20 provided downstream of the intake unit 10 and upstream of the exhaust unit 30 inside the housing 40;
A first horizontal partition 21 disposed between the intake unit 10 and the removal unit 20 and provided with a first opening 41;
a second horizontal partition 22 spaced apart from the housing 40 and disposed between the removal unit 20 and the exhaust unit 30; and
An upper vertical passage 51 whose upper end starts from the first opening 41 and whose lower end extends to a point spaced upward from the second horizontal partition 22;
Includes,
The removal unit 20 is
a vertical internal partition 61 whose lower end starts from the edge of the second horizontal partition 22 and whose upper end extends to a point spaced downward from the first horizontal partition 21; and
A plurality of horizontal internal partitions 62 spaced apart from each other to form a multi-layer structure;
Includes,
A first removal part vertical passage 71 is formed between the outer wall of the upper vertical passage 51 and the vertical internal partition wall 61,
A second removal vertical passage 72 is formed between the vertical internal partition 61 and the housing 40,
A plurality of horizontal internal partition walls 62 are arranged horizontally in the first removal unit vertical passage 71 and the second removal unit vertical passage 72 to form a zigzag-shaped flow path,
A plasma discharge tube 50 is disposed between a plurality of horizontal internal partitions 62 spaced apart from each other,
A UV lamp 60 is provided below and/or above each of the plurality of horizontal internal partitions 62,
Contaminated air introduced through the intake unit (10) moves along the upper vertical passage (51), the first removal unit vertical passage (71), and the second removal unit vertical passage (72), ionic clusters and UVC. Industrial air purification sterilization device using synergy effect. In claim 1,
An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, where the UV lamps 60 provided on the plurality of horizontal internal partitions 62 are arranged to face each other. In claim 2,
The plasma discharge tube 50 is provided between UV lamps 60 arranged to face each other, and is an industrial air purification sterilization device using the synergy effect of ion clusters and UVC. In claim 1,
a third horizontal partition 23 disposed between the removal unit 20 and the exhaust unit 30 and having a second opening 42; and
a lower vertical passage 52 whose upper end starts from the second opening 42 and whose lower end extends downward;
It further includes,
The lower vertical passage 52 is provided with a spray nozzle 31,
The air passing through the removal unit 20 moves to the exhaust unit 30 along the lower vertical passage 52,
The spray nozzle 31 is configured to spray liquid toward the air moving along the lower vertical passage 52. An industrial air purification sterilization device using the synergy effect of ion clusters and UVC. In claim 1,
A first filter (43) disposed in the upper vertical passage (51); and/or
a second filter 44 disposed between the removal unit 20 and the third horizontal partition 23;
Industrial air purification sterilization device using the synergy effect of ion cluster and UVC, further comprising: In claim 1,
An industrial air purification sterilization device using the synergy effect of ion clusters and UVC, which is provided inside the exhaust unit 30 with a detection unit 80 configured to detect the degree of contamination of the air passing through the removal unit 20.