KR102255048B1 - Ultraviolet sterilizer of tubular type with washing device equipped with dispersing structure with combination of dispersion and cleaning function - Google Patents

Abstract

The present invention relates to a tube-type UV disinfection device including a washing device having a dispersion structure with a complex function of dispersion and washing. The present invention includes a disinfection tank, a disinfection unit, and a cleaning unit. The present invention can further increase the cleaning efficiency of the surface of a glass tube.

Description

{Ultraviolet sterilizer of tubular type with washing device equipped with dispersing structure with combination of dispersion and cleaning function}

The present invention relates to a pipe-type ultraviolet disinfection device including a washing device having a dispersion structure having a complex function of dispersion and washing, and more particularly, to a washing device for washing a glass tube protecting an ultraviolet lamp, and a blade-type dispersion plate. The present invention relates to a tube-type ultraviolet sterilization device capable of increasing the sterilization treatment efficiency of the fluid and the cleaning efficiency in the tube by increasing the dispersibility of the fluid in the entire chamber diameter and exhibiting the vortex function at the same time as well as the cleaning function.

In general, the sewage flowing into the water treatment plant, sewage treatment plant or sewage treatment plant contains various microorganisms and bacteria. In the water treatment plant, sewage treatment plant or sewage treatment plant, chemicals are added to sterilize the bacteria, or UV lamps are used. It is installed to disinfect bacteria contained in purified water, sewage, and sewage with ultraviolet rays irradiated from an ultraviolet lamp.

In particular, the tube-type UV disinfection device introduces and discharges the disinfectant material into and out of the tube-type reactor having a certain length to allow the disinfection target material to flow, and includes an ultraviolet lamp and a glass tube (quartz tube) surrounding it. By irradiating ultraviolet rays to the disinfectant material flowing inside the pipe-type reaction tank, the disinfectant material is disinfected. The ultraviolet lamp is installed so as to be perpendicular to the flow direction of the substance to be disinfected, and disinfects the substance to be sterilized by the irradiated ultraviolet rays.

At this time, the ultraviolet rays irradiated through the UV lamp destroy the cell nucleus of the bacteria in the substance to be disinfected, thereby blinking the bacteria, or modifying the DNA to inhibit the proliferation of cells, so that various microorganisms and bacteria can be sterilized in a short period of time. have. When contaminants are attached and adsorbed on the outer circumferential surface of the glass tube by the substance to be disinfected, the transmittance of ultraviolet rays decreases and the disinfection efficiency of the substance to be sterilized decreases. To solve this problem, a wiper ring formed to surround the outer circumferential surface of the glass tube is provided, and a cleaning device that moves in the longitudinal direction in a contact with the outer circumferential surface of the glass tube is provided, thereby performing cleaning by moving the glass tube in the horizontal direction left and right. can do.

As a prior document related to this, the "pipeline type ultraviolet disinfection apparatus using vortex generation" of Korean Patent Registration No. 10-1922404 is disclosed. Herein, a vortex is generated in the flowing sterilization target material to increase the residence time of the sterilization target material in the reaction tank, and thus a pipeline type ultraviolet sterilization device using vortex generation in which disinfection efficiency by ultraviolet rays is increased is disclosed.

Specifically, the ultraviolet disinfection device proposed in this technology includes a tube-shaped reaction tank body disposed horizontally to the ground, an inlet portion disposed at one side in the longitudinal direction of the reaction tank body and into which a substance to be sterilized flows from the top to the bottom, and the A reaction tank disposed on the other side in the longitudinal direction of the reaction tank body and including a discharge unit for discharging a substance to be sterilized from the bottom to the top, a glass tube arranged in a plurality of longitudinal directions inside the reaction tank body, and an ultraviolet lamp provided inside the glass tube. A cleaning unit including a disinfection unit, a central axis fixed to both ends of the reaction tank body to be movable in a longitudinal direction, a cleaning unit including a wiper ring connected to the central axis and formed to be in contact with the outer circumferential surface of the glass tube, and the reaction tank It consists of a baffle that is coupled to the inner circumferential surface in the radial direction of the body to surround the disinfecting unit and the cleaning unit.

However, in the ultraviolet disinfection device in this technology, a plurality of wiper rings are disposed in the longitudinal direction of the reaction tank body, and one baffle is disposed between the wiper rings, so that the structure is too complicated, so that the manufacturing cost is high and maintenance is difficult. Since the number of wiper rings and baffles is composed of a plurality, it takes too long for the disinfectant to pass through, but rather, there is a problem in that the cleaning efficiency is lowered.

In addition, Korean Patent Registration No. 10-1336590 discloses that the inlet chamber and the outlet are connected to the ultraviolet chamber so that the fluid flow path of the ultraviolet sterilizing device has an'L' shape, (E.g.) is formed, and through this, an ultraviolet sterilization device capable of improving the ultraviolet sterilization efficiency of a fluid is disclosed.

In this technology, a plurality of inclined blades inclined at a predetermined angle are provided inside the inlet chamber into which the raw water is introduced, so that vortices and swirling flows are formed during the flow of the fluid, so that the entire flow path has an'L' shape to make contact. We propose a technology that can increase the sterilization efficiency by expanding the area.

However, since the inflow chamber proposed in this technology is configured in a horizontal direction, its structure is significantly different from the inlet part of a general ultraviolet disinfection device, and even if an inclined blade is installed inside it, if the inflow velocity of the fluid is not large, vortex flow, There is a limitation that swirling flow does not occur well, and even if it does, the cleaning efficiency does not increase significantly.

As described above, conventional technologies are in the direction of technology development to increase cleaning efficiency and cleaning power by forming vortices, swirling flows, etc. in the ultraviolet chamber, but there are few showing satisfactory results until now. There was a problem that the possibility of practical application was not great because is too complex.

Korean Patent Registration No. 10-1922404 Korean Patent Registration No. 10-1336590

The present invention has been conceived to solve the above-described conventional problems, and an object of the present invention is to increase cleaning efficiency and cleaning power by forming vortices and swirling flows in an ultraviolet chamber, and to adjust only a simple flow. In addition, it is possible to enhance the cleaning power by forming a vortex according to the difference in water pressure according to the left and right movement of the cleaning device, and by increasing the operating efficiency of the UV disinfection unit by forming a vortex in the stationary state, the utilization efficiency of the device can be increased and the lifespan can be extended It is an object of the present invention to provide an ultraviolet sterilization device that can increase the applicability because the device is relatively simple.

In order to achieve the above object, the present invention

A control panel including an electronic ballast, a disinfectant tank, an ultraviolet sensor, a temperature sensor, and a quartz sleeve and an ultraviolet lamp in the disinfection tank.

Conduit-shaped disinfection tank body, disposed on one side of the body in the longitudinal direction of the disinfection tank body, an inlet through which the disinfectant substance flows from the top to the bottom, and the disinfection tank body disposed on the other side in the longitudinal direction of the disinfection tank body, and discharge through which the disinfection target material is discharged from the bottom to the top A disinfection tank containing wealth;

A disinfection unit including a single or a plurality of glass tubes arranged in a longitudinal direction inside the disinfecting tank body and an ultraviolet lamp provided inside the glass tube; And

And a cleaning unit including a central axis fixed to both ends of the disinfecting tank body so as to be movable in the longitudinal direction, and a plurality of wiper rings connected to the central axis and formed in contact with the outer circumferential surface of the glass tube. ,

The cleaning unit includes a single or a plurality of glass tube inserts radially from the central axis, wherein the glass tube insert includes a single or a plurality of symmetrical blades.

In addition, in one embodiment of the present invention, the cleaning unit is characterized in that the reciprocating movement from the front end to the rear end in the inside of the pipe-shaped disinfection tank body cleans the glass tube.

In addition, in one embodiment of the present invention, when the cleaning unit is stopped at the rear end of the inlet by adjusting the washing motor encoder, the cleaning unit is located at a distance from the inlet of the disinfecting tank directly below the discharging unit toward the discharge unit or at a distance spaced apart from each other at a predetermined interval. It is characterized by that.

In addition, in one embodiment of the present invention, the washing unit is characterized in that water pressure is generated by the blades of the washing unit in the process of moving in the left and right direction, and forms a swirling flow to clean the inside of the pipe and the surface of the glass pipe.

In addition, in one embodiment of the present invention, the cleaning unit is characterized in that the cleaning part is cleaned of the debris adhered to the surface of the glass tube by means of elastic rubber or Teflon with an elastic spring embedded between the inner and outer circumferential surfaces of the wiper ring.

In addition, in one embodiment of the present invention, in order to improve the transmittance of the circular glass tube of the cleaning unit, a quartz circular glass tube having a pure quartz (SiO ₂ ) content of 99% or more is used.

In addition, in one embodiment of the present invention, the glass tube is characterized in that it forms a watertight structure by inserting and fixing elastic rubber or Teflon O-rings with high-strength protective caps on the finish covers of both ends of the disinfectant tank body.

The pipeline-type ultraviolet disinfection device according to the present invention has a blade-type dispersion plate structure when configuring the cleaning unit in the disinfection tank, so that when the fluid moves in the forward direction, cleaning is mainly performed, and when the fluid moves in the reverse direction, the vortex flow, swirling flow, etc. By allowing this to be formed, there is an advantage of increasing the cleaning efficiency of the glass tube and increasing the disinfection efficiency.

In addition, the flow of fluid is obstructed by the cleaning unit of the wing-shaped dispersion plate structure. Accordingly, when the fluid moves inside the pipe, it does not flow only from the bottom, but the fluid rises to the top of the disinfection tank, so that a greater number of glass tubes can participate in the disinfection action. By making it possible, there is an advantage of increasing the operating efficiency of the ultraviolet disinfection unit, increasing the use efficiency of the device and extending the lifespan.

In addition, when the cleaning unit is not operated, the cleaning unit is located directly below the inlet part of the disinfecting tank in the direction of the discharge part or at a predetermined interval to be located near the inlet part. It is possible to form a vortex, and by allowing the washing to proceed by one horizontal movement, the device is relatively simple, and thus the applicability can be increased.

In addition, when the cleaning unit moves in the reverse direction of the fluid flow, large currents may be formed due to the flow obstruction of the fluid by the blade-type dispersion plate, so that the inside of the pipeline can be cleaned of debris, remnants, and deposits. There is an advantage that can further increase the cleaning efficiency of the surface of the glass tube.

1 is a front view showing an ultraviolet disinfection apparatus according to the present invention.
2 is a view showing the cleaning principle in the ultraviolet disinfection apparatus according to the present invention.
3 is a view showing in detail the cleaning unit of the ultraviolet disinfection apparatus according to the present invention.
4 is a side view showing a cleaning unit in a conventional ultraviolet sterilization apparatus.
Figure 5 is a side view showing the cleaning unit of the ultraviolet disinfection apparatus according to the present invention.
6 is a view showing the formation of a vortex in the ultraviolet sterilization apparatus according to the present invention.
7 is a photograph showing a cleaning O-ring embedded in an elastic spring in the ultraviolet sterilization device according to the present invention.
8 is a view showing the overall configuration of the ultraviolet disinfection apparatus according to the present invention.
9 is a view showing in detail the high-strength protective cap 220 in the ultraviolet disinfection device according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of an ultraviolet sterilization apparatus having an airtightness function according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are presented merely as examples, and there may be various embodiments implemented through the spirit of the present invention.

As shown in the drawing, the ultraviolet sterilization device according to the present invention is an ultraviolet sterilization device that irradiates an incoming object (fluid) with ultraviolet rays to sterilize it, a sterilization tank through which fluid is introduced and discharged, and a fluid sterilized by ultraviolet irradiation. And a cleaning unit for cleaning the surface of the glass tube of the disinfection unit to increase sterilization efficiency.

First, as shown in the drawing, the disinfection tank 100 is a disinfecting tank body 110 in a conduit shape, an inlet 120 disposed at one side of the disinfecting tank body in the longitudinal direction, and the disinfecting tank through which substances to be disinfected are introduced from the top to the bottom. It is disposed on the other side of the body in the longitudinal direction and includes a discharge unit 130 for discharging a substance to be disinfected from the bottom to the top.

In addition, the disinfection unit 200 includes a glass tube 210 arranged in a single or multiple lengthwise direction inside the disinfecting tank body 110 and an ultraviolet lamp (not shown) provided inside the glass tube.

The ultraviolet lamp sterilizes bacteria by irradiating ultraviolet rays to the object to be disinfected.

The UV lamp is disposed inside a disinfection tank having an inlet through which the disinfectant is introduced and an outlet through which the disinfected disinfectant is discharged, sterilizes the bacteria of the disinfection object flowing through the inlet, and then discharges it to the outside through the discharge port. .

The disinfectant may be any material that requires sterilization, and is a disinfectant material and contaminants containing bacteria generated in a water treatment plant, a sewage treatment plant, or a sewage treatment plant.

The glass tube 210 is made of a circular tube, and is formed to be transparent.

The genital glass tube is formed in a single or multiple lengthwise direction inside the disinfecting tank body, and is formed horizontally to the left and right to increase the sterilization power by increasing the irradiation time of the internal ultraviolet lamp.

The glass tubes are arranged at regular intervals evenly spaced apart in the radial direction of the disinfecting tank body for uniform contact between the ultraviolet rays and the disinfectant material, and it is preferable that the glass tubes are fixed and arranged at both ends of the disinfecting tank body so as not to damage the UV lamps therein.

In the drawing, it is illustrated that the glass tubes 210 are composed of four, but the glass tubes may be composed of a single or plural number, and may be formed of, for example, 1 to 40.

The glass tube is preferably made of a quartz tube (having a pure quartz content of 99% or more), and preferably has a thickness that does not interfere with the progress of ultraviolet rays and is not damaged when the wiper ring moves left and right.

The glass tube is formed in a quartz sleeve sealing watertight structure made of a high-strength protective cap 220 on both ends of the disinfectant tank body (see FIG. 9), and it is preferable to insert an elastic rubber or Teflon O-ring inside to fix it. At this time, it is preferable that the O-ring is provided with a spring inside so that it always adheres to the contact part of the quartz tube of the O-ring (see Fig. 8).

The ultraviolet lamp is preferably an ultraviolet lamp having an ultraviolet wavelength of 100 to 400 nm to be irradiated, and more specifically, an ultraviolet lamp that irradiates about 200 to 300 nm is preferably used.

The cleaning unit is fixed to both ends of the disinfecting tank body 110 and formed to be movable in the longitudinal direction, and a plurality of wiper rings 320 connected to the central axis and formed to be in contact with the outer circumferential surface of the glass tube. ).

The central axis is located in the radial center of the disinfecting tank body 110 in order to uniformly move the wiper ring 320 formed at the end corresponding to the number of glass tubes 210, and is an assembly of a plurality of wiper rings 320 It is configured to move the formed cleaning unit in the left and right longitudinal direction. To this end, the end of the central shaft is connected to an external motor, and a screw is formed on the outer circumferential surface of the central shaft to pass through the center of the cleaning unit. It is configured to be moved.

The wiper ring 320 is formed to be in contact with the outer circumferential surface of the glass tube 210 and the wiper ring 320 moves in the horizontal direction to the left and right by the central axis 310 connected to the wiper ring. The surface of the glass tube is cleaned with elastic rubber or Teflon provided on the inner circumferential surface to remove contaminants.

In the present invention, the wiper ring 320 is a structure to form a vortex of the influent water to be disinfected by stopping at the rear end of the inlet after a reciprocating motion for washing (stopped at about AA' in the drawing), and a stop position by a washing motor and an encoder. It can be made to stop exactly at. (See Fig. 1 and Fig. 9)

In the present invention, the cleaning unit 300 includes a single or a plurality of glass tube insertion parts radially from the central axis 310, but the glass tube insertion part includes a single or a plurality of symmetrical wing parts 330. .

The wing part 330 may increase the efficiency of use of the glass tube by interfering with the flow of the disinfectant material to allow the disinfectant material to pass through not only the lower glass tube but also the upper glass tube during a fluid flow process.

In addition, when moving in the direction opposite to the flow direction of the substance to be disinfected, a large current can be generated by generating a back pressure, and accordingly, a vortex and a swirling flow can be formed so that a greater dispersing power and cleaning power can be exhibited.

In the present invention, the glass tube insertion unit may be configured as many as the number of the glass tubes, for example, 1 to 40.

The above-described wiper ring 320 is provided on the inner circumferential surface of the glass tube insertion part.

In the present invention, the cleaning unit 300 reciprocates from the front end to the rear end in the inside of the disinfectant tank body 110 in the shape of a pipe and cleans the glass tube. The reciprocating time is usually available once to several times a day, and the number of reciprocations can be adjusted according to the need for cleaning. In the present invention, even in a state where the cleaning unit 300 is stopped at the rear end of the inlet after washing by the formation of a vortex according to the wing portion 330, the debris is not well deposited in the glass tube, so that the number of round trips of the cleaning unit can be reduced. There are also advantages.

In the present invention, when the cleaning unit 300 stops reciprocating without reciprocating, it may be located at a distance from the inlet of the disinfectant tank in the direction of the discharge unit or at a distance separated by a predetermined interval. Can be located in

By stopping at this position, even when the cleaning unit does not move and is stopped, the flowing fluid is obstructed, so a vortex is formed and the fluid is transferred to the top of the glass tube and flows, thereby increasing the use efficiency of the glass tube and disinfection efficiency. Can increase.

In addition, the cleaning unit 300 generates water pressure in the process of reciprocating left and right for cleaning of the glass tube, and forms a swirling flow to remove debris and accumulations inside the tube, and furthermore efficiently clean the surface of the glass tube. Can be washed.

6 is a view showing the formation of a vortex in the ultraviolet sterilization apparatus according to the present invention.

In the present invention, by configuring the cleaning unit with the symmetrical wing as described above to move horizontally to the left and right, the dispersion of the incoming water in the vertical direction is improved, and turbulence is formed by the formation of eddy currents and swirling flows, thereby increasing the cleaning power. There is an advantage that can be performed, and accordingly, the sterilization power can be improved by allowing the glass tube on the upper side, which does not participate well in sterilization in the existing device, to sufficiently participate in the sterilization action. There is also an advantage that can increase the value.

8 is a view showing the overall configuration of the ultraviolet disinfection apparatus according to the present invention.

As shown in Fig. 8, the ultraviolet sterilization apparatus according to the present invention includes a control panel including an electronic ballast, a reactor (sterilization tank), an ultraviolet intensity sensor, a temperature sensor, a quartz sleeve in the reactor (sterilization tank), and an ultraviolet lamp. In addition, it may be configured to include a motor and an encoder.

In the above, the ultraviolet disinfection apparatus according to the present invention has been described in detail with reference to the drawings.

One embodiment of the present invention described above is merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. . Therefore, it will be appreciated that the present invention is not limited to the form mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. In addition, the present invention is to be understood as including the spirit of the present invention as defined by the appended claims and all modifications, equivalents and substitutes within the scope thereof.

100: disinfection tank 110: disinfection tank body
120: inlet 130: discharge
200: disinfection unit 210: glass tube
220: protective cap 300: cleaning unit
310: central axis 320: wiper ring
330: wing part 400: flange

Claims (7)

A control panel including an electronic ballast, a disinfectant tank, an ultraviolet sensor, a temperature sensor, and a quartz sleeve and an ultraviolet lamp in the disinfection tank.
Disinfection tank body in the shape of a pipe, an inlet through which the disinfectant substance flows from the top to the lower side of the body in the longitudinal direction of the disinfection tank body, and the discharge through which the disinfection target material is discharged from the lower side to the upper side of the disinfection tank body A disinfection tank containing wealth;
A disinfection unit including a single or a plurality of glass tubes arranged in a longitudinal direction inside the disinfecting tank body and an ultraviolet lamp provided inside the glass tube; And
And a cleaning unit including a central axis fixed to both ends of the disinfecting tank body to be movable in the longitudinal direction, and a plurality of wiper rings connected to the central axis and formed in contact with the outer circumferential surface of the glass tube. ,
The cleaning unit includes a single or a plurality of glass tube inserts radially from the central axis, wherein the glass tube insert includes a singular or a plurality of symmetrical blades,
The cleaning unit reciprocates from the front end to the rear end of the disinfectant tank body in the shape of the pipe and cleans the glass tube, but in a state that is stopped at the rear end of the inlet part by adjusting the washing motor encoder, from the inlet part of the disinfection tank toward the discharge part. It characterized in that it is located at a distance spaced from the lower part or at a certain interval,
The cleaning unit is characterized in that due to the wing-shaped dispersion plate structure composed of the symmetrical wing portions, cleaning is performed when the fluid moves in the forward direction, and forms vortex and swirling flow when the fluid moves in the reverse direction,
When the cleaning unit stops without reciprocating, the cleaning unit is positioned at a distance from the inlet of the disinfection tank to the discharge unit at a distance from the inlet to the discharge unit at a distance from the inlet to the discharging unit, thereby forming a vortex according to the symmetrical wing unit, so that the cleaning unit is at the rear end of the inlet unit. It is characterized in that the vortex is not deposited in the glass tube even in a state where it is stopped, and it is configured to increase the use efficiency of the glass tube by allowing the fluid to flow to the top of the glass tube even when the cleaning unit is stopped. Tube-type UV disinfection device.
delete delete The method according to claim 1,
A pipeline type ultraviolet sterilization apparatus, characterized in that the washing unit generates water pressure by the washing unit blades in the process of moving in the left and right direction, and forms a swirling flow to clean the inside of the pipeline and the surface of the glass tube.
The method according to claim 1,
A pipe-type ultraviolet sterilization device, characterized in that cleaning the debris adhered to the surface of the glass tube by means of elastic rubber or Teflon with an elastic spring embedded between the inner and outer circumferential surfaces of the wiper ring of the cleaning unit.
The method according to claim 1,
In order to improve the transmittance of the circular glass tube of the _{cleaning unit, a quartz circular glass tube having a pure quartz (SiO 2} ) content of 99% or more is used.
The method according to claim 1,
The glass tube is a tube-type ultraviolet sterilization device, characterized in that the watertight structure is formed by inserting and fixing elastic rubber or Teflon O-rings with high-strength protective caps on the finish covers of both ends of the disinfectant body.

Images