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WO2024117502A1 - Photocatalyst module having multi-wavelength ultraviolet rays applied thereto and air purifier using same - Google Patents

Photocatalyst module having multi-wavelength ultraviolet rays applied thereto and air purifier using same Download PDF

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Publication number
WO2024117502A1
WO2024117502A1 PCT/KR2023/014916 KR2023014916W WO2024117502A1 WO 2024117502 A1 WO2024117502 A1 WO 2024117502A1 KR 2023014916 W KR2023014916 W KR 2023014916W WO 2024117502 A1 WO2024117502 A1 WO 2024117502A1
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WO
WIPO (PCT)
Prior art keywords
light source
photocatalyst
plate
light sources
photocatalyst filter
Prior art date
Application number
PCT/KR2023/014916
Other languages
French (fr)
Korean (ko)
Inventor
강용훈
정원영
Original Assignee
유버 주식회사
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020220177499A external-priority patent/KR20240081237A/en
Application filed by 유버 주식회사 filed Critical 유버 주식회사
Publication of WO2024117502A1 publication Critical patent/WO2024117502A1/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/16Disinfection, sterilisation or deodorisation of air using physical phenomena
    • A61L9/18Radiation
    • A61L9/20Ultraviolet radiation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/34Chemical or biological purification of waste gases
    • B01D53/74General processes for purification of waste gases; Apparatus or devices specially adapted therefor
    • B01D53/86Catalytic processes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/28Arrangement or mounting of filters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • F24F8/108Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering using dry filter elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • F24F8/15Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by chemical means
    • F24F8/167Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by chemical means using catalytic reactions
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/20Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation
    • F24F8/22Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation using UV light
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2130/00Control inputs relating to environmental factors not covered by group F24F2110/00
    • F24F2130/20Sunlight

Definitions

  • the present invention relates to a device that decomposes and purifies harmful gases in gases by irradiating ultraviolet rays with different peak wavelengths to a photocatalyst using a UV-LED (ultra-violet light emitting diode).
  • UV-LED ultraviolet light emitting diode
  • Air purifiers that utilize the phenomenon in which harmful gases in contact with the photocatalyst are decomposed and purified when ultraviolet rays are irradiated to the photocatalyst are becoming popular.
  • UV-LEDs ultraviolet LEDs
  • Light generated from an LED has the characteristic of focusing the light intensity at the peak wavelength. Accordingly, the conventional air purifier using an ultraviolet LED was manufactured using an ultraviolet LED with a peak wavelength that has high luminous efficiency compared to power consumption.
  • the present invention was devised to solve the above-mentioned problems, and seeks to provide an air purifier that can further increase air purification efficiency by including an ultraviolet LED with a peak wavelength suitable for the environment in which the air purifier is installed.
  • the present invention seeks to provide an air purifier that can efficiently perform a purification function even in different environments by applying ultraviolet LEDs of various peak wavelengths.
  • the present invention seeks to provide an air purifier whose purification capacity can be easily increased.
  • the present invention for solving the above-described problem includes: a plurality of photocatalyst filters having an outer perimeter of a predetermined width and a predetermined height and spaced apart along the longitudinal direction; A plurality of light sources including a first light source including an ultraviolet LED having a first peak wavelength and a second light source including an ultraviolet LED having a second peak wavelength different from the first peak wavelength; and a housing for accommodating the photocatalyst filter and the light source.
  • the light source may include a third light source including an ultraviolet LED having a third peak wavelength different from the first and second peak wavelengths.
  • the light source may include an N-th light source including an ultraviolet LED having an N-th peak wavelength different from the 1st to N-1th peak wavelengths.
  • the N may be a natural number of 4 or more.
  • a plurality of light sources are spaced apart along the width direction.
  • the peak wavelengths of two light sources neighboring in the width direction are different.
  • the peak wavelengths of the two light sources provided in front and behind the photocatalyst filter, but arranged closest in the width direction, are different from each other.
  • Some of the other light sources among the plurality of light sources may be a second type of light source extending from the other end toward one end in the vertical direction.
  • One of the two light sources adjacent in the width direction may be a first type light source and the other may be a second type light source.
  • one of the two light sources provided in front and behind the photocatalyst filter, respectively, and arranged closest in the width direction is a first type light source.
  • the other may be a second type of light source.
  • the light source includes: a base substrate provided at one end in the vertical direction; An ultraviolet LED mounted on the base substrate; A condensing lens provided on the ultraviolet LED; and a light guide lens whose incident surface faces the output surface of the condenser lens and extends in the vertical direction.
  • the light source includes: an extension substrate extending in a vertical direction from one end to the other end; Ultraviolet LEDs mounted spaced apart in the vertical direction on the extension board; And it may be a light source of a second structure including a lens provided on the ultraviolet LED.
  • the extension board may be connected to a base board provided at one end in the vertical direction.
  • the light source includes: an inclined substrate extending obliquely from one end in a vertical direction; Ultraviolet LEDs mounted spaced apart in the width direction on the inclined substrate; And it may be a light source of a third structure including a lens provided on the ultraviolet LED.
  • the inclined substrate may be connected to a base substrate provided at one end in the vertical direction.
  • the plurality of light sources may include at least one of a light source of the first structure, a light source of the second structure, and a light source of the third structure.
  • the plurality of photocatalyst filters may be connected to each other by a corner frame extending in the longitudinal direction to connect the corner portion of the width direction end and the height direction end of each photocatalyst filter to form a photocatalyst filter module.
  • An intake filter may be provided in front of the photocatalyst filter to block foreign substances from entering the housing.
  • Side surfaces of the plurality of photocatalyst filters may be supported by side supports disposed between the photocatalyst filter and the side plate.
  • the side support may include a side blocking plate that extends in the front-back direction to block the sides of the space between two photocatalyst filters arranged adjacent to each other in the longitudinal direction.
  • the side support may further include a front blocking plate extending laterally from the front end of the side blocking plate and connected to the side plate.
  • a side additional plate may be interposed between the side blocking plate and the photocatalyst filter.
  • the side additional plate may be a reflector plate or a photocatalyst filter plate.
  • air purification efficiency can be further increased by including ultraviolet LEDs of different peak wavelengths suitable for the environment in which the air purifier is installed.
  • the present invention can efficiently perform a purification function even in different environments by applying ultraviolet LEDs of various peak wavelengths.
  • purification efficiency can be further increased by ensuring that ultraviolet rays of various peak wavelengths are evenly distributed in the width and length directions.
  • ultraviolet rays of various peak wavelengths are evenly distributed in the width and length directions, and purification efficiency can be further increased by inducing turbulence in the air.
  • the purification capacity can be increased simply by adding more photocatalyst filters in the longitudinal direction of the photocatalyst filter module and adding a light source correspondingly.
  • Figures 1 and 2 are a perspective view and an exploded perspective view of a photocatalyst filter module of an embodiment, respectively.
  • Figures 3 and 4 are an exploded perspective view and a perspective view of a housing containing a photocatalyst filter module of an embodiment, respectively.
  • Figure 5 is a plan view of the housing of the air purifier of the embodiment with the ceiling plate removed.
  • 6 to 9 are an exploded perspective view, a partially exploded perspective view, a perspective view, and a cross-sectional view of a light source according to the first embodiment of the light source module of the embodiment, respectively.
  • 10 and 11 are a perspective view and a cross-sectional perspective view of a light source according to a second embodiment of the light source module of the embodiment, respectively.
  • 12 and 13 are a perspective view and a cross-sectional view of a light source according to a third embodiment of the light source module of the embodiment, respectively.
  • Figure 14 is a side view of a light source module and a photocatalyst filter module in which the light source is installed in the first form.
  • 15 to 17 are side views of embodiments in which a light source module including light sources installed in a first type and a second type is coupled to a photocatalytic filter module.
  • Figure 18 is a plan view of Figure 14.
  • Figure 19 is a perspective view showing the light source module of Figure 15.
  • FIG. 20 is a cross-sectional perspective view showing a portion of the upper part of the light source module and the photocatalyst filter module of FIG. 15 cut away.
  • Figure 21 is a plan view of Figure 20.
  • Figure 22 is a graph showing the concentration of gas remaining after decomposition by a photocatalytic filter irradiated with ultraviolet rays having different peak wavelengths.
  • Photocatalyst filter module 11 Photocatalyst filter 12: Connection frame 123: Corner frame 125: Middle frame 20: Side support 21: Side blocking plate 22: Front blocking plate 23: Side additional plate holder 25: Side additional plate (reflector, filter plate) 30: housing 31: base plate 32: side plate 33: ceiling plate 34: intake face plate 341: intake port 342: intake fan 343: intake filter 35: exhaust face plate 351: exhaust port 352: exhaust fan 40: light source module 41: base substrate 42: Light source 42-N: N light source 421: Ultraviolet LED 422: Condenser lens 423: Light guide lens 425: Extension board 426: Inclined board 427: Lens
  • the present invention is not limited to the embodiments disclosed below, but may be subject to various changes and may be implemented in various different forms. This example is provided solely to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention. Therefore, the present invention is not limited to the embodiments disclosed below, but substitutes or adds to the configuration of one embodiment and the configuration of another embodiment, as well as all changes and equivalents included in the technical spirit and scope of the present invention. It should be understood to include substitutes.
  • the direction in which the air flows is defined as the longitudinal direction.
  • the longitudinal direction may correspond to the front-to-back direction. Forward may refer to the direction toward the upstream of the air flow, and rear may refer to the direction toward the downstream of the air flow.
  • Lateral refers to a direction that intersects the longitudinal direction
  • vertical or height direction refers to a direction that intersects both the longitudinal direction and the lateral direction.
  • the up and down direction does not necessarily correspond to the direction of gravity.
  • the side may correspond to the direction of gravity
  • the longitudinal direction may correspond to the direction of gravity. That is, the installation posture of the air purifier and the direction specified in the embodiment must be understood separately.
  • the photocatalyst filter 11 of the embodiment may be provided as a photocatalyst filter module 10 in which a plurality of photocatalyst filters 11 are spaced apart along the longitudinal direction.
  • the photocatalyst filter 11 may have a rectangular plate shape with a predetermined width and a predetermined height. The width and height of the photocatalyst filter 11 may be several centimeters to tens of centimeters.
  • the photocatalyst filter 11 may have a structure in which a photocatalyst material is coated on a mesh-shaped base.
  • the photocatalyst filter 11 may have a structure in which a photocatalyst material is sintered without a base.
  • the photocatalyst filter 11 may be made of a porous material that allows air to pass through in the longitudinal direction or the front-to-back direction.
  • the thickness of the photocatalyst filter 11 may be as thin as 1 mm or less, and may have fine holes of 1 mm or less.
  • the width and height of the photocatalytic filter 11 may be 15 cm and 15 cm.
  • five photocatalyst filters 11 may be prepared.
  • Each of the plurality of photocatalytic filters 11 may be arranged substantially perpendicular to the longitudinal direction or the front-to-back direction and may be spaced apart from the front-to-back direction.
  • the distance between two photocatalyst filters 11 neighboring in the front-back direction may be, for example, 5 to 10 cm.
  • the size and number of photocatalyst filters 11 can be changed as needed.
  • the plurality of photocatalyst filters 11 may be connected to each other by a connection frame 12 extending in the longitudinal direction to connect each photocatalyst filter in the front and rear directions to form a photocatalyst filter module 10.
  • connection frame 12 may include a corner frame 123 extending in the longitudinal direction to connect the corner portions of the width direction end and the height direction end of each photocatalyst filter.
  • connection frame 12 may include a middle frame 125 extending in the longitudinal direction to connect the central portion of the height direction end of each photocatalyst filter.
  • the corner frame 123 and the middle frame 125 are manufactured to be as thin as possible to maintain rigidity, thereby reducing the space occupied by the photocatalyst filter module 10 and preventing them from affecting the flow of air for the photocatalytic reaction. You can.
  • the photocatalyst filter 11 may have a rectangular plate shape with a plurality of porous portions penetrating in the longitudinal direction. In the embodiment shown in the drawing, only a portion of the porous portion penetrating in the longitudinal direction is shown for convenience, but it will be understood that the porous portion is provided over the entire area.
  • the photocatalytic filter module 10 may have an overall or substantially rectangular parallelepiped outline.
  • the photocatalyst filter module 10 and the light source module 40 which will be described later, can be accommodated inside the housing 30.
  • the housing 30 may also have a rectangular parallelepiped shape to correspond to the shape of the photocatalyst filter module 10.
  • the housing 30 is spaced apart from the front of the photocatalyst filter 11 and has an intake surface plate 34 provided with an intake port 341 for sucking air in the longitudinal direction, and is spaced from the rear of the photocatalyst filter 11.
  • An exhaust face plate 35 disposed and provided with an exhaust port 351 for discharging air in the longitudinal direction, a pair of side plates 32 spaced apart from each other on both sides of the photocatalytic filter 11, and the intake face plate ( 34) and a ceiling plate 33 extending longitudinally to connect the upper end of the exhaust face plate 35 and blocking the upper part of the photocatalyst filter 11, and the lower end of the intake face plate 34 and the exhaust face plate.
  • It may include a base plate 31 that extends in the longitudinal direction to connect the lower end of (35) and blocks the lower part of the photocatalytic filter 11.
  • the front and back sides of the photocatalyst filter module 10 may face the intake face plate 34 and the exhaust face plate 35 in the front and rear directions, respectively.
  • An intake fan 342 may be installed in the intake port 341, and an exhaust fan 352 may be installed in the exhaust port 351.
  • the front of the photocatalyst filter module 10 and the intake surface plate 34 may be arranged at a predetermined interval, for example, about 5 cm.
  • the size of the intake port 341 and the exhaust port 351 may be, for example, several centimeters to several tens of centimeters in diameter.
  • the air may be air in the atmosphere of general living areas, air in a special environment such as a factory, or mixed gas.
  • the air purifier may be used for domestic purposes, for example, or may be installed in air conditioning equipment of a building or factory.
  • An intake filter 343 may be provided in front of the photocatalyst filter 11 to block foreign substances from entering the housing 30.
  • the intake filter 343 may be provided in front of the intake fan 342.
  • ventilation holes are shown in a portion of the intake filter 343 for convenience, but it will be understood that the ventilation holes are provided over the entire area.
  • a control board for controlling the air purifier may be installed below the intake port 341 on the inner surface of the intake surface plate 34.
  • the control board may be provided between the lower surface of the photocatalyst filter module 10 and the base plate 31.
  • a space of several cm may be provided between the photocatalyst filter module 10 and the base plate 31.
  • the light source module 40 can block the lower part of the photocatalyst filter module 10.
  • the size and capacity of the photocatalyst filter module 10 can be flexibly and easily changed to suit the installation environment by adjusting the size of the photocatalyst filter 11, the number of photocatalyst filters 11, and the distance between the photocatalyst filters 11. You can. Additionally, additional photocatalyst filters 11 can be easily installed, providing excellent expandability.
  • the photocatalyst filter module 10 may be supported by a pair of side supports 20 respectively disposed between both sides of the photocatalyst filter module 10 and the pair of side plates 32.
  • the side support 20 may include a side blocking plate 21 extending in the front-back direction to block the sides of the space between two photocatalyst filters 11 arranged adjacent to each other in the longitudinal direction. Accordingly, air flowing backward through the photocatalyst filter module 10 necessarily flows backward through a plurality of photocatalyst filters 11. That is, the side blocking plate 21 can prevent the air from bypassing to another path instead of passing through the photocatalyst filter 11.
  • the side support 20 may further include a front blocking plate 22 extending laterally from the front end of the side blocking plate 21 and connected to the side plate 32.
  • the front blocking plate 22 can block the space between the side blocking plate 21 and the side plate 32 from the space in front of the photocatalytic filter 11 disposed at the front.
  • the front blocking plate 22 ensures that all air flowing into the space between the intake surface plate 34 and the front of the photocatalyst filter module 10 through the intake port 341 is transferred to the photocatalyst filter module 10. Guide it to flow inside.
  • a side additional plate 25 may be interposed between the side blocking plate 21 and the photocatalytic filter 11.
  • the side additional plate 25 may be a reflector that reflects light irradiated to the side back toward the photocatalyst filter 11, or may be an additional photocatalyst filter plate.
  • the side support 20 may further include a side additional plate holder 23 that supports the side additional plate 25.
  • the air purifier further includes a light source module 40 installed so that ultraviolet rays are evenly irradiated to all of the photocatalyst filters 11 constituting the photocatalyst filter module 10 without shading.
  • the light source module 40 includes a plurality of light sources 42.
  • the light source 42 may include an ultraviolet LED (421).
  • the ultraviolet rays emitted from the ultraviolet LED 421 have the characteristic of focusing their intensity at the peak wavelength, unlike conventional ultraviolet rays that generate ultraviolet rays of a wide spectrum.
  • BaP has the best decomposition ability when irradiated with ultraviolet rays with a peak wavelength of 254 nm
  • PYRE has the best decomposition ability when irradiated with ultraviolet rays with a peak wavelength of 310 nm.
  • ultraviolet rays with different peak wavelengths are irradiated to the photocatalyst filter, it can be seen that there is a difference in decomposition ability depending on the type of gas to be decomposed.
  • the present invention can increase photodecomposition efficiency through a light source 42 including an ultraviolet LED 421 having a peak wavelength particularly suitable for decomposition of the binding site of a specific gas to be decomposed.
  • Each of the plurality of light sources 42 may be manufactured to irradiate ultraviolet rays having a specific peak wavelength.
  • the first light source 42-1 may be manufactured to include only one or two ultraviolet LEDs 421 having a first peak wavelength.
  • the second light source 42-2 may be manufactured to include only the ultraviolet LED 421 having a second peak wavelength different from the first peak wavelength.
  • the third light source 42-3 may be manufactured to include only the ultraviolet LED 421 having a third peak wavelength different from the first and second peak wavelengths.
  • the N-th light source 42-N may be manufactured to include only the ultraviolet LED 421 having an N-th peak wavelength different from the 1st to N-1th peak wavelengths.
  • N may be a natural number of 4 or more.
  • the light source module 40 including a plurality of light sources 42 may include one or more first light sources 42-1 and one or more second light sources 42-2.
  • the plurality of light sources 42 may additionally include one or more third light sources 42-3.
  • the plurality of light sources 42 may additionally include one or more Nth light sources 42-N.
  • the light source module 40 can be configured by combining light sources 42 with different peak wavelengths, so that the light source module 40 is optimally suited to the usage environment. It is easier to manufacture the light source module 40.
  • the light source 42 includes an ultraviolet LED 421 mounted on the base substrate 41, a condenser lens 422 installed on the ultraviolet LED 421, And it may have a first structure including a light guide lens 423 installed in the exit direction of the condenser lens 422.
  • the ultraviolet LED 421 may be in the form of a chip.
  • the ultraviolet LEDs 421 may form one or two or more aggregates.
  • the condenser lens 422 may be provided individually for each ultraviolet LED 421, or may be provided one per set.
  • the light guide lenses 423 may be provided one by one in correspondence to one converging lens 422, or may be provided one per plurality of condensing lenses 422.
  • the light source 42 includes a base substrate 41 provided at one end in the vertical direction, an extension connected to the base substrate 41 and extending in the vertical direction. It may be a light source of a second structure including a substrate 425, a plurality of ultraviolet LEDs 421 mounted spaced apart in the vertical direction on the extension substrate 425, and a lens 427 provided on the ultraviolet LED 421. .
  • the base substrate 41 may be omitted.
  • the lenses 427 may be installed one by one for each ultraviolet LED 421 or may be installed one for each group of a plurality of ultraviolet LEDs 421.
  • the extension board 425 may have a structure in which two or more extension boards 425 are arranged along the circumferential direction so that the ultraviolet LEDs 421 are arranged radially.
  • extension boards 425 are installed at positions corresponding to each side of a square. However, it goes without saying that four extension boards 425 can be installed corresponding to each side of an equilateral triangle, or n sheets of extension boards 425 can be installed corresponding to each side of a regular n-gon. Additionally, two extension boards 425 may be installed with their backs facing each other.
  • the light source 42 includes an inclined substrate 426 extending obliquely in the front-back direction from one end in the vertical direction, and extending in the width direction on the inclined substrate 426. It may be a light source of a third structure including an ultraviolet LED 421 mounted spaced apart, and a lens 427 provided on the ultraviolet LED 421.
  • the inclined substrate 426 may be connected to the base substrate 41 provided at one end in the vertical direction.
  • the lenses 427 may be installed one at a time for each ultraviolet LED 421 or may be installed one at a time for each group of a plurality of ultraviolet LEDs 421.
  • three ultraviolet LEDs 421 are installed in the width direction on a pair of inclined substrates 426 installed to be symmetrical and inclined to each other, and a lens 427 is installed for each ultraviolet LED 421. is exemplified.
  • the inclined substrate 426 of the light source 42 which is installed further in front or behind the back of the photocatalyst filter module 10, may be provided so that the ultraviolet LED 421 is directed toward the photocatalyst filter 11. .
  • the plurality of light sources 42 described above may share the base substrate 41.
  • the plurality of light sources 42 may include at least one of the first structure light source, the second structure light source, and the third structure light source.
  • the light source module 40 including the plurality of light sources 42 is composed of only light sources of the first structure, as shown in FIGS. 14 and 15, or consists of only light sources of the second structure, or is composed of only light sources of the second structure, as shown in FIGS. 14 and 15.
  • it can be composed of only light sources of the third structure, as well as including a light source of the first structure and a light source of the second structure, or, as shown in FIG. 17, a light source of the first structure and the light source of the third structure.
  • It may include a light source, a light source of a second structure and a light source of a third structure, or may include a light source of a first structure, a light source of a second structure and a light source of a third structure.
  • the light source module 40 including the plurality of light sources 42 may include a first type of light source installed to extend upward from the lower end.
  • the light source module 40 including the plurality of light sources 42 may include a second type of light source installed to extend downward from the upper end.
  • the light source module 40 includes only a first type of light source as shown in FIG. 14, only a second type of light source, or includes a first type of light source and a second type of light source as shown in FIGS. 15 to 17. It can include both types of light sources.
  • the light source of the first structure, the light source of the second structure, and the light source of the third structure may all be installed in the first form or the second form, respectively.
  • the light source module 40 may include a light source of a third structure installed in a first shape and a light source of a first structure installed in a second shape.
  • the light source module 40 may include a light source of a first structure installed in a first shape and a light source of a first structure installed in a second shape.
  • various combinations of the structure and installation form of the light source 42 can be configured.
  • the first peak wavelength to the Nth peak wavelength may be selected from 300 nm to 450 nm, respectively.
  • these peak wavelengths may be 325 nm, 345 nm, 365 nm, 385 nm, or 405 nm.
  • the first light source 42-1 having a first peak wavelength may have a first structure, a second structure, or a third structure, and may be installed in the first form or the second form. there is.
  • a first light source 42-1 of a first structure having a first peak wavelength may be installed in a first form, and a first light source 42-1 of a second structure having a first peak wavelength may be installed in a first shape.
  • the light source 42-1 may be installed in a first form, and the second light source 42-2 of a first structure having a second peak wavelength may be installed in a second form. That is, the peak wavelength, structure, and installation form of each of the plurality of light sources provided in the light source module 40 can be combined in various ways.
  • the plurality of light sources 42 of the light source module 40 may be arranged to be spaced apart along the width direction between two photocatalyst filters 11 adjacent in the longitudinal direction.
  • the peak wavelengths of two light sources 42 adjacent in the width direction are different from each other.
  • each of the photocatalyst filters 11 The peak wavelengths of the two light sources 42 disposed closest in the width direction are different from each other, provided in front and behind.
  • Light sources installed in these different shapes can evenly distribute ultraviolet rays of different peak wavelengths.
  • the light sources arranged in a row in the air flow direction may include light sources of all peak wavelengths installed in the light source module 40. Accordingly, the air flowing along the flow direction within the housing 30 can be exposed to light sources of all types of peak wavelengths installed there. As a result, the air flowing inside the housing 30 can be decomposed in contact with the photocatalyst filter 11, which is irradiated with ultraviolet rays of all peak wavelengths intended for design.
  • one of the two light sources 42 adjacent in the width direction may be a light source installed in the first type and the other may be a light source installed in the second type.
  • each of the photocatalyst filters 11 One of the two light sources 42 provided at the front and the rear arranged closest in the width direction may be a light source installed in the first type and the other may be a light source installed in the second type.
  • Light sources installed in these different shapes not only distribute ultraviolet rays of different peak wavelengths evenly, but also induce turbulence in the air flow, further increasing photocatalyst purification efficiency.

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Abstract

The present invention relates to a device that decomposes and purifies harmful gases in a gas by irradiating, by using a UV-LED, ultraviolet rays with different peak wavelengths to a photocatalyst. The device comprises: a plurality of photocatalyst filters which have outer portions with a predetermined width and a predetermined height and are spaced apart from each other along the longitudinal direction; a plurality of light sources comprising a first light source including an ultraviolet LED having a first peak wavelength and a second light source including an ultraviolet LED having a second peak wavelength different from the first peak wavelength; and a housing accommodating the photocatalyst filters and the light sources. Between two photocatalyst filters adjacent to each other in the longitudinal direction, a plurality of light sources are spaced apart from each other along the width direction. Two light sources adjacent to each other in the width direction have different peak wavelengths.

Description

다파장 자외선이 적용된 광촉매 모듈 및 이를 이용한 공기 정화기Photocatalyst module applied with multi-wavelength ultraviolet rays and air purifier using the same
본 출원은 2022년 11월 30일자 대한민국 특허출원 제10-2022-0165175호 및 2022년 12월 16일자 대한민국 특허출원 제10-2022-0177499호에 기초한 우선권의 이익을 주장하며, 해당 한국 특허출원의 문헌에 개시된 모든 내용은 본 명세서의 일부로서 포함된다.This application claims the benefit of priority based on Korean Patent Application No. 10-2022-0165175, dated November 30, 2022, and Korean Patent Application No. 10-2022-0177499, dated December 16, 2022. All content disclosed in the literature is incorporated as part of this specification.
본 발명은 UV-LED(ultra-violet light emitting diode)를 이용하여 서로 다른 피크 파장을 가지는 자외선을 광촉매에 조사함으로써 기체 중의 유해 기체를 분해하여 정화하는 장치에 관한 것이다.The present invention relates to a device that decomposes and purifies harmful gases in gases by irradiating ultraviolet rays with different peak wavelengths to a photocatalyst using a UV-LED (ultra-violet light emitting diode).
자외선을 광촉매에 조사하면, 상기 광촉매에 접촉하는 기체의 유해 가스가 분해되어 정화되는 현상을 이용한 공기 정화기가 보급되고 있다.Air purifiers that utilize the phenomenon in which harmful gases in contact with the photocatalyst are decomposed and purified when ultraviolet rays are irradiated to the photocatalyst are becoming popular.
이러한 공기 정화기는, 주로 광원으로서 자외선 엘이디(UV-LED)를 사용하고, 광촉매 물질을 포함하거나 코팅한 필터에 상기 자외선을 조사하는 구조로 되어 있다.These air purifiers mainly use ultraviolet LEDs (UV-LEDs) as a light source and are structured to irradiate the ultraviolet rays to a filter containing or coated with a photocatalyst material.
엘이디에서 발생한 광은 피크파장에 광 세기가 집중되는 특성을 갖는다. 이에, 자외선 엘이디를 사용하는 종래의 공기 정화기는, 소모 전력 대비 발광 효율이 높은 피크파장의 자외선 엘이디를 사용하여 공기 정화기를 제작하였다.Light generated from an LED has the characteristic of focusing the light intensity at the peak wavelength. Accordingly, the conventional air purifier using an ultraviolet LED was manufactured using an ultraviolet LED with a peak wavelength that has high luminous efficiency compared to power consumption.
가령 일반적인 가정환경에서 적용되는 공기 정화기를 제작함에 있어서는, 동일한 전력을 소모하는 340nm 피크파장의 엘이디와 365nm 피크파장의 엘이디 중, 365nm 피크파장의 엘이디의 발광량이 더 많은 경우, 전력 소비 효율을 고려하여 365nm 피크파장의 엘이디를 채택하는 것이 일반적이었다.For example, when manufacturing an air purifier applied in a general home environment, if the LED with a 365nm peak wavelength emits more light among LEDs with a 340nm peak wavelength and LEDs with a 365nm peak wavelength that consume the same power, power consumption efficiency must be taken into consideration. It was common to use LEDs with a peak wavelength of 365 nm.
특정 유해가스가 많이 발생하는 환경에서는, 오히려 해당 유해가스의 특정 결합을 끊기에 더 효율적인 파장이 존재할 수 있다. 그러나 상술한 종래의 자외선 광촉매 정화기는 이러한 원리를 전혀 반영하지 못한다. 즉, 단순히 발광 효율이 높은 피크 파장의 자외선 엘이디를 사용한다고 하여 정화 효율이 좋다고 단정할 수 없다고 할 수 있다.In an environment where a lot of specific harmful gases are generated, there may be a wavelength that is more effective in breaking specific bonds of the harmful gas. However, the above-mentioned conventional ultraviolet photocatalytic purifier does not reflect this principle at all. In other words, it cannot be concluded that the purification efficiency is good simply by using an ultraviolet LED with a peak wavelength with high luminous efficiency.
또한 종래의 자외선 광촉매 정화기는, 다른 필터들과 함께 사용되기 때문에, 정화 용량의 증량이 어려웠다.Additionally, since conventional ultraviolet photocatalytic purifiers are used together with other filters, it has been difficult to increase the purification capacity.
본 발명은 상술한 문제점을 해결하기 위해 안출된 것으로, 공기 정화기가 설치되는 환경에 적합한 피크파장의 자외선 엘이디를 포함하여, 공기 정화 효율을 더 높일 수 있는 공기 정화기를 제공하고자 한다.The present invention was devised to solve the above-mentioned problems, and seeks to provide an air purifier that can further increase air purification efficiency by including an ultraviolet LED with a peak wavelength suitable for the environment in which the air purifier is installed.
본 발명은, 다양한 피크파장의 자외선 엘이디를 적용하여, 서로 다른 환경에서도 효율적으로 정화 기능을 수행할 수 있는 공기 정화기를 제공하고자 한다.The present invention seeks to provide an air purifier that can efficiently perform a purification function even in different environments by applying ultraviolet LEDs of various peak wavelengths.
본 발명은, 정화 용량의 증량이 쉬운 공기 정화기를 제공하고자 한다.The present invention seeks to provide an air purifier whose purification capacity can be easily increased.
상술한 과제를 해결하기 위한 본 발명은, 외곽이 소정의 폭과 소정의 높이를 가지고, 길이방향을 따라 이격 배치된 복수 개의 광촉매 필터; 제1 피크파장을 가지는 자외선 엘이디를 포함하는 제1광원 및 제1 피크파장과 다른 제2 피크파장을 가지는 자외선 엘이디를 포함하는 제2광원을 포함하는 복수 개의 광원; 및 상기 광촉매 필터와 광원을 수용하는 하우징;을 포함하는 공기 정화기에 적용될 수 있다.The present invention for solving the above-described problem includes: a plurality of photocatalyst filters having an outer perimeter of a predetermined width and a predetermined height and spaced apart along the longitudinal direction; A plurality of light sources including a first light source including an ultraviolet LED having a first peak wavelength and a second light source including an ultraviolet LED having a second peak wavelength different from the first peak wavelength; and a housing for accommodating the photocatalyst filter and the light source.
상기 광원은, 상기 제1 및 제2 피크파장과 다른 제3 피크파장을 가지는 자외선 엘이디를 포함하는 제3광원을 포함할 수 있다.The light source may include a third light source including an ultraviolet LED having a third peak wavelength different from the first and second peak wavelengths.
상기 광원은, 제1 내지 제N-1 피크파장과 다른 제N 피크파장을 가지는 자외선 엘이디를 포함하는 제N광원을 포함할 수 있다. 상기 N은 4 이상의 자연수일 수 있다.The light source may include an N-th light source including an ultraviolet LED having an N-th peak wavelength different from the 1st to N-1th peak wavelengths. The N may be a natural number of 4 or more.
길이방향으로 이웃하는 두 광촉매 필터 사이에는, 복수 개의 광원이 폭방향을 따라 이격 배치된다.Between two photocatalyst filters adjacent in the longitudinal direction, a plurality of light sources are spaced apart along the width direction.
폭방향으로 이웃하는 두 광원의 피크파장은 서로 다르다.The peak wavelengths of two light sources neighboring in the width direction are different.
길이방향으로 하나의 상기 광촉매 필터를 사이에 두고 이웃하는 광원들 중, 각각 상기 광촉매 필터의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원의 피크파장은 서로 다르다.Among the light sources adjacent in the longitudinal direction with one photocatalyst filter in between, the peak wavelengths of the two light sources provided in front and behind the photocatalyst filter, but arranged closest in the width direction, are different from each other.
상기 복수 개의 광원 중 적어도 일부 광원은, 상하방향 일측 단부로부터 타측 단부를 향해 연장된 제1형태의 광원일 수 있다.At least some of the plurality of light sources may be a first type of light source extending from one end toward the other end in the vertical direction.
상기 복수 개의 광원 중 다른 일부 광원은, 상하방향 타측 단부로부터 일측 단부를 향해 연장된 제2형태의 광원일 수 있다.Some of the other light sources among the plurality of light sources may be a second type of light source extending from the other end toward one end in the vertical direction.
폭방향으로 이웃하는 두 광원 중 어느 하나는 제1형태의 광원이고 다른 하나는 제2형태의 광원일 수 있다.One of the two light sources adjacent in the width direction may be a first type light source and the other may be a second type light source.
길이방향으로 하나의 상기 광촉매 필터를 사이에 두고 이웃하는 광원들 중, 각각 상기 광촉매 필터의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원 중 어느 하나는 제1형태의 광원이고 다른 하나는 제2형태의 광원일 수 있다.Among the light sources adjacent in the longitudinal direction with one photocatalyst filter in between, one of the two light sources provided in front and behind the photocatalyst filter, respectively, and arranged closest in the width direction, is a first type light source. The other may be a second type of light source.
상기 광원은: 상하방향 일측 단부에 마련된 기초기판; 상기 기초기판에 실장된 자외선 엘이디; 상기 자외선 엘이디 상에 마련된 집광렌즈; 및 입사면이 상기 집광렌즈의 출사면과 마주하고, 상하방향으로 연장된 도광렌즈;를 포함하는 제1구조의 광원일 수 있다.The light source includes: a base substrate provided at one end in the vertical direction; An ultraviolet LED mounted on the base substrate; A condensing lens provided on the ultraviolet LED; and a light guide lens whose incident surface faces the output surface of the condenser lens and extends in the vertical direction.
상기 광원은, 상하방향 일측 단부로부터 타측 단부를 향해 상하방향으로 연장된 연장기판; 상기 연장기판 상에서 상하방향으로 이격 실장된 자외선 엘이디; 및 상기 자외선 엘이디 상에 마련된 렌즈;를 포함하는 제2구조의 광원일 수 있다.The light source includes: an extension substrate extending in a vertical direction from one end to the other end; Ultraviolet LEDs mounted spaced apart in the vertical direction on the extension board; And it may be a light source of a second structure including a lens provided on the ultraviolet LED.
상기 연장기판은 상하방향 일측 단부에 마련된 기초기판에 연결될 수 있다.The extension board may be connected to a base board provided at one end in the vertical direction.
상기 광원은, 상하방향 일측 단부로부터 경사지게 연장된 경사기판; 상기 경사기판 상에서 폭방향으로 이격 실장된 자외선 엘이디; 및 상기 자외선 엘이디 상에 마련된 렌즈;를 포함하는 제3구조의 광원일 수 있다.The light source includes: an inclined substrate extending obliquely from one end in a vertical direction; Ultraviolet LEDs mounted spaced apart in the width direction on the inclined substrate; And it may be a light source of a third structure including a lens provided on the ultraviolet LED.
상기 경사기판은 상하방향 일측 단부에 마련된 기초기판에 연결될 수 있다.The inclined substrate may be connected to a base substrate provided at one end in the vertical direction.
상기 복수 개의 광원은 상기 제1구조의 광원, 상기 제2구조의 광원 및 상기 제3구조의 광원 중 적어도 어느 하나를 포함할 수 있다.The plurality of light sources may include at least one of a light source of the first structure, a light source of the second structure, and a light source of the third structure.
상기 제1 피크파장 내지 상기 제N 피크파장은, 각각 300nm ~ 450nm에서 선택될 수 있다.The first peak wavelength to the Nth peak wavelength may be selected from 300 nm to 450 nm, respectively.
상기 복수 개의 광촉매 필터는, 각각의 광촉매 필터의 폭방향 단부와 높이방향 단부의 코너 부위를 연결하도록 길이방향으로 연장된 코너프레임에 의해 서로 연결되어 광촉매 필터 모듈을 구성할 수 있다.The plurality of photocatalyst filters may be connected to each other by a corner frame extending in the longitudinal direction to connect the corner portion of the width direction end and the height direction end of each photocatalyst filter to form a photocatalyst filter module.
상기 복수 개의 광촉매 필터는, 각각의 광촉매 필터의 높이방향 단부의 중앙부를 연결하도록 길이방향으로 연장된 미들프레임에 의해 서로 연결될 수 있다.The plurality of photocatalyst filters may be connected to each other by a middle frame extending in the longitudinal direction to connect the central portion of the height direction end of each photocatalyst filter.
상기 광촉매 필터는 길이방향으로 관통된 복수 개의 다공부가 마련된 장방형의 평판 형상을 구비할 수 있다.The photocatalyst filter may have a rectangular plate shape with a plurality of porous portions penetrating in the longitudinal direction.
상기 광촉매 필터는 메쉬 형태의 기초체에 광촉매 물질이 코팅된 구조일 수 있다.The photocatalyst filter may have a structure in which a photocatalyst material is coated on a mesh-shaped base.
상기 광촉매 필터는 광촉매 물질이 소결된 구조일 수 있다.The photocatalyst filter may have a structure in which a photocatalyst material is sintered.
상기 하우징은, 상기 광촉매 필터의 전방에 이격 배치되고, 길이방향으로 공기를 흡입하는 흡기구가 마련된 흡기면판; 상기 광촉매 필터의 후방에 이격 배치되고, 길이방향으로 공기를 배출하는 배기구가 마련된 배기면판; 및 상기 광촉매 필터의 측방에 이격 배치된 측면판;을 포함할 수 있다.The housing includes: an intake surface plate spaced apart in front of the photocatalyst filter and provided with an intake port for sucking air in the longitudinal direction; an exhaust face plate spaced apart from the rear of the photocatalyst filter and provided with an exhaust port for discharging air in the longitudinal direction; and a side plate spaced apart from the side of the photocatalyst filter.
상기 흡기구에는 흡기팬이 설치될 수 있다.An intake fan may be installed in the intake port.
상기 광촉매 필터의 전방에는 하우징 내부로 이물질이 유입되는 것을 차단하는 흡기필터가 마련될 수 있다.An intake filter may be provided in front of the photocatalyst filter to block foreign substances from entering the housing.
상기 흡기필터는 상기 흡기팬의 전방에 마련될 수 있다.The intake filter may be provided in front of the intake fan.
상기 하우징은, 상기 흡기면판의 상단부와 상기 배기면판의 상단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터의 상부를 가로막는 천정판; 및 상기 흡기면판의 하단부와 상기 배기면판의 하단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터의 하부를 가로막는 베이스판;을 더 포함할 수 있다.The housing includes a ceiling plate extending longitudinally to connect the upper end of the intake face plate and the upper end of the exhaust face plate and blocking the upper portion of the photocatalytic filter; and a base plate that extends in the longitudinal direction to connect the lower end of the intake face plate and the lower end of the exhaust face plate and blocks the lower portion of the photocatalytic filter.
상기 복수 개의 광촉매 필터의 측면은, 상기 광촉매 필터와 상기 측면판 사이에 배치되는 사이드서포트에 의해 지지될 수 있다.Side surfaces of the plurality of photocatalyst filters may be supported by side supports disposed between the photocatalyst filter and the side plate.
상기 사이드서포트는, 길이방향으로 이웃하여 배치되는 두 광촉매 필터 사이의 공간의 측면을 가로막도록 전후방향으로 연장되는 측면막음판을 포함할 수 있다.The side support may include a side blocking plate that extends in the front-back direction to block the sides of the space between two photocatalyst filters arranged adjacent to each other in the longitudinal direction.
상기 사이드서포트는, 상기 측면막음판의 전방 단부로부터 측방으로 연장되어 상기 측면판에 연결되는 전면막음판을 더 포함할 수 있다.The side support may further include a front blocking plate extending laterally from the front end of the side blocking plate and connected to the side plate.
상기 전면막음판은, 상기 측면막음판과 측면판 사이의 공간을, 가장 전방에 배치된 광촉매 필터의 전방 공간으로부터 가로막을 수 있다.The front blocking plate may block the space between the side blocking plate and the side plate from the space in front of the photocatalyst filter disposed at the front.
상기 측면막음판과 상기 광촉매 필터 사이에 측면추가판이 개재될 수 있다.A side additional plate may be interposed between the side blocking plate and the photocatalyst filter.
상기 측면추가판은 반사판 또는 광촉매 필터판일 수 있다.The side additional plate may be a reflector plate or a photocatalyst filter plate.
상기 사이드서포트는, 상기 측면추가판을 지지하는 측면추가판 홀더를 더 구비할 수 있다.The side support may further include a side additional plate holder that supports the side additional plate.
본 발명에 따르면, 공기 정화기가 설치되는 환경에 적합한 서로 다른 피크파장의 자외선 엘이디들을 포함하여, 공기 정화 효율을 더 높일 수 있다.According to the present invention, air purification efficiency can be further increased by including ultraviolet LEDs of different peak wavelengths suitable for the environment in which the air purifier is installed.
본 발명은, 다양한 피크파장의 자외선 엘이디를 적용하여, 서로 다른 환경에서도 효율적으로 정화 기능을 수행할 수 있다.The present invention can efficiently perform a purification function even in different environments by applying ultraviolet LEDs of various peak wavelengths.
본 발명에 따르면 다양한 피크파장의 자외선이 폭방향 및 길이방향으로 고르게 분포되도록 하여 정화 효율을 더 높일 수 있다.According to the present invention, purification efficiency can be further increased by ensuring that ultraviolet rays of various peak wavelengths are evenly distributed in the width and length directions.
본 발명에 따르면, 다양한 형태의 광원을 배치하여 다양한 피크파장의 자외선이 폭방향 및 길이방향으로 고르게 분포되도록 함은 물론 공기의 난류를 유도함으로써 정화 효율을 더 높일 수 있다.According to the present invention, by arranging various types of light sources, ultraviolet rays of various peak wavelengths are evenly distributed in the width and length directions, and purification efficiency can be further increased by inducing turbulence in the air.
본 발명에 따르면, 다양한 구조의 광원을 배치하여 다양한 피크파장의 자외선이 폭방향 및 길이방향으로 고르게 분포되도록 함은 물론 공기의 난류를 유도함으로써 정화 효율을 더 높일 수 있다.According to the present invention, by arranging light sources of various structures, ultraviolet rays of various peak wavelengths are evenly distributed in the width and length directions, and purification efficiency can be further increased by inducing turbulence in the air.
본 발명은, 광촉매 필터 모듈에서 길이방향으로 광촉매 필터를 더 추가하고 이에 대응하여 광원을 추가하는 것 만으로도 정화 용량을 증량할 수 있다.In the present invention, the purification capacity can be increased simply by adding more photocatalyst filters in the longitudinal direction of the photocatalyst filter module and adding a light source correspondingly.
상술한 효과와 더불어 본 발명의 구체적인 효과는 이하 발명을 실시하기 위한 구체적인 사항을 설명하면서 함께 기술한다.In addition to the above-described effects, specific effects of the present invention are described below while explaining specific details for carrying out the invention.
도 1과 도 2는 각각 실시예의 광촉매 필터 모듈의 사시도 및 분해사시도이다.Figures 1 and 2 are a perspective view and an exploded perspective view of a photocatalyst filter module of an embodiment, respectively.
도 3 및 도 4는 각각 실시예의 광촉매 필터 모듈을 내장하는 하우징의 분해사시도 및 사시도이다.Figures 3 and 4 are an exploded perspective view and a perspective view of a housing containing a photocatalyst filter module of an embodiment, respectively.
도 5는 실시예의 공기 정화기의 하우징의 천정판을 제거한 상태의 평면도이다.Figure 5 is a plan view of the housing of the air purifier of the embodiment with the ceiling plate removed.
도 6 내지 도 9는 각각 실시예의 광원 모듈의 제1실시예에 따른 광원의 분해사시도, 부분 분해사시도, 사시도 및 단면도이다.6 to 9 are an exploded perspective view, a partially exploded perspective view, a perspective view, and a cross-sectional view of a light source according to the first embodiment of the light source module of the embodiment, respectively.
도 10과 도 11은 각각 실시예의 광원 모듈의 제2실시예에 따른 광원의 사시도 및 단면 사시도이다.10 and 11 are a perspective view and a cross-sectional perspective view of a light source according to a second embodiment of the light source module of the embodiment, respectively.
도 12와 도 13은 각각 실시예의 광원 모듈의 제3실시예에 따른 광원의 사시도 및 단면도이다.12 and 13 are a perspective view and a cross-sectional view of a light source according to a third embodiment of the light source module of the embodiment, respectively.
도 14는 광원이 제1형태로 설치된 광원 모듈과, 광촉매 필터 모듈의 측면도이다.Figure 14 is a side view of a light source module and a photocatalyst filter module in which the light source is installed in the first form.
도 15 내지 도 17은 광촉매 필터 모듈에 제1형태 및 제2형태로 설치된 광원을 구비하는 광원 모듈이 결합된 상태의 실시예들의 측면도이다.15 to 17 are side views of embodiments in which a light source module including light sources installed in a first type and a second type is coupled to a photocatalytic filter module.
도 18은 도 14의 평면도이다.Figure 18 is a plan view of Figure 14.
도 19는 도 15의 광원 모듈을 나타낸 사시도이다.Figure 19 is a perspective view showing the light source module of Figure 15.
도 20은 도 15의 광원 모듈과 광촉매 필터 모듈의 상부 일부를 절개하여 나타낸 단면 사시도이다.FIG. 20 is a cross-sectional perspective view showing a portion of the upper part of the light source module and the photocatalyst filter module of FIG. 15 cut away.
도 21은 도 20의 평면도이다.Figure 21 is a plan view of Figure 20.
도 22는 서로 다른 피크파장을 가지는 자외선이 조사된 광촉매 필터에 의해 분해되고 남은 가스의 농도를 나타낸 그래프이다.Figure 22 is a graph showing the concentration of gas remaining after decomposition by a photocatalytic filter irradiated with ultraviolet rays having different peak wavelengths.
[부호의 설명][Explanation of symbols]
10: 광촉매 필터 모듈 11: 광촉매 필터 12: 연결프레임 123: 코너프레임 125: 미들프레임 20: 사이드서포트 21: 측면막음판 22: 전면막음판 23: 측면추가판 홀더 25: 측면추가판(반사판, 필터판) 30: 하우징 31: 베이스판 32: 측면판 33: 천정판 34: 흡기면판 341: 흡기구 342: 흡기팬 343: 흡기필터 35: 배기면판 351: 배기구 352: 배기팬 40: 광원 모듈 41: 기초기판 42: 광원 42-N: 제N광원 421: 자외선 엘이디 422: 집광렌즈 423: 도광렌즈 425: 연장기판 426: 경사기판 427: 렌즈10: Photocatalyst filter module 11: Photocatalyst filter 12: Connection frame 123: Corner frame 125: Middle frame 20: Side support 21: Side blocking plate 22: Front blocking plate 23: Side additional plate holder 25: Side additional plate (reflector, filter plate) 30: housing 31: base plate 32: side plate 33: ceiling plate 34: intake face plate 341: intake port 342: intake fan 343: intake filter 35: exhaust face plate 351: exhaust port 352: exhaust fan 40: light source module 41: base substrate 42: Light source 42-N: N light source 421: Ultraviolet LED 422: Condenser lens 423: Light guide lens 425: Extension board 426: Inclined board 427: Lens
이하, 본 발명의 바람직한 실시예를 첨부한 도면을 참조로 하여 상세히 설명한다. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
본 발명은 이하에서 개시되는 실시 예에 한정되는 것이 아니라 다양한 변경을 가할 수 있고 서로 다른 다양한 형태로 구현될 수 있다. 단지 본 실시 예는 본 발명의 개시가 완전하도록 하며 통상의 지식을 가진 자에게 발명의 범주를 완전하게 알려주기 위하여 제공되는 것이다. 따라서 본 발명은 이하에서 개시되는 실시예에 한정되는 것이 아니라, 어느 하나의 실시예의 구성과 다른 실시예의 구성을 서로 치환하거나 부가하는 것은 물론 본 발명의 기술적 사상과 범위에 포함되는 모든 변경, 균등물 내지 대체물을 포함하는 것으로 이해되어야 한다.The present invention is not limited to the embodiments disclosed below, but may be subject to various changes and may be implemented in various different forms. This example is provided solely to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention. Therefore, the present invention is not limited to the embodiments disclosed below, but substitutes or adds to the configuration of one embodiment and the configuration of another embodiment, as well as all changes and equivalents included in the technical spirit and scope of the present invention. It should be understood to include substitutes.
첨부된 도면은 본 명세서에 개시된 실시 예를 쉽게 이해할 수 있도록 하기 위한 것일 뿐, 첨부된 도면에 의해 본 명세서에 개시된 기술적 사상이 제한되지 않으며, 본 발명의 사상 및 기술 범위에 포함되는 모든 변경, 균등물 내지 대체물을 포함하는 것으로 이해되어야 한다. 도면에서 구성요소들은 이해의 편의 등을 고려하여 크기나 두께가 과장되게 크거나 작게 표현될 수 있으나, 이로 인해 본 발명의 보호범위가 제한적으로 해석되어서는 아니 될 것이다.The attached drawings are only for easy understanding of the embodiments disclosed in the present specification, and the technical idea disclosed in the present specification is not limited by the attached drawings, and all changes, equivalents, and changes included in the spirit and technical scope of the present invention are not limited. It should be understood to include water or substitutes. In the drawings, components may be expressed exaggeratedly large or small in size or thickness for convenience of understanding, etc., but the scope of protection of the present invention should not be construed as limited due to this.
본 명세서에서 사용한 용어는 단지 특정한 구현예나 실시예를 설명하기 위해 사용되는 것으로, 본 발명을 한정하려는 의도가 아니다. 그리고 단수의 표현은, 문맥상 명백하게 다르게 뜻하지 않는 한, 복수의 표현을 포함한다. 명세서에서 ~포함하다, ~이루어진다 등의 용어는 명세서 상에 기재된 특징, 숫자, 단계, 동작, 구성요소, 부품 또는 이들을 조합한 것이 존재함을 지정하려는 것이다. 즉 명세서에서 ~포함하다, ~이루어진다 등의 용어는. 하나 또는 그 이상의 다른 특징들이나 숫자, 단계, 동작, 구성요소, 부품 또는 이들이 조합한 것들의 존재 또는 부가 가능성을 미리 배제하지 않는 것으로 이해되어야 한다.The terms used in this specification are only used to describe specific implementations or examples, and are not intended to limit the invention. And singular expressions include plural expressions, unless the context clearly dictates otherwise. In the specification, terms such as ~include, ~consist of, etc. are intended to designate the presence of features, numbers, steps, operations, components, parts, or a combination thereof described in the specification. In other words, terms such as ~include, ~consist, etc. in the specification. It should be understood that this does not exclude in advance the presence or addition of one or more other features, numbers, steps, operations, components, parts or combinations thereof.
제1, 제2 등과 같이 서수를 포함하는 용어는 다양한 구성요소들을 설명하는데 사용될 수 있지만, 상기 구성요소들은 상기 용어들에 의해 한정되지는 않는다. 상기 용어들은 하나의 구성요소를 다른 구성요소로부터 구별하는 목적으로만 사용된다.Terms containing ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.
어떤 구성요소가 다른 구성요소에 "연결되어" 있다거나 "접속되어" 있다고 언급된 때에는, 그 다른 구성요소에 직접적으로 연결되어 있거나 또는 접속되어 있을 수도 있지만, 중간에 다른 구성요소가 존재할 수도 있다고 이해되어야 할 것이다. 반면에, 어떤 구성요소가 다른 구성요소에 "직접 연결되어" 있다거나 "직접 접속되어" 있다고 언급된 때에는, 중간에 다른 구성요소가 존재하지 않는 것으로 이해되어야 할 것이다.When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be. On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between.
어떤 구성요소가 다른 구성요소의 "상부에 있다"거나 "하부에 있다"고 언급된 때에는, 그 다른 구성요소의 바로 위에 배치되어 있는 것뿐만 아니라 중간에 다른 구성요소가 존재할 수도 있다고 이해되어야 할 것이다.When a component is referred to as being "on top" or "below" another component, it should be understood that not only is it placed directly on top of the other component, but there may also be other components in between. .
다르게 정의되지 않는 한, 기술적이거나 과학적인 용어를 포함해서 여기서 사용되는 모든 용어들은 본 발명이 속하는 기술 분야에서 통상의 지식을 가진 자에 의해 일반적으로 이해되는 것과 동일한 의미를 가지고 있다. 일반적으로 사용되는 사전에 정의되어 있는 것과 같은 용어들은 관련 기술의 문맥 상 가지는 의미와 일치하는 의미를 가지는 것으로 해석되어야 하며, 본 출원에서 명백하게 정의하지 않는 한, 이상적이거나 과도하게 형식적인 의미로 해석되지 않는다.Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless explicitly defined in the present application, should not be interpreted in an ideal or excessively formal sense. No.
실시예를 설명함에 있어서는, 편의상 공기의 흐름이 진행되는 방향을 길이방향으로 규정한다. 길이방향은 전후방향과 대응할 수 있다. 전방은 공기 흐름의 상류를 향하는 방향을 의미하고 후방은 공기 흐름의 하류를 향하는 방향을 의미할 수 있다.In explaining the embodiment, for convenience, the direction in which the air flows is defined as the longitudinal direction. The longitudinal direction may correspond to the front-to-back direction. Forward may refer to the direction toward the upstream of the air flow, and rear may refer to the direction toward the downstream of the air flow.
측방이라 함은 길이방향에 교차하는 방향을 의미하고, 상하방향 또는 높이방향이라 함은 상기 길이방향과 측방에 모두 교차하는 방향을 의미한다. 상하방향이 반드시 중력방향과 대응하는 것은 아니다. 가령, 측방이 중력방향과 대응할 수도 있고, 길이방향이 중력방향과 대응할 수도 있음은 물론이다. 즉 공기 정화기의 설치 자세와 실시예에서 규정된 방향은 별도로 이해되어야 한다.Lateral refers to a direction that intersects the longitudinal direction, and vertical or height direction refers to a direction that intersects both the longitudinal direction and the lateral direction. The up and down direction does not necessarily correspond to the direction of gravity. For example, of course, the side may correspond to the direction of gravity, and the longitudinal direction may correspond to the direction of gravity. That is, the installation posture of the air purifier and the direction specified in the embodiment must be understood separately.
도 1과 도 2를 참조하면, 실시예의 광촉매 필터(11)는 복수 개의 광촉매 필터(11)를 길이방향을 따라 이격 배치한 형태의 광촉매 필터 모듈(10)로 제공될 수 있다. 상기 광촉매 필터(11)는 소정의 폭과 소정의 높이를 가지는 직사각형 평판 형상일 수 있다. 상기 광촉매 필터(11)의 폭과 높이는 수 cm 내지 수십 cm 일 수 있다.Referring to Figures 1 and 2, the photocatalyst filter 11 of the embodiment may be provided as a photocatalyst filter module 10 in which a plurality of photocatalyst filters 11 are spaced apart along the longitudinal direction. The photocatalyst filter 11 may have a rectangular plate shape with a predetermined width and a predetermined height. The width and height of the photocatalyst filter 11 may be several centimeters to tens of centimeters.
상기 광촉매 필터(11)는 메쉬 형태의 기초체에 광촉매 물질이 코팅된 구조일 수 있다. The photocatalyst filter 11 may have a structure in which a photocatalyst material is coated on a mesh-shaped base.
상기 광촉매 필터(11)는 기초체 없이 광촉매 물질이 소결된 구조일 수 있다.The photocatalyst filter 11 may have a structure in which a photocatalyst material is sintered without a base.
상기 광촉매 필터(11)는 길이 방향 내지 전후 방향으로 공기가 통할 수 있는 다공성 재질일 수 있다. 상기 광촉매 필터(11)의 두께는 1mm 이하로 얇고, 1mm 이하의 미세한 구멍들이 뚫려 있는 형태일 수 있다.The photocatalyst filter 11 may be made of a porous material that allows air to pass through in the longitudinal direction or the front-to-back direction. The thickness of the photocatalyst filter 11 may be as thin as 1 mm or less, and may have fine holes of 1 mm or less.
일 실시예에서 상기 광촉매 필터(11)의 폭과 높이는 15cm 와 15cm 일 수 있다. In one embodiment, the width and height of the photocatalytic filter 11 may be 15 cm and 15 cm.
상기 광촉매 필터(11)는 가령, 5매가 준비될 수 있다. For example, five photocatalyst filters 11 may be prepared.
복수 개의 광촉매 필터(11) 각각은 길이방향 내지 전후방향에 실질적으로 수직하게 배치되고, 전후 방향으로 이격 배치될 수 있다. 전후방향으로 이웃하는 두 광촉매 필터(11)간 거리는 가령 5 내지 10 cm일 수 있다.Each of the plurality of photocatalytic filters 11 may be arranged substantially perpendicular to the longitudinal direction or the front-to-back direction and may be spaced apart from the front-to-back direction. The distance between two photocatalyst filters 11 neighboring in the front-back direction may be, for example, 5 to 10 cm.
상기 광촉매 필터(11)의 크기와 매수는 필요에 따라 변경 가능하다.The size and number of photocatalyst filters 11 can be changed as needed.
상기 복수 개의 광촉매 필터(11)는, 각각의 광촉매 필터를 전후방향으로 연결하도록 길이방향으로 연장된 연결프레임(12)에 의해 서로 연결되어 광촉매 필터 모듈(10)을 구성할 수 있다.The plurality of photocatalyst filters 11 may be connected to each other by a connection frame 12 extending in the longitudinal direction to connect each photocatalyst filter in the front and rear directions to form a photocatalyst filter module 10.
상기 연결프레임(12)은, 각각의 광촉매 필터의 폭방향 단부와 높이방향 단부의 코너 부위를 연결하도록 길이방향으로 연장된 코너프레임(123)을 포함할 수 있다.The connection frame 12 may include a corner frame 123 extending in the longitudinal direction to connect the corner portions of the width direction end and the height direction end of each photocatalyst filter.
상기 연결프레임(12)은 각각의 광촉매 필터의 높이방향 단부의 중앙부를 연결하도록 길이방향으로 연장된 미들프레임(125)을 포함할 수 있다.The connection frame 12 may include a middle frame 125 extending in the longitudinal direction to connect the central portion of the height direction end of each photocatalyst filter.
상기 코너프레임(123)과 미들프레임(125)은 강성을 유지하기에 족한 정도에서 가능한 가늘게 제작됨으로써 광촉매 필터 모듈(10)이 차지하는 공간을 줄이고 이들이 광촉매 반응을 위한 공기의 유동에 영향을 주지 않도록 할 수 있다.The corner frame 123 and the middle frame 125 are manufactured to be as thin as possible to maintain rigidity, thereby reducing the space occupied by the photocatalyst filter module 10 and preventing them from affecting the flow of air for the photocatalytic reaction. You can.
상기 광촉매 필터(11)는 길이방향으로 관통된 복수 개의 다공부가 마련된 장방형의 평판 형상을 구비할 수 있다. 도면에 도시된 실시예에서는 편의상 길이방향으로 관통된 다공부의 일부만이 도시되어 있으나, 상기 다공부는 전체 면적에 걸쳐 마련됨을 이해할 수 있을 것이다.The photocatalyst filter 11 may have a rectangular plate shape with a plurality of porous portions penetrating in the longitudinal direction. In the embodiment shown in the drawing, only a portion of the porous portion penetrating in the longitudinal direction is shown for convenience, but it will be understood that the porous portion is provided over the entire area.
상기 광촉매 필터 모듈(10)은, 전체적으로 또는 실질적으로 직육면체의 아웃라인을 가질 수 있다.The photocatalytic filter module 10 may have an overall or substantially rectangular parallelepiped outline.
도 3 내지 도 5를 참조하면 상기 광촉매 필터 모듈(10) 및 후술할 광원 모듈(40)은 하우징(30) 내부에 수용될 수 있다.Referring to FIGS. 3 to 5 , the photocatalyst filter module 10 and the light source module 40, which will be described later, can be accommodated inside the housing 30.
상기 하우징(30) 역시 상기 광촉매 필터 모듈(10)의 형상에 대응하도록 직육면체 형상을 가질 수 있다.The housing 30 may also have a rectangular parallelepiped shape to correspond to the shape of the photocatalyst filter module 10.
상기 하우징(30)은, 상기 광촉매 필터(11)의 전방에 이격 배치되고, 길이방향으로 공기를 흡입하는 흡기구(341)가 마련된 흡기면판(34)과, 상기 광촉매 필터(11)의 후방에 이격 배치되고 길이방향으로 공기를 배출하는 배기구(351)가 마련된 배기면판(35)과, 상기 광촉매 필터(11)의 양 측방에 각각 이격 배치된 한 쌍의 측면판(32)과, 상기 흡기면판(34)의 상단부와 상기 배기면판(35)의 상단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터(11)의 상부를 가로막는 천정판(33)과, 상기 흡기면판(34)의 하단부와 상기 배기면판(35)의 하단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터(11)의 하부를 가로막는 베이스판(31)을 포함할 수 있다.The housing 30 is spaced apart from the front of the photocatalyst filter 11 and has an intake surface plate 34 provided with an intake port 341 for sucking air in the longitudinal direction, and is spaced from the rear of the photocatalyst filter 11. An exhaust face plate 35 disposed and provided with an exhaust port 351 for discharging air in the longitudinal direction, a pair of side plates 32 spaced apart from each other on both sides of the photocatalytic filter 11, and the intake face plate ( 34) and a ceiling plate 33 extending longitudinally to connect the upper end of the exhaust face plate 35 and blocking the upper part of the photocatalyst filter 11, and the lower end of the intake face plate 34 and the exhaust face plate. It may include a base plate 31 that extends in the longitudinal direction to connect the lower end of (35) and blocks the lower part of the photocatalytic filter 11.
상기 광촉매 필터 모듈(10)의 전면과 후면은, 각각 상기 흡기면판(34) 및 배기면판(35)과 전후방향으로 서로 마주할 수 있다. 상기 흡기구(341)에는 흡기팬(342)이 설치되고, 상기 배기구(351)에는 배기팬(352)이 설치될 수 있다. 상기 광촉매 필터 모듈(10)의 전면과 상기 흡기면판(34)은 소정의 간격, 가령 5cm 정도의 간격을 두고 배치될 수 있다.The front and back sides of the photocatalyst filter module 10 may face the intake face plate 34 and the exhaust face plate 35 in the front and rear directions, respectively. An intake fan 342 may be installed in the intake port 341, and an exhaust fan 352 may be installed in the exhaust port 351. The front of the photocatalyst filter module 10 and the intake surface plate 34 may be arranged at a predetermined interval, for example, about 5 cm.
상기 흡기구(341)와 배기구(351)의 크기는 가령 직경이 수 cm 내지 십 수 cm일 수 있다.The size of the intake port 341 and the exhaust port 351 may be, for example, several centimeters to several tens of centimeters in diameter.
실시예의 공기 정화기는, 상기 하우징(30)의 흡기구(341)를 통해 전방으로부터 그 내부로 공기가 유입되고, 상기 광촉매 필터 모듈(10)이 설치된 공간을 통해 후방으로 공기가 유동하며, 상기 배기구(351)를 통해 내부로부터 후방으로 공기가 배출될 수 있다.In the air purifier of the embodiment, air flows into the housing from the front through the intake port 341 of the housing 30, air flows rearward through the space where the photocatalytic filter module 10 is installed, and the exhaust port ( Air can be discharged from the inside to the rear through 351).
상기 공기는 일반적인 생활 영역의 대기권 하의 공기이거나, 공장과 같은 특수 환경의 공기 내지 혼합 가스일 수 있다. 상기 공기 정화기는, 가령 가정용으로 사용되거나, 가령 건물이나 공장의 공조 설비에 설치될 수 있다.The air may be air in the atmosphere of general living areas, air in a special environment such as a factory, or mixed gas. The air purifier may be used for domestic purposes, for example, or may be installed in air conditioning equipment of a building or factory.
상기 광촉매 필터(11)의 전방에는 하우징(30) 내부로 이물질이 유입되는 것을 차단하는 흡기필터(343)가 마련될 수 있다. 상기 흡기필터(343)는 상기 흡기팬(342)의 전방에 마련될 수 있다. 도면에 도시된 실시예에서는 편의상 흡기필터(343)의 일부에 통기공을 도시하였으나, 상기 통기공은 전체 면적에 걸쳐 마련됨을 이해할 수 있을 것이다.An intake filter 343 may be provided in front of the photocatalyst filter 11 to block foreign substances from entering the housing 30. The intake filter 343 may be provided in front of the intake fan 342. In the embodiment shown in the drawing, ventilation holes are shown in a portion of the intake filter 343 for convenience, but it will be understood that the ventilation holes are provided over the entire area.
상기 공기 정화기를 제어하기 위한 제어 기판은, 상기 흡기면판(34)의 내측면에서 상기 흡기구(341)의 하부에 설치될 수 있다. A control board for controlling the air purifier may be installed below the intake port 341 on the inner surface of the intake surface plate 34.
상기 제어 기판은, 상기 광촉매 필터 모듈(10)의 하면과 상기 베이스판(31) 사이에 마련될 수도 있다. 이를 위해 상기 광촉매 필터 모듈(10)과 베이스판(31) 사이에는 수 cm의 공간이 마련될 수 있다. 이와 같은 구조에서는, 광원 모듈(40)이 광촉매 필터 모듈(10)의 하부를 가로막도록 할 수 있다.The control board may be provided between the lower surface of the photocatalyst filter module 10 and the base plate 31. For this purpose, a space of several cm may be provided between the photocatalyst filter module 10 and the base plate 31. In this structure, the light source module 40 can block the lower part of the photocatalyst filter module 10.
상기 광촉매 필터 모듈(10)의 크기와 용량은, 광촉매 필터(11)의 크기와 광촉매 필터(11)의 매수와 광촉매 필터(11) 간의 간격을 조절함으로써, 설치 환경에 적합하도록 유연하고 쉽게 변경될 수 있다. 또한 간단하게 광촉매 필터(11)의 매수를 추가로 설치할 수 있어서, 확장성이 뛰어나다.The size and capacity of the photocatalyst filter module 10 can be flexibly and easily changed to suit the installation environment by adjusting the size of the photocatalyst filter 11, the number of photocatalyst filters 11, and the distance between the photocatalyst filters 11. You can. Additionally, additional photocatalyst filters 11 can be easily installed, providing excellent expandability.
상기 광촉매 필터 모듈(10)은, 상기 광촉매 필터 모듈(10)의 양 측면과 상기 한 쌍의 측면판(32) 사이에 각각 배치되는 한 쌍의 사이드서포트(20)에 의해 지지될 수 있다.The photocatalyst filter module 10 may be supported by a pair of side supports 20 respectively disposed between both sides of the photocatalyst filter module 10 and the pair of side plates 32.
상기 사이드서포트(20)는, 길이방향으로 이웃하여 배치되는 두 광촉매 필터(11) 사이의 공간의 측면을 가로막도록 전후방향으로 연장되는 측면막음판(21)을 포함할 수 있다. 이에 따라, 상기 광촉매 필터 모듈(10)을 통하여 후방으로 유동하는 공기는 반드시 복수 매의 광촉매 필터(11)를 통하여 후방으로 유동한다. 즉 상기 측면막음판(21)은 상기 공기가 광촉매 필터(11)를 통하지 않고 다른 경로로 바이패스하는 것을 방지할 수 있다.The side support 20 may include a side blocking plate 21 extending in the front-back direction to block the sides of the space between two photocatalyst filters 11 arranged adjacent to each other in the longitudinal direction. Accordingly, air flowing backward through the photocatalyst filter module 10 necessarily flows backward through a plurality of photocatalyst filters 11. That is, the side blocking plate 21 can prevent the air from bypassing to another path instead of passing through the photocatalyst filter 11.
상기 사이드서포트(20)는, 상기 측면막음판(21)의 전방 단부로부터 측방으로 연장되어 상기 측면판(32)에 연결되는 전면막음판(22)을 더 포함할 수 있다. 상기 전면막음판(22)은, 상기 측면막음판(21)과 측면판(32) 사이의 공간을, 가장 전방에 배치된 광촉매 필터(11)의 전방 공간으로부터 가로막을 수 있다.The side support 20 may further include a front blocking plate 22 extending laterally from the front end of the side blocking plate 21 and connected to the side plate 32. The front blocking plate 22 can block the space between the side blocking plate 21 and the side plate 32 from the space in front of the photocatalytic filter 11 disposed at the front.
이에 따라 상기 전면막음판(22)은, 상기 흡기구(341)를 통해 상기 흡기면판(34)과 상기 광촉매 필터 모듈(10)의 전면 사이의 공간으로 유입된 공기가 모두 상기 광촉매 필터 모듈(10) 내부로 유입되도록 안내한다.Accordingly, the front blocking plate 22 ensures that all air flowing into the space between the intake surface plate 34 and the front of the photocatalyst filter module 10 through the intake port 341 is transferred to the photocatalyst filter module 10. Guide it to flow inside.
광촉매 반응 효율을 높이기 위해, 상기 측면막음판(21)과 상기 광촉매 필터(11) 사이에 측면추가판(25)이 개재될 수 있다. 가령 상기 측면추가판(25)은 측면으로 조사된 광을 다시 광촉매 필터(11) 쪽으로 반사시키는 반사판이거나, 추가적인 광촉매 필터판일 수 있다.In order to increase photocatalytic reaction efficiency, a side additional plate 25 may be interposed between the side blocking plate 21 and the photocatalytic filter 11. For example, the side additional plate 25 may be a reflector that reflects light irradiated to the side back toward the photocatalyst filter 11, or may be an additional photocatalyst filter plate.
상기 측면추가판(25)의 설치를 용이하게 하기 위해, 상기 사이드서포트(20)는 상기 측면추가판(25)을 지지하는 측면추가판 홀더(23)를 더 구비할 수 있다.In order to facilitate installation of the side additional plate 25, the side support 20 may further include a side additional plate holder 23 that supports the side additional plate 25.
도 5에 도시된 바와 같이, 상기 공기 정화기는, 상기 광촉매 필터 모듈(10)을 구성하는 광촉매 필터(11)에 음영 없이 모두 자외선이 고루 조사되도록 설치된 광원 모듈(40)을 더 포함한다.As shown in FIG. 5, the air purifier further includes a light source module 40 installed so that ultraviolet rays are evenly irradiated to all of the photocatalyst filters 11 constituting the photocatalyst filter module 10 without shading.
상기 광원 모듈(40)은 복수 개의 광원(42)을 포함한다.The light source module 40 includes a plurality of light sources 42.
상기 광원(42)은, 자외선 엘이디(421)를 포함할 수 있다. 자외선 엘이디(421)에서 발광하는 자외선은, 넓은 스펙트럼의 자외선을 발생시키는 종래의 자외선 램프와 달리, 피크파장에서 그 세기가 집중되는 특성을 갖는다.The light source 42 may include an ultraviolet LED (421). The ultraviolet rays emitted from the ultraviolet LED 421 have the characteristic of focusing their intensity at the peak wavelength, unlike conventional ultraviolet rays that generate ultraviolet rays of a wide spectrum.
도 22에 도시된 바와 같이, BaP는 254nm의 피크파장을 가지는 자외선을 조사하였을 때 분해 능력이 가장 뛰어나고, PYRE는 310nm의 피크파장을 가지는 자외선을 조사하였을 때 분해 능력이 가장 뛰어나다. 즉 서로 다른 피크파장을 가지는 자외선을 광촉매 필터에 조사하였을 때, 분해하고자 하는 가스의 종류에 따라 분해 능력에 차이가 발생함을 확인할 수 있다. As shown in Figure 22, BaP has the best decomposition ability when irradiated with ultraviolet rays with a peak wavelength of 254 nm, and PYRE has the best decomposition ability when irradiated with ultraviolet rays with a peak wavelength of 310 nm. In other words, when ultraviolet rays with different peak wavelengths are irradiated to the photocatalyst filter, it can be seen that there is a difference in decomposition ability depending on the type of gas to be decomposed.
본 발명은, 분해하고자 하는 특정 가스의 결합 부위의 분해에 특히 적합한 피크파장을 가지는 자외선 엘이디(421)를 포함하는 광원(42)을 통해, 광 분해 효율을 높일 수 있다.The present invention can increase photodecomposition efficiency through a light source 42 including an ultraviolet LED 421 having a peak wavelength particularly suitable for decomposition of the binding site of a specific gas to be decomposed.
복수 개의 광원(42)들은 각각 특정 피크파장을 가지는 자외선을 조사하도록 제작될 수 있다.Each of the plurality of light sources 42 may be manufactured to irradiate ultraviolet rays having a specific peak wavelength.
가령 제1광원(42-1)은 제1 피크파장을 가지는 하나 또는 둘 이상의 자외선 엘이디(421)만을 포함하도록 제작될 수 있다.For example, the first light source 42-1 may be manufactured to include only one or two ultraviolet LEDs 421 having a first peak wavelength.
가령 제2광원(42-2)은, 상기 제1 피크파장과 다른 제2 피크파장을 가지는 자외선 엘이디(421)만을 포함하도록 제작될 수 있다.For example, the second light source 42-2 may be manufactured to include only the ultraviolet LED 421 having a second peak wavelength different from the first peak wavelength.
가령 제3광원(42-3)은, 상기 제1 및 제2 피크파장과 다른 제3 피크파장을 가지는 자외선 엘이디(421)만을 포함하도록 제작될 수 있다.For example, the third light source 42-3 may be manufactured to include only the ultraviolet LED 421 having a third peak wavelength different from the first and second peak wavelengths.
제N광원(42-N)은, 제1 내지 제N-1 피크파장과 다른 제N 피크파장을 가지는 자외선 엘이디(421)만을 포함하도록 제작될 수 있다. 여기서 N은 4 이상의 자연수일 수 있다.The N-th light source 42-N may be manufactured to include only the ultraviolet LED 421 having an N-th peak wavelength different from the 1st to N-1th peak wavelengths. Here, N may be a natural number of 4 or more.
가령, 복수 개의 광원(42)을 포함하는 광원 모듈(40)은, 하나 또는 둘 이상의 제1광원(42-1), 하나 또는 둘 이상의 제2광원(42-2)을 포함할 수 있다. 가령 복수 개의 광원(42)은 하나 또는 둘 이상의 제3광원(42-3)을 추가로 포함할 수 있다. 가령 복수 개의 광원(42)은 하나 또는 둘 이상의 제N광원(42-N)을 추가로 포함할 수 있다.For example, the light source module 40 including a plurality of light sources 42 may include one or more first light sources 42-1 and one or more second light sources 42-2. For example, the plurality of light sources 42 may additionally include one or more third light sources 42-3. For example, the plurality of light sources 42 may additionally include one or more Nth light sources 42-N.
하나의 기판에 동일한 종류의 자외선 엘이디(421)를 실장하면, 자외선 엘이디(421)의 제어에 더욱 유리하다. 또한 하나의 광원(42)이 동일 피크파장을 가지는 자외선 엘이디(421)들로 구성되면, 서로 다른 피크파장의 광원(42)을 조합하여 광원 모듈(40)을 구성할 수 있어 사용 환경에 적합한 최적의 광원 모듈(40)을 제작하기에 더욱 용이하다.If the same type of ultraviolet LEDs 421 are mounted on one substrate, it is more advantageous to control the ultraviolet LEDs 421. In addition, if one light source 42 is composed of ultraviolet LEDs 421 having the same peak wavelength, the light source module 40 can be configured by combining light sources 42 with different peak wavelengths, so that the light source module 40 is optimally suited to the usage environment. It is easier to manufacture the light source module 40.
이하 도 6 내지 도 13을 참조하여 광원(42)의 구조를 설명한다.Hereinafter, the structure of the light source 42 will be described with reference to FIGS. 6 to 13.
먼저 도 6 내지 도 9를 참조하면, 일 예로서, 상기 광원(42)은, 기초기판(41)에 실장된 자외선 엘이디(421), 상기 자외선 엘이디(421) 상에 설치된 집광렌즈(422), 및 상기 집광렌즈(422)의 출사방향에 설치된 도광렌즈(423)를 포함하는 제1구조를 가질 수 있다.First, referring to FIGS. 6 to 9, as an example, the light source 42 includes an ultraviolet LED 421 mounted on the base substrate 41, a condenser lens 422 installed on the ultraviolet LED 421, And it may have a first structure including a light guide lens 423 installed in the exit direction of the condenser lens 422.
상기 자외선 엘이디(421)는 칩 형태일 수 있다. 상기 자외선 엘이디(421)는 하나 또는 둘 이상의 집합체를 이룰 수 있다.The ultraviolet LED 421 may be in the form of a chip. The ultraviolet LEDs 421 may form one or two or more aggregates.
상기 집광렌즈(422)는 자외선 엘이디(421)마다 개별적으로 마련되거나, 집합체 당 하나씩 마련될 수 있다.The condenser lens 422 may be provided individually for each ultraviolet LED 421, or may be provided one per set.
상기 도광렌즈(423)는, 하나의 집광렌즈(422)에 하나씩 대응하여 제공되거나, 복수 개의 집광렌즈(422)당 하나씩 마련될 수 있다.The light guide lenses 423 may be provided one by one in correspondence to one converging lens 422, or may be provided one per plurality of condensing lenses 422.
실시예에서는 하나의 자외선 엘이디(421) 상에 하나의 집광렌즈(422)가 설치되고, 하나의 집광렌즈 상에 하나의 도광렌즈(423)가 설치된 구조가 예시된다.In the embodiment, a structure in which one condenser lens 422 is installed on one ultraviolet LED 421 and one light guide lens 423 is installed on one condenser lens is illustrated.
다음으로 도 10과 도 11을 참조하면, 다른 일 예로서, 상기 광원(42)은, 상하방향 일측 단부에 마련된 기초기판(41), 상기 기초기판(41)에 연결되고 상하방향으로 연장된 연장기판(425), 상기 연장기판(425) 상에서 상하방향으로 이격 실장된 복수 개의 자외선 엘이디(421) 및 상기 자외선 엘이디(421) 상에 마련된 렌즈(427)를 포함하는 제2구조의 광원일 수 있다. 상기 기초기판(41)은 생략될 수도 있다.Next, referring to FIGS. 10 and 11, as another example, the light source 42 includes a base substrate 41 provided at one end in the vertical direction, an extension connected to the base substrate 41 and extending in the vertical direction. It may be a light source of a second structure including a substrate 425, a plurality of ultraviolet LEDs 421 mounted spaced apart in the vertical direction on the extension substrate 425, and a lens 427 provided on the ultraviolet LED 421. . The base substrate 41 may be omitted.
상기 렌즈(427)는 하나의 자외선 엘이디(421)마다 하나씩 설치되거나, 복수 개의 자외선 엘이디(421) 군마다 하나씩 설치될 수 있다.The lenses 427 may be installed one by one for each ultraviolet LED 421 or may be installed one for each group of a plurality of ultraviolet LEDs 421.
상기 연장기판(425)은, 상기 자외선 엘이디(421)가 방사상으로 배치되도록, 2 이상의 연장기판(425)이 둘레 방향을 따라 배치된 구조일 수 있다.The extension board 425 may have a structure in which two or more extension boards 425 are arranged along the circumferential direction so that the ultraviolet LEDs 421 are arranged radially.
실시예에서는, 4매의 연장기판(425)이 정사각형의 각 변에 대응하는 위치에 설치된 형태가 예시된다. 그러나 이러한 연장기판(425) 4매가 정삼각형의 각 변에 대응하여 설치되거나, 연장기판(425) n매가 정n각형의 각 변에 대응하여 설치될 수 있음은 물론이다. 또한 2매의 연장기판(425)이 서로 배면을 맞대는 구조로 설치될 수도 있다.In the embodiment, four extension boards 425 are installed at positions corresponding to each side of a square. However, it goes without saying that four extension boards 425 can be installed corresponding to each side of an equilateral triangle, or n sheets of extension boards 425 can be installed corresponding to each side of a regular n-gon. Additionally, two extension boards 425 may be installed with their backs facing each other.
다음으로 도 12와 도 13을 참조하면, 다른 일 예로서, 상기 광원(42)은, 상하방향 일측 단부로부터 전후방향으로 경사지게 연장된 경사기판(426), 상기 경사기판(426) 상에서 폭방향으로 이격 실장된 자외선 엘이디(421), 및 상기 자외선 엘이디(421) 상에 마련된 렌즈(427)를 포함하는 제3구조의 광원일 수 있다.Next, referring to FIGS. 12 and 13, as another example, the light source 42 includes an inclined substrate 426 extending obliquely in the front-back direction from one end in the vertical direction, and extending in the width direction on the inclined substrate 426. It may be a light source of a third structure including an ultraviolet LED 421 mounted spaced apart, and a lens 427 provided on the ultraviolet LED 421.
상기 경사기판(426)은 상하방향 일측 단부에 마련된 기초기판(41)에 연결될 수 있다.The inclined substrate 426 may be connected to the base substrate 41 provided at one end in the vertical direction.
상기 렌즈(427)는 하나의 자외선 엘이디(421)마다 하나씩 설치되거나, 복수 개의 자외선 엘이디(421) 군마다 하나씩 설치될 수 있다.The lenses 427 may be installed one at a time for each ultraviolet LED 421 or may be installed one at a time for each group of a plurality of ultraviolet LEDs 421.
실시예에서는, 서로 대칭을 이루며 경사지도록 설치된 한 쌍의 경사기판(426) 상에 폭방향으로 각각 3개의 자외선 엘이디(421)가 설치되고, 각 자외선 엘이디(421)마다 렌즈(427)가 설치된 구조가 예시된다. In the embodiment, three ultraviolet LEDs 421 are installed in the width direction on a pair of inclined substrates 426 installed to be symmetrical and inclined to each other, and a lens 427 is installed for each ultraviolet LED 421. is exemplified.
그러나 경사기판(426)은 하나만 마련될 수도 있다. 광촉매 필터 모듈(10)의 전면보다 더 앞에 설치되거나 후면보다 더 뒤에 설치되는 광원(42)의 경사기판(426)은, 자외선 엘이디(421)가 광촉매 필터(11)를 향하도록 하나만 마련될 수 있다.However, only one inclined substrate 426 may be provided. The inclined substrate 426 of the light source 42, which is installed further in front or behind the back of the photocatalyst filter module 10, may be provided so that the ultraviolet LED 421 is directed toward the photocatalyst filter 11. .
앞서 설명한 상기 복수 개의 광원(42)들은, 기초기판(41)을 공유할 수 있다.The plurality of light sources 42 described above may share the base substrate 41.
상기 복수 개의 광원(42)은 상기 제1구조의 광원, 상기 제2구조의 광원 및 상기 제3구조의 광원 중 적어도 어느 하나를 포함할 수 있다.The plurality of light sources 42 may include at least one of the first structure light source, the second structure light source, and the third structure light source.
즉 상기 복수 개의 광원(42)을 포함하는 광원 모듈(40)은, 도 14와 도 15에 도시된 바와 같이 제1구조의 광원들 만으로 이루어지거나, 제2구조의 광원들 만으로 이루어지거나, 도 16에 도시된 바와 같이 제3구조의 광원들 만으로 이루어질 수 있음은 물론, 제1구조의 광원과 제2구조의 광원을 포함하거나, 도 17에 도시된 바와 같이 제1구조의 광원과 제3구조의 광원을 포함하거나, 제2구조의 광원과 제3구조의 광원을 포함하거나, 제1구조의 광원과 제2구조의 광원과 제3구조의 광원을 모두 포함할 수 있다.That is, the light source module 40 including the plurality of light sources 42 is composed of only light sources of the first structure, as shown in FIGS. 14 and 15, or consists of only light sources of the second structure, or is composed of only light sources of the second structure, as shown in FIGS. 14 and 15. As shown in , it can be composed of only light sources of the third structure, as well as including a light source of the first structure and a light source of the second structure, or, as shown in FIG. 17, a light source of the first structure and the light source of the third structure. It may include a light source, a light source of a second structure and a light source of a third structure, or may include a light source of a first structure, a light source of a second structure and a light source of a third structure.
상기 복수 개의 광원(42)을 포함하는 광원 모듈(40)은, 하단부로부터 상방을 향해 연장되도록 설치된 제1형태의 광원을 포함할 수 있다.The light source module 40 including the plurality of light sources 42 may include a first type of light source installed to extend upward from the lower end.
상기 복수 개의 광원(42)을 포함하는 광원 모듈(40)은, 상단부로부터 하방을 향해 연장되도록 설치된 제2형태의 광원을 포함할 수 있다.The light source module 40 including the plurality of light sources 42 may include a second type of light source installed to extend downward from the upper end.
상기 광원 모듈(40)은, 도 14에 도시된 바와 같이 제1형태의 광원만을 포함하거나, 제2형태의 광원만을 포함하거나, 도 15 내지 도 17에 도시된 바와 같이 제1형태의 광원과 제2형태의 광원을 모두 포함할 수 있다.The light source module 40 includes only a first type of light source as shown in FIG. 14, only a second type of light source, or includes a first type of light source and a second type of light source as shown in FIGS. 15 to 17. It can include both types of light sources.
상기 제1구조의 광원, 제2구조의 광원 및 제3구조의 광원은 모두, 각각 제1형태로 설치될 수도 있고 제2형태로 설치될 수도 있다.The light source of the first structure, the light source of the second structure, and the light source of the third structure may all be installed in the first form or the second form, respectively.
가령 상기 광원 모듈(40)은, 제1형태로 설치된 제3구조의 광원과 제2형태로 설치된 제2형태로 설치된 제1구조의 광원을 구비할 수 있다. 가령 상기 광원 모듈(40)은 제1형태로 설치된 제1구조의 광원과 제2형태로 설치된 제1구조의 광원을 구비할 수 있다. 일일이 열거하지 않더라도 이러한 광원(42)의 구조와 설치 형태의 조합을 다양하게 구성할 수 있음은 물론이다.For example, the light source module 40 may include a light source of a third structure installed in a first shape and a light source of a first structure installed in a second shape. For example, the light source module 40 may include a light source of a first structure installed in a first shape and a light source of a first structure installed in a second shape. Of course, even if not listed individually, various combinations of the structure and installation form of the light source 42 can be configured.
상기 제1 피크파장 내지 상기 제N 피크파장은, 각각 300nm ~ 450nm에서 선택될 수 있다. 가령 이러한 피크파장은, 325nm, 345nm, 365nm, 385nm, 405nm 일 수 있다.The first peak wavelength to the Nth peak wavelength may be selected from 300 nm to 450 nm, respectively. For example, these peak wavelengths may be 325 nm, 345 nm, 365 nm, 385 nm, or 405 nm.
가령, 제1피크파장을 가지는 제1광원(42-1)은 제1구조를 가지거나 제2구조를 가지거나 제3구조를 가질 수 있고, 제1형태로 설치되거나 제2형태로 설치될 수 있다. For example, the first light source 42-1 having a first peak wavelength may have a first structure, a second structure, or a third structure, and may be installed in the first form or the second form. there is.
가령, 상기 광원 모듈(40)에는, 제1피크파장을 가지는 제1구조의 제1광원(42-1)이 제1형태로 설치될 수 있고, 제1피크파장을 가지는 제2구조의 제1광원(42-1)이 제1형태로 설치될 수 있고, 제2피크파장을 가지는 제1구조의 제2광원(42-2)이 제2형태로 설치될 수 있다. 즉 상기 광원 모듈(40)이 구비하는 복수 개의 각 광원의 피크파장과 구조와 설치 형태는 다양한 조합이 가능하다.For example, in the light source module 40, a first light source 42-1 of a first structure having a first peak wavelength may be installed in a first form, and a first light source 42-1 of a second structure having a first peak wavelength may be installed in a first shape. The light source 42-1 may be installed in a first form, and the second light source 42-2 of a first structure having a second peak wavelength may be installed in a second form. That is, the peak wavelength, structure, and installation form of each of the plurality of light sources provided in the light source module 40 can be combined in various ways.
본 발명의 실시예에 따르면, 도시된 바와 같이 상기 광원 모듈(40)의 복수 개의 광원(42)은, 길이방향으로 이웃하는 두 광촉매 필터(11) 사이에서 폭방향을 따라 이격 배치될 수 있다.According to an embodiment of the present invention, as shown, the plurality of light sources 42 of the light source module 40 may be arranged to be spaced apart along the width direction between two photocatalyst filters 11 adjacent in the longitudinal direction.
도 18과 도 21을 참조하면, 상기 광원 모듈(40)에서, 폭방향으로 이웃하는 두 광원(42)의 피크파장은 서로 다르다.Referring to FIGS. 18 and 21, in the light source module 40, the peak wavelengths of two light sources 42 adjacent in the width direction are different from each other.
그리고, 도 18과 도 21을 참조하면, 상기 광원 모듈(40)에서, 길이방향으로 하나의 상기 광촉매 필터(11)를 사이에 두고 이웃하는 광원(42)들 중, 각각 상기 광촉매 필터(11)의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원(42)의 피크파장은 서로 다르다.And, referring to FIGS. 18 and 21, in the light source module 40, among the light sources 42 adjacent in the longitudinal direction with one photocatalyst filter 11 in between, each of the photocatalyst filters 11 The peak wavelengths of the two light sources 42 disposed closest in the width direction are different from each other, provided in front and behind.
이렇게 서로 다른 형태로 설치된 광원들은, 서로 다른 피크파장의 자외선을 고르게 분포시킬 수 있다.Light sources installed in these different shapes can evenly distribute ultraviolet rays of different peak wavelengths.
또한 도 18과 도 21을 참조하면, 공기의 유동방향, 즉 전후방향으로 일렬로 배치되는 광원들은, 광원 모듈(40)에 설치된 모든 피크파장의 광원들을 포함할 수 있다. 이에 따라, 하우징(30) 내에서 유동방향을 따라 흐르는 공기는, 거기 설치된 모든 종류의 피크파장의 광원들에 노출될 수 있다. 이로써, 하우징(30) 내부를 흐르는 공기는, 설계 의도한 모든 피크파장의 자외선이 조사되는 광촉매 필터(11)와 접촉하며 분해될 수 있다.Also, referring to FIGS. 18 and 21, the light sources arranged in a row in the air flow direction, that is, the front-back direction, may include light sources of all peak wavelengths installed in the light source module 40. Accordingly, the air flowing along the flow direction within the housing 30 can be exposed to light sources of all types of peak wavelengths installed there. As a result, the air flowing inside the housing 30 can be decomposed in contact with the photocatalyst filter 11, which is irradiated with ultraviolet rays of all peak wavelengths intended for design.
도 19 내지 도 21을 참조하면, 상기 광원 모듈(40)에서, 폭방향으로 이웃하는 두 광원(42) 중 어느 하나는 제1형태로 설치된 광원이고 다른 하나는 제2형태로 설치된 광원일 수 있다.19 to 21, in the light source module 40, one of the two light sources 42 adjacent in the width direction may be a light source installed in the first type and the other may be a light source installed in the second type. .
또한 도 19 내지 도 21을 참조하면, 상기 광원 모듈(40)에서, 길이방향으로 하나의 상기 광촉매 필터(11)를 사이에 두고 이웃하는 광원(42)들 중, 각각 상기 광촉매 필터(11)의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원(42) 중 어느 하나는 제1형태로 설치된 광원이고 다른 하나는 제2형태로 설치된 광원일 수 있다.Also, referring to FIGS. 19 to 21, in the light source module 40, among the light sources 42 adjacent in the longitudinal direction with one photocatalyst filter 11 in between, each of the photocatalyst filters 11 One of the two light sources 42 provided at the front and the rear arranged closest in the width direction may be a light source installed in the first type and the other may be a light source installed in the second type.
이렇게 서로 다른 형태로 설치된 광원들은, 서로 다른 피크파장의 자외선을 고르게 분포시킬 뿐만 아니라, 공기 유동의 난류를 유도하여 광촉매 정화 효율을 더욱 높일 수 있다.Light sources installed in these different shapes not only distribute ultraviolet rays of different peak wavelengths evenly, but also induce turbulence in the air flow, further increasing photocatalyst purification efficiency.
이상과 같이 본 발명에 대해서 예시한 도면을 참조로 하여 설명하였으나, 본 명세서에 개시된 실시예와 도면에 의해 본 발명이 한정되는 것은 아니며, 본 발명의 기술사상의 범위 내에서 통상의 기술자에 의해 다양한 변형이 이루어질 수 있음은 자명하다. 아울러 앞서 본 발명의 실시예를 설명하면서 본 발명의 구성에 따른 작용 효과를 명시적으로 기재하여 설명하지 않았을 지라도, 해당 구성에 의해 예측 가능한 효과 또한 인정되어야 함은 당연하다.As described above, the present invention has been described with reference to the illustrative drawings, but the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that transformation can occur. In addition, although the operational effects according to the configuration of the present invention were not explicitly described and explained while explaining the embodiments of the present invention above, it is natural that the predictable effects due to the configuration should also be recognized.

Claims (17)

  1. 외곽이 소정의 폭과 소정의 높이를 가지고, 길이방향을 따라 이격 배치된 복수 개의 광촉매 필터;A plurality of photocatalyst filters having an outer perimeter of a predetermined width and a predetermined height and spaced apart along the longitudinal direction;
    제1 피크파장을 가지는 자외선 엘이디를 포함하는 제1광원 및 제1 피크파장과 다른 제2 피크파장을 가지는 자외선 엘이디를 포함하는 제2광원을 포함하는 복수 개의 광원; 및A plurality of light sources including a first light source including an ultraviolet LED having a first peak wavelength and a second light source including an ultraviolet LED having a second peak wavelength different from the first peak wavelength; and
    상기 광촉매 필터와 광원을 수용하는 하우징;을 포함하는 공기 정화기로서,An air purifier including a housing for accommodating the photocatalyst filter and a light source,
    길이방향으로 이웃하는 두 광촉매 필터 사이에는, 복수 개의 광원이 폭방향을 따라 이격 배치되고,Between two photocatalyst filters adjacent in the longitudinal direction, a plurality of light sources are spaced apart along the width direction,
    폭방향으로 이웃하는 두 광원의 피크파장은 서로 다른, 공기 정화기.An air purifier where two light sources adjacent in the width direction have different peak wavelengths.
  2. 청구항 1에 있어서,In claim 1,
    길이방향으로 하나의 상기 광촉매 필터를 사이에 두고 이웃하는 광원들 중, 각각 상기 광촉매 필터의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원의 피크파장은 서로 다른, 공기 정화기.Among the light sources adjacent in the longitudinal direction with one photocatalyst filter in between, the peak wavelengths of the two light sources provided in front and behind the photocatalyst filter, respectively, and closest in the width direction are different from each other.
  3. 청구항 1에 있어서,In claim 1,
    상기 복수 개의 광원 중 적어도 일부 광원은, 상하방향 일측 단부로부터 타측 단부를 향해 연장된 제1형태의 광원인, 공기 정화기.At least some of the light sources among the plurality of light sources are a first type of light source extending from one end toward the other end in the vertical direction.
  4. 청구항 3에 있어서,In claim 3,
    상기 복수 개의 광원 중 다른 일부 광원은, 상하방향 타측 단부로부터 일측 단부를 향해 연장된 제2형태의 광원인, 공기 정화기.Some of the other light sources among the plurality of light sources are a second type of light source extending from the other end toward one end in the vertical direction, an air purifier.
  5. 청구항 4에 있어서,In claim 4,
    폭방향으로 이웃하는 두 광원 중 어느 하나는 제1형태의 광원이고 다른 하나는 제2형태의 광원인, 공기 정화기.An air purifier wherein one of two light sources adjacent in the width direction is a first type light source and the other is a second type light source.
  6. 청구항 4에 있어서,In claim 4,
    길이방향으로 하나의 상기 광촉매 필터를 사이에 두고 이웃하는 광원들 중, 각각 상기 광촉매 필터의 전방에 마련되고 후방에 마련되되 폭방향으로 가장 가깝게 배치된 두 광원 중 어느 하나는 제1형태의 광원이고 다른 하나는 제2형태의 광원인, 공기 정화기.Among the light sources adjacent in the longitudinal direction with one photocatalyst filter in between, one of the two light sources provided in front and behind the photocatalyst filter, respectively, and arranged closest in the width direction, is a first type light source. The other is a second type of light source, an air purifier.
  7. 청구항 1에 있어서,In claim 1,
    상기 광원은,The light source is,
    상하방향 일측 단부에 마련된 기초기판;A base substrate provided at one end in the vertical direction;
    상기 기초기판에 실장된 자외선 엘이디;An ultraviolet LED mounted on the base substrate;
    상기 자외선 엘이디 상에 마련된 집광렌즈; 및A condensing lens provided on the ultraviolet LED; and
    입사면이 상기 집광렌즈의 출사면과 마주하고, 상하방향으로 연장된 도광렌즈;를 포함하는, 공기 정화기.An air purifier comprising a light guide lens, the entrance surface of which faces the exit surface of the condenser lens, and the light guide lens extends in the vertical direction.
  8. 청구항 1에 있어서,In claim 1,
    상기 광원은,The light source is,
    상하방향 일측 단부로부터 타측 단부를 향해 상하방향으로 연장된 연장기판;an extension board extending in the vertical direction from one end to the other end;
    상기 연장기판 상에서 상하방향으로 이격 실장된 자외선 엘이디; 및Ultraviolet LEDs mounted spaced apart in the vertical direction on the extension board; and
    상기 자외선 엘이디 상에 마련된 렌즈;를 포함하는, 공기 정화기.An air purifier comprising: a lens provided on the ultraviolet ray LED.
  9. 청구항 1에 있어서,In claim 1,
    상기 광원은,The light source is,
    상하방향 일측 단부로부터 경사지게 연장된 경사기판;An inclined substrate extending obliquely from one end in the vertical direction;
    상기 경사기판 상에서 폭방향으로 이격 실장된 자외선 엘이디; 및Ultraviolet LEDs mounted spaced apart in the width direction on the inclined substrate; and
    상기 자외선 엘이디 상에 마련된 렌즈;를 포함하는, 공기 정화기.An air purifier comprising: a lens provided on the ultraviolet LED.
  10. 청구항 1에 있어서,In claim 1,
    상기 제1 피크파장과 상기 제2 피크파장은, 각각 300nm ~ 450nm에서 선택된, 공기 정화기.The first peak wavelength and the second peak wavelength are each selected from 300 nm to 450 nm.
  11. 청구항 1에 있어서,In claim 1,
    상기 복수 개의 광촉매 필터는, 각각의 광촉매 필터의 폭방향 단부와 높이방향 단부의 코너 부위를 연결하도록 길이방향으로 연장된 코너프레임에 의해 서로 연결되어 광촉매 필터 모듈을 구성하는, 공기 정화기.The plurality of photocatalyst filters are connected to each other by a corner frame extending in the longitudinal direction to connect the corner portion of the width-direction end and the height-direction end of each photocatalyst filter to form a photocatalyst filter module.
  12. 청구항 11에 있어서,In claim 11,
    상기 복수 개의 광촉매 필터는, 각각의 광촉매 필터의 높이방향 단부의 중앙부를 연결하도록 길이방향으로 연장된 미들프레임에 의해 서로 연결된, 공기 정화기.The plurality of photocatalyst filters are connected to each other by a middle frame extending in the longitudinal direction to connect the central portion of the height-direction end of each photocatalyst filter.
  13. 청구항 1에 있어서,In claim 1,
    상기 광촉매 필터는 길이방향으로 관통된 복수 개의 다공부가 마련된 장방형의 평판 형상을 구비하는, 공기 정화기.The photocatalytic filter is an air purifier having a rectangular flat plate shape with a plurality of porous portions penetrating in the longitudinal direction.
  14. 청구항 1에 있어서,In claim 1,
    상기 하우징은,The housing is,
    상기 광촉매 필터의 전방에 이격 배치되고, 길이방향으로 공기를 흡입하는 흡기구가 마련된 흡기면판;an intake surface plate spaced apart in front of the photocatalyst filter and provided with an intake port for sucking air in the longitudinal direction;
    상기 광촉매 필터의 후방에 이격 배치되고, 길이방향으로 공기를 배출하는 배기구가 마련된 배기면판; 및an exhaust face plate spaced apart from the rear of the photocatalyst filter and provided with an exhaust port for discharging air in the longitudinal direction; and
    상기 광촉매 필터의 측방에 이격 배치된 측면판;을 포함하고,It includes a side plate spaced apart from the side of the photocatalyst filter,
    상기 복수 개의 광촉매 필터의 측면은, 전후방향으로 연장되는 측면막음판을 포함하는 사이드서포트에 의해 지지되고,The side surfaces of the plurality of photocatalytic filters are supported by side supports including side blocking plates extending in the front and rear directions,
    상기 측면막음판은, 길이방향으로 이웃하여 배치되는 두 광촉매 필터 사이의 공간의 측면을 가로막는, 공기 정화기.The side blocking plate blocks the side of the space between two photocatalyst filters arranged adjacent to each other in the longitudinal direction.
  15. 청구항 14에 있어서,In claim 14,
    상기 사이드서포트는, 상기 측면막음판의 전방 단부로부터 측방으로 연장되어 상기 측면판에 연결되는 전면막음판을 더 포함하고,The side support further includes a front blocking plate extending laterally from the front end of the side blocking plate and connected to the side plate,
    상기 전면막음판은, 상기 측면막음판과 측면판 사이의 공간을, 가장 전방에 배치된 광촉매 필터의 전방 공간으로부터 가로막는, 공기 정화기.The front blocking plate blocks the space between the side blocking plate and the side plate from the space in front of the frontmost photocatalytic filter.
  16. 청구항 14에 있어서,In claim 14,
    상기 측면막음판과 상기 광촉매 필터 사이에 측면추가판이 개재되고,A side additional plate is interposed between the side blocking plate and the photocatalyst filter,
    상기 측면추가판은 반사판 또는 광촉매 필터판인, 공기 정화기.An air purifier wherein the side additional plate is a reflector or photocatalyst filter plate.
  17. 청구항 14에 있어서,In claim 14,
    상기 하우징은,The housing is,
    상기 흡기면판의 상단부와 상기 배기면판의 상단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터의 상부를 가로막는 천정판; 및a ceiling plate extending longitudinally to connect the upper end of the intake face plate and the upper end of the exhaust face plate and blocking the upper portion of the photocatalytic filter; and
    상기 흡기면판의 하단부와 상기 배기면판의 하단부를 연결하도록 길이방향으로 연장되고 상기 광촉매 필터의 하부를 가로막는 베이스판;을 더 포함하는, 공기 정화기.An air purifier further comprising a base plate extending longitudinally to connect the lower end of the intake face plate and the lower end of the exhaust face plate and blocking the lower portion of the photocatalytic filter.
PCT/KR2023/014916 2022-11-30 2023-09-26 Photocatalyst module having multi-wavelength ultraviolet rays applied thereto and air purifier using same WO2024117502A1 (en)

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Publication number Priority date Publication date Assignee Title
JP2009183919A (en) * 2008-02-08 2009-08-20 Stac Co Ltd Air cleaning apparatus
KR20120000178U (en) * 2011-10-21 2012-01-04 성창전기(주) Lighting device having air purifier
KR20140003240A (en) * 2012-06-29 2014-01-09 서울바이오시스 주식회사 Apparatus for cleaning fluid
KR20200099341A (en) * 2019-02-14 2020-08-24 엘지이노텍 주식회사 Deodorizing unit and air purifier
KR102291874B1 (en) * 2021-05-21 2021-08-20 주식회사 비츠로 Standing Sanitary Lighting Using Visible Light

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009183919A (en) * 2008-02-08 2009-08-20 Stac Co Ltd Air cleaning apparatus
KR20120000178U (en) * 2011-10-21 2012-01-04 성창전기(주) Lighting device having air purifier
KR20140003240A (en) * 2012-06-29 2014-01-09 서울바이오시스 주식회사 Apparatus for cleaning fluid
KR20200099341A (en) * 2019-02-14 2020-08-24 엘지이노텍 주식회사 Deodorizing unit and air purifier
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