KR100505079B1 - Ultraviolet sterilizer with improved reflectance in water channel - Google Patents

Abstract

The present invention relates to a UV sterilization apparatus of a channel with improved reflectivity, and more specifically, before the discharge of the treated water purified through a biochemical treatment of a sewage treatment plant and a predetermined filtration process into a stream, In the ultraviolet sterilization apparatus of a channel for removing harmful bacteria by providing a plurality of ultraviolet lamps arranged at predetermined intervals in the right / right direction and irradiating the treated water with ultraviolet rays emitted from the lamps, a cylindrical cylinder between the ultraviolet lamps. By installing the reflector of the non-sterile area that is not irradiated with ultraviolet rays, and at the same time by washing the organic film accumulated on the outer surface of the reflector intermittently by the wiper installed in the form of a ring along the outer circumference of the reflector, the reflector is ultrasonic Connected to the generator to generate ultrasonic waves, causing mechanical stirring The organic material is deposited on the transfer member to the ever avoid multiple coating.

Description

ULTRAVIOLET STERILIZER WITH IMPROVED REFLECTANCE IN WATER CHANNEL}

According to the present invention, a plurality of rays are emitted from an ultraviolet lamp arranged at predetermined intervals in up / down / left / right directions in a waterway before discharge of the treated water purified through a biochemical process and a predetermined filtration process in a sewage treatment plant. In the ultraviolet sterilization apparatus of a channel for removing harmful bacteria by irradiating ultraviolet light to sewage, a wiper is installed in the form of a ring along the outer circumference of the reflector while removing the non-sterile area by installing a cylindrical reflector between the ultraviolet lamps. By intermittently washing the organic film accumulated on the outer surface of the reflector, and the reflector is connected to the ultrasonic generator, the ultrasonic wave is generated on the surface of the organic material to cause mechanical stirring action such as cavitation phenomenon and interface disturbance phenomenon It is to prevent the film from being formed.

Conventionally, a plurality of ultraviolet sterilizers installed in the channel of the sewage treatment plant are installed horizontally or vertically with respect to the flow direction of the water channel at predetermined intervals in the up / down / left / right directions to the treated water passing around the ultraviolet lamp. By irradiating ultraviolet rays, it is used to sterilize and remove harmful microorganisms remaining in the treated water.

However, the treated water flowing in the ultraviolet irradiation region contains microorganisms and suspended solids in addition to harmful microorganisms, and these can not be treated even by ultraviolet rays, so they adhere to the surface of the ultraviolet lamp to form an organic film or float around the ultraviolet lamp. Therefore, there is a problem of narrowing the range of the ultraviolet radiation region.

In other words, when turbidity increases due to suspended substances in the treated water, ultraviolet rays emitted from the lamps are not irradiated far, and organic matter is deposited on the surface of the ultraviolet lamps to form a film, thereby significantly reducing ultraviolet radiation of the ultraviolet lamps. There was a problem that the reduction is not enough to sterilize microorganisms.

As a conventional solution to solve this problem, it has been proposed to install a ring-shaped wiper surrounding the outer circumference of the ultraviolet lamp, and to wash the surface of the lamp while the wiper is transported in the longitudinal direction along the outer circumference of the ultraviolet lamp. Patent registration No. 0453740 is mentioned.

However, the wiper structure conveyed along the outer circumference of the lamp is limited only to the effect of preventing the organic film from being formed on the surface of the lamp by intermittently washing the surface of the lamp, and the UV transmittance to the treated water increases as the turbidity of the treated water increases. This reduction has a problem that cannot be solved.

That is, as shown in Fig. 5 showing a conceptual diagram showing the ultraviolet radiation region, when referring to the ultraviolet irradiation region of each of the plurality of ultraviolet lamps installed at a predetermined interval in the up / down / left / right direction, it is possible to emit a cylindrical ultraviolet lamp Non-sterile areas that are not irradiated with ultraviolet rays, such as areas outside the area (marked with hatched areas), are generated. The higher the turbidity of the treated water, the larger the area becomes.

In order to solve this problem, a method of forming a reflector whose surface is mirror-processed between the lamp and the lamp has been devised to reach the ultraviolet light emitted from the ultraviolet lamp to the non-sterile area, for example, Republic of Korea Utility Model Registration No. 0295112 Can be mentioned.

However, the present invention has the effect of removing the non-sterilized area not irradiated with ultraviolet rays by the mirror-treated reflector, the organic material contained in the treated water is not accumulated only on the surface of the ultraviolet lamp, but also on the surface of the reflector The cumulative fact is overlooked.

Therefore, the present invention has a problem that the life of the reflector is significantly shorter since the organic film is formed on the surface of the reflector shortly after installation and thus cannot serve as a reflector.

Accordingly, the present invention was created in order to solve the above problems, the present invention is a UV sterilization apparatus for sterilizing the treated water by the ultraviolet lamp installed in the channel of the sewage treatment plant, the ratio that is not irradiated with ultraviolet rays It is an object of the present invention to provide a UV sterilizing apparatus for a channel having an improved reflectance by providing a reflector for removing a sterilization region, and by allowing the reflector to be cylindrical and automatically cleaning the surface thereof.

In addition, the present invention is connected to the ultrasonic generator and the reflector so that the organic material contained in the treated water is attached to, and deposited on the reflector so that the ultrasonic wave is generated in the reflector by connecting the ultrasonic generator and the reflector to improve the UV sterilization apparatus of the channel with improved reflectivity There is another purpose to provide.

The present invention for achieving the above object is to manufacture a reflector provided between the ultraviolet lamps to reflect the ultraviolet rays in a cylindrical shape, and to form a ring-shaped reflector wiper that can be transported in the longitudinal direction along the outer circumference of the reflector There is a characteristic.

The characteristics of the present invention is connected with the transfer device of the lamp wiper installed on the outer periphery of the ultraviolet lamp as a reflector wiper transfer means, and further includes a washing cap formed on the inner periphery of the reflector, mechanical stirring, such as cavitation phenomenon and interface disturbance phenomenon in the reflector itself It is equipped with an ultrasonic generator so that the action occurs.

BEST MODE Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view of a part of the ultraviolet sterilizing apparatus according to the embodiment of the present invention, Figure 2 is a cross-sectional view and an enlarged view of a part of the ultraviolet sterilizing apparatus according to an embodiment of the present invention, mainly the number of sewage treatment plant A part of ultraviolet lamp group installed in a furnace is disclosed.

1 and 2, the frame 10 installed to have a predetermined length horizontally with respect to the ground is provided with an auxiliary frame 11 installed so as to be perpendicular to the frame 10 at both lower ends thereof, and the auxiliary frame ( Each end of the ultraviolet lamp 30 is fitted to the lamp holder 12 provided at predetermined intervals on both sides of 11).

As shown in FIG. 2, the UV lamp 30 group configured as described above has a frame 10 and a frame 10 adjacent thereto such that all of the UV lamps 30 have a predetermined distance with respect to the up / down / left / right directions. The spacer 20 is provided between the two and the microorganisms are sterilized by irradiating the ultraviolet rays irradiated from the ultraviolet lamps with the treated water flowing in the longitudinal direction of the ultraviolet lamps.

Here, as shown in FIG. 2, a feed shaft 13 installed in the longitudinal direction of the frame 10 is provided inside the frame 10, and a lower portion of the feed shaft 13 is transferred to the feed shaft 13. The lamp holder wiper 31 is fixed to the position of the UV lamp 30 at the lowermost end, and wraps around the outer circumference of the UV lamp 30 to the left and right sides of the holder 32. Each is provided.

In this configuration, the feed table 32 is a conventional mechanical means (for example, a cylinder and piston structure controlled by hydraulic or pneumatic or a spiral screw rod and a nut engaged with it) Since the straight line can be conveyed along the feed shaft 13 by the back and the like, the surface of the ultraviolet lamp 30 is washed by the lamp wiper 31.

On the other hand, as shown in an enlarged portion of Figure 2, in order to remove the ultraviolet non-sterile area is provided with a reflector 40 between the ultraviolet lamp 30, both ends of the reflector 40 to the spacer 20 It may be fixed at a predetermined position of the guide frame 21 and / or the auxiliary frame 11 placed downward in the), it is not limited only to the illustrated example.

At this time, as a more preferable embodiment, it is preferable that the reflector 40 is made of a cylindrical tube by mirror-hardening a surface such as stainless steel or by selecting a material having a high light reflectance.

That is, as shown in FIG. 3 showing a conceptual view of the reflector of the ultraviolet sterilizer, when the reflector 40 is manufactured in a cylindrical shape, the ultraviolet light in various directions emitted from the ultraviolet lamp 30 located around the reflector 40 is reflected by the reflector 40. Since the light is reflected back in various directions corresponding to the angle reaching, ultraviolet rays may be evenly distributed around the reflector.

Referring again to FIGS. 1 and 2, since the surface of the reflector 40 also needs to be clean without the formation of an organic film, the reflectance is improved, and thus, a ring shape corresponding to the outer circumference of the reflector 40 of the present invention manufactured in a cylindrical shape is provided. The reflector wiper 41 is provided on the outer circumference of the reflector 40. The reflector wiper 41 may be installed on the connecting table 42 extending from the transfer table 32, but is not limited thereto. The reflective wiper 41 may be simultaneously linked with the lamp wiper.

In this configuration, when the conveyance table 32 is transported along the conveyance shaft for cleaning the surface of the ultraviolet lamp 30, the reflector wiper 41 is also connected to the conveyance table 32 by the connecting table 42, and thus, the lamp wiper At the same time as 31 can be interlocked, a separate transfer device for driving the reflector wiper 41 is not required.

Reference numeral 43 is a washing cap, which will be described in detail later.

Figure 4 is an enlarged perspective view of the main portion of the ultraviolet sterilizing apparatus according to another embodiment of the present invention, a more preferred embodiment for preventing the formation of a coating layer by the accumulation of organic matter contained in the treated water on the surface of the reflector 40 It is started,

That is, the ultrasonic generators 44 are mounted at both ends of the reflector 40, and the installation position of the ultrasonic generators 44 is not limited to the illustrated embodiment, and the reflector 40 is the ultrasonic generator 44. It is sufficient that the configuration to enable the generation of ultrasonic waves through).

The reflector 40 equipped with the ultrasonic generator 44 is transmitted as a small wave when the ultrasonic wave is generated at the surface and passes through the liquid. As a result, the expansion and compression of the liquid are repeated, such as cavitation and interface disturbances. It causes mechanical agitation to prevent the organic material close to the outer circumference of the reflector from adhering to the reflector 40.

Therefore, not only the speed of forming the organic film layer on the surface of the reflector can be remarkably reduced, but also the surface of the ultraviolet lamp 30 and the reflector 40 is automatically moved by moving the feed table 32 along the feed shaft 13 on a dry basis. Since the organic solvent is accumulated on the surface of the reflector 40, the coating layer may not be formed.

At this time, although the reflector 40 is fine, the ultrasonic generator 44 has a certain degree of vibration, for example, the inner circumference of the reflector wiper 41 and the outer circumference of the reflector 40 for cleaning the surface of the reflector 40. Are in close contact with each other, in this state, the fine vibration of the reflector 40 is transmitted to the reflector wiper 41, which is in turn transmitted to the lamp wiper 31 through the connecting table 42 and the conveying table 32. It may affect the surface of (30).

That is, the lamp wiper 31 causes the ultraviolet lamp 30 to continuously apply a shock caused by fine vibration, and thus the quartz tube, which is the surface of the ultraviolet lamp 30 that is relatively weak in strength, is broken or cracks are generated. Durability such as frequent replacement of the lamp 30 is significantly reduced.

Accordingly, as shown in the figure, by installing the cleaning cap 43 on the inner circumference of the reflector wiper 41, the micro vibration of the reflector 40 itself is prevented from being transmitted to the reflector wiper 41 and at the same time the flexible cleaning cap ( It is possible for 43 to clean the surface of the reflector 40.

As described above, according to the ultraviolet sterilizing apparatus of the water channel according to the present invention, the reflector for removing the non-sterile ultraviolet sterilization area (area insufficient sterilization effect due to the floating material, etc.) can be manufactured in a cylindrical shape to reflect the ultraviolet light at a wide angle. Of course, since the reflector wiper is mounted along with the ultraviolet lamp wiper to clean the reflector surface, the ultraviolet rays emitted from the ultraviolet lamp can be irradiated with sufficient ultraviolet rays over a wider area, thereby increasing sterilization efficiency.

In addition, since the ultrasonic waves are generated in the reflector itself, it is possible to prevent the formation of the coating layer of the organic material contained in the treated water or to significantly slow down the formation rate. At this time, the washing cap installed in the inner surface of the reflector wiper absorbs vibration of the reflector and can be washed at the same time. Therefore, the life of the ultraviolet lamp due to the ultrasonic vibration is not shortened.

As mentioned above, although only the preferred embodiment of the present invention has been shown and described, it is not limited thereto, and the combination of the many functions of the present invention described above, the change of the selective addition and the like, as well as the It will be understood by those skilled in the art that various modifications can be made without departing from the technical spirit provided by the claims.

1 is an overall perspective view of a part of the ultraviolet sterilizing apparatus according to the embodiment of the present invention.

2 is a cross-sectional view of the ultraviolet sterilizing apparatus according to the embodiment of the present invention.

3 is a conceptual diagram of a reflector of the ultraviolet sterilization apparatus according to the embodiment of the present invention.

Figure 4 is an enlarged perspective view of the main portion of the ultraviolet sterilization apparatus according to another embodiment of the present invention.

5 is a conceptual diagram of an ultraviolet radiation region of the ultraviolet lamp.

Explanation of symbols on the main parts of the drawings

10: frame 11: auxiliary frame

12 lamp holder 13 feed shaft

20: spacer 21: guide frame

30: UV lamp 31: lamp wiper

32: feeder 40: reflector

41: reflector wiper 42: connecting rod

43: wash hair 44: ultrasonic generator

Claims (4)

A plurality of ultraviolet lamps spaced at predetermined intervals in the waterways in the up / down / left / right directions; Ring-shaped lamp wipers formed on the outer circumference of each of the ultraviolet lamps; A reflector for reflecting ultraviolet rays between the ultraviolet lamps; In the ultraviolet sterilization apparatus of a channel in which the lamp wiper is intermittently transferred by a mechanical means capable of linear transfer, and the surface of each ultraviolet lamp is washable. The reflector is configured in a circular shape, a reflector wiper for cleaning the surface of the reflector is further provided to be interlocked with the intermittent transfer of the lamp wiper, and ultrasonic generators are connected to both ends of the reflector to generate ultrasonic waves at the reflector itself. Ultraviolet sterilization apparatus of the channel with improved reflectivity, characterized in that. The method according to claim 1, The reflector wiper is formed in a ring shape to surround the outer circumference of the cylindrical reflector so that the outer circumference of the reflector and the inner surface of the reflector wiper is in contact with each other and at the same time integrally connected to the lamp wiper, UV sterilization apparatus with improved reflectivity. The method according to claim 2, The reflector outer periphery and the reflector wiper inner periphery at a predetermined interval, the reflector further comprises a radial washing cap so that the washing cap is in contact with the outer peripheral surface of the reflector, UV reflecting apparatus having an improved reflectivity. delete