JP3495969B2 - Organic substance decomposition unit - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an organic substance decomposing unit using a photocatalyst, and more particularly to an organic substance decomposing unit in which the decomposition efficiency of an organic substance is enhanced by effectively using ultraviolet rays.

[0002]

2. Description of the Related Art It has been known that organic substances can be decomposed by irradiating a photocatalyst such as titanium oxide or tin oxide with ultraviolet rays. Examples of applications of this photocatalyst include an air purifier and a deodorizer. In such a device, for example, as shown in FIG. 8, air is circulated in a direction indicated by an arrow 21 in a photocatalyst filter 15 in which a photocatalyst is held in a breathable nonwoven fabric, and ultraviolet rays are emitted from an ultraviolet light source 12 such as an ultraviolet lamp. By irradiating, the organic substance in the air is removed by the organic substance decomposing action of the photocatalyst. Air purification, deodorization, sterilization, etc. are carried out by such organic substance decomposition action of the photocatalyst. Further, as shown in FIG. 7, by disposing the photocatalytic filters 15 on both sides of the ultraviolet light source 12,
In some cases, a structure having a higher organic substance decomposing effect is adopted.

[0003]

However, in such a structure in which only one or two ultraviolet light sources are arranged in the vicinity of the photocatalytic filter, the photocatalytic filter is not uniformly irradiated with ultraviolet light, but is not irradiated with ultraviolet light. However, it cannot be said that the photocatalyst and ultraviolet rays are effectively used.

The present invention has been made in view of the above problems, and an object of the present invention is to efficiently and uniformly irradiate the entire surface of the photocatalytic filter with ultraviolet rays, whereby the decomposition efficiency of organic substances is excellent. An organic matter decomposition unit is provided.

[0005]

An organic substance decomposing unit of the present invention comprises an ultraviolet-transmissive light guide provided with a ventilation hole for passing air, and an ultraviolet light source for making ultraviolet light incident on the light guide. A photocatalyst filter having a photocatalyst held on a breathable base material provided adjacent to the light guide body is provided. With this configuration, since the ultraviolet light emitted from the ultraviolet light source is once guided to the light guide body and then applied to the photocatalytic filter that holds the photocatalyst, uniform ultraviolet irradiation can be performed.

Further, the organic substance decomposing unit of the present invention may be configured such that at least a part of the light guide body is provided with a light scattering means for scattering the ultraviolet rays. By providing the light scattering means, it is possible to make the ultraviolet rays in the light guide uniform, so that it is possible to make the ultraviolet irradiation to the photocatalytic filter even more uniform.

Further, a reflecting member may be provided in a portion of the light guide which is not adjacent to the photocatalytic filter. Since this reflecting member is provided in a portion of the light guide body which is not adjacent to the photocatalyst filter, it is possible to prevent ultraviolet rays from being emitted to the outside of the light guide body without being irradiated to the photocatalyst filter. You can
It becomes possible to effectively use ultraviolet rays.

In another embodiment, the organic substance decomposing unit of the present invention is a plate-shaped ultraviolet light transmissive light guide provided with a ventilation hole for passing air, and ultraviolet light disposed on the side surface of the light guide. A light source, and a photocatalytic filter that holds a photocatalyst on a breathable substrate provided adjacent to one surface of the light guide,
A reflecting member is provided on the other surface of the light guide. In this configuration, the light guide is plate-shaped, and the photocatalytic filter is provided adjacent to one surface of the light guide, so that a photocatalytic filter having a large area can be adopted, and the organic substance decomposing unit having high organic substance decomposing performance. Is obtained. Moreover, since the reflecting member is provided on the other surface of the light guide, it is possible to prevent the ultraviolet rays from going out from the back surface of the light guide, and it is possible to effectively use the ultraviolet rays. Becomes

Further, a structure in which a light scattering means for scattering the ultraviolet rays is provided on the other surface of the light guide can be added. With this configuration, since the ultraviolet rays in the light guide can be made uniform, the irradiation of the ultraviolet rays to the photocatalytic filter can be made more uniform.

Furthermore, an organic substance decomposing unit according to another embodiment of the present invention is provided with a plate-like ultraviolet light-transmitting light guide provided with a vent for allowing air to pass through and a side surface of the light guide. And a photocatalyst filter having a photocatalyst held on a breathable base material provided adjacent to both surfaces of the light guide. In this configuration, since the photocatalytic filter is provided adjacent to both surfaces of the light guide, the area of the photocatalytic filter can be increased, and the organic substance decomposing unit having higher organic substance decomposing performance can be obtained.

In addition to the above structure, it is possible to add a structure in which a light scattering means for scattering the ultraviolet rays is provided on at least one surface of the light guide. With this configuration, since the ultraviolet rays in the light guide can be made uniform, the irradiation of the ultraviolet rays to the photocatalytic filter can be made more uniform.

In any of the above-described organic substance decomposing units, the aperture ratio of the vent hole in the light guide is 30 to 7.
It is preferably 0%. If the opening ratio is less than 30%, the flow of air through the organic substance decomposing unit is deteriorated, and the organic substance decomposing performance is deteriorated, which is not preferable. Further, if the opening ratio is larger than 70%, the irradiation amount of ultraviolet rays on the photocatalytic filter is reduced, and as a result, the organic substance decomposing performance is lowered, which is not preferable.

Further, in the structure provided with the light reflecting member, a structure may be employed in which the light reflecting member is provided with a vent for allowing air to pass through. In this case, the opening ratio of the vent is
For the same reason as above, the area of the light guide is 30 to 7
It is preferably 0%.

The vent hole in the light guide has a shape in which the length in the direction along which the ultraviolet light from the ultraviolet light source is incident is larger than the length in the direction perpendicular to the incident direction. It is preferable that In this way, by making the shape of the vent hole longer in the direction along the incident direction of ultraviolet rays, the ultraviolet rays are made uniform throughout the light guide body without much blocking, and there is almost no deterioration in air permeability. Therefore, it is possible to obtain an organic substance decomposing unit having excellent air permeability and high organic substance decomposing performance.

Further, in the structure provided with the light reflecting member, the vent hole in the light reflecting member has a length in the direction along the incident direction of the ultraviolet rays from the ultraviolet light source for the same reason as above. Preferably, it has a shape larger than the length in the direction perpendicular to the incident direction.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. The organic substance decomposing unit of the present invention has the light guide body that transmits ultraviolet rays as described above. As the material of this light guide, glass, plastic, or a material obtained by laminating these can be used. However, in terms of easy processing for providing a vent hole described later and weight, plastic is used. Is suitable. Among the plastics, acrylic plastics are preferable in terms of ultraviolet ray transmittance and surface hardness. The preferred plastic for the material of the light guide is polymethylmethacrylate (PM
MA), polycarbonate (PC), polypropylene (PP), polyfluoroethylene (PTEE), polyvinylidene fluoride (PVDF), polymethylpentene (TP)
X) and combinations thereof.

In the present invention, the light guide is provided with a vent, and the shape thereof is not particularly limited, but considering the circulation of air and the transmission of ultraviolet rays in the light guide, As described above, it is preferable that the length in the direction along the incident direction of ultraviolet rays from the ultraviolet light source is larger than the length in the direction perpendicular to the incident direction of ultraviolet rays.

The ultraviolet light source for supplying ultraviolet light to the light guide is
From the viewpoint of the decomposition efficiency of organic substances, the peak wavelength is 350 to 390.
Those that emit UV light of nm are preferred.

In the present invention, a photocatalyst filter is provided adjacent to the light guide body that transmits ultraviolet rays. This photocatalyst filter is made by holding the photocatalyst on the air permeable base material. Non-woven fabrics, woven fabrics, papers and the like can be used as the air-permeable base material, and titanium oxide, tin oxide, tungsten oxide, and mixtures thereof can be used as the photocatalyst. As the photocatalytic filter, a commercially available product such as a Rajit breathable photocatalytic filter (Mitsubishi Paper Mills) can be used.

In one embodiment of the organic substance decomposing unit of the present invention, the light-scattering means is formed on at least a part of the light guide, and when the light guide is plate-like, the light-scattering means is scattered on one or both surfaces thereof. Means are formed. The light scattering means can be formed, for example, by providing a light scattering groove, a conical concave portion, or the like, or by dot printing of a reflective ink, roughening, or the like. When such a light scattering means is provided, the ultraviolet rays are sufficiently scattered, so that the ultraviolet rays are uniformly dispersed in the light guide body and the ultraviolet rays can be effectively used.

In the present invention, a light reflecting member may be further provided. The light reflecting member has a function of returning light leaking from the light guide body to the light guide body without being absorbed by the photocatalyst of the photocatalyst containing layer. Therefore, the light reflecting member is provided in a portion of the light guide body where the photocatalytic filter is not adjacent, and when the photocatalyst filter is adjacent to one surface of the plate-shaped light guide body, the photocatalytic filter is adjacent to the light guide member. Not provided on the other side. By providing this light reflecting member,
An organic substance decomposing unit that can effectively use ultraviolet rays is obtained.

[0022]

Embodiments of the present invention will be described with reference to the drawings. 1 is an exploded perspective view of an organic substance decomposing unit 1 according to an embodiment of the present invention, and FIG. 2 is a perspective view of P in FIG.
FIG. 6 is a sectional view taken along line P-arrow. The organic substance decomposition unit 1 of the present embodiment has a light guide 10 made of PMMA (E011, manufactured by Sumitomo Chemical Co., Ltd.) that is transparent to ultraviolet light, and the size of the light guide 10 is 300 mm × 200 mm and the thickness is 6 mm. . On the long side surfaces on both sides of the light guide body 10, ultraviolet light sources 12 and 12 for making ultraviolet rays incident on the light guide body 10 are installed, respectively. In this embodiment, an ultraviolet lamp (CFL3UV37 / 300T3.0, manufactured by NEC) is used as the ultraviolet light source 12.
Was used. These ultraviolet light sources 12 are covered with aluminum reflectors 13 and 13, respectively, and are configured so that all the ultraviolet rays emitted from the ultraviolet light sources 12 are incident on the light guide 10.

In this embodiment, the back surface 10b of the light guide 10 is
In addition, a large number of V-shaped light-scattering grooves 1 as light-scattering means.
1 are formed in parallel (FIG. 2). The light-scattering groove 11 is formed by laser processing, and is rough at both ends of the light guide 10 close to the ultraviolet light source 12 and dense at the center of the light guide 10 away from the ultraviolet light source 12. With such a configuration, it is possible to make the distribution of the ultraviolet rays in the incident direction uniform.

In the organic substance decomposing unit 1 of this embodiment, a photocatalyst filter (a Ragit breathable photocatalyst filter, made by Mitsubishi Paper Mills) 15 is provided in contact with the upper surface of the light guide 10. In the present embodiment, the photocatalytic filter 15 is placed on the light guide body 10 so as to be in direct contact therewith, but it may be fixed to the light guide body 10 with an adhesive or the like.

The organic substance decomposing unit 1 of this embodiment has a large number of vent holes 20 for allowing air to pass through the light guide 10. The vent hole 20 has a length in a direction along the incident direction of the ultraviolet light from the ultraviolet light source 12, that is, in a direction indicated by an arrow 16, that is, a direction perpendicular to the incident direction, that is, an arrow 17.
It is larger than the length in the direction indicated by. Also,
The shape of the vent hole 20 in plan view has the same width in the portions of the light guide body 10 other than the vicinity of both ends of the arrow 16 in the ultraviolet ray incident direction, and the width gradually decreases in the vicinity of both ends of the arrow 16 in the ultraviolet ray incident direction. ing. With such a shape of the vent hole 20, the ultraviolet light from the ultraviolet light source 12 can be guided to the light guide body 10 without leaking. Vent 20 in this embodiment
The sum of the areas of occupies 50% of the area of the light guide 10.

Further, in the present embodiment, a reflecting plate 32 as a light reflecting member is provided on the back surface side of the light guide 10. The reflector 32 is made of an aluminum plate, and a large number of ventilation holes 33 are provided in the reflector. This vent 33
Has the same shape as the vent 20 in the light guide 10. Therefore, when the reflector 32 is attached to the light guide 10, the vent 20 of the light guide 10 and the vent 3 of the reflector 32 are attached.
3 will match. Thereby, the organic substance decomposing unit 1 of the present embodiment can be installed at right angles to the flow direction of air, and high organic substance decomposing efficiency can be obtained.

With respect to the organic substance decomposing unit 1 of the present embodiment having the above constitution, a deodorizing test for formaldehyde, which is an odor substance, was conducted. For comparison, the same test was performed on the conventional organic substance decomposition unit shown in FIG. The photocatalyst filter 15 in the comparative example of FIG.
The light source 12 has the same dimensions and the same thickness as the organic substance decomposing unit 1 of this embodiment shown in FIG. The deodorization test is carried out in an acrylic closed case (effective inner size 1000 mmH x 1000 mmW x 1000 mmD,
It was performed by measuring the concentration of formaldehyde in a volume of 1 m ³ ). The measurement of formaldehyde concentration is
The measurement was performed using a gas detector tube (manufactured by Gastec, 91L).
Also, the initial concentration of formaldehyde is 3 ppm,
The air containing formaldehyde is shown in FIGS. 1 and 8 respectively.
It was circulated so as to flow toward each organic substance decomposition unit from the direction indicated by the arrow 21.

From the results of this deodorization test, the time required for attenuating formaldehyde to 50% is about 75 minutes in the unit of the embodiment of FIG. 1, whereas it is about 110 minutes in the unit of FIG. did. This shows that the unit of this example has a higher formaldehyde decomposing ability than the organic substance decomposing unit of the comparative example.

FIG. 3 is an exploded perspective view of an organic substance decomposing unit 31 according to another embodiment of the present invention, and FIG. 4 is a sectional view taken along the line Q-Q in FIG. In the organic substance decomposing unit 31 of this embodiment, instead of the reflecting plate 32 made of aluminum,
It is the same as the above-described embodiment of FIG. 1 except that a reflection plate 32 made of aluminum vapor deposition is provided on the back surface side of the light guide body 10 as a light reflection member, and corresponding components are designated by the same reference numerals. is there.

The organic substance decomposing unit 31 of this embodiment can also be installed at right angles to the flow direction of air, and a high organic substance decomposing efficiency was obtained. As a result of performing a deodorizing test for formaldehyde similar to the example of FIG. 1, 3 pp
It took about 70 minutes to decay m formaldehyde to 50%.

FIG. 5 is an exploded perspective view of an organic substance decomposing unit 51 according to another embodiment of the present invention, and FIG. 6 is a sectional view taken along the line RR in FIG. The organic substance decomposing unit 51 of the present embodiment has a light guide body 10 made of PMMA (E011, manufactured by Sumitomo Chemical Co., Ltd.) having the same size as that of the embodiment shown in FIG. The ultraviolet light source 1 which makes ultraviolet light incident on the light guide 10 is provided on the long side surfaces on both sides of the
2, 12 (CFL3UV37 / 300T3.0, manufactured by NEC) are installed. These ultraviolet light sources 12 are reflectors 13 and 13 made of aluminum, respectively.
It is configured so that all the ultraviolet rays emitted from the ultraviolet light source 12 are incident on the light guide body 10.
In this embodiment, unlike the embodiment of FIG. 1 described above, a large number of V-shaped light-scattering grooves 11 as a light-scattering means are formed in parallel on the front surface 10a and the back surface 10b of the light guide 10 by laser processing. Formed (Fig. 6).

In the organic substance decomposing unit 51 of this embodiment,
On the front surface 10a and the back surface 10b of the light guide body 10, a photocatalyst filter (radit breathable photocatalyst filter, made by Mitsubishi Paper Mills) 1
5, 15 are provided in contact with each other. In this embodiment, the light reflection member (reflection plate 32) is not provided.

The organic substance decomposition unit 51 of this embodiment has a large number of vent holes 20 for allowing air to pass through the light guide 10. The vent hole 20 has a length in the direction along the incident direction of the ultraviolet light from the ultraviolet light source 12 that is larger than the length in the direction perpendicular to the incident direction. Further, the shape of the vent hole 20 in a plan view has the same width in portions other than the vicinity of both ends in the ultraviolet ray incident direction of the light guide body 10, and the width gradually decreases in the vicinity of both ends in the ultraviolet ray incident direction.

With respect to the organic substance decomposing unit 51 of the present embodiment having the above-mentioned structure, the intensity of the ultraviolet light at each site on the surface of the light guide 10 of the ultraviolet light from the ultraviolet light source 12 was examined. For comparison, the intensity of ultraviolet rays was also examined for the organic substance decomposition unit shown in FIG. The photocatalytic filter 15 in the comparative example of FIG. 7 has the same size and the same thickness as the organic substance decomposing unit 1 of the present embodiment of FIG.
Also, the same one as in FIG. 5 was used. As a result, in the organic substance decomposing unit 51 of this example, the ultraviolet intensity was 0.71 mW / cm ^{2 at} the strongest and 0.65 at the weakest.
It is mW / cm ² , and it can be seen that the entire surface of the photocatalytic filter is uniformly irradiated with ultraviolet rays. On the other hand, in the organic substance decomposition unit shown in FIG. 7, the ultraviolet ray intensity is 2.9 mW / cm ² at the strongest point, and is 0.2 at the weakest point.
It is 20 mW / cm ² , and it can be seen that the irradiation of ultraviolet rays is non-uniform.

The organic substance decomposing unit 51 of this embodiment is also used.
Also in this case, the deodorization test for formaldehyde, which is an odor substance, was conducted in the same manner as in the above-mentioned embodiment of FIG. For comparison, the same test was performed on the organic substance decomposing unit of the comparative example shown in FIG. The deodorant test conditions are:
This is the same as the embodiment shown in FIG. From the results of this deodorization test, the time required to attenuate formaldehyde having an initial concentration of 3 ppm to 50% is about 60 minutes in the unit of the embodiment of FIG. 5, while it is about 90 minutes in the unit of FIG. Needed This shows that the unit of this example has a higher formaldehyde decomposing ability than the organic substance decomposing unit of the comparative example.

In each of the above-described embodiments, the vent 20 of the light guide 10 and the vent 33 of the reflector 32 have a shape in which the width does not change at the central portion and gradually narrows at both ends. Is not limited to this, and for example, FIGS.
The shape shown in can be used. In FIG. 9, the vent has a rectangular shape in plan view, and in this case as well, the length in the direction along the incident direction of ultraviolet rays is longer than the length in the direction perpendicular to the incident direction. . The vent shown in FIG. 10 is formed in an elliptical shape, and in this case as well, the length in the direction along the incident direction of ultraviolet rays (long axis direction) is perpendicular to the incident direction (short axis direction). ) Is longer than the length in. In the vent hole of FIG. 10, the width of the vent hole is gradually reduced at both ends where the ultraviolet rays enter, so that the ultraviolet rays can be efficiently taken into the light guide body 10. In addition, the vent hole in FIG. 11 is formed in a diamond shape,
Also in this case, the length in the direction along the incident direction of ultraviolet rays is longer than the length in the direction perpendicular to the incident direction. Also in the vent hole of FIG. 11, the width of the vent hole is gradually reduced at both ends where the ultraviolet rays enter, so that the ultraviolet rays can be efficiently taken into the light guide 10.

[0037]

As described above, in the organic substance decomposing unit of the present invention, since the photocatalytic filter is provided with the light guide for uniformly irradiating the ultraviolet rays, it is possible to use the ultraviolet rays from the ultraviolet light source with high efficiency. And excellent organic substance decomposition efficiency can be obtained. Moreover, since the light guide body is provided with the ventilation hole for passing air, the light guide body can be installed at right angles to the flow direction of the air, and can be compactly incorporated in the air circulation type device.

Further, if the light guide body is formed in a plate shape and the light scattering means and the reflection member are formed on the light guide body, the ultraviolet rays can be used more efficiently, so that the decomposition efficiency of organic substances is further increased and the apparatus is compact. An air circulation type device can be obtained.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of an organic substance decomposing unit according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line P-P in FIG.

FIG. 3 is an exploded perspective view of an organic substance decomposing unit according to another embodiment of the present invention.

FIG. 4 is a sectional view taken along the line QQ in FIG.

FIG. 5 is an exploded perspective view of an organic substance decomposing unit according to another embodiment of the present invention.

6 is a sectional view taken along the line RR in FIG.

FIG. 7 is an exploded perspective view showing an example of a conventional organic substance decomposing unit.

FIG. 8 is an exploded perspective view showing an example of a conventional organic substance decomposing unit.

FIG. 9 is a plan view showing the shapes of vent holes provided in the light guide and the reflection plate.

FIG. 10 is a plan view showing another shape of vent holes provided in the light guide and the reflection plate.

FIG. 11 is a plan view showing another shape of vent holes provided in the light guide and the reflection plate.

[Explanation of symbols]

1,31,51 Organic matter decomposition unit 15 Photocatalytic filter 10 Light guide 11 Light scattering groove 12 UV light source 20,33 Vent 32 reflector

─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) B01D 53/86

Claims (8)

(57) [Claims] 1. An ultraviolet-transmissive light guide provided with a ventilation hole for passing air, an ultraviolet light source for making ultraviolet light incident on the light guide, and a ventilation provided adjacent to the light guide. Equipped with a photocatalyst filter that holds the photocatalyst on the base material of
Scatter the ultraviolet light on at least a part of the light guide.
An organic matter decomposing unit, which is provided with a light scattering means for 2. The organic substance decomposing unit according to claim 1 , wherein a reflecting member is provided in a portion of the light guide that is not adjacent to the photocatalytic filter. 3. A plate-shaped ultraviolet light transmissive light guide provided with a vent for passing air, an ultraviolet light source arranged on a side surface of the light guide, and one surface of the light guide. A photocatalytic filter having a photocatalyst held on an air-permeable base material provided adjacently, and a reflecting member provided on the other surface of the light guide, and the ultraviolet light on the other surface of the light guide. Scatter
An organic matter decomposing unit, which is provided with a light scattering means for 4. A plate-shaped ultraviolet light transmissive light guide provided with a vent for passing air, an ultraviolet light source arranged on a side surface of the light guide, and adjacent to both surfaces of the light guide. And a photocatalytic filter in which a photocatalyst is held on a breathable substrate provided on at least one surface of the light guide,
Light scattering means for scattering
Organic matter decomposition unit that. 5. The aperture ratio of the ventilation hole in the light guide is 3
The organic substance decomposition unit according to any one of claims 1 to 4 , which is 0 to 70%. 6. The shape of the vent hole in the light guide is such that a length in a direction along an incident direction of ultraviolet rays from the ultraviolet light source is larger than a length in a direction perpendicular to the incident direction. The organic substance decomposing unit according to claim 5, comprising: 7. The said light reflecting member vent is provided for passing air, according to claim 2 or 3 aperture ratio of the vent port is 30 to 70% of the area of the light guide Organic matter decomposition unit. 8. The ventilation hole in the light reflecting member,
8. The organic substance according to claim 7 , wherein a length in a direction along an incident direction of ultraviolet rays from the ultraviolet light source has a shape larger than a length in a direction perpendicular to the incident direction. Disassembly unit.