JPH10295796A - Air purifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the purifying efficiency of an air purifier, by equipping a cooling means on a purifying panel to hold a photocatalytic substance, irradiating ultraviolet ray, and flowing air to be purified in contact with the panel surface. SOLUTION: A purifying panel 10 is formed onto a base plate 11 on which a photocatalytic substance 12 is retained. A facing panel 15 comprising a filter member is equipped so as to face against one face of the panel 10. The space between both panels 10, 15 is formed into a air passage T to pass air W to be purified. A coolant pipe 20 to flow a coolant R is placed on the other face of the base plate 11. Plural ultraviolet lamps 30 are provided on a face facing against the purifying panel 10 of the facing panel 15 and ultraviolet ray L is irradiated to the photocatalytic substance 12. In that constitution, liquid nitrogen is flowed as a coolant R through the coolant pipe 20, the ultraviolet ray L is irradiated to the photocatalytic substance 12, and air W is flowed through the air passage T to purify air. Thereby decomposition and deterioration of organic substances are securely performed to improve purifying efficiency.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air purifying apparatus for purifying air using ultraviolet light and a photocatalytic substance which is activated by irradiation with ultraviolet light.

[0002]

2. Description of the Related Art For example, when foodstuffs such as grains and fruits are stored for a long time in a storage warehouse or a kitchenwarehouse, bacteria contained in the air in the warehouse may cause the foodstuffs to become spoiled or have a bad odor from the foodstuffs. Or organic matter that may cause odor. Therefore, it is required to sterilize bacteria in the air in the refrigerator and to purify the air by decomposing or deteriorating organic substances that cause odor.

[0003] Conventionally, as an air purifying device, a device utilizing ultraviolet rays and a device utilizing a photocatalytic substance which is activated by irradiation with ultraviolet rays and ultraviolet rays are known. However, these air purifiers irradiate the air flowing through the processing area with ultraviolet light, or irradiate the air flowing through the processing area with ultraviolet light and contact the photocatalytic substance to thereby remove air. Since the purification process is performed, the purification efficiency is not sufficiently high.

[0004]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
An object of the present invention is to provide an air purifying device capable of obtaining high purification efficiency.

[0005]

According to the present invention, there is provided an air cleaning apparatus comprising: a cleaning panel having a photocatalytic substance held on a surface thereof;
Cooling means for cooling the cleaning panel, an ultraviolet lamp for irradiating ultraviolet rays to the surface of the cleaning panel, and air to be cleaned in an air passage including a space in contact with the surface of the cleaning panel. And air circulation means for flowing air.

In the air purifying apparatus of the present invention, the air passage is formed by a space between the surface of the cleaning panel and an opposing panel disposed so as to face the air passage, so that air to be cleaned is formed. It is preferable that an ultraviolet lamp is provided on the opposed panel, which is passed along the surface of the cleaning panel. Further, the cleaning panel is formed with a plurality of air circulation openings penetrating the cleaning panel in a thickness direction thereof, and air to be cleaned passes through the air circulation opening of the cleaning panel. A configuration may be adopted in which the flow is carried out.

In the air purifying apparatus of the present invention, a cooling means which cools the cleaning panel by flowing a cooling medium through a refrigerant pipe provided in the cleaning panel can be used. . Also, as cooling means,
What consists of a thermoelectric element provided in the panel for cleaning may be used.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an air cleaning device of the present invention will be described in detail. FIG. 1 is an explanatory view schematically showing the configuration of an example of the air cleaning device of the present invention.
2A is a side view, and FIG. 2B is a rear view. The air purifying device in this example is used in a storage warehouse that stores food items such as grains and fruits.

In the air cleaning apparatus shown in FIG. 1, a cleaning panel 10 in which a photocatalytic substance 12 is held is provided on one side (right side in the figure) of a substrate 11, and on one side of this cleaning panel 10 An opposing panel 15 made of a filter material is provided so as to oppose the air, and a space between the cleaning panel 10 and the opposing panel 15 is air to be cleaned (hereinafter, also referred to as “air to be treated”). .) An air passage T through which W flows is formed.

On the other surface of the substrate 11 of the cleaning panel 10, a refrigerant pipe 20 through which a cooling medium R for cooling the cleaning panel 10 is provided. One end is connected to a cooling medium supply source, for example, a liquid nitrogen cylinder (not shown), and the other end of the refrigerant pipe 20 is open. Further, a surface of the opposing panel 15 facing the cleaning panel 10 is provided with the cleaning panel 1.
A plurality of ultraviolet lamps 30 for irradiating the photocatalyst substance 12 with ultraviolet light L are provided.

At a position above the air passage T between the cleaning panel 10 and the opposed panel 15, an air circulation means 40 composed of a cross flow fan for passing the air W to be processed through the air passage T is arranged. I have. In addition, the cleaning panel 10
Below, a drain tank 45 for storing water condensed on the surface of the cleaning panel 10 is provided.

As a material constituting the substrate 11 in the cleaning panel 10, a material having thermal conductivity, for example, a metal material such as an aluminum alloy can be used.
As the photocatalytic substance 12 in the cleaning panel 10,
Those activated by irradiation with ultraviolet rays and capable of decomposing or altering organic substances are used. For example, titanium dioxide, particularly anatase-type titanium dioxide is suitable. For example, the wavelength of the ultraviolet lamp 30 is 253.7.
nm, wavelength 184.9 nm, wavelength 306 nm, 360 n
For example, a low-pressure mercury lamp that emits light including ultraviolet rays such as m, a high-pressure mercury lamp whose internal pressure during lighting is 1 to 6 atm, or the like can be used.

In the above-described air cleaning device, the cooling medium R from a liquid nitrogen cylinder (not shown) flows through the pipe in the refrigerant pipe 20 to thereby provide the cleaning panel 10 with the cooling medium R.
Is cooled to, for example, −100 to −50 ° C., and in this state,
When the air circulation means 40 is driven, the air W to be processed in the place where the air cleaning device is arranged is introduced between the cleaning panel 10 and the facing panel 15,
It flows through the air passage T along the surface of the cleaning panel 10.

In the air W to be processed flowing through the air passage T, since the cleaning panel 10 is cooled, the moisture contained in the air W to be processed condenses on the cleaning panel 10. As a result, bacteria in the air W to be treated and organic substances that cause an odor adhere to the surface of the photocatalytic substance 12 in the cleaning panel 10. Then, the ultraviolet light from the ultraviolet lamp 30 is applied to the cleaning panel 1.
By irradiating the surface of the photocatalyst substance 12 at 0, bacteria adhered to the surface of the photocatalyst substance 12 in the cleaning panel 10 are sterilized, and organic substances are decomposed or deteriorated. Thereafter, the air is applied to the opposite panel 15.
Is discharged to the outside in a dust-removed state by passing through the pores of the filter material constituting the above, whereby the air cleaning treatment is achieved. On the other hand, impurities and the like adhering to the surface of the photocatalytic substance 12 in the cleaning panel 10 flow downward together with water condensed on the cleaning panel 10 and are stored in the drain tank 45.

According to the above-described air cleaning apparatus, the bacteria and the organic substances causing the offensive odor in the air W to be treated are made to adhere to the surface of the photocatalytic substance 12 in the cooled cleaning panel 10, and in this state, Since the photocatalyst substance 12 in the cleaning panel 10 is irradiated with ultraviolet rays, bacteria are sterilized by the ultraviolet rays and organic substances are decomposed or deteriorated by the action of the photocatalyst substance 12, and as a result, the air W to be treated is cleaned. High purification efficiency can be obtained in the conversion treatment.

The cleaning panel 10 and the opposing panel 1
The separation distance between the device 5 and the device 5 may be such that the air to be processed W flows therethrough, and thereby the depth of the device (the dimension in the left-right direction in FIG. 1A) is reduced. Therefore, an air purifying apparatus having a small occupied area can be obtained.

FIG. 2 is an explanatory view showing the outline of the configuration of another example of the air cleaning device of the present invention. The air purifying apparatus in this example is used in a kitchen cabinet for storing food items such as cereals and fruits, or in a refrigerator compartment for carrying these food items.

In the air cleaning apparatus shown in FIG. 2, an air inlet 51 is formed on the lower surface, and an air outlet 52 is formed on the upper surface.
Is formed, and an air passage T through which the air to be processed W flows is formed in the air passage member 50. At a position above the air discharge port 52 in the air passage member 50, an air circulation means 40 composed of a cross flow fan for flowing the air to be processed through the air passage T in the air passage member 50 is arranged.

In the air path member 50, a cleaning panel 10 in which a photocatalyst substance 12 is held on one surface of a substrate 11,
The cleaning panel 10 is fixed to the inner surface of the air path member 50 by a fixing member 53. As shown in FIG. 3, the cleaning panel 10 has a plurality of air circulation openings 13 penetrating the cleaning panel 10 in the thickness direction. A thermoelectric element 25 for cooling the cleaning panel 10 is provided on the other surface of the substrate 11 in the cleaning panel 10. 26 is the thermoelectric element 2
5 is a heat dissipating fin.

Cleaning panel 1 in air path member 50
Below 0, an ultraviolet lamp 30 for irradiating the photocatalytic substance 12 in the cleaning panel 10 with ultraviolet light L is provided. Reference numeral 31 denotes a light reflecting member that reflects ultraviolet light from the ultraviolet lamp 30 toward the photocatalytic substance 12 in the cleaning panel 10. Also, in this example,
A charging filter 55 is disposed at the air inlet 51 of the air passage member 50.

In the above-described air cleaning apparatus, the cleaning panel 10 is, for example, -5 to +4 by the thermoelectric element 25.
° C, and in this state, the air to be processed W is driven, whereby the air W to be processed is removed by passing through the charging filter 55 arranged in the air inlet 51 of the air passage member 50. In the state, the air path member 5
0, and flows through the air passage T in the air passage member 50 so as to pass through the air flow opening 13 of the cleaning panel 10.

In the air W to be processed flowing through the air passage T, since the cleaning panel 10 is cooled, moisture contained in the air W to be processed condenses on the cleaning panel 10. As a result, bacteria in the air W to be treated and organic substances that cause an odor adhere to the surface of the photocatalytic substance 12 in the cleaning panel 10. Then, the ultraviolet light from the ultraviolet lamp 30 is applied to the cleaning panel 1.
By irradiating the surface of the photocatalyst substance 12 at 0, bacteria adhered to the surface of the photocatalyst substance 12 in the cleaning panel 10 are sterilized, and at the same time, organic matter is decomposed or degraded, and thus flows through the air passage T. The cleaning process of the air W to be processed is achieved. The purified air is discharged to the outside through the air discharge port 52 of the air passage member 50.

According to the above-mentioned air cleaning apparatus, bacteria and organic substances causing bad smell in the air W to be treated are attached to the surface of the photocatalytic substance 12 in the cooled cleaning panel 10, and in this state, Since the photocatalyst substance 12 in the cleaning panel 10 is irradiated with ultraviolet rays, bacteria are sterilized by the ultraviolet rays and organic substances are decomposed or deteriorated by the action of the photocatalyst substance 12, and as a result, the air W to be treated is cleaned. High purification efficiency can be obtained in the conversion treatment.

Further, since the thermoelectric element 25 is used as a cooling means for cooling the cleaning panel 10, the size of the entire apparatus can be reduced.

FIG. 4 is an explanatory view schematically showing the configuration of still another example of the air cleaning device of the present invention. In this air cleaning device, an air inlet 51 is formed on one side, and a box-shaped air path member 50 having an air outlet 52 formed above the air inlet 51 on the one side is provided. An air passage T through which the air to be processed W flows is formed in the air passage member 50. Also, in this example,
Air inlet 51 and air outlet 5 in air passage member 50
A partition 56 having an opening 57 is provided horizontally at a height between them.

A charge filter 55 is disposed at the air inlet 51 of the air passage member 50, and a region between the lower wall 50 a and the partition wall 56 in the air passage member 50 is provided on one surface of the substrate 11 with a photocatalytic substance 12. Cleaning panel 10 in which is held
However, the cleaning panel 10 is disposed such that the one surface thereof faces the charging filter 55.
Thus, the air passage member 50 is fixed to the lower wall 50 a and the partition wall 55. On the other surface of the substrate 11 in the cleaning panel 10, a plurality (three in the illustrated example) of thermoelectric elements 25 for cooling the cleaning panel 10 are provided. 2
Reference numeral 6 denotes a heat dissipating fin of the thermoelectric element 25. At a position between the charging filter 55 and the cleaning panel 10, the ultraviolet light L is applied to the photocatalytic substance 12 in the cleaning panel 10.
The ultraviolet lamp 30 is arranged so as to extend in the vertical direction, and a rectangular plate-like light having a width substantially equal to the outer diameter of the ultraviolet lamp 30 is provided at a position on the charging filter 55 side of the ultraviolet lamp 30. The reflecting member 31 is arranged so as to be parallel to the ultraviolet lamp 30. The light reflecting member 31 is fixed to the lower wall 50 a of the air path member 50, and the ultraviolet lamp 30 is held by a lamp holder 32 provided on the light reflecting member 31. In a region between the upper wall 50 b and the partition wall 56 in the air passage member 50, a cross flow fan that allows the air to be treated to flow through the air passage T in the air passage member 50 at a position in front of the air outlet 52. The air circulation means 40 is disposed.

In the above-described air cleaning apparatus, the thermoelectric element 25 causes the cleaning panel 10 to be, for example, -5 to +4.
° C, and in this state, the air to be processed W is driven, whereby the air W to be processed is removed by passing through the charging filter 55 arranged in the air inlet 51 of the air passage member 50. In the state, the air path member 5
0, the light reflecting member 31 and the ultraviolet lamp 3
0, and further flows upward along the surface of the cleaning panel 10 through the air passage T.

In the air W to be processed flowing through the air passage T, since the cleaning panel 10 is cooled, the moisture contained in the air W to be processed condenses on the cleaning panel 10. As a result, bacteria in the air W to be treated and organic substances that cause an odor adhere to the surface of the photocatalytic substance 12 in the cleaning panel 10. Then, the ultraviolet light from the ultraviolet lamp 30 is applied to the cleaning panel 1.
By irradiating the surface of the photocatalyst substance 12 at 0, bacteria adhered to the surface of the photocatalyst substance 12 in the cleaning panel 10 are sterilized, and at the same time, organic matter is decomposed or degraded, and thus flows through the air passage T. The cleaning process of the air W to be processed is achieved. The purified air is discharged outside through the opening 57 of the partition wall 56 and the air discharge port 52 in the air path member 50.

According to the above-described air cleaning apparatus, bacteria and organic substances causing odor in the air W to be treated are attached to the surface of the photocatalyst substance 12 in the cooled cleaning panel 10. Since the photocatalyst substance 12 in the cleaning panel 10 is irradiated with ultraviolet rays, bacteria are sterilized by the ultraviolet rays and organic substances are decomposed or deteriorated by the action of the photocatalyst substance 12, and as a result, the air W to be treated is cleaned. High purification efficiency can be obtained in the conversion treatment.

Although the embodiments of the present invention have been described above, the present invention is not limited to these air cleaning devices, and various changes can be made. For example, a device having a facing panel arranged so as to face the cleaning panel, wherein the cooling means for cooling the cleaning panel is composed of a thermoelectric element, or air to be cleaned by the cleaning panel. A plurality of through-holes through which the cleaning panel passes may be formed, and the cooling panel may be configured to have cooling means for cooling the cleaning panel by flowing a cooling medium through a refrigerant pipe provided in the cleaning panel. . Further, the place of use in the air purifying apparatus of the present invention is not limited to the inside of a storage warehouse or a kitchen room, but is used in a place where air purification is required, for example, in a car, in a house. It is also possible.

[0031]

According to the air purifying apparatus of the present invention, since the cleaning panel is cooled by the cooling means, the air to be cleaned flows through the air passage.
Moisture contained in the air condenses on the cleaning panel,
Along with this, the bacteria and the organic substances causing the bad smell in the air adhere to the surface of the photocatalytic substance in the cleaning panel, and in this state, the photocatalytic substance in the cleaning panel is irradiated with ultraviolet rays. In addition, sterilization of bacteria by ultraviolet rays and decomposition or alteration of organic substances by the action of a photocatalytic substance are surely performed, and as a result, high purification efficiency can be obtained in an air purification process.

[Brief description of the drawings]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram showing an outline of a configuration of an example of an air cleaning device of the present invention, wherein (a) is a side view and (b) is a rear view.

FIG. 2 is an explanatory view schematically showing the configuration of another example of the air cleaning device of the present invention.

FIG. 3 is an explanatory sectional view showing a part of a cleaning panel in the air cleaning apparatus of FIG. 2 in an enlarged manner.

FIG. 4 is an explanatory diagram showing an outline of a configuration in still another example of the air cleaning device of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Cleaning panel 11 Substrate 12 Photocatalytic substance 13 Air flow opening 15 Opposite panel 20 Refrigerant tube 25 Thermoelectric element 26 Radiation fin 30 Ultraviolet lamp 31 Light reflection member 32 Lamp holding part 40 Air circulation means 45 Drain tank 50 Air path member 50a lower wall 50b upper wall 51 air inlet 52 air outlet 53 holding member 55 charging filter 56 partition 57 opening L ultraviolet ray R cooling medium T air passage W air to be treated

Claims (5)

[Claims] 1. A cleaning panel having a photocatalytic substance held on a surface thereof, cooling means for cooling the cleaning panel, an ultraviolet lamp for irradiating the surface of the cleaning panel with ultraviolet light, An air purifying apparatus comprising: an air passage including a space in contact with a surface of a panel for use; and an air circulating means for flowing air to be cleaned. 2. An air passage is formed by a space between a surface of the cleaning panel and an opposing panel disposed so as to oppose the air passage so that air to be cleaned is formed on the surface of the cleaning panel. And the opposite panel has
The air purifier according to claim 1, further comprising an ultraviolet lamp. 3. The cleaning panel has a plurality of air circulation openings penetrating the cleaning panel in a thickness direction thereof, so that air to be cleaned is used for air circulation of the cleaning panel. The air purifying device according to claim 1, wherein the air is passed through the opening. 4. The cooling panel according to claim 1, wherein the cooling means is configured to cool the cleaning panel by flowing a cooling medium through a refrigerant pipe provided in the cleaning panel.
An air purifying apparatus according to claim 3. 5. The air purifying apparatus according to claim 1, wherein the cooling means comprises a thermoelectric element provided on the cleaning panel.