JPH1147635A - Air purifying device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To decompose a harmful gaseous material in a short time by providing cylindrically a dust collecting body carrying SiO2 so that it envelops a UV lamp and providing an air purifying means decomposing a material collected by a photocatalyst layer on the dust collecting body by using a light of the UV lamp, on the upstream side of a filter. SOLUTION: A vertical and cylindrical photocatalyst honeycomb filter 1 using an activated carbon as a basis material and formed by adding at need a titanium oxide (TiO2 ) being the photocatalyst is provided. A vertical and cylindrical metallic electrostatic plate which is given a charge having one side polarity of positive or negative polarity is provided at a lower part of the filter 1 and a photocatalyst layer consisting of the TiO2 is formed on an inner peripheral surface. At the time of the operation, when the air incorporated from a suction port 4 by the fan is passed through a charged part 5 by a corona discharge, the charge is given to a granular material in the air and the material is collected with the photocatalyst layer 3. The collected granular material and a bacteria stuck to the material are oxidatively decomposed and sterilized by UV ray from the UV lamp 7 and the photocatalyst.

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, and more particularly to an air purifying apparatus using a photocatalyst.

[0002]

2. Description of the Related Art Conventionally, as means for removing harmful gaseous substances, adsorption and removal means using an adsorption filter based on activated carbon and absorption and removal means using a chemical such as a scrubber have been mainly used.

As another method, use of a photocatalyst has been considered. This method exerts a high oxidizing power upon irradiation with low-energy ultraviolet rays, and thus can reduce the direct generation of harmful substances.

[0004]

However, such an adsorbent filter is expensive, has a large pressure loss, its performance decreases as the amount of adsorbed species increases, and a filter satisfying economical and performance requirements. There was a problem that it was difficult to set a standard for the replacement time. Further, regarding absorption and removal using a chemical solution, there is a possibility that contamination by a chemical solution component such as volatilization of the used chemical solution may become a problem.

[0005] In addition, decomposition of organic compounds or particle formation by ultraviolet rays can be cited, but generation of harmful substances such as ozone, active oxygen, and OH radicals is recognized, so that some measures have to be taken.

Further, the method using a photocatalyst has a problem that the reaction does not proceed unless the adsorption of gaseous substances on the photocatalyst surface and the irradiation of light occur simultaneously.

[0007]

SUMMARY OF THE INVENTION An air purifying apparatus according to the present invention comprises an intake port, an exhaust port, a fan provided near the intake port or the exhaust port, and a charge of one polarity provided near the intake port. And a dust collector in which a photocatalyst layer containing titanium oxide as a main component is applied to the inner surface of a charging plate to which a potential of the other polarity is applied, or paper in which the photocatalyst is woven into the inner surface of the charging plate. And a cylindrical filter containing a photocatalyst containing titanium oxide as a main component, and an ultraviolet lamp for irradiating at least the photocatalyst layer. The exhausted gas passes through the photocatalytic layer and is exhausted through the cylindrical filter.

Further, the air purifying apparatus of the present invention comprises an intake port, an exhaust port, a fan provided near the intake port or the exhaust port, a gas ionization needle for ionizing air in the external space to one polarity, A dust collector in which a photocatalyst layer containing titanium oxide as a main component is adhered to the inner surface of a charging plate to which a potential of the other polarity is applied, or a dust collector in which paper in which the photocatalyst is woven is provided on the inner surface of the charging plate. An activated carbon as a base material, a cylindrical filter containing a photocatalyst containing titanium oxide as a main component, and at least an ultraviolet lamp for irradiating the photocatalyst layer, the gas sucked from the air inlet through the photocatalyst layer As described above, the air is exhausted through the cylindrical filter.

Further, the air purifying apparatus of the present invention comprises an intake port, an exhaust port, a fan provided in the vicinity of the intake port or the exhaust port, and a charge provided in the vicinity of the intake port having a charge of one polarity. , A dust collector composed of a charging plate provided with a potential of the other polarity, a filter containing a photocatalyst containing activated carbon as a base material and titanium oxide as a main component, and an ultraviolet lamp for irradiating at least the photocatalyst layer And the gas sucked from the air inlet is exhausted through the charging unit, the dust collector, and the filter.

The lamp has a wavelength of 380 nm or 254 n.
m and 185 nm as main components.

The air purifying apparatus of the present invention is characterized in that an ozone decomposition catalyst layer is disposed downstream of the photocatalyst filter.

Further, the air purifying apparatus of the present invention is characterized in that the air purifying apparatus further comprises means for bypassing an air flow from the electrostatic precipitator to the photocatalytic filter when the surface of the photocatalytic filter reaches adsorption saturation. .

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

In the present invention, as shown in FIG. 1, activated carbon is used as a base material and titanium oxide (T
iO ₂ ), and a vertical cylindrical photocatalyst filter 1 formed by adding a charge of one polarity of (+) or (−) with the upper part connected to the lower part of the photocatalytic honeycomb filter 1. A dust collecting body 2 in which a photocatalyst layer 3 made of TiO ₂ or a paper woven with a photocatalyst is adhered to the inner peripheral surface of the metal charging plate, and an intake port 4 provided below the dust collecting body 2; A fan disposed in the vicinity of the intake port 4 and a charging unit 5 having a charge of the other polarity for generating corona discharge
And a blind plate 6 for closing the upper opening of the cylindrical photocatalytic honeycomb filter 1 and a rod-shaped ultraviolet lamp 7 hanging down from the center of the blind plate 6 and extending close to the intake port 4. Is composed. The fan may be provided near an exhaust port (not shown).

Since the air purifying apparatus of the present invention is configured as described above, the air taken in by the fan from the intake port 4 passes through the charging section 5 by corona discharge.
The particulate matter contained therein is given an electric charge, collected by the photocatalyst layer 3 carried on the charging plate, and the collected particulate matter or bacteria attached to the particulate matter are discharged from the lamp 7. It is oxidatively decomposed and sterilized by UV light and photocatalyst. At this time, the distance between the ultraviolet light and the dust collector 2 is uniform, and the ultraviolet light is efficiently used.

Further, gaseous pollutants not collected by the photocatalyst layer 3 on the charging plate are adsorbed and decomposed by the photocatalyst honeycomb filter 1 based on activated carbon.

In the apparatus shown in FIG. 1, instead of providing the charging unit 5 by corona discharge inside the apparatus, as shown in FIG. May be released.

In the example shown in FIG. 1, since ion wind is generated between the charging unit and the dust collector 2 due to corona discharge, air can be supplied without operating the fan if the ultraviolet lamp 7 and the charging unit 5 are operated. The purification function can be expected.

As described above, in the above-described embodiment of the present invention, the dust collector 2 made of SiO2 is installed in a cylindrical shape so as to surround the ultraviolet lamp 7, and the light from the ultraviolet lamp 7 is used without waste. An air cleaning means for decomposing substances collected in the photocatalyst layer 3 on the dust collecting body 2 by an ultraviolet / photocatalytic method is provided on the upstream side of the filter 1 based on activated carbon. Of the filter 1 can be prevented, and the life of the filter 1 can be extended. In addition, photocatalyst is a technology that can be expected to eventually decompose organic compounds into carbon dioxide and water. By achieving complete decomposition of chemical substances, the leakage of intermediate products into the environment in the decomposition process is considered A clean space can be created without performing.

In another embodiment of the present invention, as shown in FIG. 3, an air purifier is provided with a dust collector 2 having a photocatalyst layer adhered to the inner peripheral surface thereof, and an air intake of the dust collector 2. It comprises a charging unit 5 provided on the upstream side of the mouth, an ultraviolet lamp 7 for irradiating the photocatalyst layer, and the photocatalyst filter 1.

Reference numeral 9 denotes a prefilter disposed upstream of the electric dust collecting section 5.

In the apparatus shown in FIG.
Instead, the ionization needle 8 may be provided outside the device as shown in FIG. 4 to discharge ions of one polarity into the living space.

In still another embodiment of the present invention, FIG.
As shown in FIG. 5, an ozone decomposition catalyst layer 10 is disposed downstream of the air purifier shown in FIG.

In this case, the ultraviolet lamp 7 includes
The use of an ultraviolet lamp 7 that emits ultraviolet light having an emission spectrum mainly composed of 254 nm and 185 nm generates active species such as ozone and OH radicals, thereby promptly treating indoor odorous substances, and harmful activity to the human body. The seeds are decomposed by the ozone decomposition catalyst layer 10 at a later stage.

In order to extend the life of the ozone decomposition catalyst, when the degree of contamination of the indoor air is relatively low and short-wavelength ultraviolet rays are not required, ultraviolet rays that do not generate ozone 254 ≦ λ
≦ 380 (corresponding to the band gap of anatase type Ti02), and process air is prevented from passing through the ozone decomposition catalyst.

In still another embodiment of the present invention, FIG.
The ozone decomposition catalyst layer 10 is disposed downstream of the photocatalyst filter 1 as shown in FIG.

FIG. 6 shows still another embodiment of the present invention. Reference numeral 11 denotes a shutter for switching a flow path for flowing air from the charging section 5 to the photocatalytic filter 1 to a bypass flow path. When the surface reaches the adsorption saturation, only the dust is removed from the air by the electric precipitator, and the photocatalyst filter can be regenerated by continuously irradiating the photocatalyst filter with ultraviolet rays.

Reference numeral 12 denotes a shutter for switching a flow path for flowing air from the photocatalyst filter 1 to the ozone decomposition catalyst layer 10 to a bypass flow path.

In still another embodiment of the present invention, FIG.
As shown in (1), the charging unit 5 in the air cleaning device is made horizontally long, and the shutter 11 is divided into a shutter 11a and a shutter b so that each can be operated independently.

[0030]

As described above, according to the air purifying apparatus of the present invention, harmful gaseous substances can be completely decomposed in a short time, and there is a great advantage that no harmful substances are emitted to the human body.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of an air cleaning device of the present invention.

FIG. 2 is an explanatory view of another embodiment of the air cleaning device of the present invention.

FIG. 3 is an explanatory view of another embodiment of the air purifying apparatus of the present invention.

FIG. 4 is an explanatory view of still another embodiment of the air cleaning device of the present invention.

FIG. 5 is an explanatory view of still another embodiment of the air purifying apparatus of the present invention.

FIG. 6 is an explanatory view of still another embodiment of the air cleaning device of the present invention.

FIG. 7 is an explanatory view of still another embodiment of the air cleaning device of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 photocatalyst honeycomb filter 2 dust collector 3 photocatalyst layer 4 intake port 5 charging unit 6 blind plate 7 ultraviolet lamp 8 ionization needle 9 prefilter 10 ozone decomposition catalyst layer 11 shutter 11a shutter 11b shutter

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI F24F 7/00 F24F 7/00 B

Claims (7)

[Claims] An intake port, an exhaust port, a fan provided in the vicinity of the intake port or the exhaust port, a charging section provided in the vicinity of the intake port and having a charge of one polarity, and a potential of the other polarity. A dust collector in which a photocatalyst layer containing titanium oxide as a main component is applied to the inner surface of a given charged plate, or a dust collector in which a paper woven with the photocatalyst is placed on the inner surface of the charged plate, and activated carbon is used as a base material. A cylindrical filter containing a photocatalyst containing titanium oxide as a main component, and at least an ultraviolet lamp for irradiating the photocatalyst layer, wherein the gas sucked from the intake port passes through the photocatalyst layer and passes through the cylindrical filter. An air purifier characterized by being exhausted through the air. 2. An intake port, an exhaust port, a fan provided in the vicinity of the intake port or the exhaust port, a gas ionization needle for ionizing air in the external space to one polarity, and charging by applying a potential of the other polarity. A dust collector in which a photocatalyst layer containing titanium oxide as a main component is adhered to the inner surface of the plate, or a dust collector in which paper in which the photocatalyst is woven is placed on the inner surface of the charging plate; And a UV filter irradiating at least the photocatalyst layer, and gas sucked in from the air inlet passes through the photocatalyst layer and is exhausted through the cylindrical filter. An air cleaning device characterized by being performed. 3. An intake port, an exhaust port, a fan provided in the vicinity of the intake port or the exhaust port, a charging section provided in the vicinity of the intake port and having a charge of one polarity, and a potential of the other polarity. A dust collector constituted by the provided charging plate, a filter containing a photocatalyst containing activated carbon as a base material and titanium oxide as a main component, and an ultraviolet lamp for irradiating at least the photocatalyst layer, comprising: An air purifying apparatus, wherein the inhaled gas is exhausted through the charging unit, the dust collector, and the filter. 4. The air purifying apparatus according to claim 1, wherein the lamp has an emission spectrum at 380 nm. 5. An ozone decomposition catalyst layer is arranged downstream of the photocatalytic filter.
4. The air purifying apparatus according to 2 or 3. 6. The photocatalyst filter according to claim 1, further comprising means for bypassing an air flow from said electrostatic precipitator to said photocatalyst filter when said photocatalytic filter surface reaches adsorption saturation. Or the air purifier according to 5 above. 7. The air purifying apparatus according to claim 5, wherein the lamp has an emission spectrum at 185 nm and 254 nm.