KR200375243Y1 - Lamp structure for deordorization and sterilization - Google Patents

Abstract

The light source structure having the deodorant antibacterial function increases the roughening of the surface of the photocatalyst, the lamp body is provided with roughness roughness, and the photocatalyst adhesive film is laid on the roughness roughness, and the thickness of the photocatalyst adhesive film is also increased. In order to make the photocatalyst smaller than the roughness of the rough surface, the photocatalyst adhesive film is reliably adhered along the rough surface of the uneven surface to increase the surface area of the lamp body, and at the same time, the surface area of the photocatalyst adhesive film and the working area where external air acts. To increase.

Description

Light source structure with deodorant antibacterial function {Lamp structure for deordorization and sterilization}

The present invention relates to a light source structure having a deodorizing antibacterial function, and more particularly, to a photocatalyst adhesive film laid on a transmitted light body structure having a large uneven rough surface.

1 and 2, the photocatalyst 20a is applied to the outer surface of the conventional lamp 10a, where the outer surface of the lamp body 11a of the lamp 10a is a smooth surface and the lamp The photocatalyst 20a is applied to the outer surface of the sieve 11a, and the light emitted from the lamp 10a is irradiated onto the photocatalyst 20a to generate a photocatalytic reaction on the photocatalyst 20a, and in air By decomposing organic substances and some inorganic substances of the deodorizing antibacterial function will be provided. However, when harmful substances in the air adhere to the photocatalyst on the outer surface of the lamp body of the lamp, organic substances in the harmful substances are decomposed by the reaction of the photocatalyst, so that air convection is accelerated, and the limited outer surface area of the photocatalyst is excessive. Since the air passing through the lamp having this photocatalyst is also not enough to decompose harmful substances, it also cannot collect and decompose more effectively as it contains many harmful substances, and FIG. 2A shows a photocatalyst on the surface of the lamp 10a. It is a 3000 times magnification without applying the ash 20a, and FIG. 2B is a 1000 times magnification with the photocatalyst 20a applied to the surface of the lamp 10a. Referring to FIGS. 2A and 2B, the lamp 10a The surface before and after applying the photocatalyst 20a to the surface of the s) is completely planar.

In addition, referring to the Republic of China Patent No. 562235, the air-cleaning lighting lamp is an adhesive paste is bonded to the inner surface of the lamp body, and the visible light fluorescent powder and ultraviolet light fluorescent powder is mixed and installed in the adhesive paste, In addition, since the photocatalyst adhesive film is installed on the outer surface of the transparent housing, the photocatalyst is excited by the ultraviolet light fluorescent powder to emit ultraviolet light, and is further emitted from the lamp and irradiated onto the photocatalyst adhesive film on the outer surface of the lamp body. The re-bonding film enhances the decomposition of harmful substances in the air.

However, the lamp deodorizing antibacterial device having the conventional photocatalyst described above also has the following drawbacks.

When harmful substances in the air adhere to the photocatalyst on the outer surface of the lamp body of the lamp, air convection is accelerated because organic substances in the harmful substances are decomposed by the photocatalytic reaction, and the limited external surface area of the photocatalyst is excessively harmful in the air. Since the lamp surface before and after the photocatalyst is applied to the lamp surface and the surface of the photocatalyst are both flat, the surface of the photocatalyst after application of the photocatalyst does not increase. Passed air also contains many harmful substances and thus cannot be effectively captured and decomposed.

Accordingly, the present inventors have devised the present invention which is devoted to observing or researching on the basis of these defects and experiences in product production over a long period of time, and formulated an application for academic use, to rationalize the design and effectively improve the defects.

One object of the present invention is to provide a light source structure having a deodorizing antibacterial function of increasing the surface area of the lamp body by increasing the surface area of the lamp body to increase the surface area of the photocatalyst adhesive film attached thereto.

According to the object of the present invention, the present invention comprises a lamp body having an outer rough surface with irregularities and at least one photocatalyst adhesive film, the thickness of the photocatalyst adhesive film is smaller than the roughness of the rough surface, and the photocatalyst adhesive film is It is installed on the outer rough surface of the unevenness. As such, when the surface area of the photocatalyst adhesive film is increased, the deodorizing antibacterial treatment ability is also increased.

In order to understand the features and technical details of the present invention, reference may be made to the following detailed description of the invention and the accompanying drawings, which are provided for reference and description, and are not intended to limit the invention.

3 and 4, the present invention includes a lamp body 11 having a rough surface with irregularities and a photocatalyst adhesive film 20, the photocatalyst adhesive film 20 is disposed on the uneven rough surface, Since the thickness of the photocatalyst adhesive film 20 is smaller than the roughness of the rough surface, increasing the surface area of the lamp body 11 increases the reaction area in which the photocatalyst adhesive film 20 and air act.

3 and 5, the rough surface of the uneven surface of the lamp body 11 is processed once or a plurality of times by a chemical or physical method, among which the chemical method is, for example, cyanide fluoride etching and the like. By the washing | cleaning processing method etc., it processes to the outer rough surface with an unevenness | corrugation by the action of a chemical reaction substance and the lamp body 11. In the physical processing, the outer surface area of the lamp body 11 is increased because the outer surface of the lamp body 11 is processed into an uneven rough surface through external force processing such as, for example, a blasting method and a polishing process method. 4A and 5, the pitch between the convex portions of the rough surface is uneven, and since the thickness of the photocatalyst adhesive film 20 is 0.05 to 0.2 μm, the photocatalytic adhesive film 20 is rough surface of unevenness. It is installed along the wave shape thereon, and the convex portion of the rough surface which is uneven can be formed into a sharp convex portion or an arc-shaped convex portion. In addition, the lamp body 11 can project light in a transparent type, and further, the light passes through the photocatalyst adhesive film 20 again. Thus, the effect of lowering glossiness and grains is obtained.

The photocatalyst is deposited on the rough surface of the unevenness of the lamp body 11 through one of radiation plating, deep plating, spray plating, shower plating, and plating, and furthermore, baked and cured Since the photocatalyst adhesive film 20 is formed on the roughness of the concavities and convexities of (11), the photocatalyst adhesive film 20 is undulated along the rough surface, which is concave and convex, and thus the photocatalyst adhesive film 20 and the external atmosphere If the area in which air is in contact increases, and the area in which the photocatalytic adhesive film 20 generates a catalytic reaction increases, the material decomposition ability increases. Further, the photocatalyst material of the photocatalyst adhesive film 20 is selected from at least one of TiO ₂ , SnO ₂ , WO ₃ , Fe ₂ O ₃ , SrTiO _3, and ZnO, and the photocatalyst adhesive film 20 is a catalyst material, for example, For example, precious metals or transient metal salts are included, and the precious metals include Au, Pt, Pd, Ag, and transient metal salts include Mo, Ce, Nb, V, and Cr. Thus, by adding at least one catalyst, Increase functional function.

6 and 7, the lamp body 11 is a rectangular lamp body, a ring lamp body, a spiral lamp body, a cold cursor lamp body, a U-shaped lamp body, and the photocatalyst adhesive film 20 is installed on the lamp body. When applied, it is applied to the upper half of the elongated lamp body 11 as shown in FIG. 8, or is applied on the lamp body 11 in a ring shape with an elongated and interposed as shown in FIG. In addition, referring to FIG. 10, a transparent cover 30 adjacent to the lamp body 11 and having an uneven rough surface may be further included. At least one photocatalyst adhesive film 20 may have an uneven rough surface of the transmissive cover 30. To be installed on. The penetrating plate cover 30 is a penetrating plate cover or a ring-shaped penetrating plate cover (as shown in FIG. 11), is disposed in a ring shape on the outside of the lamp body 11, see FIGS. 11A to 11F. The cross section of the lower surface ring-shaped penetrating plate cover 30 is formed in a circular or rectangular shape, the rough surface of the uneven surface is formed on the inner surface or the outer surface thereof, or the rough surface of the uneven surface is formed on the inner surface and the outer surface of the ring-shaped transparent cover, The photocatalyst adhesive film 20 is undulated thereon along the rough surface of the unevenness, and the thickness of the photocatalyst adhesive film 20 is smaller than the roughness of the rough surface.

In addition, the light source structure having the deodorizing antibacterial function can be applied to a lamp as shown in FIG. 12 or to an air cleaner as shown in FIG. 13, and also to a storage device as shown in FIG. 14, and also to a stand lamp as shown in FIG. The structure can be used, or can be used as a backlight module as shown in FIG. 16, and can also be used in a heater as shown in FIG.

FIG. 18 is an enlarged view of the surface after roughening the surface of the lamp body 11, and FIG. 19 is an enlarged view of the surface after the photocatalyst adhesive film 20 is applied to the surface of the lamp body 11. Referring to 19, since the uneven surface is visible on the surface of the lamp body 11 after rough processing, the surface area is increased than before the unprocessed, and the photocatalyst adhesive film 20 is coated on the uneven surface of the surface of the lamp body 11. After that, the surface is larger than the surface of the conventional lamp body 11 is not processed.

Referring to FIG. 20, the 8W lamp body 11 having a rough surface and the 8W lamp body 11 having another smooth plane emit light of 365 nm and the photocatalyst adhesive film 20 on the surface of the lamp body 11. ), Catalytic decomposition of CH ₃ COOC ₄ H ₉ / 4L was carried out, and it was found that a good effect was obtained in the roughened lamp body (11). 21, the lamp body 11 which emits light of 543 nm is shown, and it turned out that the favorable effect is obtained in the lamp body 11 with a rough surface.

As described above, the light source structure having the deodorizing antibacterial function of the present invention can increase the surface area of the lamp body, so that the surface area of the photocatalyst adhesive film adhered to the surface of the lamp body is in contact with air in the atmosphere, and the photocatalyst adhesive film The working area of is raised, so that the amount of photocatalytic treatment material is increased.

What has been described above is not merely a preferred embodiment of the present invention, but is not intended to limit the claims of the present invention, equivalent structural changes made by operating the contents shown in the description and drawings of the present invention is Clearly included within the scope.

1 is a perspective view of a lamp of the prior art,

FIG. 2 is an enlarged view of a lamp of the prior art, and FIG. 2A is a 3000 times enlarged view without applying the photocatalyst on the surface of the lamp of the prior art, and FIG. 2B is a photocatalyst applied to the surface of the lamp of the prior art. One thousand times magnification,

3 is a perspective view of a light source body of the present invention;

4 is a cross-sectional view of the light source body of the present invention, and FIG. 4A is a partially enlarged view of FIG. 4;

5 is an enlarged partial view of another embodiment of FIG. 4A;

Figure 6 is an embodiment of the application of the ring-shaped lamp of the present invention,

7 is an embodiment of the application of the U-shaped lamp of the present invention,

8 is a schematic view of applying the photocatalyst adhesive paste of the present invention to the upper half of the light source body;

9 is a schematic view of the photocatalyst adhesive paste of the present invention applied to the upper half of the light source body with a long, thin, and interposed therebetween,

10 is a combination of the light source body and the transmission panel cover of the present invention,

FIG. 11 is a view showing a combination of a light source body and a ring-shaped transmission plate cover of the present invention, and FIGS. 11A to 11F are views of a ring-shaped and a rectangular transmission cover.

12 is a schematic view of applying the present invention to a lamp,

Figure 13 is a schematic diagram applying the present invention to an air purifier,

14 is a schematic view of applying the present invention to a storage mechanism,

15 is a schematic view of applying the present invention to a stand lamp,

16 is a schematic view of applying the present invention to a backlight module,

17 is a schematic diagram applying the present invention to a heater,

18 is an enlarged view 1000 times of the surface after roughening the surface of the lamp body of the present invention,

19 is an enlarged view 1000 times of the surface after applying the photocatalyst adhesive film to the surface of the lamp body of the present invention,

20 is a photocatalyst adhesive film is applied to the surface of the transmissive structure body with the rough surface and the transparent structure body of the present invention, the light is emitted at 365nm and irradiated to the photocatalyst adhesive film CH ₃ COOC ₄ H ₉ / Comparative diagram for carrying out catalytic cracking for 4L,

21 is a photocatalyst adhesive film is applied to the surface of the translucent structure body having a rough surface and the transparent structure body having a smooth surface of the present invention, and light is emitted at 543 nm and irradiated onto the photocatalyst adhesive film to produce CH ₃ COOC ₄ H ₉ / A comparative diagram carrying out catalytic cracking for 4L.

Explanation of symbols for main parts of drawings *

10a: lamp 11a: lamp body

20a: photocatalyst 11: lamp body

20: photocatalyst adhesive film 30: transmission cover

Claims (15)

And a lamp body having an uneven outer rough surface, and at least one photocatalyst adhesive film whose thickness of the photocatalyst adhesive film is smaller than the roughness of the rough surface, and the photocatalyst adhesive film is disposed on the outer rough surface of the unevenness. Light source structure with deodorant antibacterial function. The method of claim 1, At least one photocatalyst of the photocatalyst adhesive film is a light source structure having a deodorizing antibacterial function, characterized in that at least one selected from TiO ₂ , SnO ₂ , WO ₃ , Fe ₂ O ₃ , SrTiO ₃ and ZnO. The method of claim 1, At least one photocatalyst adhesive film is a light source structure having a deodorant antibacterial function, characterized in that it further comprises at least one catalyst material of the precious metal and the transient metal salt. The method of claim 1, At least one photocatalyst contact film is a light source structure having a deodorizing antibacterial function, characterized in that at least one selected from Au, Pt, Pd, Ag, Mo, Ce, Nb, V and Cr. The method of claim 1, At least one photocatalyst contact film is a light source structure having a deodorizing antibacterial function, characterized in that applied to the partial outer surface of the lamp body. The method of claim 1, At least one photocatalyst contact film is thin and long, and a light source structure having a deodorant antibacterial function, characterized in that the ring-shaped installation in the lamp body interposed therebetween. The method of claim 1, And a transmissive cover adjacent to the lamp body and having an uneven rough surface, wherein at least one photocatalyst contact film is disposed on the rough surface of the uneven surface of the transmissive cover. 8. The light source structure having a deodorizing antibacterial function according to claim 7, wherein the transparent cover has an outer rough surface of irregularities. The method of claim 7, wherein The transparent cover has a deodorant antibacterial function, characterized in that it has an inner rough surface of irregularities. The method of claim 7, wherein The transparent cover has a deodorant antibacterial function, characterized in that the outer and inner rough surface of the unevenness. The method of claim 7, wherein The transparent cover is a light source structure having a deodorizing antibacterial function, characterized in that the transmission cover. The method of claim 7, wherein The transparent cover is a ring-shaped transparent cover, characterized in that the light source structure having a deodorizing antibacterial function. The method of claim 1, The convex part of the rough surface which is unevenness | corrugation is a sharp convex part, The light source structure which has the deodorizing antibacterial function characterized by the above-mentioned. The method of claim 1, The convex part of the rough surface which is an unevenness | corrugation is an arc-shaped convex part, The light source structure which has the deodorizing antibacterial function characterized by the above-mentioned. The method of claim 1, The pitch between the convex portions of the roughened surface is 0.5 to 10 µm, the light source structure having a deodorizing antibacterial function.