KR20050074717A - Photocatalytic filter unit and air purifying apparatus using the same - Google Patents

Abstract

The present invention relates to a photocatalyst filter unit and an air purifier using the same. More specifically, the photocatalyst is applied to a photocatalyst filter which is irradiated with ultraviolet rays to obtain oxidizing power and passes air through the filter layer to remove bacteria and organic matter. The present invention relates to a photocatalyst filter unit configured by combining a functional filter and an ozone removal functional filter and an air purifier using the same.

Since the photocatalyst filter unit and the air purifier using the same according to the present invention can effectively filter bacteria and organic substances in the air, they can be usefully used in facilities requiring air purification such as mushroom cultivation.

Description

Photocatalyst filter unit and air purifying device using the same {PHOTOCATALYTIC FILTER UNIT AND AIR PURIFYING APPARATUS USING THE SAME}

The present invention relates to a photocatalyst filter unit and an air purifier using the same. More specifically, the photocatalyst is applied to a photocatalyst filter which is irradiated with ultraviolet rays to obtain oxidizing power and passes air through the filter layer to remove bacteria and organic matter. The present invention relates to a photocatalyst filter unit configured by combining a functional filter and an ozone removal functional filter and an air purifier using the same.

General air purifiers are classified into mechanical, electrical and ion type, each of which has advantages and disadvantages.

For example, mechanical is a method of purifying air by using a dust collecting filter to remove foreign matter (fungus, pet hair, pollen, etc.) from the air passing through it. Such a mechanical method effectively removes foreign substances from the air, but has to be replaced periodically, and has a disadvantage in that it cannot remove odors, viruses, and bacteria.

The electric type is formed by passing air through the positive electrode plate and the negative electrode plate at predetermined intervals, thereby forming the positive electrode in the foreign matter particles in the air passing through the positive electrode plate, and causing the foreign matter particles having the positive electrode to be electrically adsorbed on the negative electrode plate. The way the air is purified. This electric type has the advantage that it can be implemented in a relatively small size, but when the foreign matter is attached to the + and-plates, the purification ability drops sharply, so the + and-plates must be wiped frequently, and fine foreign matters cannot be removed. Likewise, there is a disadvantage that can not remove odors, viruses, bacteria, and the like.

The ion type is a method in which ions are adsorbed to the foreign matter particles by injecting ions into the air, and then the air is passed through the positive electrode dust collector plate, whereby the dust collector adsorbs the foreign matter particles to which the ions are attached to purify the air. Such ion type has the advantage of having very low noise by not using a separate fan, but the dust collecting plate needs to be cleaned frequently and odors, viruses, bacteria, etc. cannot be removed.

In addition, it is possible to remove odors in the air by using activated carbon, but a large amount of activated carbon is required for effective odor removal, and there is a disadvantage in that viruses or bacteria cannot be removed.

As described above, the air purifying method described above has advantages and disadvantages, but it is very difficult to remove bacteria or viruses in common. In addition, a large amount of expensive filter material is used to increase the efficiency of air purification, resulting in high maintenance costs. Therefore, in recent years, taking advantage of each method can increase the air purification ability, and furthermore, the research and development of the air purification device that can remove bacteria or viruses, and low maintenance cost has been actively made.

On the other hand, air purification using ozone or hepa filter is also used.

The method using ozone is good, but it is necessary to adjust the concentration of ozone. In reality, it is difficult to control the concentration of ozone. In addition, if the concentration of ozone is increased to increase sterilization power, it is harmful to worker's health. Has a problem.

The method using the HEPA filter also does not decompose or remove bacteria or organics, so bacteria and organic matters accumulate in the filter, and if a certain limit is exceeded, contaminants in the filter may leak out. Replacement costs, poor performance, and so on.

Accordingly, an object of the present invention is to solve the above problems, it is possible to remove not only various foreign substances in the air but also bacteria and organic matter, and also harmless to the health of workers and environmentally friendly photocatalyst filter unit and using the same An air purifier is provided.

The photocatalyst filter unit according to the present invention for achieving the above object is a photocatalyst coating filter for removing bacteria and organic matter in the air, an ultraviolet lamp used to irradiate ultraviolet rays to the photocatalyst coating filter, the photocatalyst coating filter It comprises a functional filter for adsorption and ozone removal functional filter for removing ozone generated in the ultraviolet lamp to complement the function of.

The photocatalyst filter unit may be used by mixing a silicate-based support, a silicate-supported silicate-supported and activated carbon as the functional filter for adsorption, using activated carbon or manganese dioxide as the ozone removal functional filter, or Can be used interchangeably. As the light source for the photocatalytic activity, UV-A or UV-C may be used or a mixture thereof may be used, and the photocatalyst coating filter may be a ceramic filter, zeolite honeycomb filter, metal filter or paper filter, or a combination thereof. Can be used.

Air purifying apparatus using a photocatalyst filter unit according to the present invention for achieving the above object, the photocatalyst filter unit, an inlet for introducing air into the photocatalyst filter unit, discharged purified air passed through the photocatalyst filter unit Located between the outlet and the photocatalyst filter unit and the outlet, and comprises a blower fan for circulating the air, this may further include a filter for removing dust at the rear end of the inlet.

Hereinafter, an embodiment of a photocatalyst filter unit and an air purifying apparatus using the same according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of an air purifying apparatus using a photocatalyst filter unit, and FIG. 2 is a side view.

Referring to the drawings, the air purifying apparatus according to the present invention is basically a suction port 4 installed at the lower end of the apparatus, a photocatalyst filter unit 2 located at the rear end of the suction port, and a blowing air positioned at the rear end of the photocatalyst filter unit 2. It consists of a fan (1) and a discharge port (12) located at the rear end of the blower fan (1), the operation of the air purifying device according to the present invention after sucking the air through the inlet (4), the photocatalyst filter unit (2) Sterilization and organic matter removal by passing through), and the air thus purified is discharged to the outlet 12 installed at the top using the blowing fan (1).

On the other hand, a large dust removal filter (4-a) is installed at the rear end of the inlet port (4) in order to prevent large dust from being sucked into the device and cause electrical abnormality of the device or deterioration of the filter. In order to facilitate cleaning and replacement of the filter 4-a, the inlet panel is fixed with the key ring 5.

In addition, on the upper front panel of the device, a voltmeter (9) and an ammeter (8) are installed to check the voltage and current supplied to the device, and a switch (6) for operating the device is installed and the device is in operation. The operation lamp 7 which can be provided is provided. In addition, a timer 10 is installed on the side of the device to determine the life of the ultraviolet lamp 2-b and the management time of other consumables. In order to check whether it is turned on, the LED 11 corresponding to each ultraviolet lamp 2-b is installed on the outer surface. When the overcurrent flows to the device for the safety of the device is attached to the circuit breaker 14 and install the fuse inside the power connector (13).

3 is a view showing a photocatalyst unit mounted to the air purifying apparatus according to the present invention.

In the photocatalyst air purifier, the photocatalyst filter unit 2 is manufactured by a separate inner box for easy replacement and repair. The interior of the photocatalyst filter unit 2 is a functional filter layer 2-d having an adsorption function and a function for removing ozone. Filter layer 2-a, photocatalyst coating filter 2-c, and UV lamp 2-b for photocatalytic activity.

In the photocatalyst filter unit 2, the adsorption functional filter 2-d is installed at the lower end of the photocatalytic reaction unit 2 to prevent damage to the wiring and the ballast 3 due to the ultraviolet lamp 2-b, and The function of zeolite and activated carbon are specially treated to remove odor and sterilization by securing the function of the product. The composition ratio can be adjusted according to the use environment.

In the photocatalyst filter unit 2, the ozone removal functional filter 2-a is installed at the top of the photocatalyst unit 2 to remove ozone generated from the lamp 2-b. Activated carbon is mainly used as the furnace of the functional filter (2-a), and may be replaced with manganese dioxide or mixed with it depending on the use environment.

In the photocatalyst filter unit 2, the photocatalyst coating filter is installed alternately with the lamp 2-b. The photocatalyst coating filter 2-c mainly uses a ceramic material. Alternatively, it can be replaced by a paper filter or used in combination.

The ultraviolet lamp 2-b used in the photocatalyst filter unit 2 mainly uses UV-A, and may be replaced with UV-C or used in combination with the environment.

On the other hand, in the photocatalyst filter unit 2, the number of the ultraviolet lamp 2-b and the photocatalyst coating filter 2-c is used varying depending on the use environment.

4 and 5 is a view showing the sterilization effect of the air purification device using a photocatalyst filter.

Figure 4 is a photograph showing the sterilization performance of the air purifier using a photocatalyst filter for the mushroom cultivation facility. The left container of the picture is detected at the place where the device of the present invention is installed, and the right container picture is detected at the place where the device is not installed. In both cases, the basic disinfection and cleanliness performed in the existing mushroom cultivation facility is maintained. It is. As a result of using the air purifying apparatus according to the present invention, as shown in the picture, it can be confirmed that almost no fungi including bacteria were detected. On the other hand, bacteria and green mold were detected in the space without the device.

5 shows the organic matter removal performance of the photocatalyst air purifier, and shows the result of passing the apparatus of the present invention once. When using the air purifier according to the present invention as shown in Figure 5, most of the organic matter shows an average of 80% or more purification rate after one pass, low purification rate is 75%, high purification rate is 99% You can see that it is purified.

The photocatalyst used in the present invention exhibits a strong oxidizing power generated when irradiated with ultraviolet rays, and since the oxidizing power is generated on the surface of the photocatalyst, the reaction does not occur outside the apparatus, and the by-products generated during the sterilization and decomposition of organic matter by the photocatalyst are also water and Trace carbon dioxide is harmless to human body. In addition, photocatalyst can be used semi-permanently if the surface is not contaminated, so it is economical and environmentally friendly.

As described above, the photocatalyst filter unit and the air purifier using the same can effectively filter bacteria and organic substances in the air, and thus can be usefully used in facilities requiring air purification. In particular, by preventing the contamination of the air, which is difficult to solve by the general disinfection and cleanliness, such as mushroom growers, there is an effect that can reduce the damage caused by mushroom growth failure and reduced output.

1 is a front view of an air purifying apparatus according to the present invention.

2 is a side view of an air purifier according to the present invention;

3 is a view showing a photocatalyst unit mounted to an air purifying apparatus according to the present invention.

4 is a photograph showing the sterilization test results of the air purifier according to the present invention

5 is a graph showing the organic matter removal performance of the air purifier according to the present invention

(Explanation of symbols for the main parts of the drawing)

1: Blowing fan 2: Photocatalytic reaction unit

2-a: functional filter (for removing ozone) 2-b: UV lamp

2-c: photocatalytic ceramic filter 2-d: functional filter (for adsorption)

3: ballast 4: inlet

4-a: dust removal filter 5: fixing key

6: operation switch 7: operation lamp

8: ammeter 9: voltmeter

10: timer 11: LED

12: outlet 13: power connector

14: earth leakage breaker

Claims (7)

Photocatalyst coating filter which removes bacteria and organic substance in air; An ultraviolet lamp used to irradiate ultraviolet rays to the photocatalyst coating filter; A functional filter for adsorption that complements the function of the photocatalyst coating filter; And A functional filter for removing ozone to remove ozone generated from the ultraviolet lamp; Photocatalyst filter unit comprising a. The photocatalyst filter unit according to claim 1, wherein the functional filter for adsorption (2-a) is a mixture of a silicate support on silver, a silicate support on calcium chloride, and activated carbon. The photocatalyst filter unit according to claim 1, wherein the ozone removal functional filter (2-a) uses activated carbon or manganese dioxide, or a mixture thereof. The photocatalyst filter unit according to claim 1, wherein UV-A or UV-C is used as the light source (2-b) for the photocatalytic activity, or a mixture thereof is used. The photocatalyst filter unit according to claim 1, wherein a ceramic filter, zeolite honeycomb filter, metal filter or paper filter is used as the photocatalyst coating filter (2-c) or a mixture thereof is used. A photocatalyst filter unit according to claim 1; An inlet for introducing air into the photocatalyst filter unit; A discharge port for discharging the purified air passing through the photocatalyst filter unit; And A blowing fan positioned between the photocatalyst filter unit and the discharge port and configured to circulate air; Air purification device using a photocatalyst filter unit comprising a. The air purifier using the photocatalyst filter unit according to claim 6, further comprising a filter for removing dust at a rear end of the suction port.