KR20190088258A - Plasma purification vehicle eliminating of bacteria and virus, and Method thereof - Google Patents

Abstract

The present invention relates to a plasma air purifying unit, comprising: a case in which a suction port is formed at one side and an exhaust port is formed at the other side; a filter installed at the suction port side in the case; a long wavelength plasma lamp disposed behind the filter in the case and sterilizing airborne microorganisms contained in the air flowing through the case through plasma emission; a single wavelength plasma lamp for removing contaminants attached to a surface of the long wavelength plasma lamp; a microbial sensor for measuring the airborne microorganisms contained in the air; and a control unit for controlling the amount of power of the long wavelength plasma lamp and the single wavelength plasma lamp.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma purification vehicle having a function of removing bacteria and viruses,

The present disclosure relates to a portable air purification special vehicle configured to be able to carry out an environmental purification actively in the field, such as a truck, by mounting an air purification unit on a moving vehicle and moving freely to a specific area where air purification is required.

Unless otherwise indicated herein, the descriptions set forth in this identification are not prior art to the claims of the originator and are not to be construed as prior art as described in this identification.

Generally, the air purifier has a structure for forcibly sucking contaminated air in a sealable space such as the inside of a room or a vehicle, and collecting and removing dust, harmful substances and odors through various filters and a sterilizing unit, and then discharging purified air again .

Such an air purifying apparatus is usually fixedly installed at a predetermined place such as a ceiling or a dashboard of a car body, so there is a limitation in using the air purifier by moving it to a site requiring air purification.

In recent years, mobile air purification apparatuses have been developed in which an air purification unit is mounted on a moving vehicle to purify ambient air while traveling.

As an example of such a mobile air purification apparatus, Korean Patent Registration No. 10-0874991 (Dec. 19, 2008) discloses an electric vehicle having a wheel, a battery for supplying power to the electric vehicle, A brush provided on the electric motor vehicle and an air inlet port through which external air is introduced, and an air outlet port through which the external air introduced through the air inlet port is purified and discharged is formed, and the air inlet port A filter for discharging clean air to the air discharge port by removing contaminants from the outside air introduced through the air intake port into the inside is formed in a horizontal direction A dust collector installed in the electric motor vehicle, and a dust collector A turbo fan, a compressed air supply underground living space portable air purification apparatus comprises a supplying compressed air to the interior of the filter provided in the air discharge port are provided so that the groups are discharged.

Also, Korean Patent Laid-Open Publication No. 10-2010-0010668 (published on Feb. 22, 2010) discloses a vehicle that cleans road surfaces by sucking garbage, foreign matter, and dust, and is provided at the rear portion of the road surface cleaning vehicle to filter inhaled foreign substances, A water supply device installed at a lower portion of the inside of the body to supply water contained in the water supply portion, and a filter installed at the rear of the water supply device to filter the foreign matter, A main header provided between the eliminator and the eliminator and provided with a nozzle for spraying and filtering out the foreign matter sucked by the water, A metal mesh filter installed between the eliminator and the eliminator for filtering air passing through the main header, The road cleaning vehicle air-purifying device comprising the pre-filter is installed on the inner upper end of the body is disclosed in order to purify the air passing through the eliminator.

However, since the conventional portable air cleaning apparatus as described above is merely used for collecting dust or foreign matter scattered in the course of sweeping the bottom or road surface of an underground living space such as a subway with a brush, There is a limit to moving air around the site.

In addition, since the conventional mobile air purification apparatus is configured to collect dust or foreign matter through a general filter or dust collector, it is possible to sterilize the avian influenza virus contained in the air around the migratory birds or to prevent the virus contained in the poultry farm There is a limitation in that it is used for the purpose of removing odors or removing odors generated in a landfill or the like.

Patent Document 1: Korean Patent Registration No. 10-0874991 (published on Dec. 19, 2008) Patent Document 2: Korean Patent Publication No. 10-2010-0010668 (published on Feb. 2, 2010)

The present invention is to provide a portable plasma air cleaning apparatus capable of moving an air purification unit in a moving vehicle such as a truck freely to a specific area where air purification is required and actively purifying the environment in the field.

It is another object of the present invention to provide a portable plasma air cleaning apparatus capable of effectively removing harmful bacteria and viruses by plasma as well as collecting dust and foreign matter.

Further, in operating the portable plasma air cleaning apparatus, more than two plasma lamps having different wavelengths are used to remove and improve the contamination of the lamp, thereby improving the ease of maintenance of the plasma lamp, . ≪ / RTI >

Further, it is obvious that the present invention is not limited to the above-described technical problems, and another technical problem may be derived from the following description.

A mobile plasma air cleaning apparatus according to an embodiment of the present disclosure is installed on a loading table of a moving vehicle and sucks ambient air to the inside to collect dust and foreign matter and disinfects harmful bacteria and viruses through plasma Wherein the plasma air cleaning unit includes a case having a suction port formed on one side and an exhaust port formed on the other side, and a filter disposed on the suction port side in the case, wherein the plasma air cleaning unit includes: A long wavelength plasma lamp disposed at the rear of the filter in the case to sterilize and sterilize the floating microorganisms contained in the air flowing through the case through the plasma emission; A single-wavelength plasma lamp for measuring airborne microorganisms To provide a sensor for measuring microorganisms, the removable plasma air purification system comprising: a controller for controlling said single-wavelength light the plasma power and the long-wavelength plasma lamp.

The single wavelength plasma lamp may produce a wavelength of 253.7 nm.

The long wavelength plasma lamp can generate a wavelength of 170 to 385 nm.

The control unit may adjust the power supplied to the single-wavelength plasma lamp and the long-wavelength plasma lamp according to the microorganism measurement value of the microorganism measurement sensor.

The microorganism measurement sensor may include a rear microorganism measurement sensor positioned between the filter and the long wavelength plasma lamp and a front microorganism measurement sensor positioned between the exhaust port and the long wavelength plasma lamp.

And one or more perforated plates for increasing the time during which the air passing through the inside of the case stays in the case.

Also, the present invention provides a method for removing floating microorganisms including bacteria and viruses in the air using the portable plasma air cleaning apparatus.

According to the embodiment of the disclosure, for example, a plasma air purifying unit for purifying ambient air is mounted on a moving vehicle such as a truck, for example, a migratory birds exposed to avian influenza virus, a poultry farm, It is possible to freely move to a specific area where air purification is required, such as a heavy waste landfill, and actively purify the environment in the field.

In addition, according to the embodiment of the present disclosure, since a filter and a plasma lamp are provided in a plasma air cleaning unit mounted on a moving vehicle, harmful bacteria and viruses can be effectively removed by plasma as well as collecting dust and foreign matter have.

In addition, according to the embodiments of the present disclosure, contaminants attached to the surface of a long wavelength plasma lamp are removed through a single wavelength plasma lamp as well as a long wavelength plasma lamp having excellent cleaning ability against a wide range of bacteria and viruses, It is possible to maintain the efficiency and improve the maintenance performance of the long-wavelength plasma lamp.

1 is a structural view of a mobile plasma air cleaning apparatus.
2 is a view showing the concept of an air purification unit.
3 is a structural view as viewed from the side of the air purifying unit.
4 is a top view of the air purifying unit.
5 is a view showing the air purifying unit viewed from the rear side.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration, operation, and effects of a movable plasma air cleaning apparatus according to a preferred embodiment will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically shown for convenience and clarity, and the size of each component does not reflect actual size. Like reference numerals refer to like elements throughout the specification, and the same reference numerals will be omitted in the drawings.

2 is a schematic structural view of a mobile plasma air cleaning apparatus according to one embodiment of the present disclosure;

As shown in FIG. 1, the mobile plasma air cleaning apparatus according to an embodiment of the present disclosure sucks ambient air into the interior to collect dust and foreign matter, disinfects harmful germs and viruses through plasma, And a plasma air cleaning unit. The air-purifying unit can be loaded on a moving vehicle. Here, the moving vehicle can be used as a portable air-conditioning unit, for example, when it is necessary to purify air, such as migratory birds exposed to avian influenza virus, poultry kennels, And includes a driver's seat for driving the moving vehicle and a wheel for driving movement. The driver's seat for driving the moving vehicle is provided with a loading table for mounting the generator and the plasma air-cleaning unit.

It is preferable that the moving vehicle is formed by a truck that is easy to mount the generator and the plasma air cleaning unit.

The aforementioned moving vehicle may include a generator on the loading table. The generator supplies power necessary for the operation of the plasma air cleaning unit in the field, and can be formed of a self-generator for a vehicle used for a rescue vehicle such as a military vehicle, a fire engine, an ambulance, or a broadcast vehicle.

Preferably, the generator is secured on the front side of the loading table of the moving vehicle.

A plasma air purifying unit is provided on the loading table of the aforementioned moving vehicle. The plasma air cleaning unit is operated by electricity generated by a generator and sucks ambient air to the inside to collect dust and foreign matter, and disinfects harmful germs and viruses through plasma and discharges them.

A detailed configuration of such a plasma air cleaning unit is shown in Fig.

As shown in FIG. 2, the plasma air cleaning unit includes a case having a suction port formed at one side thereof and an exhaust port formed at the other side thereof, a filter provided on the suction port side in the case, A plasma lamp for sterilizing and disinfecting the bacteria and viruses contained in the air passing through the case through the case, and an intake fan installed in the case at the rear of the plasma lamp.

The case corresponds to a reaction chamber in which the air around the site where the moving vehicle is parked is formed with an air movement path through which the air is drawn by the suction fan, and at the same time, the primary sterilization by the plasma is performed. And an exhaust port that extends horizontally toward the rear and extends horizontally, and an internal space in which a filter, a plasma lamp, and an intake fan are installed is formed inside.

The filter installed on the suction port side in the case pre-collects dust and foreign substances contained in the ambient air introduced into the case prior to disinfection by plasma, and can be replaced with a replaceable nonwoven filter, a HEPA filter, a carbon filter, a porous ceramic filter It may be formed with various filters, and in particular, it is preferably formed of a water-washing filter.

The plasma lamp installed at the rear of the filter in the case emits a plasma to photo-dissociate oxygen molecules and water molecules in the air to form various active oxygen radicals and hydroxyl radicals, resulting in strong redox potentials of reactive oxygen radicals and hydroxyl radicals. It acts to remove substances (bacteria, viruses, chemicals, etc.) and odors in a cascade.

The plasma lamp, which is installed at the rear of the filter in the case, is a type of low-temperature oxygen plasma lamp that emits ultraviolet rays to photo-dissociate oxygen molecules and water molecules in the air and forms various active oxygen radicals and hydroxyl radicals, It can play a role of removing harmful substances (bacteria, viruses, chemicals, etc.) and odors in a chain by strong oxidizing and reducing power of hydroxyl radicals.

The plasma lamp is preferably formed by a photocatalyst coated ultraviolet lamp. The ultraviolet lamp has a band of 150 to 400 nanometers. Ultraviolet rays can destroy harmful organic molecules. Ultraviolet light (for example, when the wavelength is 100 to 280 nm) can destroy the electron bonds of organic molecules. The shorter the wavelength, the more light energy is generated and the molecular bond breaks down. All organic matter can be photolyzed in a constant UV wavelength band.

The photocatalyst is preferably titanium dioxide (TiO2). Titanium dioxide (TiO2) is a photocatalyst having a semiconductor property, when irradiated with ultraviolet rays on the surface and the plasma state and the oxygen and water molecule As wake in the air which passes through the periphery, the therefrom generated singlet oxy immersion (O ^- ), superoxide anion (O ₂ ^- perform), hydro-immersion proton (H ^+)), such as reactive oxygen radicals and hydroxyl radicals are sterilized purification ^-), hydroxyl radical (OH ^-), PO Systolic ozone (O ₃ do.

Hydroxyl radical (OH ·), superoxide anion (O ₂ ^-), hydro-immersion proton (H ^+), a number of other Oxygen ions ^{_{(O -, O 2 -,}} O +, O +2, O 2 +) ) And hydroxyl radicals have strong oxidizing power, and hydrogen cations (hydrocyclone protons) have strong reducing power at the same time.

These materials chemically interact with the contaminants, return to carbon dioxide and water, and combine with contaminants, and the regenerated hydroxyl groups after the decomposition reaction act as stronger oxidizing agents.

The plasma lamp can be classified into a long wavelength plasma lamp that emits ultraviolet rays having a wide wavelength range and a single wavelength plasma lamp that emits ultraviolet rays having a narrow wavelength range according to properties of a wavelength to be used. Long wavelength plasma lamps are capable of removing viruses, fine dusts, and VOCs, while single wavelength plasma lamps are capable of decomposing compounds in addition to decomposition of volatile organic compounds, reactive organic compounds, and quasi-volatile organic compounds, It is possible to remove biofilm.

A single wavelength plasma lamp produces a wavelength of 253.7 nm, and a long wavelength plasma lamp can produce a wavelength of 170 to 385 nm.

In particular, single-wavelength plasma lamps produce hydroxyl radicals, which can remove organic materials (oil), absorbed by organic materials such as oil, to increase the molecular activity of the material, Destroys the organic material to carbon dioxide and moisture.

In addition, long wavelength plasma lamps produce oxygen radicals, which are highly virus / bactericidal.

Particularly, by decomposing the organic material, which is a cause of the lamp efficiency and life span, it is possible to extend the life of the lamp. Organic materials accumulated on the surface of the lamp are prevented from UV irradiation of the lamp, thereby reducing the purification efficiency. Such organic compounds can be decomposed and removed through a single wavelength plasma lamp.

The single-wavelength plasma lamp and the long-wavelength plasma lamp may be used individually or simultaneously, but are preferably used at the same time. The control of the single wavelength plasma lamp and the long wavelength plasma lamp can be implemented through a separate control unit.

When the efficiency of the long-wavelength plasma lamp is deteriorated due to the accumulation of the use time and the contamination degree of the lamp according to the operating time of the long-wavelength plasma lamp, the control unit controls the single wavelength optical plasma lamp to selectively operate in order to improve the efficiency of the long- can do.

The control unit may be controlled by controlling a strategy amount supplied to each lamp. When the supplied strategy amount is 0, the lamp stops operating. When the maximum amount of power is supplied, the maximum performance of the lamp is exerted.

The efficiency of the long wavelength plasma lamp can be measured by the degree of removal of airborne bacteria, and the degree of removal of airborne bacteria (purification efficiency) depends on the air before passing through the long wavelength plasma lamp and the air floating after passing through the long wavelength plasma lamp Can be measured through comparison of bacterial readings (CFU / m ² ) and readings.

The specific values of airborne bacteria, the purification efficiency of the long wavelength plasma lamp, the relationship between the strategy amount supplied to the long wavelength plasma lamp and the single wavelength plasma lamp are as follows.

Comparison of floating bacteria measurement (%)
 (Front panel sensor: Rear panel sensor) Long-wavelength plasma lamp cleaning efficiency (%)
The amount of power supplied to the long-wavelength plasma lamp (%) The amount of power supplied to the single-wavelength plasma lamp (%) 0 to 10: 100 90-100 100 0 10 to 20: 100 80 ~ 90 90 10 20 to 30: 100 70 ~ 80 80 20 30 to 40: 100 60 to 70 70 30 40 to 50: 100 50 to 60 60 40 50 to 60: 100 Less than 50 50 50

When 90% of the airborne bacteria removed by the long-wavelength plasma lamp exceeds the amount of power supplied to the long-wavelength plasma lamp, the amount of power supplied to the single-wavelength plasma lamp becomes zero.

Specifically, when the purifying efficiency of the long wavelength plasma lamp is reduced from 95% to 85%, it is determined that the deterioration of the purifying efficiency is the contamination of the long wavelength plasma lamp. In order to improve the lamp contamination and improve the lamp cleaning efficiency, The lamp is turned on. When the pollution degree of the long wavelength lamp is improved by the operation of the single wavelength plasma lamp, the purification efficiency is increased. When the purification efficiency exceeds 90%, the amount of power supplied to the single wavelength plasma lamp becomes 0% The operation is stopped.

Through this control, the efficiency of purifying by the long-wavelength plasma lamp can be maintained while consuming less power.

A separate socket frame is provided for the interchangeable installation and power supply of the plasma lamp, and an operation switch or the like may be additionally provided.

A perforated plate may be added to increase the residence time of the perforating air in the case. The perforated plate may change the flow of air to form a vortex, thereby extending the air retention time in the case.

The suction fan installed at the rear of the plasma lamp in the case generates a suction force for circulating ambient air around the case into the case. In particular, the suction fan generates a strong suction force that can discharge air to the rear of the case to about 30 to 50 m It is preferably formed as a fan.

An oxygen tank may be included in the case for the smooth generation of oxygen radicals through a short wavelength plasma lamp, and oxygen may be supplied into the case through a connection pipe.

The plasma air purifying unit may be installed on the loading table of the moving vehicle, or a plurality of the plasma air purifying units may be stacked in layers.

As described above, the portable plasma air cleaning apparatus according to one embodiment of the present disclosure is equipped with a plasma air cleaning unit that enables cleaning of ambient air to a moving vehicle such as a truck, for example, It is possible to freely move to a specific area where air purification is required, such as a migratory bird exposed to viruses, a poultry farm, or a landfill having a bad odor, so that the environment can be actively cleaned in the field.

The portable plasma air cleaning apparatus according to an embodiment of the present disclosure is provided with a filter and a plasma lamp in a plasma air cleaning unit mounted on a moving vehicle to collect dust and foreign matter as well as to collect bacteria, Harmful substances and odors can be effectively removed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the present invention. It is to be understood that various equivalents and modifications may be substituted for those at the time of the present application. It is to be understood, therefore, that the above description is intended to be illustrative, and not restrictive, and that the scope of the present invention will be defined by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

Claims (7)

A case provided with a suction port formed on one side and an exhaust port formed on the other side; a filter provided on the suction port side in the case; an air filter disposed in a rear of the filter in the case, A single wavelength plasma lamp for removing contaminants adhering to the surface of the long wavelength plasma lamp, a microorganism measurement sensor for measuring the suspended microorganisms contained in the air, a long wavelength And a control unit for controlling a power amount of the plasma lamp and the single wavelength plasma lamp. The method according to claim 1,
Wherein the single wavelength plasma lamp generates a 253.7 nm wavelength. The method according to claim 1,
Wherein the long wavelength plasma lamp generates a wavelength of 170 to 385 nm. The method according to claim 1,
Wherein the controller adjusts the power supplied to the single-wavelength plasma lamp and the long-wavelength plasma lamp according to the microorganism measurement value of the microorganism measurement sensor. The method according to claim 1,
Wherein the microbial measurement sensor includes a backside microorganism measurement sensor positioned between the filter and the long wavelength plasma lamp, and a front side microorganism measurement sensor positioned between the exhaust hole and the long wavelength plasma lamp. The method according to claim 1,
Further comprising at least one perforated plate for increasing the time during which the air passing through the inside of the case stays in the case. A method for removing suspended microorganisms in air using the portable plasma air cleaning apparatus of claim 1.

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