KR101922404B1 - Tubular Ultraviolet Disinfection Device Using Vortex Generation - Google Patents

Abstract

The present invention relates to a tubular UV disinfection apparatus using vortex generation, and more particularly, to a tubular ultraviolet disinfection apparatus for irradiating and disinfecting ultraviolet rays with a material to be disinfected flowing into and out of a tubular reactor, 0001] The present invention relates to a tubular ultraviolet disinfection apparatus using a vortex generated by generating a vortex in a material to be sterilized to increase the residence time of the object to be sterilized in the reaction tank, thereby increasing the disinfection efficiency by ultraviolet rays.

Description

[0001] The present invention relates to a tubular ultraviolet disinfection device using vortex generation,

The present invention relates to a tubular ultraviolet disinfecting apparatus, and more particularly, to a tubular ultraviolet disinfecting apparatus which irradiates and disinfects a disinfection object introduced into a tubular reactor.

The ultraviolet disinfection apparatus is a device for disinfecting a substance to be disinfected such as sewage and wastewater by using ultraviolet rays installed in a water purification plant, a sewage disposal plant,

Particularly, the tubular ultraviolet disinfection apparatus includes an ultraviolet lamp and a glass tube (quartz tube) for enclosing the disinfection target substance in the reaction tank by introducing and discharging the disinfection target substance into the tubular reaction vessel having a predetermined length, The object to be sterilized is sterilized by irradiating ultraviolet rays to the substance to be sterilized flowing in the tubular reaction tank.

The ultraviolet lamp is installed so as to be perpendicular to the flow direction of the material to be disinfected, and disinfects the material to be disinfected by the ultraviolet light to be irradiated.

At this time, the ultraviolet rays irradiated through the ultraviolet lamp can destroy the bacterial nucleus of the bacteria in the disinfected material, and the bacteria can be blinked or the DNA can be modified to inhibit cell proliferation. Therefore, various molds and bacteria can be sterilized have.

In addition, when a tubular ultraviolet disinfecting device adheres and adsorbs contaminants to the outer circumferential surface of a glass tube by a substance to be disinfected, the ultraviolet ray transmittance is lowered and the disinfecting efficiency of the disinfecting target material is lowered.

For this, a cleaning device for cleaning the glass tube by scratching the glass tube can be performed by providing the wiper ring which is formed so as to surround the outer circumferential surface of the glass tube, and a cleaning device for moving the wiper ring in the longitudinal direction in a state of being in contact with the outer circumferential surface of the glass tube .

As a prior art document related thereto, a cleaning driving device for cleaning a glass tube in a tubular ultraviolet disinfecting device is disclosed in Korean Utility Model Registration No. 20-0451051 (a quartz tube cleaning drive device of an ultraviolet sterilizer, Nov. 22, 2010).

At this time, the tubular UV disinfection apparatus can increase the contact time between the ultraviolet lamp and the disinfection target material, thereby increasing the disinfection efficiency of the disinfection target material.

As described above, in order to increase the contact time between the ultraviolet lamp and the object to be disinfected, a tubular reactor having a long length in the direction in which the object to be sterilized flows is required, and the ultraviolet lamp corresponding to the length of the tubular reactor It must have a corresponding large number.

On the other hand, in order to provide a plurality of glass tubes provided with ultraviolet lamps in the width direction, a tubular reaction vessel having a corresponding widthwise radius must be formed.

This requires a certain space for installing the tubular ultraviolet disinfection device, and also increases the installation cost and the maintenance cost through the provision of a plurality of ultraviolet lamps.

Korean Utility Model Registration No. 20-0451051 (Quartz tube cleaning drive device for ultraviolet sterilizer, Nov. 22, 2010)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a tubular ultraviolet disinfecting apparatus for disinfecting ultraviolet rays, And an object of the present invention is to provide a tubular ultraviolet disinfection apparatus using vortex generation that increases the disinfection efficiency by ultraviolet rays by generating a vortex in a flowing target disinfection substance to increase the residence time of the disinfection target substance in the reaction vessel.

A tubular UV disinfection apparatus using vortex generation according to the present invention includes a tubular reactor body 110 disposed horizontally with respect to the ground, a tubular reactor 110 disposed on one side of the reactor body 110 in the longitudinal direction thereof, A reactor 100 having an inlet 120 through which the material flows and a discharge unit 130 disposed on the other side of the reactor body 110 in the longitudinal direction thereof and through which the material to be sterilized is discharged from the lower portion to the upper portion; A disinfection unit 200 including a glass tube 210 arranged in the reactor body 110 in the longitudinal direction and an ultraviolet lamp provided inside the glass tube 210; A center shaft 310 fixed to both ends of the reaction vessel body 110 so as to be movable in the longitudinal direction and a glass fusing member connected to the center shaft 310 and capable of contacting the outer circumferential surface of the glass tube 210, 320); And a baffle 400 coupled to the inner circumferential surface of the reactor body 110 in a radial direction to form a shape for enclosing the disinfection unit 200 and the cleaning unit 300, A baffle body 410 coupled to the inner circumferential surface of the baffle body 410 at an angle of 40 to 45 degrees with respect to the direction of flow of the disinfection target material, said baffle (400) is one of the plurality being formed with a vortex generating portion 420 is formed projecting in the opposite direction, the waeo furring 320 are disposed a plurality in the longitudinal direction of the tank body 110, And a plurality of wiper rings (320), wherein the plurality of wiper rings (320) are stationary, the plurality of wiper rings (320) Of the wiper ring (320) The wiper ring 320 disposed at the outermost is disposed at a position spaced from the center of the predetermined interval the tank body 110 from the center of the inlet section 120 doedoe arranged at the bottom of the inlet 120, The wiper ring 320 disposed at the outermost side of the discharge unit 130 side of the plurality of wiper rings 320 is disposed below the discharge unit 130. The wiper ring 320 is disposed at a predetermined distance from the center of the discharge unit 130, A portion of the plurality of wiper rings 320 disposed at the outermost side of the inflow portion 120 side of the plurality of wiper rings 320 is disposed at a position spaced apart from the center of the reactor body 110, And the other part of the plurality of wiper rings 320 flows into the wiper ring 320 at the outermost side of the inlet part 120 side of the wiper ring 320, 320 after the inlet to the inside is introduced after the collision with the outer wall of the reactor body 110, the sterilized object A portion of the plurality of wipers 320 is discharged through the inside of the wiper ring 320 disposed at the outermost side of the discharge unit 130 side of the plurality of wiper rings 320, And the vortex generating unit 420 is protruded in a direction opposite to the flow direction of the disinfection target material by discharging through the outside of the wiper ring 320 disposed at the outermost side of the disinfection unit 130 side, Can be minimized.

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The cleaning unit 300 may include moving means 330 for moving the center shaft 310 in the longitudinal direction and being connected to the reaction vessel body 110 at one end or both ends of the center shaft 310 in the longitudinal direction, ).

The tubular UV disinfection apparatus 1000 using the vortex generation further includes a control unit 500 for controlling operations of the reaction tank 100, the disinfection unit 200, and the cleaning unit 300.

Further, the tubular ultraviolet disinfecting apparatus 1000 using the vortex generation may further include a sensor unit for measuring selected information and supplying information to the controller 500, wherein the sensor unit comprises: An operation sensor for measuring the amount of contaminants attached to the surface of the glass tube 210 and the operation of the cleaner 300; a temperature sensor for measuring the temperature of the reaction tank 100; And the like.

The tubular ultraviolet disinfection apparatus using the vortex generation according to the present invention has an advantage of increasing the disinfection efficiency by ultraviolet rays by increasing the residence time of the disinfection target material in the reaction tank by generating a vortex in the flowing disinfection target material.

In addition, since the tubular UV disinfection apparatus using the vortex generation according to the present invention can increase the residence time of the disinfection target substance in the reaction tank through the addition of the simple constitution, There is an advantage that the installation cost and maintenance cost do not greatly increase.

In addition, since the vascular ultraviolet sterilizing apparatus using the vortex generation according to the present invention minimizes adherence of contaminants to the surface of the glass tube provided with the ultraviolet lamp by generating a vortex in the material to be disinfected, So that it is possible to reduce the cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal cross-sectional view of a tubular ultraviolet disinfection apparatus using vortex generation according to an embodiment of the present invention. FIG.
FIG. 2 is a cross-sectional view of a tubular ultraviolet disinfector using vortex generation according to an embodiment of the present invention. FIG.
3 is a view illustrating a baffle constituting a tubular UV disinfection apparatus using vortex generation according to an embodiment of the present invention.
FIG. 4 is another diagram showing a baffle constituting a tubular UV disinfection apparatus using vortex generation according to an embodiment of the present invention; FIG.
5 is a view illustrating an effect of a tubular UV disinfection apparatus using vortex generation according to an embodiment of the present invention.
6 is a longitudinal sectional view of another embodiment of a tubular UV disinfection apparatus using vortex generation according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a tubular ultraviolet disinfector using vortex generation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional or dictionary sense, and the inventor should appropriately define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

It is therefore to be understood that the embodiments described herein and the arrangements shown in the drawings are only the most preferred embodiments of the present invention and that various equivalents and modifications may be substituted for them at the time of the present application .

1 to 4, a tubular UV disinfection apparatus 1000 using vortex generation according to an embodiment of the present invention includes a reaction tank 100, a disinfection unit 200, a cleaning unit 300, The baffle 400 is formed.

2 (a) illustrates a conventional tubular ultraviolet disinfection apparatus, and FIG. 2 (b) illustrates a tubular ultraviolet disinfection apparatus 1000 using vortex generation according to an embodiment of the present invention. It is.

The reaction tank 100 mainly includes a reaction vessel body 110, an inlet 120, and an outlet 130.

The reactor body 110 is formed in a shape having a predetermined length in the form of a pipe and is disposed horizontally with respect to the ground. The inlet 120 is formed on one side of the reactor body 110 in the longitudinal direction thereof, And the discharge unit 130 is formed on the other side of the longitudinal direction of the reaction vessel body 110 so that the disinfected object is moved from the lower part to the upper part. And is discharged to the outside.

That is, in the reaction tank 100, the substance to be disinfected flows into the reaction vessel body 110 through the inlet 120, flows in the longitudinal direction of the reaction vessel body 110, After the material to be disinfected falls from the top to the bottom, it flows in the longitudinal direction inside the horizontally disposed reaction vessel body 110 and then is discharged from the bottom to the top through the discharge unit 130.

The disinfection unit 200 is formed of a glass tube 210 and an ultraviolet lamp (not shown).

The glass tube 210 is formed in the reaction vessel body 110 in the longitudinal direction and is arranged in a plurality of radial directions of the reaction vessel body 110.

The ultraviolet lamp is disposed inside the glass tube and irradiates ultraviolet rays to the outside to sterilize the object to be sterilized which flows in the longitudinal direction of the reaction vessel body 110.

The glass tube 210 is formed in the longitudinal direction of the reaction vessel body 110, thereby increasing the contact time with the material to be disinfected.

It is preferable that the glass tube 210 is uniformly spaced in the radial direction of the reaction vessel body 110 to uniformly contact the ultraviolet ray and the object to be sterilized, It is preferable that they are fixedly arranged at both ends of the reaction vessel body 110. [

In addition, it is preferable that the ultraviolet lamp is arranged so as to be uniformly disposed inside the glass tube formed long in the longitudinal direction, thereby enabling the disinfection material to be efficiently disinfected.

At this time, the glass tube 210 may be formed of a quartz tube made of quartz.

That is, the glass tube 210 is formed of a quartz tube made of quartz to protect the ultraviolet lamp from the outside, and can minimize the reversal of the ultraviolet rays irradiated from the ultraviolet lamp.

In addition, the glass tube 210 formed of a quartz quartz tube is preferably formed to have a thickness of 1 mm to 2 mm so as not to interfere with the traveling direction of the ultraviolet ray to be irradiated, as well as to protect the ultraviolet lamp provided therein. Do not.

However, the quartz tube forming the glass tube 210 is not limited to this. The quartz tube 210 may protect the ultraviolet lamp from the outside, and may have a variety of shapes as long as it does not affect the traveling direction of ultraviolet rays emitted from the ultraviolet lamp. It is of course possible to form a glass tube of a material.

In addition, the ultraviolet lamp preferably has an ultraviolet lamp having a wavelength of 100 nm to 400 nm, more preferably an ultraviolet lamp having a wavelength of 200 nm to 280 nm.

In addition, the ultraviolet lamp is formed so as to avoid contact with the object to be sterilized through an O-ring of Viton material formed on the glass tube 210.

The cleaner 300 mainly includes a center shaft 310 and a wiper ring 320.

The wiper ring 320 is formed to be in contact with the outer surface of the glass tube 210 and the center shaft 310 is fixed to both ends of the reaction vessel body 110 and connected to the wiper ring 320 And is movable in the longitudinal direction of the reaction vessel body 110.

That is, the wiper ring 320 is formed to be able to contact the outer circumferential surface of the glass tube 210, and the center shaft 310 connected to the wiper ring 320 is formed to be movable in the longitudinal direction, The contaminants attached to the outer circumferential surface of the glass tube 210 can be removed.

At this time, the wiper ring 320 is formed of an elastic rubber or Teflon material having a spring inserted therein, so that the proper clearance can be maintained, and the wiper ring 320 can be attached to the outer circumferential surface of the glass tube 210 without damaging the surface of the glass tube 210 It is desirable to remove the contaminants.

The central axis 310 is positioned at the center of the reaction vessel body 110 in the radial direction to uniformly move the wiper ring 320 formed in correspondence with the number of the glass tubes 210 in the radial direction, It is preferable to move the wiper ring 320 in contact with the plurality of glass tubes 210 arranged in the outer peripheral surface of the wiper ring 320 in the longitudinal direction.

The tubular ultraviolet disinfecting apparatus 1000 using vortex generation according to an embodiment of the present invention may further include a moving means for moving the center shaft 310 in the longitudinal direction to move the guard furring 320 in the longitudinal direction, (330).

The moving means 330 forms a screw thread at one end or both ends in the longitudinal direction of the center shaft 310 and moves the center shaft 310 in the longitudinal direction through the forward and reverse rotations thereof, The center shaft 310 is provided with a cylinder at one end or at both ends in the longitudinal direction of the center shaft 310 and has a structure in which the center shaft 310 is made of elastic material at one or both ends in the longitudinal direction of the center shaft 310, And a method of making it possible to move in the longitudinal direction of the vehicle.

The baffle 400 is coupled to the inner circumferential surface of the reactor body 110 in the radial direction and is formed to surround the sterilizing unit 200 and the cleaning unit 300.

The baffle 400 is coupled to an inner circumferential surface of the reaction vessel body 110 in a radial direction and more specifically the baffle 400 is connected to the reaction vessel 200 without the disinfection unit 200 and the cleaning unit 300. [ And is formed on the inner circumferential surface of the body 110 so that the flow of the disinfection material flowing in the longitudinal direction of the reaction vessel body 110 is disturbed.

The baffle 400 includes a baffle body 410 and a vortex generating part 420. The baffle body 410 is a body coupled to a radially inner peripheral surface of the reactor body 110, The baffle body 410 is protruded and formed by being cut and bent in a direction opposite to the flow direction of at least one or more disinfection target materials.

3, and 5, the plurality of door furings 320 are disposed in the longitudinal direction of the reaction vessel body 110, and the baffle 400 is interposed between the wiper rings 320, Respectively. The wiper ring 320 disposed at the outermost side of the inlet 120 of the plurality of wiper rings 320 is disposed below the inlet 120 and has a constant The wiper ring 320 disposed at the outermost side of the discharge unit 130 side among the plurality of wiper rings 320 is disposed at a position spaced apart from the center of the reaction vessel body 110. The wiper ring 320, And is disposed at a position spaced apart from the center of the discharge unit 130 by a predetermined distance from the center of the reaction vessel body 110.

5, some of the disinfection materials introduced through the inflow portion 120 may include a wiper ring 320 disposed at the outermost portion of the plurality of wiper rings 320 on the inflow portion 120 side, The other part of the plurality of wiper rings 320 flows into the inside of the wiper ring 320 disposed at the outermost side of the inlet part 120 side of the plurality of wiper rings 320, A vortex is generated in the longitudinal direction passing through the baffle body 410 and the vortex generating part 420 of the baffle 400 so that the inflow part 120 and the discharge part 130 of the reaction vessel body 110 are separated from each other, The retention time of the disinfecting material flowing in the longitudinal direction can be delayed.

Likewise, some of the materials to be disinfected that have passed through the reactor body 110 are discharged through the inside of the wiper ring 320 disposed at the outermost portion of the plurality of wiper rings 320 on the side of the discharge portion 130, Out of the plurality of wiper rings 320 through the outer side of the wiper ring 320 disposed at the outermost side of the discharge unit 130 side to increase vortex generation.

This can increase the contact time between the ultraviolet lamp and the object to be disinfected, so that the disinfection efficiency of the object to be disinfected in the reaction vessel body 110 having the same length can be improved.

In addition, the baffle 400 generates a vortex to the object to be sterilized, thereby deteriorating adherence of foreign matter to the outer circumferential surface of the glass tube by the vortex.

In addition, by increasing the contact area of the object to be sterilized with the ultraviolet lamp through the generated vortex, the ultraviolet lamp having a large amount of ultraviolet radiation and the part far from the ultraviolet lamp, By mixing with the vortex, the disinfection dead zone in the reactor body 110 can be prevented, and the ultraviolet disinfecting efficiency of the flowing disinfecting target material can be maintained evenly.

The vortex generating unit 420 may be bent at an angle of 35 to 50 degrees with respect to the baffle body 410 and more preferably may be bent at an angle of 40 to 45 degrees with the baffle body 410. [ It is preferable to minimize the disinfection dead zone in the reaction vessel body 110 by generating a vortex in the selected direction of the disinfection target material.

The baffle 400 can extend the period of the cleaning operation through the above-described effect.

That is, not only the power cost for the cleaning operation of the cleaning part 300 can be reduced, but also the adherence of foreign substances to the outer circumferential surface of the glass tube 210 can be reduced, thereby improving the transmittance of ultraviolet rays emitted from the ultraviolet lamp , Which can improve the disinfection efficiency of the substance to be disinfected.

In other words, the baffle 400 generates the vapors from the flowing disinfection target material, thereby retarding the flow of the disinfection target material in the reaction vessel body 110 having the same length to improve the disinfection efficiency, It is possible to minimize the adherence of foreign matter to the surface of the glass tube 210 and to increase the ultraviolet ray transmittance according to the minimization of foreign matter, thereby increasing the disinfection efficiency.

At least two baffles 400 are preferably formed in order to generate a uniform vortex in the longitudinal direction of the reaction vessel body 110.

At least two baffles 400 are preferably spaced apart from one another in the longitudinal direction of the reaction vessel body 110. The baffles 400 are uniformly spaced apart from each other and arranged in the longitudinal direction of the reaction vessel body 110 It is preferable to generate a uniform vortex.

The material of the baffle 400 is preferably an alloy of chrome, nickel, and iron, and is preferably made of stainless steel STS304 or higher, which is excellent in corrosion resistance and workability. However, it is easy to adhere to the inside of the reaction vessel body 110, It is needless to say that various materials can be used as long as the material is capable of minimizing deformation or breakage due to the flow of the disinfection material to generate vapors from the target material.

The baffle 400 may be attached to the inner circumferential surface of the reaction vessel body 110 as well as may be fixed to the cleansing part 300 as shown in FIG. Embodiments are possible.

6, a tubular ultraviolet disinfection apparatus 1000 using vortex generation according to an embodiment of the present invention includes a flow and flow of a substance to be inflowed and discharged in the reaction tank 100, And a control unit 500 for controlling the operation of the cleaning unit 300.

At this time, the controller 500 may receive information from a sensor unit (not shown) and control the operation of the sterilizer. The sensor unit includes an operation sensor, a temperature sensor, and an intensity sensor.

The motion sensor detects the amount of contaminants attached to the surface of the glass tube 210 and the movement of the moving means 330 constituting the cleaning unit 300 (movement displacement in the longitudinal direction) And the temperature sensor measures the temperature of the reaction tank 100 to measure the temperature of the tubular ultraviolet sterilizing apparatus 1000 using the vortex generation according to an embodiment of the present invention. .

In other words, when a defect occurs in the reaction tank 100 or the like, and in particular, a problem such as the inflow of the disinfection target material occurs, the temperature is excessively increased and the glass tube 210 may be broken.

To this end, the temperature sensor measures the temperature in the reaction tank 100 and can cause the controller 500 to stop the operation when the temperature rises above the selected temperature.

The intensity sensor measures the intensity of ultraviolet light emitted from the ultraviolet lamp so that the control unit 500 can control the operation of the ultraviolet lamp.

As described above, the tubular ultraviolet disinfection apparatus 1000 using vortex generation according to an embodiment of the present invention includes a control unit 500 for controlling operations, and a sensor unit for transmitting information to the control unit 500 The operation of the disinfecting device can be easily controlled by the operator and the safe operation of the disinfecting device can be performed through the sensor unit.

1000: Ultraviolet ray disinfection device using tubular type using vortex generation
100: Reactor 110: Reactor body
120: inlet portion 130: outlet portion
200: disinfection unit 210: glass tube
300: taxi 310: center axis
320: Wiper ring 330: Moving means
400: Baffle
410: baffle body 420: vortex generator
500:

Claims (7)

A reactor body 110 having a tubular shape disposed horizontally with respect to the ground, an inlet 120 disposed at one side of the reactor body 110 in the longitudinal direction thereof and having a disinfection object inflow downward from the reactor body 110, (100) disposed on the other side in the longitudinal direction of the washing tub (110) and having a discharge portion (130) through which the disinfection target material is discharged from the lower portion to the upper portion;
A disinfection unit 200 including a glass tube 210 arranged in the reactor body 110 in the longitudinal direction and an ultraviolet lamp provided inside the glass tube 210;
A center shaft 310 fixed to both ends of the reaction vessel body 110 so as to be movable in the longitudinal direction and a glass fusing member connected to the center shaft 310 and capable of contacting the outer circumferential surface of the glass tube 210, 320); And
And a baffle 400 coupled to the inner circumferential surface of the reactor body 110 in a radial direction and configured to surround the disinfection unit 200 and the cleaning unit 300,
The baffle 400 is the tank body 110, the radial and the baffle body (410) joined to the inner circumferential surface, and cut in a flow direction opposite to the direction of the disinfecting substance the baffle body 410, and 40 degrees to 45 degrees And a vortex generating part (420) bent at an angle and protruding in a direction opposite to a flow direction of the disinfection target material,
The plurality of wiper fingers 320 are disposed in the longitudinal direction of the reactor body 110 and the baffle 400 is disposed between the plurality of wiper rings 320,
In the state where the object to be disinfected flows into the inflow part 120 for disinfection of the object to be disinfected and the plurality of the wiper rings 320 is stopped,
The wiper ring 320 disposed at the outermost side of the inlet 120 of the plurality of wiper rings 320 is disposed below the inlet 120 and is spaced apart from the center of the inlet 120 by a predetermined distance Is disposed at a position spaced apart from the center of the reaction vessel body (110)
The wiper ring 320 disposed at the outermost side of the discharge unit 130 side of the plurality of wiper rings 320 is disposed below the discharge unit 130. The wiper ring 320 is disposed at a predetermined distance from the center of the discharge unit 130, Is disposed at a position spaced apart from the center of the reaction vessel body (110)
A part of the material to be sterilized which has flowed through the inflow part 120 flows into the outside of the wiper ring 320 disposed at the outermost side of the inflow part 120 side of the plurality of wiper rings 320, And the other part of the plurality of wiper rings 320 flows into the wiper ring 320 disposed at the outermost side of the inlet 120 side of the plurality of wiper rings 320 and then flows into the outer wall of the reaction vessel body 110 And then,
A part of the material to be disinfected is discharged through the inside of the wiper ring 320 disposed at the outermost side of the discharging part 130 side of the plurality of wiper rings 320 and the other part is discharged through the inside of the plurality of wiper rings 320, Is discharged through the outside of the wiper ring (320) disposed at the outermost side of the discharge portion (130) to increase vortex generation,
Wherein the vortex generating part (420) is protruded in a direction opposite to the flow direction of the object to be sterilized, thereby minimizing the disinfection dead zone.
Vessel type ultraviolet disinfection device using vortex generation.
delete delete delete The method according to claim 1,
The cleaner 300 includes a moving unit 330 formed at one end or both ends of the center shaft 310 and coupled to the reactor body 110 for moving the center shaft 310 in the longitudinal direction Further included,
Vessel type ultraviolet disinfection device using vortex generation.
6. The method of claim 5,
The tubular UV disinfection apparatus 1000 using the vortex generation further includes a control unit 500 for controlling operations of the reaction tank 100, the disinfecting unit 200, and the cleaning unit 300.
Vessel type ultraviolet disinfection device using vortex generation.
The method according to claim 6,
The tubular UV disinfection apparatus 1000 using the vortex generation further includes a sensor unit for measuring selected information and supplying information to the control unit 500,
The sensor unit includes an operation sensor for measuring the flow of the material to be disinfected, the amount of contaminants attached to the surface of the glass tube 210 and the operation of the cleaner 300, and the temperature of the reaction vessel 100 And an intensity sensor for measuring a dose of the ultraviolet lamp,
Vessel type ultraviolet disinfection device using vortex generation.

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