KR101335070B1 - Purifying apparatus using cylindrical net - Google Patents

Abstract

The present invention relates to a net complex photocatalyst purification apparatus. The purification media reacting with the light has a cylindrical mesh and screw shape surrounding the lamp, and the combination of the mesh and screw constitutes a purification device, thereby increasing the photochemical reaction area and preventing the flow of fluid to be purified. The present invention relates to a mesh type photocatalyst purification apparatus which maximizes the purification efficiency by increasing the circulation speed of a fluid.

According to the invention, the inlet and the outlet is formed; A lamp capable of photochemical reaction inserted into the case; In the purifying device comprising a; purifying media installed in the inner space of the case, the media is characterized in that the net mesh composite photocatalyst purification apparatus, characterized in that the cylindrical media wrapped around the lamp.

Purifier, Photocatalyst, Media, Mesh, Screw

Description

Purifying apparatus using cylindrical net

The present invention relates to a net complex photocatalyst purification apparatus. The purification media reacting with the light has a cylindrical mesh and screw shape surrounding the lamp, and the combination of the mesh and screw constitutes a purification device, thereby increasing the photochemical reaction area and preventing the flow of fluid to be purified. The present invention relates to a mesh type photocatalyst purification apparatus which maximizes the purification efficiency by increasing the circulation speed of a fluid.

The purifying apparatus performs a photochemical reaction on the photocatalyst with a media coated with a photocatalytic material to effectively remove bacteria, volatile organic compounds (VOCs), and odors contained in a liquid such as water or a gas such as air. It is composed by installing a lamp that causes.

In the above purification apparatus, the configuration may be provided in multiple stages so as to effectively perform the operation. In this multi-stage purification device, a plurality of UV lamps or ozone lamps, which are independent of wavelengths, are inserted into a case, and the cases are connected in series or in parallel. In each case, a screw-type media is mainly used, and the media is coated with a photocatalytic material.

As described above, the multi-stage purification device uses a plurality of photocatalytic lamps having different wavelengths, and the media uses a coating of a photocatalytic material.

In the conventional structure, a filter in which the media is screwed or filled with a case is used.

Media such as the direct contact with the fluid to cause a photochemical reaction is formed by a screw, a filter, etc., which has a side effect of preventing the smooth flow of the fluid. Therefore, if the flow is not fast, there is a problem that the circulation of the fluid to be purified is slowed down and thus the speed and efficiency of the purification are lowered.

When the purifying capacity of the conventional purifier using a screw is measured, a rapid purifying efficiency, i.e., a rapid purifying effect of contaminants appears at the beginning of the purifying process, but the level of purging proceeds unchanged from the point where 10 minutes have elapsed. And although there is a rapid initial effect of pollution treatment, there is a problem that a lot of remaining pollutants remain.

This problem is caused by the media such as the screw acts as a flow resistance to reduce the circulating speed of the fluid, and is caused by the flow of the flow is not purified along the screw surface.

Therefore, an object of the present invention is to provide an apparatus for maximizing the purification efficiency by increasing the circulation rate of the fluid by increasing the contact area with the fluid while reducing the flow resistance of the fluid.

In order to achieve the above object, the present invention is configured to form a mesh-like media through which the fluid can flow freely in a cylindrical shape in order to reduce the flow resistance of the fluid, and installed around the lamp, so that all surfaces of the thin thread of the mesh As the fluid contacts, the flow is smooth, thereby providing a device having increased purification efficiency. As described above, only the network media or a combination of the network media and the screw media can be used to complement each other, or the network media and the screw media can be installed in multiple layers in order to form a large-capacity purification device. It provides a device to make it.

As described above, the present invention uses a media in the form of a net which reduces the flow resistance of the fluid, so that photochemical reaction occurs at all surface areas of the yarn forming the net, and the flow resistance of the fluid to be purified is small due to the characteristics of the net. This becomes very fast. Therefore, a certain amount of fluid can be purified in a short time, and the ability to remove harmful substances is improved.

In addition, by using only the screw media and the network media together, it is possible to overcome the problems of the conventional screw media.

When the purifying capacity of the purifying apparatus of the present invention using the network media is measured, the purifying capacity does not show a rapid purifying efficiency at the beginning of the purifying process, but the purifying capacity is greater than that of the conventional pollutant removal level from the point of 10 minutes.

In addition, the present invention can be installed by alternating a plurality of screw media and a plurality of network media, it is possible to purify a large amount of fluid in a short time, can overcome the limitations of the processing capacity of the purification device using a photocatalyst, shipyard, It has the advantage of treating harmful air directly in the field of large manufacturing industry such as automobile production line and semiconductor production line.

The net composite photocatalyst purification apparatus of the present invention connects the embodiment including one mesh media 5 as shown in FIG. 1 and the embodiment of FIG. 1 as one mesh media 5 as shown in FIG. 4. And an embodiment in which a plurality of mesh media 5 are installed in one large case 3, an embodiment using a screw media 9 and a mesh media 5 as shown in FIG. As shown in Figure 9 can be carried out in various ways as in the embodiment using a plurality of screw media (9) mesh net media (5).

In all embodiments the mesh media 5 is necessarily used, but in the embodiment as in FIG. 1 the screw media 9 is not used. However, since the operation of the lamp 4 and the media in the purification device are performed together, even when only the network media 5 is used, the present invention will be referred to as a hybrid photocatalyst purification device.

The basic embodiment as shown in FIG. 1 includes a case 3 in which an inlet 1 and an outlet 2 are formed; A lamp (4) capable of photochemical reaction inserted into the case (3); And a media installed in the inner space of the case 3, wherein the media is a cylindrical network media 5 wrapped around the lamp 4.

In addition to the basic implementation as described above, the inlet 1 and the outlet 2 of the case 3 may be connected to another case 3 as shown in FIG. 4, and one large as shown in FIG. 5A. It is also possible to configure a plurality of lamps 4 and a mesh media 5 surrounding each lamp 4 in the case 3. FIG. 5B is a cross-sectional view of the portion “B-B” of FIG. 5A.

In the case of a single device purifying device, a fan 6 may be installed in one case 3, and a single fan 6 is installed in the entire large case 3 in the purifying device as a collection of many. May be

In addition, the plurality of cases 3 may be connected in series or in parallel. In the case where multiple dogs are connected in series or in parallel, the outlet 2 of one case 3 may be the inlet 1 of the other case 3 connected thereto.

In the above case, in the case of the lamp 4 installed in the plurality of cases 3 or the plurality of lamps 4 installed in one large case 3, an ultraviolet lamp having a different wavelength is inserted or Various UV lamps and visible light lamps are inserted, UV lamps with different wavelengths and ozone lamps are inserted, UV lamps with different wavelengths and visible light lamps and ozone lamps are inserted. It may have a structure to.

The lamp 4 used may be any lamp capable of photochemical reaction, and may be various, such as an ozone lamp, a UV-C lamp, or a UV-A lamp. Therefore, while the fluid passes through the case 3, the purification or sterilization is performed by the lamp 4 capable of photochemical reaction.

Generally, ultraviolet rays are classified into UV-A (315-400 nm), UV-B (280-315 nm) and UV-C (200-280 nm) by wavelength, do. Therefore, when a plurality of lamps 4 are connected in series or in parallel, UV lamps in the UV-A (315-400 nm) area, UV lamps in the UV-B (280-315 nm) area and UV- Ultraviolet lamps in the region C (200 ~ 280nm) can be installed sequentially. Of course, they can be installed in any order, and the ozone lamp can be installed between the first stage or the ultraviolet lamp.

When the lamp is installed according to the area of ultraviolet rays as described above, the lamp can be subdivided into areas that are good for sterilization, good for deodorization, good for VOC decomposition, etc. for each UV area, and the effect is also increased. When the ultraviolet lamp 4 is provided for each wavelength band, characteristic purification or sterilization by wavelength is performed, and when a visible light lamp or an ozone lamp is installed, it is also purified by each of them. That is, the structure using the connection including a plurality of cases (3) to increase the efficacy by distinguishing each function and the reaction effect.

When using a variety of lamps capable of such a photochemical reaction at the same time, it is possible to purify only by the lamps 4 without the mesh media 5 coated with a photocatalytic material.

It is a feature of the present invention to use a cylindrical mesh media 5. The mesh media 5 may have various vertical cross sections in the longitudinal direction, as shown in FIG. 2. The media media 5 may be stably installed at the center of the casing 3. In order to prevent contact with (4), a plurality of supporters 7 may be provided in contact with both ends on the outer surface of the mesh media 5 and the inner surface of the case 3.

The mesh size of the mesh media 5 does not interfere with the flow of the fluid, and may be designed to a suitable size to maximize the photochemical reaction.

Such a network media (5) is coated with a photocatalyst to increase the contact area where the photochemical reaction with the fluid occurs. That is, since the mesh media 5 of the present invention have a form of a mesh made of a woven thin thread of metal or nonferrous metal, as shown in FIG. 3, a very long thread is required. And because the structure is woven in the form of a mesh, all the threads are exposed to the outside surface, the entire surface area can be in contact with the fluid.

And because of the mesh structure, even contact with all fluids is possible without disturbing the flow of the fluid. Therefore, the photochemical reaction of the light emitted by the lamp 4 and the mesh media 5 of the mesh occurs on the surface of all the mesh media 5, and the fluid comes into contact with all surfaces of the mesh media 5 to the photochemical reaction. Purification efficiency is maximized.

Of course, when the tube 8 coated with the photocatalyst is inserted into the inner surface of the case 3, which is the outside of the mesh media 5, or the tube 9 reflecting light is inserted to reflect the light of the lamp 4. The effect can be greater. In the case of using a plurality of lamps 4, the efficiency of purification can be further increased by different types of lamps and wavelengths of the lamps. In other words, the ability to deodorize, decompose, disinfect and disinfect organic substances differs depending on the wavelength of ultraviolet light or visible light, so that the main effects of water, air purification, water purification, purification and sterilization can be simultaneously achieved by connecting different functions. Will be.

As described above, the present invention uses a cylindrical catalyst media (5) coated with a photocatalyst, and contaminated water or air passing through the case (3) by a photochemical reaction occurs with the light of the lamp (4) irradiating ultraviolet rays or visible light. The effect of purifying, deodorizing, sterilizing, and the like will be more greatly achieved.

Durability may not be good due to problems such as the mesh media 5 in contact with the case 3 during use, but the present invention serves to maintain the correct position by installing the supporter 7. In addition, the supporter 7 forms a space between the network media 5 and the inner surface of the case 3 to improve the flow of the fluid, and also facilitates contact with the fluid on the surface of the network media 5. Done.

When the cylindrical mesh media (5) of the present invention are used, there is no rapid purification effect in a short time, but to maintain a low level of pollution by purifying most of the harmful substances over a certain time. That is, in the case of Figure 6 (a) as a test result of the conventional purification device using a screw-shaped media, there is an initial rapid reduction of harmful substances but does not fall below a certain level. However, the present invention gradually decreases until the same time as the conventional time passes as shown in FIG. This effect is achieved by the mesh media 5 in the structure of the mesh.

It will also have the advantages of the screw-type media as described above, another embodiment of the present invention can be implemented as a combined purification device using a screw media (9) and the network media (5). Therefore, it can manufacture in large size, and can acquire the initial abrupt purification | purification action of the screw median 9 and the complete purification | purification effect | action of the net | membrane media 5 simultaneously, and it can implement in large capacity.

A basic embodiment when the screw media 9 and the mesh media 5 are used together is shown in FIG. 7. That is, the screw media 9 is installed outside the lamp 4, and the mesh media 5 are installed outside the screw media 9. In addition, a plurality of supporters 7 are installed on the outside of the network media 5 to maintain a predetermined space with the tube 8 or the case 3. The tube 8 may be installed throughout the invention and may not be installed. It is configured in this manner and the rest of the configuration is the same as that described above.

Therefore, when the fluid enters by the fan 6, it moves through the mesh media 5 and rotates along the path formed by the screw media 9. At this time, the fluid flows along the screw media (9), and part of the fluid flows out of the screw media (9) by the centrifugal force and passes through the network media (5). Purification occurs by photochemical action as it flows along the path of the screw media (9) or along the surface of the network media (5) through (5).

As such, when the screw media 9 and the network media 5 are used together, the effects of the network media 5 and the screw media 9 described in the foregoing embodiments can be simultaneously achieved.

And the present invention, as shown in Figure 9, by alternately installing a plurality of screw media (9) and the network media (5), it is possible to increase the purification device. That is, even if the size of the lamp 4 is limited, since there is a space passing through the screw media 9 and the network media 5, light can reach the inner wall of the case 3 even if the case is large, Due to this, the photochemical action with the tube 8 is also possible, and the photochemical action occurs in all screw media 9 and the network media 5.

In the case of FIG. 9, when a fluid flows in, it passes through a plurality of network media 5 and is inserted between an inner network media 5 and an external network media 5 through a path formed by an inner screw media 9. It flows along the path formed by the screw media 9. In addition, part of the fluid is rotated during the flow to photochemical action in contact with at least one of the network media (5) located on the outside by the centrifugal force and the screw media (9) and the tube (8) on the outside. .

In the case of FIG. 9, two screw media 9 and a network media 5 were used, respectively, but the structure of the purification apparatus was further extended by using three or more screw media 9 and the network media 5. It can be configured, and this makes it possible to manufacture even a large-capacity purification device.

1 is a cross-sectional view showing the structure of the present invention

FIG. 2 is a sectional view taken along the line “A-A” of FIG. 1.

3 is a perspective view of a media having a mesh form

4 is an exemplary embodiment in which a plurality of cases are connected and configured

5 is an exemplary embodiment in which a plurality of lamps and media are installed in one case;

6 is a performance comparison chart of the conventional and the present invention

7 is a cross-sectional view of an embodiment where screw media and cylindrical media are used.

FIG. 8 is a cross-sectional view of the portion “C-C” of FIG. 7.

9 is a cross-sectional view of an embodiment in which multiple screw media and cylindrical media are used.

FIG. 10 is a sectional view taken along the line “D-D” of FIG. 9; FIG.

[Description of Drawings]

1: entrance 2: exit

3: case 4: lamp

5: network Medea 6: the fan

7: supporter 8: tube

9: screw media

Claims (3)

delete A case 3 having an inlet 1 and an outlet 2 formed therein, a lamp 4 capable of a photochemical reaction inserted into the case 3, and a lamp 4 in an inner space of the case 3 A purifying apparatus consisting of a cylindrical mesh media (5) installed to enclose, wherein the cylindrical mesh media (5) are installed at a distance from the inner side of the case (3); A screw media 9 is installed between the lamp 4 and the mesh media 5, wherein the inner spiral end of the screw media 9 contacts the surface of the lamp 4 and the outer spiral end is mesh media 5. Mesh contact type photocatalyst purification apparatus, characterized in that the contact with the inner surface. delete

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