JPH10277367A - Apparatus for deodorization-sterilization - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus deodorization-sterilization of reduced heat generation and of easy maintenance. SOLUTION: The necessity of light source replacing work is reduced greatly to simplify maintenance work remarkably by a deodorization-sterilization apparatus equipped with a deodorizing-sterilizing agent incorporated with a photocatalyst and blue light emitting diodes installed opposite to the agent. The heat generation from a light source is reduced, and the remarkable reduction of a cooling load can be attained when the apparatus is used in a cooling storage shed.

Description

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorizing / sterilizing apparatus provided for deodorizing and sterilizing an open showcase, a prefabricated storage, a commercial or home cooling storage, and the like.

2. Description of the Related Art For example, Japanese Patent Publication No. 6-102155 discloses a method in which a deodorant obtained by sintering a mixture of an adsorbent and a photocatalyst, a xenon lamp is used as a light source, and the deodorant is irradiated with ultraviolet light. A deodorizing device is disclosed. Further, Japanese Patent Publication No. 3-11303 discloses a deodorizing apparatus including a cylinder having a semiconductor catalyst layer formed on the entire inner surface thereof, and an electric lamp provided at the center of the cylinder and irradiating the semiconductor catalyst layer with ultraviolet rays. Have been.

In the above-mentioned conventional deodorizing apparatus, a xenon lamp or an electric lamp is used as a light source for the deodorizing agent or the catalyst layer. For this reason, for example, in the case of a xenon lamp, there is a problem that the cost of the deodorizing device is high, and the xenon lamp and the electric lamp have a relatively short life, so that replacement work is required.
In addition, since the heat generation is large, for example, when the light source is used as a light source for a deodorizing device of a refrigerator, there arises a problem that the operation cost is increased due to the heat generation and the cooling capacity needs to be improved. Further, a UV lamp has been used as a light source for the photocatalyst, but the life of this UV lamp is also 4,000 to 4,000.
This is 6000 hours, which causes troubles such as troublesome replacement and maintenance, and a problem of heat generation from the light source.

In order to solve the above-mentioned problems, the present invention is directed to a deodorizing germicide 2 having a photocatalyst and a plurality of deodorizing germicides provided opposite to the deodorizing germicide. The present invention provides a deodorizing and sterilizing apparatus including blue light emitting diodes 3. Further, the invention of claim 2 provides a deodorizing bactericide 2 having a photocatalyst and at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst, and an Ag catalyst.
And a plurality of blue light emitting diodes 3... Provided opposite to the deodorizing sterilizer. Further, the invention of claim 3 provides a deodorizing / sterilizing apparatus including a deodorizing / sterilizing agent 2 having a photocatalyst, and a plurality of semiconductor lasers 6 provided opposite to the deodorizing / sterilizing agent. is there. The invention of claim 4 provides a deodorizing bactericide 2 comprising a photocatalyst and at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst or an Ag catalyst, and is provided to face the deodorizing bactericide. The present invention provides a deodorizing and sterilizing apparatus including a plurality of semiconductor lasers 6. Further, the invention according to claim 5 includes a substrate 9, a plurality of photocatalysts 10 provided on the substrate, and a plurality of semiconductor lasers 6 provided at an interval from the substrate. The present invention provides a deodorizing and sterilizing apparatus provided with a photocatalyst and a semiconductor laser facing each other. Furthermore, the invention of claim 6 provides a substrate 9 containing at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst or an Ag catalyst.
And a plurality of photocatalysts 10 provided on the substrate.
And a plurality of semiconductor lasers 6 provided at an interval from the substrate, and provide a deodorizing and sterilizing apparatus in which the photocatalytic agent and the semiconductor laser are provided to face each other.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment according to the first and second aspects of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory diagram of the deodorizing and sterilizing apparatus 1. Reference numeral 2 denotes a deodorizing bactericide formed mainly of activated carbon as an adsorbent, including a photocatalyst (for example, TiO2: titanium oxide), a Mn catalyst, a Cu catalyst, a Pd catalyst, and an Ag catalyst. Are blue LEDs (light emitting diodes), which are a plurality of light sources provided at intervals above the deodorizing germicide 1. Each blue LED3 ...
Are spaced from each other, for example, the substrate 4
It is provided in. Here, one or a plurality of blue LEDs 3 are provided according to the area of the deodorizing and sterilizing agent 2. According to the deodorizing / sterilizing device 1, the blue LED 3 ...
Is energized and lit, the blue LED 3 ...
UV rays from the photocatalyst impinge on the photocatalyst, mainly by the photocatalyst, such as food odor and cooking odor, ie, nitrogen compounds (ammonia, amines, etc.), sulfur compounds (hydrogen sulfide, methyl sulfide, etc.), aldehydes (formaldehyde, acetaldehyde, etc.) Malodorous components such as ketones (acetone and the like) are decomposed and deodorized. And a Mn catalyst that is a metal catalyst,
The malodorous components are also decomposed by the Cu catalyst and the Pd catalyst,
In particular, ethylene gas is decomposed by the Pd catalyst. In addition, bacteria adhering to the deodorizing and sterilizing apparatus are sterilized by the photocatalyst and the Ag catalyst. The germicidal action of the photocatalyst and the Ag catalyst is large when the photocatalyst and the Ag catalyst are exposed to light, and is larger when the blue LEDs 3 are turned on than when the blue LEDs 3 are turned off. Further, activated carbon adsorbs malodorous components, and the adsorbed malodorous components are deodorized by the photocatalyst or the metal catalyst as described above. Further, when the blue LEDs 3 are turned off, the deodorizing action of the malodorous component by the photocatalyst becomes small,
The malodorous components are mainly decomposed and deodorized by the metal catalysts of Mn catalyst, Cu catalyst and Pd catalyst. According to the above-described embodiment, when the blue LEDs 3 are turned on, the photocatalyst mainly decomposes the odorous component by the ultraviolet rays from the blue LEDs 3.
Blue L with long life (several tens of thousands of hours) as a light source for photocatalyst
Because ED3 ... is used, conventional UV lamps,
The necessity of replacement work such as when a xenon lamp or an electric light is used is greatly reduced, and maintenance work can be greatly simplified. In addition, the heat generated from the light source is reduced, and the cooling load when the deodorizing / sterilizing apparatus is used for a cooling storage such as a showcase, a prefabricated storage, a refrigerator for home or business use, or a freezer can be significantly reduced. The necessity of improving the cooling capacity can be minimized. When a UV lamp is used as a light source, a ballast is required, but this ballast becomes unnecessary. Furthermore, UV lamps and the like are affected by the temperature, and the efficiency usually decreases as the temperature decreases. However, by using the blue LEDs 3, the efficiency can be prevented from decreasing at a low temperature. Even when provided in a certain storage, the deodorizing and sterilizing action can be maintained. When the deodorizing disinfectant 2 does not have a metal catalyst such as a Mn catalyst, the blue L
When the ED3 ... is turned off, the deodorizing / sterilizing effect of the photocatalyst decreases, and the deodorizing / sterilizing effect of the deodorizing / sterilizing device 1 decreases. However, when the blue LEDs 3 ... are continuously turned on, the deodorizing / sterilizing effect is continuously maintained. can do. Further, when the deodorizing germicide 2 has a metal catalyst as in the above embodiment,
Even when the blue LEDs 3 are turned off, the malodorous components are decomposed by the Mn catalyst, the Cu catalyst and the Pd catalyst, and the malodorous components can be deodorized. Hereinafter, a second embodiment of the deodorizing and sterilizing apparatus according to the third and fourth aspects of the present invention will be described in detail with reference to FIG. The same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted. Reference numeral 5 denotes a deodorizing / sterilizing apparatus, and reference numeral 2 denotes an activated carbon mainly containing a photocatalyst (for example, TiO2: titanium oxide), a Mn catalyst, a Cu catalyst, a Pd catalyst, and an Ag catalyst. It is a deodorant germicide formed in a shape. Reference numerals 6... Denote semiconductor lasers which are a plurality of light sources provided above the deodorizing germicide 1 at intervals. The semiconductor lasers 6 are provided at intervals, for example, on the substrate 7 so as to face the deodorizing germicide 2. Also,
The semiconductor lasers 6...
A row or a plurality of rows are provided. According to the deodorizing and sterilizing apparatus 5, when the semiconductor lasers 6 are turned on (emit light) as shown by the broken lines in FIG.
The ultraviolet rays from the photocatalyst impinge on the photocatalyst, and the malodorous components are decomposed and deodorized mainly by the photocatalyst irradiated with the ultraviolet rays, similarly to the deodorizing / sterilizing apparatus of the first embodiment. Further, the photocatalyst in the portion not exposed to the ultraviolet light and the metal catalysts such as the Mn catalyst, Cu catalyst and Pd catalyst are less effective than the photocatalyst exposed to the ultraviolet light, but the malodorous components are decomposed and deodorized. Further, the bacteria attached to the deodorizing and sterilizing apparatus are sterilized by the Ag catalyst. Further, activated carbon adsorbs malodorous components, and the adsorbed malodorous components are deodorized by the photocatalyst or the metal catalyst as described above. Further, when the semiconductor lasers 6 are turned off, the deodorizing action of the malodorous component by the photocatalyst is reduced, and the Mn catalyst, which is mainly a metal catalyst,
The malodorous components can be decomposed and deodorized by the Cu catalyst and the Pd catalyst. According to the above-described embodiment, when the semiconductor lasers 6 are turned on, the photocatalyst can mainly decompose the malodorous component by the ultraviolet rays from the semiconductor lasers and deodorize them, and also has a long life as the light source of the photocatalyst. Since the semiconductor laser 6 is used, the conventional UV
The necessity of replacement work when using a lamp, a xenon lamp, an electric light or the like is greatly reduced, and the maintenance work can be significantly reduced. In addition, the heat generated from the light source is reduced, and the cooling load is reduced when the deodorizing / sterilizing device is used in a cold storage such as a showcase, a prefabricated storage, a home or commercial refrigerator, a freezer, or a cooling air circulation path. A significant reduction can be achieved, and the necessity of improving the cooling capacity can be minimized. Also, U
When a V lamp is used as a light source, a ballast is required.
.. Can be prevented from lowering in efficiency at low temperatures, and the deodorizing and sterilizing action can be maintained even when the deodorizing and sterilizing apparatus is provided in a storage room where the surroundings are in a low temperature state. In addition, the light from the semiconductor lasers 6 can be prevented from diffusing, and the light from the light source can be effectively used for the deodorizing and sterilizing action by the photocatalyst, and the deodorizing and sterilizing efficiency can be improved. When the deodorizing bactericide 2 does not have a metal catalyst such as a Mn catalyst, the semiconductor laser 6.
When the light is turned off, the deodorizing / sterilizing effect of the photocatalyst is reduced, but when the semiconductor lasers 6 are continuously turned on, the deodorizing / sterilizing effect can be continuously maintained. When the deodorizing bactericide 2 has a metal catalyst such as a Mn catalyst as in the above embodiment, the Mn catalyst is used even when the semiconductor laser 6 is turned off.
The malodorous component is decomposed by the Cu catalyst and the Pd catalyst, and the malodorous component can be deodorized. Hereinafter, a third embodiment of the sterilizing and deodorizing apparatus according to the fifth and sixth aspects of the present invention will be described with reference to FIG.
It will be described in detail based on. The same components as those in the first and second embodiments are denoted by the same reference numerals, and the detailed description thereof will be omitted. FIG. 3 is an explanatory diagram of the sterilizing and deodorizing device 8. 9 is a Mn catalyst, Cu catalyst, Pd catalyst, Ag
.. Are plate-like substrates mainly containing activated carbon and containing a catalyst, and 10... Are layered or film-shaped photocatalysts formed of a photocatalyst (eg, TiO2: titanium oxide) provided on the substrate 9. Each of the photo-etching media 10 is, for example, circular and provided at intervals, and the substrate 5 is exposed between the photo-etching media 10. Are a plurality of semiconductor lasers provided above the substrate 9 with a space therebetween and opposed to the respective photocatalysts 10. Each of the photocatalysts 10 is provided so as to face the semiconductor laser 6, and each of the photocatalysts 10 is, for example, a laser irradiation range of the semiconductor laser 6 (shown by a broken line in FIG. 3). ) Is provided in a slightly wider range. Also,
The semiconductor lasers 6 are provided in one or a plurality of rows according to the arrangement of the photo-etching medium, for example, the number of rows. According to the deodorizing / sterilizing device 8, the semiconductor lasers 6 are turned on (light emission).
, The ultraviolet rays from the semiconductor lasers 6 impinge on the photocatalysts 10..., And the malodorous components are decomposed and deodorized mainly by the photocatalysts as in the first embodiment. And Mn catalyst, Cu catalyst and Pd which are metal catalysts.
The malodor component is also decomposed and deodorized by the catalyst. Further, the bacteria attached to the deodorizing and sterilizing apparatus are sterilized by the Ag catalyst. Further, the activated carbon adsorbs the malodorous component, and the adsorbed malodorous component is deodorized by the photocatalyst agent 10 or the metal catalyst as described above. When the semiconductor lasers 6 are turned off, the deodorization of the malodorous components by the photocatalyst agents 10 is stopped, and the Mn catalyst and Cu are mainly used as metal catalysts.
The catalyst and the Pd catalyst can decompose malodorous components and make them odorless. According to the above embodiment, the semiconductor laser 6
.. Can be mainly decomposed and deodorized by the ultraviolet light from the semiconductor laser 6 by the ultraviolet light from the semiconductor laser 6. Since 6 is used, the necessity of replacement work as in the case where a conventional UV lamp, xenon lamp or electric lamp is used is greatly reduced, and maintenance work can be greatly reduced. In addition, the heat generated from the light source is reduced, and the cooling load when the deodorizing and sterilizing apparatus is used for a cooling storage such as a showcase, a prefabricated storage, a home or commercial refrigerator, a freezer, etc. can be significantly reduced. Further, the necessity of improving the cooling capacity can be minimized. In addition, a ballast as in the case where a UV lamp is used as a light source is not required, and the UV lamp and the like are affected by temperature. As a result, a decrease in efficiency at low temperatures can be avoided, and the deodorizing and sterilizing action can be maintained even when the deodorizing and sterilizing apparatus is provided in a storage where the surroundings are in a low temperature state. Further, the light from the semiconductor lasers 6... Is prevented from being diffused, and the light from the light sources is applied to the opposing photocatalyst agents 10. Thus, the deodorizing and sterilizing efficiency can be improved. Further, the photo-etching medium material 10 is applied only to the portion where the light from the semiconductor laser 6.
May be provided, and the amount of titanium oxide or the like constituting the photo-etching agent can be reduced. Further, when the deodorizing disinfectant 2 does not have a metal catalyst such as a Mn catalyst,
When the semiconductor lasers 6 are turned off, the deodorizing / sterilizing action of the photocatalyst is reduced. However, when the semiconductor lasers 6 are turned on continuously, the deodorizing / sterilizing effect can be continuously maintained. When the deodorizing germicide 2 has a metal catalyst such as a Mn catalyst as in the above embodiment, the semiconductor laser 6.
Even when the light is turned off, the odor component is decomposed by the Mn catalyst, the Cu catalyst and the Pd catalyst, and the odor component can be deodorized. The present invention is not limited to the first, second and third embodiments, and various changes can be made within the gist of the present invention described in the appended claims. is there. In each of the above embodiments, activated carbon was used as the adsorbent, but a porous agent such as ceramic may be used instead of activated carbon. Further, a Mn catalyst as a metal catalyst,
Although the Cu catalyst and the Pd catalyst are used as examples, if at least one of the metal catalysts is used in the deodorizing / sterilizing apparatus, the deodorizing action when the blue LED or the semiconductor laser is turned off can be maintained.

According to the present invention, when the blue LED is lit, the photocatalyst decomposes the malodorous component by the ultraviolet rays from the blue LED, thereby eliminating the odor. Of course, it can be used as a light source for a photocatalyst.
Since D is used, the necessity of replacement work as in the case where a conventional UV lamp, xenon lamp, electric lamp, or the like is used is greatly reduced, and maintenance work can be greatly simplified. Further, the heat generated from the light source is reduced, and the cooling load when the deodorizing / sterilizing apparatus is used in a cooling storage such as a showcase, a prefabricated storage, a home or business refrigerator, a freezer, and the like can be significantly reduced. When a UV lamp is used as a light source, a ballast is required, but this ballast becomes unnecessary. Furthermore, U
V lamps and the like are affected by the temperature, and the efficiency usually decreases as the temperature decreases. However, by using a blue LED, the efficiency can be prevented from decreasing at the time of low temperature, and the deodorizing and sterilizing apparatus is provided in a storage where the surroundings are in a low temperature state. Even in this case, the deodorizing and sterilizing action can be maintained. According to the second aspect of the present invention, in addition to the effect of the first aspect, the Mn catalyst and the C
The malodorous component is decomposed by the u catalyst or the Pd catalyst,
When the blue LED is turned on and off, the odorous component can be deodorized. According to the third aspect of the invention, when the semiconductor laser is turned on, the photocatalyst can mainly decompose the odor component by the ultraviolet rays from the semiconductor laser and deodorize it, and the semiconductor laser has a long life as a light source of the photocatalyst. The necessity of replacement work when a conventional UV lamp, xenon lamp, electric lamp, or the like is used is greatly reduced, and maintenance work can be greatly reduced. Also, heat generation from the light source is reduced,
When the deodorizing / sterilizing apparatus is used in a cold storage such as a showcase, a prefabricated storage, a home or business refrigerator, a freezer, or a cold air circulation path, the cooling load can be significantly reduced. When a UV lamp is used as a light source, a ballast is required. However, this stabilizer is not required, and the use of a semiconductor laser can prevent a decrease in efficiency at a low temperature. Even if is provided in a storage where the surroundings are in a low temperature state, the deodorizing and sterilizing action can be maintained. Furthermore, the diffusion of light from the semiconductor laser as the light source can be avoided, and the light from the light source can be effectively used for the deodorizing and sterilizing action by the photocatalyst, and the deodorizing and sterilizing efficiency can be improved. According to the fourth aspect of the invention, in addition to the effect of the third aspect, even when the semiconductor laser is turned off, the odor component is decomposed by the Mn catalyst, the Cu catalyst or the Pd catalyst, and the odor component can be deodorized. According to the fifth aspect of the present invention, when the semiconductor laser is turned on, the photocatalyst can mainly decompose the malodorous component by the ultraviolet rays from the semiconductor laser and deodorize it. Since a semiconductor laser having a long length is used, the necessity of replacement work as in the case of using a conventional UV lamp, xenon lamp, or electric lamp is greatly reduced, and maintenance work can be significantly reduced. In addition, the heat generated from the light source is reduced, and the deodorizing and sterilizing equipment is used for showcases, prefabricated storage,
The cooling load when used in a cooling storage such as a refrigerator or a freezer for home use or business use can be greatly reduced. In addition, a ballast as in the case where a UV lamp is used as a light source is not required. Further, the temperature of a UV lamp or the like is affected by the temperature. Can avoid a drop in efficiency
Even when the deodorizing / sterilizing device is provided in a storage where the surroundings are in a low temperature state, the deodorizing / sterilizing action can be maintained. Also,
The diffusion of light from the semiconductor laser, which is the light source, is avoided, and the light from the light source is applied to the opposing photocatalyst agent, which can be effectively used for the deodorizing and sterilizing action of each photo-etching agent, thereby improving the deodorizing and sterilizing efficiency. Can be planned. Furthermore, it is sufficient to provide the photo-etching medium only in the portion where the light from the semiconductor is irradiated, and the amount of titanium oxide or the like constituting the photo-etching medium can be reduced. According to the invention of claim 6, in addition to the effect of claim 5, even when the semiconductor laser is turned off, the odor component is decomposed by the Mn catalyst, Cu catalyst or Pd catalyst, and the odor component can be deodorized.

[Brief description of the drawings]

FIG. 1 is a side view of a deodorizing and sterilizing apparatus according to a first embodiment of the present invention.

FIG. 2 is a side view of a deodorizing and sterilizing apparatus according to a second embodiment of the present invention.

FIG. 3 is a side view of a deodorizing and sterilizing apparatus according to a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Deodorizing and sterilizing apparatus 2 Deodorizing and sterilizing agent 3 Blue LED 5 Deodorizing and sterilizing apparatus 6 Semiconductor laser 7 Substrate 8 Deodorizing and sterilizing apparatus 10 Light erosion medium

Claims (6)

[Claims] 1. A deodorizing and disinfecting apparatus comprising a deodorizing and disinfecting agent having a photocatalyst, and a plurality of blue light emitting diodes provided to face the deodorizing and disinfecting agent. 2. A deodorizing germicide having a photocatalyst and at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst and an Ag catalyst, and a plurality of blue light-emitting members provided to face the deodorizing germicide. A deodorizing / sterilizing device comprising a diode. 3. A deodorizing / sterilizing apparatus comprising: a deodorizing / sterilizing agent having a photocatalyst; and a plurality of semiconductor lasers provided to face the deodorizing / sterilizing agent. 4. A deodorizing germicide comprising a photocatalyst and at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst or an Ag catalyst, and a plurality of semiconductor lasers provided to face the deodorizing germicide. A deodorizing and sterilizing apparatus provided with: 5. A semiconductor device comprising: a substrate; a plurality of photocatalysts provided on the substrate; and a plurality of semiconductor lasers provided at an interval from the substrate, wherein the photocatalyst and the semiconductor laser are provided to face each other. A deodorizing / sterilizing device characterized by being carried out. 6. A substrate containing at least one component of a Mn catalyst, a Cu catalyst, a Pd catalyst or an Ag catalyst,
It comprises a plurality of photocatalysts provided on the substrate and a plurality of semiconductor lasers provided at an interval from the substrate, wherein the photocatalyst and the semiconductor laser are provided to face each other. Deodorizing and sterilizing equipment.