KR100585479B1 - Air sterilization apparatus added air handling unit - Google Patents

Abstract

The present invention is an air conditioner that purifies clean air by removing pollutants in the air by photocatalytic action due to the ultraviolet radiation of the double quartz tube ultraviolet lamp and ultraviolet sterilization using ultraviolet light emitted from the UVC ultraviolet lamp on the photocatalyst mesh network coated with the photocatalytic material. It relates to an air sterilizer added.

Features of the present invention, the cover is divided into a top and a bottom and having a pre-filter inside the lower cover; A photocatalyst air sterilizer having a filtration filter, an air conditioner, and an UVC ultraviolet ray lamp in an air flow direction; A blower for sucking air from the outside to the inside of the cover; There is an air sterilizer including a case for receiving the above-mentioned components.

According to the air sterilizer to which the air conditioner according to the present invention is added, the UVA ultraviolet lamp in the air sterilizer air conditioner is surrounded by a double quartz tube, and thus the advantage of maintaining the ultraviolet irradiation dose under optimum conditions without being affected by temperature change and wind speed change. There is this.

In addition, the double quartz tube UV lamp is installed adjacent to the photocatalytic mesh network to provide a structure for maximizing the efficiency of the photocatalyst function by irradiating the air passing through the photocatalytic mesh network at a short distance. It significantly increases the decomposition efficiency of environmental hormones, etc.), and provides a higher level of clean air by supplying vitamins by the vitamin generator to the sterilized air.

Air Sterilizer, Air Conditioner, UV Lamp, Blower, Vitamin Generator

Description

Air Sterilizer with Air Conditioner {AIR STERILIZATION APPARATUS ADDED AIR HANDLING UNIT}

1 is a perspective view showing a preferred embodiment of the air sterilizer with an air conditioner according to the present invention.

Figure 2 is a front view without a cover showing a preferred embodiment of the air sterilizer with an air conditioner according to the present invention.

Figure 3 is an exploded perspective view showing a preferred embodiment of the air sterilizer added air conditioner according to the present invention.

Figure 4a is an exploded perspective view showing a preferred embodiment of the air conditioner according to the present invention.

Figure 4b is an exploded perspective view showing a preferred embodiment of a double tube ultraviolet lamp according to the present invention.

Figure 5 is a cross-sectional view taken along line AA 'of Figure 1 showing an air sterilizer with an air conditioner according to the present invention.

Figure 6 is an operating state showing a preferred embodiment of the air sterilizer with an air conditioner according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: air sterilizer 200: photocatalyst air sterilizer

10 cover 11 top cover 11a air outlet

12: lower cover 12a: air inlet 12b: support protrusion

13: hook 13a: coupling hole 20: prefilter

21 filtration filter 30 air conditioner 31 photocatalytic mesh network

32 frame 33 grid mesh 34 cover

40: double quartz tube UV lamp 41: quartz tube

42 UVA UV lamp 43 Socket 50 UVC UV lamp

51: connection terminal 60: blower 61: air induction housing

62: support jaw 63: blower chamber 64: air flow path

65: coupling member 70: vitamin generator 80: main body

The present invention is an air conditioner that purifies clean air by removing pollutants in the air by photocatalytic action due to the ultraviolet radiation of the double quartz tube ultraviolet lamp and ultraviolet sterilization using ultraviolet light emitted from the UVC ultraviolet lamp on the photocatalyst mesh network coated with the photocatalytic material. It relates to an air sterilizer added.

In today's industry, environmental pollution is aggravated, and in particular, traffic and factories tend to be concentrated, and air pollution is getting worse day by day. The polluted air is transferred to general homes and public facilities, causing human respiratory diseases and cancer. In addition, children and the like cause severe skin diseases and skin cancer, causing airborne pathogens tend to increase.

This rapidly changing living environment has resulted in a higher awareness of health, which in turn has increased interest in air clean technology that turns polluted air into comfortable clean air.

The method of using charcoal in the initial air cleaning method is a porous body, which has excellent effects such as humidity control, deodorization, antibacterial, electromagnetic wave blocking, and water purification. However, charcoal itself is naturally used in large businesses with high odor or air pollution. The method is difficult to expect a great effect.

An example of such a conventional method for cleaning air is Utility Model Publication No. 207209, "Air purifier using charcoal, loess, salt and wormwood."

In another conventional technology, Utility Model Registration No. 154615, "Electronic Air Purifier with a negative electrode needle in the center," constitutes a negative electrode plate and a dust collecting plate to supply a high voltage to the two plates to discharge corona to collect dust, or to release anions. Although it is known, these air cleaners only generate negative ions and ozone to circulate the indoor air, which does not purify the air, and only has a simple function of purifying the air through a filter to sterilize the interior or generate negative ions. There was no fatal issue.

Recently, the air sterilization method using the ultraviolet radiation of the ultraviolet lamp is the mainstream of the air-cleaning technology, but due to the characteristics of the ultraviolet lamp, the efficiency varies greatly depending on the ambient temperature and the wind speed change (2M / sec or more in the air conditioner). If the temperature is lowered below a certain temperature, the amount of ultraviolet radiation is reduced and the sterilizing power is weakened, and the role of the photocatalyst (titanium dioxide) also decreases significantly due to a decrease in light source output.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is the photocatalytic action due to the ultraviolet radiation of the double quartz tube UV lamp in the photocatalyst mesh network coated with a photocatalytic material and radiation from the ultraviolet lamp The present invention relates to an air sterilizer (hereinafter, referred to as an "air sterilizer") in which an air conditioner which removes contaminants in the air and purifies the clean air by ultraviolet sterilization using ultraviolet rays.

Another object of the present invention is to provide an air sterilizer which is inexpensive for its function by simplifying the configuration of devices serving different roles arranged along the airflow direction.

Still another object of the present invention is to provide an air sterilizer as a double quartz tube UV lamp that blocks the degradation of the sterilization ability of the UV lamp with temperature change.

Features of the present invention for achieving the above object, the cover 10 is separated into the upper and lower and having a pre-filter 20 inside the lower cover 12; A photocatalyst air sterilizer 200 having a filtration filter 21, an air conditioner 30, and a UVC ultraviolet ray lamp 50 in the air flow direction; A blower 60 for sucking air from the outside of the cover 10 to the inside; There is an air sterilizer including a case for receiving the above-mentioned components.

When explaining the basic principle applied to the present invention prior to the detailed description by the drawings, when the photocatalyst (titanium dioxide Tio2) is subjected to ultraviolet rays of sunlight or fluorescent lamps, like the principle of solar cells-electrons with electricity (e-) and + Holes with electricity (h +) are formed, among which holes (h +) form particularly strong oxidizing hydroxides (OH Radicals), which have stronger oxidizing power than chlorine or hypochlorite ozone.

In addition, electrons generate oxygen ions adsorbed on the photocatalyst as oxygen ions, which produce intermediates and peroxides in the oxidation reaction or water reaction through hydrogen peroxide.

According to the above reaction, the photocatalytic effect includes antifouling effect, air purification effect, water purification effect, sterilization effect and odor removal effect.

Ultraviolet rays are bands of light that exist between 100 and 400 nm (nanometer) wavelength and are divided into UVA, UVB, and UVC depending on the length of the wavelength.

UVA is called Long Wave or Black Light because it has the longest wavelength in the range of 300-400 nm: 320-380 (typical wavelength: 365) nm. It is also called "UV-A". have.

UVB is called Middle Wave because it is the middle part of the UV wavelength in the range of 280-320 nm. It has the effect of forming vitamin D between 280-300 nm and is called "UV-B" between 280-320 nm. Is called.

UVC is called Germicidal Range due to the effect of killing various microorganisms (invisible) with the shortest wavelength among ultraviolet wavelengths in the range of 180 ~ 280 nm, commonly known as UV-C (representative wavelength: 253.7 nm) It is called and also has an effect of forming ozone between 100 and 200 nm.

Hereinafter, described in detail with reference to the accompanying drawings,

1 and 2, a perspective view showing a preferred embodiment of the air sterilizer according to the present invention and a front view without a cover, Figure 3 is an exploded perspective view showing a preferred embodiment of the air sterilizer according to the present invention, Figure 4a and 4b is an exploded perspective view showing a preferred embodiment of the air sterilizer according to the present invention and an exploded perspective view showing a preferred embodiment of the double tube ultraviolet lamp, Figure 5 and 6 is a cross-sectional view taken along line A-A 'of the air sterilizer according to the present invention; This is a working state diagram.

1 and 2, the air sterilizer 100 of the present invention includes a case for accommodating a prefilter 20, a photocatalyst air sterilizer 200, and a blower 60 together.

The case is detachable to the cover 10 and the main body 80 by the coupling of the hook 13 and the coupling hole (13a), the cover 10 is the top cover 11 and the air having an air outlet (11a) It is detachably comprised by the lower cover 12 provided with the inlet 12a.

As other coupling means of the cover 10 and the main body 80, for example, it is possible to attach or detach by a fastening of the bolts, nuts, or a strong fit coupling.

A support protrusion 12b protrudes from the bottom of the lower cover 12 to provide a space that can be detached from the prefilter 20, and the prefilter 20 is detached perpendicularly to the air flow direction and crosses a horizontal line and a vertical line. The shape of the mesh network serves to primarily filter relatively bulky contaminants.

3 and 4a, 4b, the air sterilizer 100 of the present invention is a photocatalyst air sterilizer 200 composed of a filtration filter 21, an air conditioner 30 and a UVC UV lamp 50 in the order of air flow direction. ).

The filtration filter 21 is located adjacent to the inside of the pre-filter 20, and is installed perpendicular to the air flow direction. It is fixed to a square frame supporting the mesh net at the edge with a dense mesh net, and serves to filter the fine dust of air primarily filtered in the prefilter 20.

As shown in FIG. 4A, the air conditioner 30 includes a honeycomb-shaped photocatalytic mesh net 31 coated with a photocatalyst in the air flow direction, a double quartz tube UV lamp 40, and a grid net 33.

The raw material of the photocatalyst coated on the photocatalyst mesh net 31 is most preferably titanium dioxide, and a honeycomb net is preferably used to induce vortices of flowing air.

The double quartz tube UV lamp 40 is installed so that a plurality of vertically stacked in the air flow direction, as shown in Figure 4b is a double quartz tube UV lamp 40 to be used in particular in the present invention as a socket 43, quartz tube ( 41) and UVA ultraviolet lamp 42, and has a complementary function according to the degradation of the ultraviolet lamp sterilization ability according to the temperature change.

Factors affecting UV sterilization include humidity, temperature, wind speed, and the like. In the present invention, when the air temperature increases when the temperature around the UVA UV lamp 42 is 20 ° C, the temperature of the UVA UV lamp tube wall is lowered and sterilized. The light output is reduced.

Therefore, if the wind speed is 2M / sec or more per second, it greatly affects the ultraviolet output.

In the manufacture of commonly used UV sterilization lamp, since the vapor pressure of mercury is changed according to the ambient temperature, lamp current, etc., the UV radiation intensity of the lamp changes. ° C and the lamp tube wall temperature are around 40 ° C.

Accordingly, when considering that the wind speed in the air conditioning is 2M / sec or more, the double quartz tube UV lamp 40 is the most essential element that can solve the problems of the prior art.

The double quartz tube ultraviolet lamp 40 is composed of a UVA ultraviolet lamp 42 and a surrounding quartz tube 41. The quartz tube 41 is particularly used because it is not sensitive to temperature change and the transmittance of the ultraviolet lamp is good.

The air sterilized by the air conditioner 30 is once again sterilized by a plurality of UVC ultraviolet lamps 50 installed in parallel with the air flow direction and perpendicular to the ground.

As described above, the UVC ultraviolet lamp 50 has the most sterilizing power among the ultraviolet lamps, and is supplied with power by the connection terminal 51, and is polluted through the air inlet 12a of the lower cover 12. The air is finally sterilized once again via the air conditioner (30).

In addition, the UVC ultraviolet ray lamp 50 is installed in parallel with the air flow direction so that the intake air rises on the UVC ultraviolet ray lamp 50 to increase the contact time of the ultraviolet rays to increase the sterilization effect.

The ventilation chamber 63 is provided above the UVC ultraviolet ray lamp 50, and an air induction housing 61 into which the cochlear blower 60 having an upper surface is opened is installed.

The blower 60 is composed of an electric motor and a blade that is rotated by the drive of the electric motor, by the drive of the blower 60 covers the contaminated air outside the cover 10 of the present invention (10) Inhale inside.

The blower 60 will not be described in detail using a known technique.

The air induction housing 61 has a hollow cochlear shape, the upper surface of which is biased toward one side, and the front surface of the upper cover 11 is opened by the width of the blower 60 so as to be inserted into the blower 60.

The air induction housing 61 is supported by the support jaw 62, and is coupled to the main body 80 by a coupling member 65, that is, a bolt.

Mounting the vitamin generator 70 in the air flow direction on one side of the cochlea of the air induction housing 61, the air mixed with vitamins in the clean air filtered by the air sterilization unit 200 of the upper cover 11 It is discharged to the outside through the air outlet 11a.

5 and 6 illustrate the aforementioned components in cross-sectional view taken along line A-A '.

 In particular, FIG. 6 shows the air movement flow of the air sterilizer to which the air conditioner of the present invention is added at a glance, and the contaminated air sucked into the air inlet 12a of the lower cover 12 is prefilter 20. ), Through the filtration filter 21, the air conditioner (30), the UVC ultraviolet lamp (50), the air flow path (64) and the air induction housing (61) through the upper cover (11) air outlet (11a) Indicated.

Although the technical idea of the air sterilizer 100 to which the air conditioner of the present invention is added has been described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. Therefore, it is apparent that any person skilled in the art can make various modifications and imitations such as dimensions, shapes, structures, etc. without departing from the scope of the technical idea of the present invention.

As described above, according to the air sterilizer to which the air conditioner according to the present invention is added, the photocatalytic action due to the ultraviolet radiation of the double quartz tube ultraviolet lamp and the ultraviolet ray emitted from the UVC ultraviolet lamp are applied to the photocatalyst mesh network coated with the photocatalytic material. Sterilization removes contaminants in the air and purifies it with clean air, improving air purification efficiency and offering low cost due to its simple configuration.

The UVA ultraviolet lamp in the air sterilizer air conditioner is surrounded by a double quartz tube, and thus it is possible to maintain the ultraviolet irradiation dose under optimal conditions without being affected by temperature change and wind speed change.

In addition, the double quartz tube UV lamp is installed adjacent to the photocatalytic mesh network to provide a structure that maximizes the efficiency of the photocatalyst function by irradiating the air passing through the photocatalytic mesh network at a short distance. Environmental hormone) significantly increases the decomposition efficiency, and provides a higher level of clean air by supplying vitamins by the vitamin generator to the sterilized air.

Claims (4)

In the air sterilizer which removes pollutants in the air by the sterilization action of the photocatalyst and cleans it and supplies it to the clean air. A cover 10 which is separated into an upper part and a lower part and has an air outlet 11a and an air inlet 12a in the upper cover 11; A pre-filter (20) detachable by a support protrusion (12b) inside the lower cover (12) and installed perpendicular to the air flow direction; A filtration filter 21 disposed adjacent to the inside of the prefilter 20 to remove fine dust; An air conditioner (30) positioned adjacent to the filtration filter (21) and having a photocatalyst mesh net (31) and a plurality of double quartz tube ultraviolet lamps (40) in an air flow direction; A plurality of UVC ultraviolet lamps 50 positioned adjacent to the air conditioner 30 and installed in an air flow direction; A blower (60) for sucking air from the outside of the cover (10) to the upper side of the UVC ultraviolet lamp (50); The main body 80 through which the front surface penetrates in the air suction direction of the blower 60 to mount the blower 60 and to mount the air induction housing 61 equipped with the vitamin generator 70 in the air flow direction. Air sterilizer with an air conditioner characterized in that comprises an air sterilizer (100). The method of claim 1, The air conditioner 30 is capable of removing dust and honeycomb-shaped photocatalyst mesh net having a photocatalyst coated with a photocatalyst in order of air flow and a plurality of double quartz tube UV lamps 40 installed perpendicular to the airflow direction. Air sterilizer with an air conditioner, characterized in that it comprises a grid mesh 33. The method of claim 1, The double quartz tube UV lamp 40 surrounds the outer periphery of the socket 43 for supplying power and the UVA ultraviolet lamp 42 for emitting ultraviolet rays in electrical contact with the socket 43 and the UVA ultraviolet lamp 42. Air sterilizer with an air conditioner, characterized in that consisting of a quartz tube (41). The method of claim 1, The air introduced into the air inlet 12a is prefilter 20, filtration filter 21, air conditioner 30, UVC ultraviolet lamp 50, air flow path 64, blower 60, air induction housing Air sterilizer with an air conditioner, characterized in that converted to clean air sterilized and deodorized through the 61 is discharged to the air outlet (11a) of the upper cover (11).

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