KR20100044762A - Water sterilization lamp having non power sleeve cleaning unit - Google Patents

Abstract

PURPOSE: A subaqueous ultra violet cleaner apparatus is provided to automatically rotate a pair of bar type brushes for cleaning the outer surface of a glass tube including an ultra violet lamp using flowing water inserted to an inflow pipe. CONSTITUTION: A subaqueous ultra violet cleaner apparatus comprises the following: a sterilizing process pipe(10) in a conduit form; an inflow pipe(210) flowed in with sterilized water; a connection pipe(20) with a smaller diameter than the sterilizing process pipe; an impeller(40) rotating in the water flowed in to the connection pipe; a first processing plate(50) dividing the path of the water; a glass pipe(60) in which an ultra violet lamp(61) installed in the sterilizing process pipe; a glass pipe cleaning unit to clean the outer surface of the glass pipe; a pair of first flanges(80a,80b) connecting the sterilizing process pipe and a discharging pipe(230); a second processing plate(90) discharging the water from the sterilizing process pipe; and a pair of second flanges(100a,100b) connecting the sterilizing process pipe and the connection pipe.

Description

Underwater UV Sterilizer with Non-Powered Glass Tube Cleaning Unit {Water Sterilization Lamp having Non Power Sleeve Cleaning Unit}

The present invention relates to an underwater ultraviolet sterilizer having a non-powered glass tube cleaning unit, and more particularly, flow of flowing water flowing into a pipeline without using power to remove water or foreign substances generated on the outer surface of the glass tube having an ultraviolet lamp. It relates to an underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit that can be washed continuously using.

In general, various sterilization devices are used to kill bacteria existing in water stored in sewage treatment plants or farms.

Among these sterilizers, the UV sterilizer introduces water stored in a sewage treatment plant or aquaculture farm into an inlet tube equipped with an ultraviolet sterilization lamp and sterilizes it using an ultraviolet sterilization lamp, and then sterilizes the sterilized water through a discharge pipe. Discharge to the farm.

Ultraviolet light is a wavelength of 200 ~ 400nm, which is directly adjacent to the violet end of visible light, and invisible light area shorter than visible light damages the cell wall of bacteria, alters cell permeability, plasma colloidal properties, and inhibits enzyme activity. It kills bacteria by damaging the cell's DNA and RNA.

In the sewage treatment plant or aquaculture plant, sewage and waste water with a higher concentration of suspended solids in the treated water than the constant water such as purified water accumulates quickly such as scale on the surface of the sleeve protecting the UV lamp. It is desirable to clean the sleeve surface at 1 hour intervals.

If the washing is left unattended for a long time, the amount of ultraviolet rays irradiated to the microorganisms decreases, causing a steep drop in sterilization efficiency, and the replacement of the sleeve does not occur due to discoloration of the sleeve.

Republic of Korea Patent Publication No. 10-0863695 is an 'underwater cylinder cleaning device to prevent deterioration of the intensity of the lamp by cleaning the foreign material such as the sleeve and the surface surrounding the ultraviolet lamp and ultraviolet ray lamp that operates smoothly underwater Provided is a pipelined ultraviolet sterilizer.

At least one ultraviolet emitter having an ultraviolet lamp and a sleeve surrounding the ultraviolet lamp; A chamber body having a support coupled to the distal end of the ultraviolet emitting part; A ring-shaped wiper which is formed to surround the outer circumferential surface of the sleeve and is coupled to a rectangular O-ring having a rectangular cross-sectional shape which moves on the outer circumferential surface of the sleeve and is in close contact with the outer circumferential surface of the sleeve in a vertical direction; A guide tube arranged in parallel with the ultraviolet emitting part and coupled to the support; A moving block installed inside the guide tube and maintaining an airtight state and moving between one side and the other side by pneumatic or hydraulic pressure; A pair of scrapers are formed to surround the outer circumferential surface of the guide tube and formed at a predetermined interval with a predetermined angle with the outer circumferential surface of the guide tube, and are formed at a predetermined distance from the pair of scrapers and closely adhere to the outer circumferential surface of the guide tube. A cylinder block composed of a pair of spacers formed to be formed so as to be connected to the pair of spacers and moving on an outer circumferential surface of the guide tube according to the movement of the moving block by magnetic force; An underwater cylinder installed inside the ultraviolet chamber; It consists of a wiper ring which is coupled perpendicularly to the cylinder block.

However, the conventional pipe-type UV sterilizer should use pneumatic or hydraulic pressure, and in order to use pneumatic or hydraulic pressure, a separate compressor is required, and this separate compressor cannot be installed in water. Accordingly, when installing a conventional pipeline type ultraviolet sterilizer in water, a compressor for driving the pipeline type ultraviolet sterilizer and a separate space for installing the compressor should be provided, thereby increasing the construction cost and complexity of the driving structure. The ratio of defects increases.

In addition, since the installation location of the conventional pipeline type UV sterilizer is above the ground rather than underwater, the installation period is relatively long, and the construction cost is also increased because the inflow pipe and the discharge pipe must be installed in consideration of the surrounding landscape from underwater to the installation site. It was a significant burden.

An object of the present invention is to solve the problems of the prior art described above, a non-powered glass tube cleaning unit capable of automatically rotating the rod-shaped brush for cleaning the outer surface of the glass tube using the flow of flowing water flowing into the inlet pipe It is to provide an underwater ultraviolet sterilizer having a.

Another object of the present invention is to provide an underwater ultraviolet sterilizer having a non-powered glass tube cleaning unit that can be installed in water stored in a sewage treatment plant or aquaculture farm.

Still another object of the present invention is an underwater UV light having a non-powered glass tube cleaning unit that can be installed in a place such as a pond, a lake, a park, etc., where power is not provided, or in a place where it is difficult to extend and install an inlet pipe and a discharge pipe due to the topographical aesthetics and characteristics. To provide a sterilizer.

In order to achieve the above object, the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to the first preferred embodiment of the present invention,

A sterilization tube 10 having a pipe shape having both sides of an open shape and having a predetermined thickness and length;

It has a diameter relatively smaller than the diameter of the sterilization tube 10, both sides have an open shape, one side is located on one side of the sterilization tube 10, the other side is the inflow of water to be sterilized inflow A connecting pipe 20 connected and fixed to the pipe 210;

An impeller 40 inserted into and installed in the connection pipe 20 and rotating in a predetermined direction by a flow rate of water flowing into the connection pipe 30 connected to the inflow pipe 210;

The first processing plate is installed in the connection pipe 20 connected to the inlet pipe 210, branched path of the water flowing through the inlet pipe 210 and formed to fix the shaft of the impeller 40 ( 50);

A pipe-type glass tube 60 having a structure in which both sides are sealed and having an ultraviolet lamp 61 emitting ultraviolet rays inserted into and installed in the sterilization tube 10 in a longitudinal direction;

One side of the glass tube 60 is inserted and fixed, the shaft is fixed so as to rotate around the axis of the impeller 40, the glass tube cleaning to wash the outer surface of the glass tube 60 by the rotational force of the impeller 40 Unit 70;

A pair of first flanges 80a and 80b assembled to connect and fix the other end of the sterilization tube 10 and the other end of the red yarn 30;

The second processing is installed in the vertical direction inside the red yarn (30) connected through the pair of first flange (80a, 80b), the second processing to branch and discharge the sterilized water from the sterilization tube 10 Plate 90;

The other end of the sterilization tube 10 and the other end of the connection pipe 20 includes a pair of second flanges (100a, 100b) assembled to be connected and fixed to each other.

Here, the glass tube cleaning unit 70,

A brush bar fixing bearing 71 installed inside one side to closely contact an inner diameter of the sterilization tube 10 in contact with the first flanges 80a and 80b;

A straight support bar 72 fixed to the shaft of the impeller 40 and rotated in linkage by the rotation of the impeller 40;

For fixing a pair of brushes extending in a straight line parallel to both ends of the support bar 72 and the housing of the brush bar fixing bearing ring 71 so as to maintain a constant distance from the outer surface of the glass tube 60. Bars 73a and 73b;

A fixed cap 74 fixed to the opposite side of the support bar 72 to which the shaft of the impeller 40 is fixed, and one end of the glass tube 60 inserted and fixed;

An impeller rotating bearing (75) inserted and fixed in a space formed between the support bar (72) and the fixed cap (74) to rotate the support bar (72) to correspond to the rotational force of the impeller (40);

One side is fixed to the brush fixing bar (73a, 73b), the other side includes a pair of bar-shaped brush (76a, 76b) is installed to be in close contact with the outer surface of the glass tube (60).

Underwater ultraviolet disinfection apparatus having a non-powered glass tube cleaning unit according to a second preferred embodiment of the present invention,

Both sides of the open shape, the tube-type sterilization tube 110 having a predetermined thickness and length;

A pair of first flanges (120a, 120b) for assembling the one end and the discharge pipe of the sterilization tube (110) to be connected and fixed to each other;

A pair of second flanges 130a and 130b assembled to be connected and fixed to the other end and the inlet pipe of the sterilization tube 110;

A pipe-type glass tube 140 having a sealed structure at both sides and having an ultraviolet lamp for emitting ultraviolet rays inserted into and installed in the sterilization tube 110 in a longitudinal direction;

At least two or more underwater rotary pulleys (150a, 150b, 150c, 150d) which are formed in a relatively large circle so that the glass tube (140) penetrates an inner center thereof and rotates in one direction about the glass tube (140);

The flow of water flows into the inside of the sterilization tube 110, which is connected and fixed between two underwater rotating pulleys 150b and 150c adjacent to each other among the underwater rotating pulleys 150a, 150b, 150c and 150d. An impeller (160) for rotating the underwater rotary pulley (150a, 150b, 150c, 150d) by one direction;

A glass tube cleaning unit 170 for cleaning the outer surface of the glass tube 140 by the rotational force of the impeller 160;

At least two rows fixed to the outer periphery of the underwater rotary pulleys 150a, 150b, 150c, 150d, and axially fixed to the pair of first flanges 120a, 120b and second flanges 130a, 130b, respectively. Support strings 180a, 180b, 180c, 180d.

Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit according to a third preferred embodiment of the present invention,

A sterilization tube 310 having an open shape on both sides and having a predetermined thickness and length;

A pair of first flanges 320a and 320b for assembling the one end and the discharge tube of the sterilization tube 310 to be connected and fixed to each other;

A pair of second flanges 330a and 330b assembled to be connected and fixed to the other end of the sterilization tube 310 and the inlet tube;

A pipe-type glass tube 340 having a sealed structure at both sides and having an ultraviolet lamp for emitting ultraviolet rays inserted and installed in the sterilization tube 310 in a longitudinal direction;

At least two or more underwater rotary pulleys 350a, 350b, 350c, and 350d which are formed in a relatively large circle so that the glass tube 340 penetrates an inner center thereof and rotates in one direction about the glass tube 340;

A glass tube cleaning unit (370) for cleaning the outer surface of the glass tube (340) by the rotational force of the underwater rotary pulley (350a, 350b, 350c, 350d);

At least two rows fixed to the outer periphery of the underwater rotary pulleys 350a, 350b, 350c, and 350d, and axially fixed to the pair of first flanges 320a, 320b and second flanges 330a, 330b, respectively. Support strings 380a, 380b, 380c, and 380d.

Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit according to the present invention described above is a pair of bar-shaped brush to clean the outer surface of the glass tube having an ultraviolet lamp using the flow of flowing water flowing into the inlet pipe It can rotate automatically.

Therefore, the underwater ultraviolet sterilizer equipped with the non-powered glass tube cleaning unit of the present invention can be installed in water stored in a sewage treatment plant or aquaculture farm, so that the construction period and construction cost can be reduced compared to the prior art while saving the surrounding aesthetics. have.

In addition, compared to the conventional pipe-type UV sterilizer, since a separate compressor for driving the UV sterilizer and a separate space for installing it are not necessary, it is environmentally friendly, and the glass tube is semi-permanently until the life of the UV lamp reaches its end. Can remove foreign substances and bacteria generated outside.

In addition, the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit of the present invention has the advantage that it can be installed in places such as ponds, lakes, parks, or the like and difficult to extend and install the inlet and discharge pipes due to the topography and characteristics.

1 is a perspective view of an underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit according to a first preferred embodiment of the present invention.
Figure 2 is a cross-sectional view of an underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a first preferred embodiment of the present invention.
3 is a perspective view of the glass tube cleaning unit shown in FIG.
4 is a perspective view for explaining a connection state of the pair of flanges shown in FIG.
Fig. 5 is a front view showing the shapes of the first and second working plates shown in Fig. 2, respectively.
Figure 6 is a perspective view showing a part of the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a second preferred embodiment of the present invention.
Figure 7 is a perspective view showing a part of the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a third preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a preferred embodiment of the present invention.

1 is a perspective view of an underwater ultraviolet sterilizer having a non-powered glass tube cleaning unit according to a first preferred embodiment of the present invention, Figure 2 is a number having a non-powered glass tube cleaning unit according to a first preferred embodiment of the present invention Cross sectional view of a medium UV sterilizer.

1 and 2, the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to the first preferred embodiment of the present invention, both sides are open shape, the sterilization of the pipeline having a predetermined thickness and length Process tube 10, and has a diameter relatively smaller than the diameter of the sterilization tube 10, both sides have an open shape, one side is located on one side of the sterilization tube 10, the other side is sterilization treatment The connection pipe 20 connected to and fixed to the inlet pipe 210 into which water to be introduced has a diameter smaller than the diameter of the sterilization pipe 10, and one side is sterilized by the sterilization pipe 10. The discharged water is discharged to the discharge pipe 230 is discharged 230, the other end is inserted and mounted in the inside of the connection pipe 20 and the red yarn 30 located on the other side of the sterilization treatment tube 10, In a predetermined direction by the flow of the flow rate of water flowing into the connecting pipe 30 connected to 210 Is installed in the interior of the rotating impeller 40, the connection pipe 20 connected to the inlet pipe 210, formed to branch the path of the water flowing through the inlet pipe 210 and at the same time to fix the axis of the impeller 40 The first processing plate 50 and the both sides are sealed, the ultraviolet lamp 61 for emitting ultraviolet light is inserted into and installed in the sterilization tube 10 in the longitudinal direction of the pipe-type glass tube 60 ), And one side of the glass tube 60 is inserted and fixed, the shaft is fixed so as to rotate about the axis of the impeller 40, the glass tube cleaning unit for washing the outer surface of the glass tube 60 by the rotational force of the impeller 40 70 and a pair of first assembled using a plurality of bolts 81 and nuts 83 so that the other end of the sterilization tube 10 and the other end of the red yarn 30 are connected and fixed to each other. Perpendicular to the interior of the red yarn 30 connected through the flanges 80a and 80b and the pair of first flanges 80a and 80b; It is installed in the incense, the second processing plate 90 for branching and discharging the sterilized water from the sterilization tube 10, the other end of the sterilization tube 10 and the other end of the connection tube 20 are mutually A pair of second flanges 100a and 100b are assembled using a plurality of bolts 111 and nuts 113 to be connected and fixed.

Here, the glass tube cleaning unit 70, as shown in Figures 2 and 3, the brush bar is installed inside the one side to closely contact the inner diameter of the sterilization tube 10 in contact with the first flange (80a, 80b) The bearing 71 and the straight support bar 72 fixed to the shaft of the impeller 40 and rotated in linkage by the rotation of the impeller 40 are maintained at a constant distance from the outer surface of the glass tube 60. A pair of brush fixing bars 73a and 73b extending parallel to and parallel to both ends of the support bar 72 and the housing of the brush bar fixing bearing 71, and the shaft of the impeller 40 It is fixed to the opposite side of the support bar 72 is fixed, the fixing cap 74 is inserted and fixed to one end of the glass tube 60, and inserted into the space formed between the support bar 72 and the fixing cap 74 and Is fixed, the impeller rotation bearing 75 for rotating the support bar 72 to correspond to the rotational force of the impeller 40, and one side of the Shh is fixed to the fixing bars (73a, 73b) for, the other surface is provided with a rod-shaped brush (76a, 76b) of a pair are installed to be in close contact with the outer surface of the glass tube (60).

Here, it is preferable that the pair of stick-shaped brushes 76a and 76b are made of soft P.P or soft rubber.

In addition, as shown in FIG. 5, the first processing plate 50 is installed at one end of the connection pipe 20 connected to the inflow pipe 210 and is formed to be in close contact with the inner diameter of the connection pipe 20. The outer periphery 51, a plurality of branching teeth 52 formed to branch the inside of the outer periphery 51 with a central portion, and a shaft of the impeller 40 formed at the central portion of the plurality of branching teeth 52. The through hole 53 is provided.

In addition, the second processing plate 90 has a circular outer circumferential portion 91 formed to be in close contact with the inner diameter of the reddish yarn 30, and a plurality of branch teeth 92 formed to branch the inside of the outer circumferential portion 91 to the center portion. ) And a through hole 93 formed at the central portion of the plurality of branched teeth 92 so that the electric wire 63 drawn out from the ultraviolet lamp 61 passes therethrough.

Here, the first processing plate 50 is fixed in the vertical direction inside the connecting pipe 20 through the welding process, the second processing plate 90 also perpendicular to the interior of the red yarn 30 through the welding process Is fixed.

In addition, the support shaft 41 of the impeller 40 is inserted and fixed in the shaft fixing cap 43 inserted and fixed in the through hole 53 of the first processing plate 50, as shown in FIG. do.

In addition, at one end of the connection pipe 20 or the red yarn 30, a waterproof cap for wire inlet is provided to waterproof the wire 63 drawn from the ultraviolet lamp 61 as shown in FIGS. 1 and 2. It is preferable to install.

In the underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit having the configuration as described above, the water introduced through the inlet pipe 210 is fixed to the interior of the connecting pipe 20 in the vertical direction first processing plate 50 Branching through) gives an impact on the wing of the impeller 40.

Therefore, the impeller 40 is rotated in one direction determined by the shape of the wing, the rotational force of the impeller 40 is transmitted to the support bar 72 of the glass tube cleaning unit 70.

The support bar 72 is pivotally supported to be rotatable by the brush bar fixing bearing 71 by the rotational force of the impeller 40 is rotated, and is fixed to both sides of the support bar 72, the sterilization tube ( A pair of brush fixing bars 73a, 73b provided inside 10) rotate in one direction along the outer circumferential surface of the glass tube 60.

As a result, a pair of rod-shaped brushes 76a and 76b are fixed to one side of the pair of brush fixing bars 73a and 73b, so that the outer surface of the glass tube 60 is continuously maintained. Is washed.

The water sterilized through the ultraviolet lamp 10 inserted into and mounted in the glass tube 60 in the sterilization tube 10 is discharged into the water through the red yarn 30 and the discharge tube 230.

The underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit according to the present invention can be installed in the water, its structure is simpler than the conventional, it is operated in an environmentally friendly manner without using power.

Figure 6 is a perspective view showing a part of the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a second preferred embodiment of the present invention.

Referring to FIG. 6, an underwater ultraviolet sterilizer having a non-powered glass tube cleaning unit according to a second preferred embodiment of the present invention has an open shape on both sides thereof and has a predetermined thickness and length of a sterilization tube. 110 and a pair of first flanges 120a and 120b for assembling and fixing one side end and the discharge pipe of the sterilization tube 110 and the other end of the sterilization tube 110 and the inlet pipe are connected to each other. And a pair of second flanges 130a and 130b which are assembled to be fixed and both sides are sealed, and an ultraviolet lamp for emitting ultraviolet rays is inserted into and installed in the sterilization tube 110 in the longitudinal direction. Pipe line glass tube 140 and the glass tube 140 is formed in a relatively large circle to penetrate the inner center, at least two or more underwater rotary pulley 150a, 150b rotated in one direction about the glass tube 140 as an axis 150c, 150d) and underwater It is connected and fixed between two underwater rotating pulleys 150b, 150c adjacent to each other among the pulleys 150a, 150b, 150c, and 150d, and rotates underwater by the flow of water flowing into the sterilization tube 110. An impeller 160 for rotating the pulleys 150a, 150b, 150c, and 150d in one direction, a glass tube cleaning unit 170 for washing the outer surface of the glass tube 140 by the rotational force of the impeller 160, and an underwater rotating pulley At least two or more rows of support lines 180a, which are fixed to the outer circumferential portions of 150a, 150b, 150c, and 150d, and axially fixed to the pair of first flanges 120a and 120b and the second flanges 130a and 130b, respectively. 180b, 180c, 180d).

Here, each underwater rotation pulley is relatively larger than the inner wheel 151 and the inner wheel 151 of a circular inner wheel 151 formed to maintain a predetermined interval on the outer peripheral surface of the glass tube 140, as shown in FIG. A circular outer wheel 152 having a smaller diameter than the tube 110, a plurality of fixing bars 153 connected and fixed to an outer circumference of the inner wheel 151 and an inner circumference of the outer wheel 152, respectively; The bearing 154 is inserted into and fixed to an inner circumferential surface of the outer wheel 152 to rotate the inner wheel 151 in one direction.

In addition, the glass tube cleaning unit 170 includes a pair of brush fixing bars 171 and 172 which extend in parallel and parallel to the inner wheels 151 of the respective submerged pulleys 150a, 150b, 150c and 150d, respectively. One side is fixed to the brush fixing bar (171, 172), respectively, the other side is composed of a pair of bar-shaped brush (173, 174) is installed to be in close contact with the outer surface of the glass tube (140).

Here, the impeller 160 has a plurality of U-shaped wing portions 161 for rotating at least two or more underwater rotary pulleys 150a, 150b, 150c, and 150d in one direction by a flow of inflow water. It is installed to have.

In the underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit having such a configuration, the water introduced through the inlet pipe impacts the wing 161 of the impeller 160.

Therefore, the impeller 160 is rotated in one direction determined by the shape of the blade, the rotational force of the impeller 160 rotates the glass tube cleaning unit 170 connected to the inner wheel 151 in one direction.

At this time, a pair of rod-shaped brushes 173 and 174 fixed to the pair of brush fixing bars 171 and 172 of the glass tube cleaning unit 170 rotate in one direction along the outer circumferential surface of the glass tube 140.

As a result, a pair of rod-shaped brushes 173 and 174 are fixed to one side of the pair of brush fixing bars 171 and 172, so that the outer surface of the glass tube 140 is continuously cleaned.

The underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit according to the present invention is installed in the water, its structure is simpler than the conventional, it is operated in an environmentally friendly manner using a minimum of power.

Figure 7 is a perspective view showing a part of the underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit according to a third preferred embodiment of the present invention.

Referring to FIG. 7, an underwater ultraviolet sterilizer having a non-powered glass tube cleaning unit according to a third preferred embodiment of the present invention has an open shape on both sides thereof and has a predetermined thickness and a length of a sterilization tube having a predetermined thickness and length ( 310 and a pair of first flanges 320a and 320b for assembling and fixing the one end and the discharge pipe of the sterilization tube 310 to each other, and the other end and the inflow pipe of the sterilization tube 310 are connected to each other. And a pair of second flanges 330a and 330b which are assembled to be fixed, and both sides are sealed, and an ultraviolet lamp emitting ultraviolet rays is inserted into and installed in the sterilization tube 310 in the longitudinal direction. The pipe-type glass tube 340 and the glass tube 340 are formed in a relatively large circle so as to pass through the inner center, and at least two or more underwater rotary pulleys 350a and 350b rotated in one direction about the glass tube 340 as an axis. With 350c, 350d) underwater Glass tube cleaning unit 370 for cleaning the outer surface of the glass tube 340 by the rotational force of the pulley (350a, 350b, 350c, 350d) and the outer peripheral portion of the underwater rotary pulley (350a, 350b, 350c, 350d) in turn At least two rows of support lines 380a, 380b, 380c, and 380d are axially fixed to the pair of first flanges 320a and 320b and the second flanges 330a and 330b, respectively.

Here, each underwater rotation pulley is relatively larger than the inner wheel 351 and the inner wheel 351, formed to maintain a predetermined interval on the outer circumferential surface of the glass tube 340, sterilization treatment, as shown in FIG. A circular outer wheel 352 having a relatively smaller diameter than the tube 310 and connected to and fixed to an outer circumference of the inner wheel 351 and an inner circumference of the outer wheel 352, respectively, The impeller 353 is selectively formed to rotate the underwater rotary pulleys 350a, 350b, 350c, and 350d in one direction by the flow of water flowing into the inside, and is inserted and fixed to the inner circumferential surface of the outer wheel 352. It is composed of a bearing 354 for rotating the inner wheel 351 in one direction.

In addition, the glass tube cleaning unit 370 includes a pair of brush fixing bars 371 and 372 extending linearly and parallel to the inner wheels of the respective submerged pulleys 350a, 350b, 350c, and 350d, and one side thereof. It is fixed to the brush fixing bars 371 and 372, respectively, the other side is composed of a pair of bar-shaped brush (373, 374) installed to be in close contact with the outer surface of the glass tube (340).

In addition, the impeller 353 is installed such that a plurality of straight blade pieces 355 for rotating at least two or more underwater rotary pulleys 350a, 350b, 350c, and 350d in one direction by a flow of the flow rate of the inflowing water have a predetermined inclined surface. do.

In the underwater ultraviolet sterilizer equipped with a non-powered glass tube cleaning unit having such a configuration, the water introduced through the inlet pipe impacts the wing piece 355 of the impeller 353.

Therefore, the impeller 353 rotates in one direction determined by the shape of the wing piece, and the rotational force of the impeller 353 rotates the glass tube cleaning unit 370 connected to the inner wheel 351 in one direction.

At this time, the pair of bar brushes 373 and 374 fixed to the pair of brush fixing bars 371 and 372 of the glass tube cleaning unit 370 rotate in one direction along the outer circumferential surface of the glass tube 340.

As a result, a pair of rod-shaped brushes 373 and 374 are fixed to one side of the pair of brush fixing bars 371 and 372, so that the outer surface of the glass tube 340 is continuously cleaned.

10,110,310: sterilization tube
20 connector
30: Redusa
40,160,353: Impeller
50,90: processed plate
60,140,340: Glass Tube
70,170,370: Glass Tube Cleaning Unit
71: Brush bar fixing bearing
72: support bar
73a, 73b, 171,172,371,372: Brush fixing bar
74: fixed cap
75: impeller rotating bearing
76a, 76b, 173,174,373,374: Stick Brush
80a, 80b, 100a, 100b, 120a, 120b, 130a, 130b, 320a, 320b, 330a, 330b: Flange
150a, 150b, 150c, 150d, 350a, 350b, 350c, 350d: Underwater Pulley
180a, 180b, 180c, 180d, 380a, 380b, 380c, 380d: Support String

Claims (12)

A sterilization tube 10 having a pipe shape having both sides of an open shape and having a predetermined thickness and length;
It has a diameter relatively smaller than the diameter of the sterilization tube 10, both sides have an open shape, one side is located on one side of the sterilization tube 10, the other side is the water to be sterilized is introduced A connecting pipe 20 connected and fixed to the inlet pipe 210;
An impeller 40 inserted and mounted in the connection pipe 20 and rotating in a predetermined direction by a flow rate of water flowing into the connection pipe 20 connected to the inflow pipe 210;
The first processing plate is installed in the connection pipe 20 connected to the inlet pipe 210, branched path of the water flowing through the inlet pipe 210 and formed to fix the shaft of the impeller 40 ( 50);
A pipe-type glass tube 60 having a structure in which both sides are sealed and having an ultraviolet lamp 61 emitting ultraviolet rays inserted into and installed in the sterilization tube 10 in a longitudinal direction;
One side of the glass tube 60 is inserted and fixed, the shaft is fixed so as to rotate around the axis of the impeller 40, the glass tube cleaning to wash the outer surface of the glass tube 60 by the rotational force of the impeller 40 Unit 70;
A pair of first flanges 80a and 80b which are assembled such that the other end of the sterilization tube 10 and the other end of the discharge tube 230 are connected and fixed to each other;
The second processing plate is installed in the vertical direction inside the discharge pipe 230 connected through the pair of first flanges (80a, 80b), for branching and discharging the sterilized water from the sterilization pipe 10 90;
Non-powered glass tube cleaning unit, characterized in that it comprises a pair of second flange (100a, 100b) is assembled so that the other end of the sterilization tube 10 and the other end of the connection tube 20 is connected and fixed to each other UV sterilizer for underwater. According to claim 1, wherein the glass tube cleaning unit 70,
A brush bar fixing bearing 71 installed inside one side to closely contact an inner diameter of the sterilization tube 10 in contact with the first flanges 80a and 80b;
A straight support bar 72 fixed to the shaft of the impeller 40 and rotated in linkage by the rotation of the impeller 40;
For fixing a pair of brushes extending in a straight line parallel to both ends of the support bar 72 and the housing of the brush bar fixing bearing ring 71 so as to maintain a constant distance from the outer surface of the glass tube 60. Bars 73a and 73b;
A fixed cap 74 fixed to the opposite side of the support bar 72 to which the shaft of the impeller 40 is fixed, and one end of the glass tube 60 inserted and fixed;
An impeller rotating bearing (75) inserted and fixed in a space formed between the support bar (72) and the fixed cap (74) to rotate the support bar (72) to correspond to the rotational force of the impeller (40);
One side is fixed to the brush fixing bar (73a, 73b), the other side is characterized in that it comprises a pair of bar-shaped brush (76a, 76b) is installed to be in close contact with the outer surface of the glass tube 60 Underwater UV sterilizer with non-powered glass tube cleaning unit. The method of claim 1,
The first processing plate 50,
A circular outer circumferential portion 51 installed at one end of the connection pipe 20 connected to the inflow pipe 210 and formed to be in close contact with the inner diameter of the connection pipe 20;
A plurality of branch teeth 52 formed to branch the inside of the outer circumferential portion 51 about the center portion;
Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit, characterized in that it comprises a through-hole 53 formed to penetrate the shaft of the impeller 40 in the central portion of the plurality of branch flesh (52). The method of claim 1, wherein the second processing plate 90,
A circular outer circumferential portion 91 formed to be in close contact with the inner diameter of the redux yarn 30;
A plurality of branch teeth 92 formed to branch the inside of the outer circumferential portion 91 to the center portion;
Underwater ultraviolet light having a non-powered glass tube cleaning unit, characterized in that it comprises a through-hole 93 formed in the central portion of the plurality of branches 92, the wire 63 drawn from the ultraviolet lamp 61 passes through Sterilizer. Both sides of the open shape, the tube-type sterilization tube 110 having a predetermined thickness and length;
A pair of first flanges (120a, 120b) for assembling the one end and the discharge pipe of the sterilization tube (110) to be connected and fixed to each other;
A pair of second flanges 130a and 130b assembled to be connected and fixed to the other end and the inlet pipe of the sterilization tube 110;
A pipe-type glass tube 140 having a sealed structure at both sides and having an ultraviolet lamp for emitting ultraviolet rays inserted into and installed in the sterilization tube 110 in a longitudinal direction;
At least two or more underwater rotary pulleys (150a, 150b, 150c, 150d) which are formed in a relatively large circle so that the glass tube (140) penetrates an inner center thereof and rotates in one direction about the glass tube (140);
The flow of water flows into the inside of the sterilization tube 110, which is connected and fixed between two underwater rotating pulleys 150b and 150c adjacent to each other among the underwater rotating pulleys 150a, 150b, 150c and 150d. An impeller (160) for rotating the underwater rotary pulley (150a, 150b, 150c, 150d) by one direction;
A glass tube cleaning unit 170 for cleaning the outer surface of the glass tube 140 by the rotational force of the impeller 160;
At least two rows fixed to the outer periphery of the underwater rotary pulleys 150a, 150b, 150c, 150d, and axially fixed to the pair of first flanges 120a, 120b and second flanges 130a, 130b, respectively. Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit, characterized in that it comprises a support string (180a, 180b, 180c, 180d). The method of claim 5, wherein each of the underwater pulley (150a, 150b, 150c, 150d),
A circular inner wheel 151 formed to maintain a predetermined distance from an outer circumferential surface of the glass tube 140;
A circular outer wheel 152 that is larger than the inner wheel 151 and has a diameter relatively smaller than that of the sterilization tube 110;
A plurality of fixing bars 153 connected and fixed to an outer circumference of the inner wheel 151 and an inner circumference of the outer wheel 152, respectively;
Underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit, characterized in that it is inserted and fixed to the inner peripheral surface of the outer wheel (152), the bearing 154 to rotate the inner wheel 151 in one direction. The method of claim 5, wherein the glass tube cleaning unit 170,
A pair of brush fixing bars (171, 172) extending in parallel and parallel to the inner wheels of the respective underwater rotary pulleys (150a, 150b, 150c, 150d);
One side is fixed to the brush fixing bar (171, 172), respectively, the other side is a non-powered glass tube, characterized in that it comprises a pair of rod-shaped brushes (173, 174) are installed to be in close contact with the outer surface of the glass tube 140 Underwater UV sterilizer with cleaning unit. The plurality of U-shaped wings 161 of claim 5, wherein the impeller 160 rotates at least two or more underwater rotary pulleys 150a, 150b, 150c, and 150d in one direction by a flow of water flow. Underwater UV light sterilizer with a non-powered glass tube cleaning unit, characterized in that is installed to have a predetermined slope. A sterilization tube 310 having an open shape on both sides and having a predetermined thickness and length;
A pair of first flanges 320a and 320b for assembling the one end and the discharge tube of the sterilization tube 310 to be connected and fixed to each other;
A pair of second flanges 330a and 330b assembled to be connected and fixed to the other end of the sterilization tube 310 and the inlet tube;
A pipe-type glass tube 340 having a sealed structure at both sides and having an ultraviolet lamp for emitting ultraviolet rays inserted and installed in the sterilization tube 310 in a longitudinal direction;
At least two or more underwater rotary pulleys 350a, 350b, 350c, and 350d which are formed in a relatively large circle so that the glass tube 340 penetrates an inner center thereof and rotates in one direction about the glass tube 340;
A glass tube cleaning unit (370) for cleaning the outer surface of the glass tube (340) by the rotational force of the underwater rotary pulley (350a, 350b, 350c, 350d);
At least two rows fixed to the outer periphery of the underwater rotary pulleys 350a, 350b, 350c, and 350d, and axially fixed to the pair of first flanges 320a, 320b and second flanges 330a, 330b, respectively. Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit, characterized in that it comprises a support line (380a, 380b, 380c, 380d). 10. The method of claim 9, wherein each of the underwater pulleys (350a, 350b, 350c, 350d),
A circular inner wheel 351 formed to maintain a predetermined distance from an outer circumferential surface of the glass tube 340;
A circular outer wheel 352 that is larger than the inner wheel 351 and has a diameter relatively smaller than that of the sterilization tube 310;
It is connected and fixed to the outer circumferential portion of the inner wheel 351 and the inner circumferential portion of the outer wheel 352, respectively, by the flow of the flow rate of the water flowing into the sterilization tube 310, the underwater rotating pulley (350a, 350b, An impeller 353 selectively formed to rotate 350c and 350d in one direction;
Underwater ultraviolet sterilizer with a non-powered glass tube cleaning unit, characterized in that it is inserted and fixed to the inner peripheral surface of the outer wheel 352, the bearing 354 for rotating the inner wheel 351 in one direction. The method of claim 10, wherein the glass tube cleaning unit 370,
A pair of brush fixing bars 371 and 372 extending linearly and parallel to the inner wheels of the respective underwater rotary pulleys 350a, 350b, 350c and 350d, respectively;
One side is fixed to the brush fixing bar (371,372), respectively, the other side is a non-powered glass tube, characterized in that it comprises a pair of bar-shaped brush (373,374) is installed to be in close contact with the outer surface of the glass tube (340) Underwater UV sterilizer with cleaning unit. 11. The method of claim 10, wherein the impeller (353) is a plurality of blade-shaped pieces (355) for rotating at least two or more underwater rotation pulleys (350a, 350b, 350c, 350d) in one direction by the flow of the flow rate of the incoming water Underwater ultraviolet disinfection device having a non-powered glass tube cleaning unit, characterized in that it is installed to have a predetermined slope.

Images