KR101226889B1 - Sterilization apparatus by ultraviolet ray - Google Patents

Abstract

PURPOSE: A bubble generating ultra violet ray sterilization apparatus is provided to prevent the short circuit flowing by installing asymmetrical spiral channel plate on the water pipe or line of water flow. CONSTITUTION: A bubble generating ultra violet ray sterilization apparatus comprises the main body(10), raw water inlet(11), one or more of ultra violet lamp, raw water outlet(12), fixed member, and asymmetrical spiral channel plate. The raw water inlet is formed on a side of the main body to inject raw water into the main body. At least one of ultra violet lamp is inserted into the center of the main body longitudinally and provides ultra violet ray to sterilize the injected raw water. The raw water outlet is formed at the other side of the main body to eject the sterilized raw water by the ultra violet lamp. The fixing member comprises a pair of ring and the multiple round rods. A pair of ring is installed at both ends of inner wall of the main body. The multiple round rods are installed longitudinally with constant interval to connect to the ring. The fixing member is combined with the inner wall of the main body. In order to convert the flow of raw water into vortex or combination type, the asymmetrical spiral channel plate is installed in asymmetrical structure with the opposite spiral direction in order to correspond vice versa to each other, and installed side by side as cut in the center asymmetrically.

Description

Bubble generation ultraviolet sterilizer {STERILIZATION APPARATUS BY ULTRAVIOLET RAY}

The present invention relates to an ultraviolet sterilizing apparatus, and more particularly, in the ultraviolet sterilizing apparatus for sterilizing raw water, which is installed in a pipeline for discharging raw water, comprising: a main body having a cylindrical shape and having an empty inside; A raw water inlet formed on one side of the main body to inject raw water into the main body; One or more ultraviolet lamps inserted longitudinally into an inner center of the main body and providing ultraviolet rays for sterilizing introduced raw water; Raw water discharge port is formed on the other side of the main body to discharge the raw water sterilized through the ultraviolet lamp to the outside; A fixed member coupled to an inner wall of the main body, the pair consisting of a pair of rings installed on inner walls of both ends of the main body, and a plurality of round bars installed in a longitudinal direction at a predetermined interval to connect the rings; In order to switch the flow of the raw water introduced into the main body into the vortex and the mixed flow, the asymmetric structure having opposite spiral directions to correspond to the staggered side is installed to correspond to both sides of the fixing member, side by side in a spiral shape cut in the middle It consists of an asymmetric spiral drift plate is installed, the raw water introduced through the raw water inlet is continuously contacted with the asymmetric helical drift plate to be converted to vortex and mixed flow bubbles are generated to improve the permeability of ultraviolet rays to improve sterilization power It is related with the bubble generation ultraviolet sterilization apparatus characterized by the increased.

In general, an ultraviolet sterilizer for supplying ultraviolet light to raw water in order to kill E. coli contained in the raw water is installed in the pipeline to discharge the raw water discharged to the sewage treatment plant.

Looking at the technology of the conventional UV sterilizer applied patent registration No. 10-0496766 "Spiral baffle-mounted UV contact device and the sewage treatment plant effluent reuse system using the same" is introduced due to the spiral baffle spirally wound on the inner wall of the device The raw water flows as it rotates to maintain sufficient contact time of the raw water and to be completely mixed with hydrogen peroxide, which is a reaction aid, but in the above technique, the inflow pipe and the outflow pipe are connected to the side of the pipe, so that the fluid flows in a spiral inside the pipe. Although it is built, it is a problem that it is limited to the raw water which does not vortex or mix in the pipeline and continuously irradiates with ultraviolet rays. On the other hand, look at another technology Patent Registration No. 10-0451640 "flow sterilization device and sterilization method using ultraviolet rays and micro-bubbles" is supplied by a separate ozone generator or blower to generate bubbles to increase the transmission of ultraviolet rays There should be a problem with a separate controller to electrically control the bubble floating water sterilization system. That is, the disinfection treatment of the discharged water by the pipe line is impossible and the facility is complicated, so there is a problem that it is not suitable for the discharged water of a simple village sewage treatment plant.

Therefore, the above conventional UV sterilizer has more problems of maintenance cost increase and management such as having separate blower and micro bubble generator even if bubbles are generated without vortex or mixed flow inside discharged pipe. You lose.

The present invention is to solve such a problem is that the ultraviolet sterilization device mounted on the pipe to kill E. coli in the discharged raw water in the sewage treatment plant flows the raw water flowing in the existing spiral baffle flows into the inner wall of the device only helical flow In order to prevent the air bubble which increases the irradiation efficiency of ultraviolet rays and prevent the disadvantage that the irradiation surface and the contact surface of ultraviolet rays are concentrated only around the flow around the quartz tube, the raw water introduced by the spiral baffle is hit by the inside of the device. It generates bubbles and vortex that low UV contact efficiency flows due to short-circuit flow in existing spiral flow or general pipeline flow. By changing the mixed flow, it is possible to serve the purpose of having ultraviolet rays evenly contact the raw water and slowing down the flow rate to have a sterilizing effect.

In order to solve the above problems, the bubble generating ultraviolet sterilizer according to the present invention is installed in a pipeline for discharging raw water in the ultraviolet sterilizer for sterilizing raw water, the body is made of a cylindrical and empty inside; A raw water inlet formed on one side of the main body to inject raw water into the main body; One or more ultraviolet lamps inserted longitudinally into an inner center of the main body and providing ultraviolet rays for sterilizing introduced raw water; Raw water discharge port is formed on the other side of the main body to discharge the raw water sterilized through the ultraviolet lamp to the outside; A fixed member coupled to an inner wall of the main body, the pair consisting of a pair of rings installed on inner walls of both ends of the main body, and a plurality of round bars installed in a longitudinal direction at a predetermined interval to connect the rings; In order to switch the flow of the raw water introduced into the main body into the vortex and the mixed flow, the asymmetric structure having opposite spiral directions to correspond to the staggered side is installed to correspond to both sides of the fixing member, side by side in a spiral shape cut in the middle It consists of an asymmetric spiral drift plate is installed, the raw water introduced through the raw water inlet is continuously contacted with the asymmetric helical drift plate to be converted to vortex and mixed flow bubbles are generated to improve the permeability of ultraviolet rays to improve sterilization power It is characterized by increased.

In addition, the raw water outlet and the raw water outlet is characterized in that it is formed to be deflected from one side of the center of the main body to provide a rotational force to the raw water.

In addition, the asymmetric spiral drift plate installed on both sides inside the main body is characterized in that formed to be spaced apart from each other by a predetermined length to increase the sterilizing power by increasing the time to contact with ultraviolet rays by reducing the feed rate of the raw water.

In addition, a quartz tube for protecting the ultraviolet lamp is fitted between the hollow portion and the ultraviolet lamp, a washing ring for washing the quartz tube is inserted into the quartz tube, and a moving means for reciprocating linear movement of the washing ring. Combined with the washing ring, characterized in that the power providing means for providing power to the moving means is further provided.

In addition, the present invention is an ultraviolet sterilizer for sterilizing the raw water is installed in the water supply channel for discharging the raw water, the waterway-type body made of a square shape; Raw water inlet formed on the lower side of the main body to feed the raw water into the main body; A raw water discharge port formed at the other lower side of the main body to discharge the sterilized raw water to the outside of the main body; An ultraviolet lamp which is inserted and coupled to the inside of the main body in a horizontal direction and provides ultraviolet rays for sterilizing the injected raw water; In order to switch the flow of raw water introduced into the main body into the vortex and the mixed flow, it is installed to correspond to the inner wall of both sides of the main body in an asymmetrical structure having opposite inclination directions so as to cross each other at a predetermined interval. Asymmetrical inclined drift plate is installed side by side; consisting of, the raw water introduced through the raw water inlet continuously contact with the asymmetric sloping drift plate is converted to vortex and mixed flow bubbles to generate the transmittance of ultraviolet rays It is characterized by increasing the sterilization power by improving.

In addition, a quartz tube for protecting the ultraviolet lamp is fitted to the outer circumferential surface of the ultraviolet lamp, a washing ring for washing the quartz tube is inserted into the quartz tube, and a moving means for reciprocating linear movement of the washing ring is the washing ring. It is coupled with, characterized in that it is further provided with a power providing means for providing power to the moving means.

The present invention prevents short-circuit flow by installing a spiral asymmetrical spiral plate in the pipeline or channel through which the raw water flows in order to kill E. coli of raw water discharged from the sewage treatment plant. The flow is changed by the mixed flow and flows up to the bubble, which improves the irradiation efficiency of ultraviolet rays and makes the raw water have an even contact surface even near the UV lamp. This means that the existing sterilizer maintains the flow in one direction without vortex and mixed flow inside the pipeline, and the flow rate is maintained as it is. It is effective to prevent falling. On the other hand, the present invention has the effect of achieving the intended purpose without the need for a separate blower and bubble generator by naturally generating bubbles by the raw water withdrawal pressure and spiral drip plate.

1 is an illustration of a bubble generating ultraviolet sterilizer according to the present invention.
Figure 2 is an exemplary view for explaining a state in which the asymmetric spiral plate of the present invention is coupled to the inside of the main body.
Figure 3 is an exemplary view for explaining the operating principle of the washing ring of the present invention.
4 to 5 is an exemplary view of a main body according to an embodiment of the present invention.
6 to 7 is an exemplary view of a main body according to another embodiment of the present invention.
8 is an exemplary view for explaining the operating principle of the washing ring according to another embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited to an understanding of the technical features of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, And that the present invention may be implemented with other embodiments. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the components that perform the same function in the embodiments, the related components are denoted by the same or an extension line number.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the bubble generating ultraviolet sterilizer associated with the embodiment of the present invention.

The present invention relates to an ultraviolet sterilizer, which is installed in a pipeline for discharging raw water, the ultraviolet sterilizer for sterilizing raw water, the body being made of a cylindrical and empty inside; A raw water inlet 11 formed at one side of the main body to feed raw water into the main body 10; At least one ultraviolet lamp 13 inserted longitudinally into the inner center of the main body 10 and providing ultraviolet rays for sterilizing the injected raw water; Raw water discharge port 12 formed on the other side of the main body to discharge the raw water sterilized through the ultraviolet lamp 13 to the outside; It consists of a pair of rings 16 which are installed on the inner wall of both ends of the main body 10, and a plurality of round rods 17 are installed in the longitudinal direction at regular intervals so as to connect the ring, A fixing member 15 coupled to the inner wall; In order to switch the flow of the raw water introduced into the main body into the vortex and the mixed flow, the asymmetric structure having opposite spiral directions to correspond to the staggered side is installed to correspond to both sides of the fixing member, side by side in a spiral shape cut in the middle It consists of an asymmetric spiral drift plate 18 is installed, the raw water introduced through the raw water inlet 11 is continuously contacted with the asymmetric helical drift plate 18 is converted to vortex and mixed flow to generate bubbles It is characterized in that the sterilization power is increased by improving the transmittance of ultraviolet rays.

The main body 10 is formed in a hollow cylindrical shape, the raw water inlet 11 for introducing the raw water into the body, and the raw water outlet 12 for discharging the introduced raw water to the outside is formed. .

The raw water inlet 11 is preferably formed on the left or right side from the center of the main body so that the spiral rotation can be made by the asymmetric helical plate 18 to be described later when the raw water is introduced into the main body, the raw water Discharge port 12 is also preferably formed on the left or right side from the center of the main body so that the raw water can be discharged to the outside while the rotational force is maintained in contact with the drip plate like the raw water inlet.

The inner wall of the main body 10 is coupled to the fixing member 15 for coupling the asymmetric spiral conducting plate 18 into the main body.

The fixing member 15 is composed of a pair of rings 16 which are installed on inner walls of both ends of the main body, and a plurality of round bars 17 installed in the longitudinal direction at regular intervals so as to connect the rings 16. .

The present invention has a spiral direction in the opposite direction, respectively, on both sides of the round bar (17), the shape of the spiral cut in the longitudinal direction, the asymmetric helical plate (18) corresponding to each other to cross and then the fixing member (15) Coupling to the inner wall of the main body 10, the asymmetric spiral drift plate is positioned inside the main body.

At this time, the asymmetric spiral drip plate 18 is welded to the round bar 17 to be firmly fixed, and the fixing member 15 is attached to the inner wall of the main body 10 using brackets or flanges at both ends. By combining, it is desirable to facilitate the breakage or replacement of the asymmetric spiral plate 18, the round bar 17 or the ring 16, and the like.

Figure 2 is an exemplary view for explaining a state in which the asymmetrical spiral plate 18 is coupled in an asymmetrical structure by rotating the fixing member 15 in accordance with the present invention 90 °.

As shown in FIG. 2, the asymmetric spiral drift plates 18 according to the present invention correspond to face each other, and are formed in a spiral shape cut in the longitudinal direction, and have a predetermined interval on both sides of the inner wall of the main body 10. It is installed side by side but both sides are asymmetrical.

The asymmetrical spiral distillation plate 18 adjacent to the raw water inlet 11 allows the side having a high inclination to be positioned at the raw water inlet so that the raw water moves along the spiral distillation plate, and the raw water introduced through the raw water inlet is the one side. When the spiral moves along the spiral flow plate and contacts the other flow plate, the speed of the raw water decreases, the air flow and the vortex are generated, and bubbles are generated by contacting the other spiral flow plate installed on both sides with an asymmetric structure. Since the ultraviolet rays are evenly transmitted to the inside and outside of the raw water can increase the sterilization power.

The asymmetric spiral drift plate 18 installed on both sides inside the main body 10 is preferably formed to be spaced apart from each other by a predetermined length so as to increase the sterilizing power by increasing the time of contact with ultraviolet rays by reducing the feed rate of raw water. Do.

The ultraviolet lamp 13 is inserted into the inner center of the main body 10 in the longitudinal direction and serves to sterilize bacteria contained in the raw water by providing ultraviolet light to the raw water introduced into the main body.

Referring to FIG. 3, in the present invention, a quartz tube 14 is inserted into an outer circumferential surface of an ultraviolet lamp so as to protect the ultraviolet lamp 13, and an outer circumferential surface of the quartz tube 14 is used to clean the quartz tube. The washing ring 19 is fitted.

In the present invention, since the foreign matter is attached to or contaminated on the surface of the quartz tube 14 because the raw water is continuously introduced into the pipeline, and combines the moving means 21, such as a piston or cylinder to the washing ring 19, It is provided with a power supply means 20 that can provide power such as pneumatic or the like to clean the quartz tube 14 through the cleaning ring (19).

For example, when using a hydraulic cylinder as the moving means 21 may be provided with a hydraulic pump as the power providing means 20, the present invention transmits power to the moving means to the washing ring 19 By performing the reciprocating linear motion, foreign matter on the surface of the quartz tube 14 can be removed.

On the other hand, the present invention may be provided with one or more ultraviolet lamps 13 as necessary, and thus, each of the ultraviolet lamps 13 is further provided with a quartz tube 14 and the washing ring 19, the washing ring Preferably, the moving or power providing means for reciprocating linear movement 19 is provided with one or more.

In addition, the lower one side of the main body 10 in the main body to replace the components installed in the main body, such as the fixing member 15, the asymmetric spiral drift plate 18 or the ultraviolet lamp 13 or to clean the inside of the main body A drain valve 22 may be further provided to discharge the contained water to the outside.

6 to 8 illustrate a bubble generating ultraviolet sterilizer according to another embodiment of the present invention.

Bubble generation ultraviolet sterilization apparatus according to another embodiment of the present invention is installed in a water channel to discharge the raw water in the ultraviolet sterilization apparatus for sterilizing the raw water, the channel body 30 made of a square shape; Raw water inlet 31 is formed on one side of the lower portion of the main body to feed the raw water into the main body 30; Raw water discharge port 32 formed on the other side of the lower lower portion of the main body to discharge the sterilized raw water to the outside of the main body 30; An ultraviolet lamp 34 inserted into and coupled to the inside of the main body 30 in a horizontal direction and providing ultraviolet rays for sterilizing the injected raw water; In order to switch the flow of raw water introduced into the main body into the vortex and the mixed flow, it is installed to correspond to the inner wall of both sides of the main body in an asymmetrical structure having opposite inclination directions so as to cross each other at a predetermined interval. Asymmetrical inclined drift plate 33 installed side by side; is made, including the raw water introduced through the raw water inlet 31 is continuously contacted with the asymmetric inclined drift plate 33 is converted to vortex and mixed flow As a result, bubbles are generated to improve the transmittance of ultraviolet rays, thereby increasing sterilization power.

The main body 30 according to another embodiment of the present invention has a rectangular shape so as to be installed in a waterway, and the upper part is opened or visually identified from the outside with the naked eye so as to determine the flow of water or the operation of the ultraviolet lamp. It may be provided with a cover made of a transparent material.

One side of the main body 30 is formed with a raw water inlet 31 for injecting raw water into the main body, and the other side is formed with a raw water outlet 32 to discharge the raw water to the outside.

In addition, a drain valve 39 may be installed at one lower side of the main body 30 to discharge water stored in the main body 30 to the outside.

At this time, the main body 30 is preferably formed at a predetermined height to prevent water from splashing or overflowing when water is introduced into the inside, and the raw water inlet 31 and the raw water outlet 32 It is preferably formed below the center of the main body.

The ultraviolet lamp 34 is to kill the E. coli contained in the raw water by providing ultraviolet light to the raw water introduced into the main body 30, in the longitudinal direction to the center of the main body to supply the ultraviolet light uniformly to the raw water introduced It is preferable to be installed, and it is preferable that the UV lamp 34 is coupled to the main body and the flange or bracket to facilitate replacement due to factors such as end of life or damage of the product.

The outer circumferential surface of the ultraviolet lamp 34 is fitted with a quartz tube 35 to protect the ultraviolet lamp, the washing ring 36 for washing the surface of the quartz tube 35 is fitted, the washing ring 36 ) Is further provided with a moving means 38 for reciprocating linear movement, and a power providing means 37 for providing power to the moving means.

The moving means 38 may be used, such as a piston or a cylinder, the power providing means 37 may use a hydraulic or pneumatic pump or motor to correspond to the moving means.

In addition, one or more ultraviolet lamps 34 may be provided as necessary. When the plurality of ultraviolet lamps 34 are installed in the main body 30, a quartz tube may be provided for each ultraviolet lamp 34. 35 and a washing ring 36 are preferably provided, and a moving means 38 and a power providing means 37 for reciprocating each washing ring 36 are further provided.

In addition, the bubble generating ultraviolet sterilizer according to another embodiment of the present invention comprises an asymmetrical inclined plate plate 33 is installed inside the main body so that the flow of the raw water is converted into vortex and mixed flow.

The asymmetrical inclined waveguide 33 is installed to be inclined to the inner wall as a rectangular plate, spaced apart at predetermined intervals along the inner wall of the main body 30 along a longitudinal direction, the ultraviolet lamp 34 It is installed to be located on the left and right side of the two sides to form an asymmetrical structure so as to be inclined in a half-fold direction, and are installed in a zigzag.

The asymmetrical inclined drift plate 33 installed on one inner wall of the main body 30 has a lower left side and a higher right side, and the drift plate installed on the other inner wall has a higher left side and a lower right side coupled thereto. Since the raw water introduced through the (31) hits the inclined surface of each of the drift plates, reverse flow, vortex, mixing, and bubbles are generated, so that ultraviolet rays are evenly exposed to the surface and inside of the raw water, thereby increasing sterilization power.

10: main body 11: raw water inlet
12: raw water outlet 13: UV lamp
14 quartz tube 15 fixing member
16: ring 17: round bar
18: asymmetric spiral drip plate 19: washing ring
20: power supply means 21: moving means
22: drain valve
30: body 31: raw water inlet
32: raw water outlet 33: asymmetrical inclined plate
34 UV lamp 35 Quartz tube
36: washing ring 37: power supply means
38: moving means 39: drain valve

Claims (6)

In the ultraviolet sterilizer for sterilizing the raw water is installed in the pipeline to discharge the raw water,
A main body 10 having a cylindrical shape and having an empty interior;
A raw water inlet 11 formed at one side of the main body to feed raw water into the main body 10;
At least one ultraviolet lamp 13 inserted longitudinally into the inner center of the main body 10 and providing ultraviolet rays for sterilizing the injected raw water;
Raw water discharge port 12 formed on the other side of the main body to discharge the raw water sterilized through the ultraviolet lamp 13 to the outside;
It consists of a pair of rings 16 which are installed on the inner wall of both ends of the main body 10, and a plurality of round rods 17 are installed in the longitudinal direction at regular intervals so as to connect the ring, A fixing member 15 coupled to the inner wall;
In order to switch the flow of the raw water introduced into the main body into the vortex and the mixed flow, the asymmetric structure having opposite spiral directions to correspond to the staggered side is installed to correspond to both sides of the fixing member, side by side in a spiral shape cut in the middle It consists of an asymmetric helical plate (18) is installed,
The raw water introduced through the raw water inlet 11 is continuously contacted with the asymmetric spiral drift plate 18 to be converted to vortex and mixed flow, thereby generating bubbles to improve the permeability of ultraviolet rays to increase sterilizing power. Bubble generation UV sterilizer. According to claim 1, wherein the raw water outlet 11 and the raw water outlet 12 is bubble-producing UV sterilization device, characterized in that the deflection toward one side from the center of the main body 10 to provide rotational force to the raw water. The method of claim 1, wherein the asymmetric spiral guide plate (18) provided on both sides inside the main body is formed spaced apart from each other by a predetermined length so as to increase the sterilizing power by increasing the time of contact with ultraviolet light by reducing the feed rate of raw water Bubble generation ultraviolet sterilizer, characterized in that. The quartz tube 14 according to any one of claims 1 to 3, wherein an outer circumferential surface of the ultraviolet lamp 13 is fitted with a quartz tube 14 for protecting the ultraviolet lamp, and the quartz tube 14 is washed with the quartz tube. The washing ring 19 is fitted, the moving means 21 for reciprocating linear movement of the washing ring is combined with the washing ring 19, the power supply means for providing power to the moving means 21 ( Bubble generation UV sterilization device, characterized in that further provided 20). In the ultraviolet sterilization apparatus for sterilizing the raw water is installed in the water supply channel,
A channel-shaped body 30 formed of a square shape;
Raw water inlet 31 is formed on one side of the lower portion of the main body to feed the raw water into the main body 30;
Raw water discharge port 32 formed on the other side of the lower lower portion of the main body to discharge the sterilized raw water to the outside of the main body 30;
An ultraviolet lamp 34 inserted into and coupled to the inside of the main body 30 in a horizontal direction and providing ultraviolet rays for sterilizing the injected raw water;
In order to switch the flow of raw water introduced into the main body into the vortex and the mixed flow, it is installed to correspond to the inner wall of both sides of the main body in an asymmetrical structure having opposite inclination directions so as to cross each other at a predetermined interval. It comprises a; asymmetrical inclined drifting plate 33 which is installed side by side,
The raw water introduced through the raw water inlet 31 is continuously contacted with the asymmetrical inclined drift plate 33 to be converted to vortex and mixed flow, thereby generating bubbles and improving the permeability of ultraviolet rays to increase sterilizing power. Bubble generation UV sterilizer. The outer peripheral surface of the ultraviolet lamp 34, the quartz tube 35 for protecting the ultraviolet lamp is fitted, the quartz tube 35 is fitted with a washing ring 36 for washing the quartz tube. And a moving means 38 for reciprocating linear movement of the washing ring is combined with the washing ring 36 and further provided with a power providing means 37 for providing power to the moving means 38. Bubble generation UV sterilizer.

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