KR20130024642A - Deodorizing apparatus - Google Patents

Abstract

PURPOSE: A deodorization device installed with multiple photocatalyst filters installed on the whole surface of the rectangular section of an air passage is provided to increase the reflecting effect and the heating effect to swirl the flow path of the air to decompose bad smell components and to deodorize bad smell. CONSTITUTION: A deodorization device includes multiple photocatalyst filters(6) installed on the whole surface of the rectangular section of an air passage and a light source for optical pumping(4) which passes through the center part of the photocatalyst filter of the air passage with a rectangular section to activate titanium oxide. Trapezoid-shaped reflecting plates are installed with a fixed angle from both side sections of each side of multiple photocatalyst filters containing the titanium oxide to the light source for optical pumping. The photocatalyst filters are provided with the titanium oxide having the oxidation decomposing effect. The swirling flow generated between the reflecting plates(5) and the reflecting plates with the high reflection efficiency improve the deodorization efficiency of the photocatalyst filters. [Reference numerals] (AA,BB) To a power supply

Description

Deodorizer {DEODORIZING APPARATUS}

The present invention mainly relates to a deodorizer using a photocatalyst capable of removing odors while circulating indoor air.

The conventional deodorizer has a honeycomb structure in which an air flow path is secured along a straight surface in a container placed horizontally along a main direction of air flow in a ventilation path, and an excitation light source penetrates through this center. It is arrange | positioned so that a different photocatalyst may be carried for every kind of support body. (See Patent Document 1, for example.)

Hereinafter, the conventional deodorizing apparatus is demonstrated by FIG. 1 of patent document 1 (Unexamined-Japanese-Patent No. 9-135891).

In the drawing, reference numeral 6 denotes a blowing fan that sucks air, and includes an inlet port 2 and an exhaust port 3. Inside the casing 1, a circular ring-shaped carrier 12 of a photocatalyst is arranged at a predetermined interval to form a deodorizing chamber 11, and the reflective film 13 is adhered to the inner circumferential surface of the deodorizing chamber 11. The photocatalyst is reflected in the deodorizing chamber 11.

In this apparatus, the air passage, the air blowing means and the photocatalyst, and the air passing in parallel through the air passage are composed of different kinds of carriers for each carrier 12.

In another deodorizing apparatus using a conventional photocatalyst, a plurality of adsorption plate bodies are disposed in stages in a container. (For example, refer patent document 2).

Hereinafter, with reference to FIG. 2 of patent document 2 (Unexamined-Japanese-Patent No. 11-262340), the other deodorizing apparatus using a conventional photocatalyst is demonstrated.

In the drawing, a plurality of adsorption plate bodies formed by filling an adsorption material formed by supporting a photocatalyst on a porous granular material between mesh-shaped plates are arranged in parallel in the container at intervals in the vertical direction, and an ultraviolet lamp is disposed between the adsorption plates. The degassing treatment passage is ensured by passing the processing gas in an upward flow or downward flow.

In this case, the deodorizing effect by the photocatalyst in the photocatalyst filter irradiated with the light from the ultraviolet lamp 6 light source, i.e., one side of the adsorption plate body 5, the mesh-shaped plates 8 and 9 is mainly obtained. Only the photocatalyst deodorizing element, that is, the gas to be treated in contact with the surface of the adsorption plate body 5 cannot be sufficiently deodorized. Therefore, in order to perform sufficient deodorization treatment, it was necessary to provide the combination of the several excitation light source 6 and the photocatalyst filter 5 in several layers in a channel | path.

Patent Document 1: Japanese Patent Application Laid-Open No. 9-135891 Patent Document 2: Japanese Patent Application Laid-Open No. 11-262340

However, in the apparatus shown in Patent Literature 1, the carrier 12 of the photocatalyst extends along a plane that is substantially straight with respect to the main direction of the air flow in the ventilation path, and secures an air flow path along the air flow direction. The excitation light source is nothing but a cylindrical configuration in accordance with the flow of air.

Moreover, in the conventional apparatus shown in patent document 2, in order to perform a sufficient deodorization process by passing a to-be-processed gas stepwise as an upper surface flow or a lower surface flow, there exists a problem that an apparatus structure enlarges, and compared with the enlargement of an apparatus, There was a drawback that the deodorization efficiency was bad. In addition, two excitation light sources are required for one photocatalyst filter, and in order to perform sufficient deodorization treatment, one more excitation light source is required than the number of photocatalyst filters, resulting in poor efficiency.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a deodorizing device that can effectively decompose and deodorize the odor component by swirling the air flow path to increase the reflection effect and heating effect It is done.

In order to achieve the above object, the present invention provides a plurality of photocatalyst filters (6) in a rectangular cross-sectional ventilation passage on the entire surface of the cross section in the ventilation passage, and at the center of the photocatalyst filter (6) in the ventilation passage of the square cross-section. A device for penetrating the excitation light source activating titanium oxide and controlling the flow of wind to the excitation light source 4 on both side surfaces of each side of the plurality of photocatalyst filters 6, that is, a trapezoidal reflector 5 It is provided in both sides of each side.

The reflecting plate 5 of the photocatalyst filter 6 has the effect of swirling the air inside the reflecting plate 5 to effect the effect of the photocatalyst filter 6 carrying titanium oxide having an oxidative decomposition effect. It was possible to provide a deodorizing device that can further improve the deodorizing efficiency than the filed. In particular, the trapezoidal reflecting plate 5 mounted on both end surfaces of each side of the filter 6 is selected and held within a range of 10 degrees to 80 degrees from both end surfaces of each side of the photocatalyst filter 6, and the effect is an angle. It is more effective if it is arranged to the excitation light source in the center at the slope of. On the other hand, the material of the reflecting plate 5 is manufactured by plating a surface on a stainless material or an iron, plastic, vinyl chloride, or acrylic plate to further improve reflection efficiency.

The effect by the above-mentioned solving means is configured to be compact in this way, so that the air containing the component to be deodorized is brought into contact with the photocatalyst filter 6, and the photocatalyst filter is further selected by selectively setting the set angle of the reflecting plate 5. Irradiation enhancement efficiency of the excitation light source 4 to (6) can also be selected in various ways, and a high deodorization effect | action can be obtained more than ever.

According to the deodorizing apparatus according to the present invention, the plurality of photocatalyst filters are provided in the ventilation path of the rectangular cross section, and the excitation light source penetrates through the central portion of the photocatalyst filter of the ventilation path of the rectangular cross section. A trapezoidal reflector is provided on both sides of each side of the filter to the excitation light source, and a reflection plate is provided from both sides of the photocatalyst filter to both sides of the excitation light source, so that the irradiation efficiency from the excitation light source to the photocatalyst filter can be improved. The deodorizing device, which has never been done before, by the action of the vortex flow generated when the air passes between the reflector and the reflector, improves the contact efficiency between the air containing the malodorous component and the filter, promotes the catalytic reaction, and improves the deodorization efficiency. Could get

Moreover, the deodorizing efficiency is good because the deodorizing device is downsized and the excitation light source further promotes the catalytic reaction of the plurality of photocatalyst filters.

1 is a side cross-sectional view showing the configuration of the deodorizer of the present invention.
2 is a cross-sectional view taken along the line AA of the deodorizer of the present invention.
3 is a side cross-sectional view showing the configuration of a third-party deodorizer without a reflecting plate.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a side cross-sectional view showing the structure of a deodorizer according to the present invention, and Fig. 2 is a cross-sectional view taken along the line A-A. An intake fan 2 is provided at one end of the case 1, and an exhaust port 3 is provided at the other end side. The black light 4 of the excitation light source penetrates along the central axis of the case 1. In addition, the wavelength of the black light 4 uses the lamp which efficiently emits near-ultraviolet rays of 352 nm, and the wavelength which excites a photocatalyst is 200 nm-400 nm, and an ultraviolet lamp or a chemical lamp may be sufficient as it is a lamp which produces this wavelength. .

In FIG. 1, the reflecting plate 5 is arrange | positioned at the angle of 45 degree | times to the black light 4 in the cross section on both sides of each side of the photocatalyst filter 6. In FIG.

Inside the case 1, the photocatalyst filters 6 are arranged in a plurality at predetermined intervals as shown in FIG. 1 in a state as shown in FIG. 2, and reflecting plates are formed at both end surfaces of each side of the photocatalyst filter 6, respectively. (5) is arranged at an angle of 45 degrees to the excitation light source, and the ultraviolet light from the black light 4 is reflected by the reflecting plate 5 to efficiently excite the photocatalyst to every corner of the photocatalyst filter 6 have.

Although the reflecting plate 5 can be selectively set in the angular inclination range of 10 degrees to 80 degrees at both end surfaces of each side of the photocatalyst filter 6, even if the reflecting plate 5 is provided, it is suitable for sucking the odor in order to obtain a high deodorizing effect. The intake fan 2 of the fan motor is attached to obtain an air volume sufficient for suction efficiency.

In addition, the photocatalyst filter 6 uses what was manufactured by the KG PACK company, and deodorized by using the super-fine titanium oxide with the outstanding deodorizing effect as described in JP-A-9-59892. The effect is further remarkable, and odor components such as hydrogen sulfide and ammonia, which are difficult to remove with a normal adsorption deodorant, can be effectively removed.

Therefore, when the excitation light is irradiated while the photocatalyst filter manufactured by the cage pack company is used for the deodorization of the present invention, the deodorizing ability is efficiently recovered. When used, the deodorizing effect can be repeated and reused in the present invention.

Using the deodorizing effect of FIG. 1 which is the deodorizing apparatus of this invention, and the deodorizing apparatus of FIG. Table 1 shows the results of ammonia NH ₃ ) being sucked into the inside of the apparatus by the intake fan, and passed through the deodorizing device for 3 minutes.

[Table 1] Odor ingredient removal rate comparison table

As a result, [Table 1], the deodorizing device of the present invention the odor substance removal rate was 100%, and the deodorizer does not include a reflecting plate 5 is malodorous substances (ammonia NH ₃₎ of (ammonia NH ₃₎ by the A removal rate of 71% was obtained. As can be seen from the numerical value, it could be proved that the deodorizing device provided with the reflecting plate 5 of the present invention obtains a good removal rate.

1: case
2: intake fan
3: exhaust vent
4: light source here
5: reflector
6: Photocatalyst Filter

Claims (3)

A plurality of photocatalyst filters are provided on the entire cross section of the ventilation passage in the rectangular cross section ventilation passage, and an excitation light source for activating titanium oxide penetrates the central portion of the photocatalyst filter in the ventilation passage of the square cross section, and includes a plurality of titanium oxide containing titanium oxide. On both sides of each side of the photocatalyst filter, a trapezoidal reflector is provided at the same angle to the excitation light source, and the photocatalyst filter is provided with titanium oxide having an oxidative decomposition effect, and the vortex flow generated between the reflector and the reflector A deodorizing device, characterized in that the reflecting plate with high reflection efficiency further improves the deodorizing effect of the photocatalyst filter. The method of claim 1,
And the trapezoidal reflecting plate on both sides of each side of the filter is disposed up to a central excitation light source at an inclination range of an angle selected from a range of 10 degrees to 80 degrees on both sides of each side of the photocatalyst filter. The method according to claim 1 or 2,
The material of the reflecting plate is made of stainless steel or iron, plastic, vinyl chloride, acrylic plate and the like, and the surface is plated to form a deodorizing device characterized in that the reflection efficiency is enhanced.

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