KR200494191Y1 - Bubble Generator for Water Treatment System - Google Patents

Abstract

The present invention relates to a bubble generator of a water treatment device that generates microbubbles by supplying compressed air to circulating water so that substances lighter than water among foreign substances contained in wastewater can be removed by floating to the upper part of the treatment tank,
A mixing and coagulation tank 40 and a pressure flotation tank in a water treatment device including a mixing and coagulation tank 40 for coagulating foreign substances in wastewater using the injected chemicals and a pressure flotation tank 50 for flotation and removal of foreign substances contained in wastewater In the bubble generator of a water treatment device for supplying saturated water containing a large amount of microbubbles to the bubble tank 60 between a bubbler body 10 having a saturated water outlet 12 through which saturated water is discharged so as to supply saturated water to the tank 60; a plurality of microbubble permeable membranes 15 installed inside the bubble generator body 10 so that compressed air is discharged in the form of microbubbles; a check valve 14 provided between the compressed air supply pipe 13 and the microbubble permeable membrane 15 to block the compressed air from flowing backward; The pressure of the compressed air supplied through the compressed air supply pipe 13 and the pressure of the circulating water introduced through the circulating water inlet 11 and the compressed air supply pipe to control the flow rate of the compressed air supplied to the microbubble permeable membrane 15 . (13) a control panel (20) for displaying the flow rate of compressed air passing through; characterized in that it includes.

Description

Bubble Generator for Water Treatment System

The present invention relates to a bubble generator of a water treatment device, and more specifically, by supplying compressed air to the circulating water from the discharge tank so that substances lighter than water among foreign substances contained in the wastewater can be floated to the upper part of the treatment tank and removed. It relates to a bubble generator of a water treatment device to generate bubbles.

In general, sewage and wastewater including domestic sewage are discharged from homes and business places, and various types of sewage and wastewater (hereinafter referred to as 'wastewater') are also discharged from factories and livestock farms of various industrial sites. When such wastewater is discharged as it is in a river, etc., it not only causes water pollution but also acts as a cause of soil and air pollution. Therefore, wastewater discharged from homes, business places, factories, and livestock farms must be discharged after purification through a water treatment device.

As a water treatment system for treating wastewater, there is a water treatment device including a floatation tank, a sedimentation tank, an oil-water separator, and the like. Here, the flotation tank removes substances lighter than water by floating to the upper part of the treatment tank among foreign substances contained in the wastewater, and the settling tank removes substances heavier than water by precipitating the materials heavier than water in the wastewater to the lower part of the treatment tank, and the oil-water separator is the wastewater It is separated from water by using the self-levitation force of a substance lighter than water (naturally floating), such as oil, among the substances contained in it.

However, in the conventional water treatment system, there is often no blocking plate inside the wastewater treatment tank, and the wastewater introduced into the inside through the wastewater inlet simply flows in the horizontal direction in the wastewater treatment tank and floats foreign substances. Therefore, the sludge contained in the wastewater As the flotation efficiency of the flotation equipment is significantly reduced, the wastewater treatment function is not high, such as the amount of collected sludge is insignificant. There is a problem with consumption.

Furthermore, the flotation tank provided in the conventional water treatment device includes a nozzle injection type micro bubble generator and a nozzle clogging to a bubble generator that introduces circulating water and air to generate air saturated water at high pressure so as to generate bubbles for levitating foreign substances. There is a problem in that it is necessary to provide a strainer installed in the circulating water inlet system to prevent it.

On the other hand, as a result of investigating the prior art related to the present invention, a number of patent documents were searched, and some of them are introduced as follows.

Patent Document 1 is a circulation having a nozzle portion formed on one side of the end to vortex the circulating water flowing into the upper side of the pressurizing tube by locating the covers on both sides of the pipe-type pressurizing tube and combining them with a coupling means. A water inlet is provided, and a mixed water outlet capable of discharging the circulating water in which the bubbles are dissolved is provided on the other side, and a microbubble generator made of a perforated plate is built in the inner side walls of the pressure tube to supply air bubbles, The microbubble generator draws out the tube to the outside so that compressed air can be supplied from the air supply means, and on the cover on the side of the mixed water outlet, a striking plate bent so that the vortexed circulating water can collide with the mixed water A pressure gauge is installed through the cover on the side of the circulating water inlet so that the dissolved bubbles can be made finer and the pressure inside the pressurized tube can be sensed, so that air can be supplied at a pressure suitable for the circulating water flowing in, and on the opposite side The cover connects the safety valve tube to the inside of the pressurized tube, and a release valve is provided in the safety valve tube to release the undisassembled air. Disclosed is a rotary vortex water treatment device using a bubble generator capable of supplying dissolved air.

Patent Document 2 discloses an auxiliary flotation tank in which raw water with flocs is introduced through a raw water inlet pipe and dissolved air circulating water flows in through a circulating water inlet pipe to induce the flocs of the raw water to float, and flotation is induced in the auxiliary flotation tank. a pressurizing flotation tank having a scum removal device provided at an upper portion for removing the flocs and including a main flotation tank for discharging the treated water from which the flocs are removed from the raw water through a treated water discharge pipe; a pressure pump provided to circulate a portion of the treated water discharged to the treated water discharge pipe as circulating water; an air compressor that supplies compressed air; a dissolved air circulating water generator for mixing the circulating water supplied from the pressurization pump with the compressed air supplied from the air compressor to generate dissolved air circulating water in which air is dissolved in the circulating water; a circulating water discharge pipe for transferring the dissolved air circulating water supplied from the dissolved air circulating water generator to the circulating water inlet pipe; a circulation water distribution pipe which is horizontally provided long inside the auxiliary floating tank to distribute the dissolved air circulating water introduced into the circulation water inlet pipe to the auxiliary floating tank; an injection nozzle which is provided at intervals along the longitudinal direction of the circulation water distribution pipe so that the dissolved air circulating water of the circulation water distribution pipe is sprayed into the auxiliary floating tank; Doedoe rotatably supported inside the injection nozzle, a plurality of rotary blades having an inclined surface are radially formed, and a rotation plate provided rotatably with the flow of dissolved air circulating water passing between the rotary blades to the inclined surface; a vibration rubber plate provided inside the injection nozzle and having a cut-out groove in the center so that the dissolved air circulating water passes; a friction plate provided inside the injection nozzle and positioned between the rotating plate and the vibration rubber plate and having a hollow diameter smaller than the inner diameter of the injection nozzle so that the dissolved air circulating water passes; Disclosed is a dissolved air injection type pressurized flotation tank, which is characterized in that it comprises a .

Patent Document 3 discloses that, in a wastewater treatment device comprising one or more water flow distribution panels having a plurality of holes therein to constitute a wastewater treatment tank, a plurality of vertical guide plates having a wave shape in cross section are vertically erected. A vertical space flow guide unit is installed between the water flow distribution panels, and a water flow control tank equipped with a waste water outlet is installed at the inner rear of the waste water treatment tank in isolation, and the upper plate (bottom plate) of the water flow control tank is opened and closed by a valve for water flow control. By installing a pipe so that the water flow flows upwardly into the water flow control tank, a bulkhead is installed in front of the water flow control tank to stop the flow of water and guide the water flow down the water flow control pipe. By changing the flow of the water current into a wide and even spatial flow up and down and slowing the flow rate of the water flow, it is possible to maximize the efficiency of floating foreign substances by securing sufficient time for levitation of foreign substances. Disclosed is a vertical guide plate-type pressurized flotation tank using the space flow of the water flow of the wastewater treatment device, which can further enhance the flotation effect of foreign substances because it is easy to control the water level inside the wastewater treatment tank.

Patent Document 4 discloses a dissolved air circulating water generator for a pressurized flotation tank for mixing circulating water supplied from a pressurization pump with compressed air supplied from an air compressor to generate dissolved air circulating water in which air is dissolved in the circulating water, A pressure tube sealed with covers provided on both sides, a microbubble supplier provided in the longitudinal center of the pressure tube to receive compressed air from the air compressor and supply microbubbles to the inside of the pressure tube, and the pressure tube A circulation water inlet pipe for a pressurized tube provided on one side and into which the circulating water flows into the pressurized tube, a circulating water outlet pipe provided on the other side of the pressurized tube through which dissolved air circulating water flows out of the pressurized tube, and a circulation for the pressurized tube A nozzle for forming a vortex that is provided at the inner end of the pressure tube of the water inlet pipe, the nozzle hole is formed toward the side to form a vortex, and is provided in the vertical direction on one side of the pressure tube, the lower end is located inside the pressure tube, the upper end A water level control tube positioned outside the pressure tube, and a buoyancy material stopper for water level control positioned at the lower end of the water level control tube to seal or open the lower end of the water level control tube by rising or falling by buoyancy; Disclosed is a dissolved air circulating water generator and a pressurized flotation tank, which are provided on the pressure tube and include a stopper guide member for guiding the vertical movement of the buoyancy material stopper for adjusting the water level.

Patent Document 5, a housing formed by dividing the inside into a wastewater inlet tank and a floating separation tank; The multi-stage type first, second, and third distribution units are installed on one wall of the wastewater inlet tank with the wastewater inlet in a gradually wide area to distribute and supply the influent water widely; a water flow distribution fixing plate having a plurality of dispersion holes provided at regular intervals and fixedly installed on the boundary line between the wastewater inlet tank and the floating separation tank; a water flow distribution movable plate that slides up and down on the water flow distribution fixed plate and has a distribution hole that coincides with the distribution hole; Bubble and floating sludge collector for collecting bubbles and floating sludge from the upper part of the housing; an outlet pipe for easily regulating the amount and pressure of the effluent supplied from the floating separation tank to the wastewater discharge tank with a valve; It is connected between the wastewater inlet tank and the flotation tank, and consists of a circulation line that pressurizes external air to the outlet water of the flotation tank with a high-pressure pump and sends it to the wastewater inlet tank; Disclosed is a water-distributed pressurized flotation tank that maximizes the flotation efficiency of floating objects by allowing distribution and flow rate to be appropriately controlled, and can be installed as a compact facility to save installation space as much as possible.

US 20-0171311 Y1 US 10-0927673 B1 US 10-2012-0068327 A US 10-1200290 B1 US 10-1455180 B1

The present invention has been devised to solve the problems of the prior art, and by allowing compressed air to pass through the microbubble permeable membrane and mix with the circulating water, the size of the bubbles is reduced and the air saturation rate of the circulating water is improved, thereby levitating foreign substances. An object of the present invention is to provide a bubble generator for a water treatment device that increases the speed and treatment efficiency, and enables treatment with a small amount of circulating water to reduce the size of the floating tank.

The present invention for achieving the above object is a mixing and coagulation tank that aggregates colloidal foreign substances contained in wastewater using the injected chemicals and a pressurized flotation tank that levitates and removes foreign substances contained in wastewater using the buoyancy force of air bubbles. In the bubble generator of a water treatment device for supplying saturated water containing a large amount of microbubbles to a bubble tank provided between the mixing and coagulation tank and the pressure flotation tank in a water treatment device comprising: a bubble generator body having a saturated water outlet through which saturated water is discharged so as to supply saturated water to the lower portion; a plurality of microbubble permeable membranes installed inside the bubble generator body so that compressed air supplied through the compressed air supply pipe is discharged in the form of microbubbles; a check valve provided between the compressed air supply pipe and the microbubble permeable membrane to block the compressed air from flowing backward; To control the flow rate of compressed air supplied to the microbubble permeable membrane, the pressure of the compressed air supplied through the compressed air supply pipe, the pressure of the circulating water introduced through the circulating water inlet, and the compressed air passing through the compressed air supply pipe It characterized in that it includes; a control panel for displaying the flow rate of.

In addition, according to the bubble generator of the water treatment apparatus of the present invention, both ends of the microbubble permeable membrane are fixed by the permeable membrane support members respectively installed on the cover plate of the bubbler body and arranged in the horizontal direction on the bubbler body. characterized.

In addition, according to the bubble generator of the water treatment device of the present invention, the size of the microbubbles passing through the microbubble permeable membrane is 30~70㎛, and the air saturation rate of the saturated water discharged through the saturated water outlet is 0.8~0.9% characterized by being.

In addition, according to the bubble generator of the water treatment device of the present invention, the control panel includes an air pressure gauge for displaying the pressure of compressed air supplied to the microbubble permeable membrane; a plurality of flow meters indicating the flow rate of compressed air supplied to each microbubble permeable membrane; and a circulating water pressure gauge indicating the pressure of circulating water flowing into the circulating water inlet.

In addition, according to the bubble generator of the water treatment device of the present invention, a regulator for constantly adjusting the pressure of compressed air discharged from the air compressor and supplied through the compressed air supply pipe, and the compressed air is provided in the compressed air supply pipe and supplied to the regulator A plurality of valves for controlling air, a compressed air distribution pipe provided on the downstream side of the regulator to distribute compressed air to a plurality of microbubble permeable membranes, and a plurality of compressed air supply pipes can control the amount of compressed air supplied It is characterized in that it further comprises a shut-off valve provided between each compressed air supply pipe and the compressed air distribution pipe so that.

In addition, according to the bubble generator of the water treatment device of the present invention, the mixing and coagulation tank includes a mixing tank equipped with a stirrer so that the chemicals supplied by the chemical pump from the chemical tank are evenly mixed, and foreign substances contained in wastewater mixed in the mixing tank. It is characterized in that it comprises a first coagulation tank and a second coagulation tank having a stirrer to react with the chemical to form a precipitate.

In addition, according to the bubble generator of the water treatment device of the present invention, the pressurized flotation tank includes a sludge removal unit equipped with a floating sludge removal device on the upper portion to remove the floating sludge floating on the water by the bubbles, and the treated water from which the floating sludge is removed is discharged. and a water collecting pipe communicating the sludge removal unit and the lower side of the discharge unit, a water level adjusting device is provided at the upper portion of the discharge unit, and the circulating water can be supplied to the bubbler body at the lower portion of the discharge unit It is characterized in that the circulating water pipe provided with the circulating water supply pump is connected so that the circulating water supply pump is connected.

The bubble generator of the water treatment device of the present invention is a PAB (Packed Air Bleed) type, and the air saturation rate of the circulating water is as high as 0.8~0.9%, so water treatment is possible even with a small amount of circulating water, and the size of the bubbles is 30~70㎛ It is very fine and has a high collision effect with flocs, so it is adsorbed in a large amount to the floating sludge, so the flotation force is very good, the water treatment efficiency is high, and the water treatment time is greatly shortened to about 10-20 seconds.

And, according to the bubble generator of the water treatment device of the present invention, since the water treatment area load is 140ℓ/m2·min and the efficiency is high, the size of the pressurized flotation tank including the bubble tank can be reduced, thereby reducing the installation area.

In addition, according to the bubble generator of the water treatment device of the present invention, it is possible to check the ratio between circulating water and compressed air through the air pressure gauge, purified water pressure gauge, and flow meter provided in the control panel and control it using a shut-off valve. However, there is an effect of being able to quickly respond to changes in driving conditions.

In addition, according to the bubble generator of the water treatment device of the present invention, the water treatment process can be automated by automating the shut-off valve and interlocking it with the control panel, so that the operation is easy.

In addition, according to the bubble generator of the water treatment device of the present invention, the amount of circulating water is reduced due to the high air saturation rate of the saturated water supplied to the bubble tank, so the capacity of the circulating water pressurizing pump is reduced, thereby driving the circulating water pressurizing pump It has the effect of reducing the power loss for

1 is a block diagram of a water treatment device to which a bubble generator according to the present invention is applied.
Figure 2 is a block diagram showing a bubble generator of the water treatment device according to the present invention.
3 is a cross-sectional view of the bubble generator body according to the present invention.
4 is a left side view and a right side view of the bubble generator body according to the present invention.

Hereinafter, the bubble generator of the water treatment apparatus of the present invention will be described with reference to the accompanying drawings.

For explaining a preferred embodiment of the present invention, FIG. 1 is a configuration diagram of a water treatment device to which a bubbler according to the present invention is applied, and FIG. 2 is a configuration diagram showing a bubbler of a water treatment device according to the present invention, FIG. 3 is a cross-sectional view of the bubbler body according to the present invention, Figure 4 is a left side view and a right side view of the bubbler body according to the present invention.

As shown in FIG. 1, the bubble generator of the water treatment device of the present invention is included in the wastewater by using the mixing and coagulation tank 40 for coagulating colloidal foreign substances contained in the wastewater using the injected chemicals and the buoyancy force of the bubbles. It is applied to a water treatment device including a pressurized flotation tank 50 to levitate and remove foreign substances, and microbubbles can A large amount of saturated water will be supplied.

Specifically, as shown in FIGS. 2 to 4, the bubble generator of the water treatment device of the present invention includes a bubble generator body 10, a microbubble permeable membrane 15, a compressed air supply pipe 13, and a check valve 14. and a control panel 20 .

The bubble generator body 10 is formed in a substantially cylindrical shape, and cover plates 10a and 10b are respectively coupled to both ends in the longitudinal direction, and the discharge portion of the pressurizing buoyancy tank 50 is provided at one end in the longitudinal direction ( 52) is provided with a circulating water inlet 11 so that circulating water flows in, and a saturated water outlet 12 through which saturated water is discharged so as to supply saturated water to the lower portion of the bubble tank 60 is provided at the other end in the longitudinal direction. .

The microbubble permeable membrane 15 is installed inside the bubbler body 10 so that the compressed air supplied through the compressed air supply pipe 13 is discharged in the form of microbubbles, the bubbler body 10 It is preferable that three are installed in the At this time, both ends of the microbubble permeable membrane 15 are fixed by permeable membrane support members 15 ′ respectively installed on the cover plates 10a and 10b of the bubbler body 10 , and the bubble generator body ( 10) is placed in the horizontal direction. Here, the size of the microbubbles passing through the microbubble permeable membrane 15 is preferably 30 to 70 μm, and the air saturation rate of the saturated water discharged through the saturated water outlet 12 is 0.8 to 0.9%. it is preferable

The compressed air supply pipe 13 is for supplying compressed air to each microbubble permeable membrane 15 , and blocks the compressed air from flowing back between the compressed air supply pipe 13 and the microbubble permeable membrane 15 . A check valve 14 is provided.

And, the control panel 20 is to control the flow rate of the compressed air respectively supplied to the plurality of microbubble permeable membranes 15, the pressure of the compressed air supplied through the compressed air supply pipe 13 and The pressure of the circulating water introduced through the circulating water inlet 11 and the flow rate of the compressed air passing through the compressed air supply pipe 13 are displayed. To this end, the control panel 20 includes an air pressure gauge 21 indicating the pressure of compressed air supplied to the microbubble permeable membrane 15; a plurality of flow meters 22 indicating the flow rate of compressed air supplied to each microbubble permeable membrane 15; It includes a;

And, a regulator 35 for constantly adjusting the pressure of compressed air discharged from the air compressor 30 and supplied through the compressed air supply pipe 31, and the compressed air supply pipe 31, the regulator 35 A plurality of valves 32 controlling the compressed air supplied to the It may further include a shut-off valve 34 provided between each compressed air supply pipe 13 and the compressed air distribution pipe 33 so as to control the amount of compressed air supplied to the compressed air supply pipe 13 .

On the other hand, the mixing and coagulation tank 40 is a mixing tank 41 having a stirrer 41' so that the chemicals supplied by the chemical pump 46 from the chemical tank 45 are evenly mixed, as shown in FIG. 1 . ) and a first coagulation tank 42 and a second coagulation tank having agitators 42' and 43' to react with the chemicals mixed in the mixing tank 41 with foreign substances contained in the wastewater to form a precipitate. (43).

In addition, the pressurized floating tank 50 includes a sludge removal unit 51 provided with a floating sludge removal device 53 on the upper portion to remove the floating sludge floating on the water by air bubbles, and the treated water from which the floating sludge is removed is discharged. It includes a discharge unit 52 and a water collecting pipe 56 connecting the sludge removal unit 51 and the lower side of the discharge unit 52 to each other. At this time, a water level control device 54 is provided at the upper portion of the discharge unit 52 , and a circulation water supply pump 55 is provided at a lower portion of the discharge unit 52 to supply circulating water to the bubble generator body 10 . ) is connected to the circulating water pipe.

The bubble generator of the water treatment device of the present invention configured as described above does not use a nozzle for generation of bubbles, but uses a PAB (Packed Air Bleed) method to generate fine bubbles while the compressed air passes through the fine bubble permeable membrane. By significantly increasing the amount of generated water while reducing the size, it is possible to increase the air saturation rate of purified water, improve water treatment efficiency, shorten water treatment time, and reduce the capacity and power of the circulating water pressurization pump by reducing the flow rate of circulating water. make it possible

Although described and illustrated in relation to several embodiments for illustrating the technical idea of the present invention as described above, the present invention is not limited to the configuration and operation as described above, and the technical aspects described in the description and claims of the present invention Those skilled in the art will understand that many changes and modifications can be made to the present invention without departing from the scope of the spirit. Accordingly, all such suitable changes and modifications and equivalents should be considered to fall within the scope of the present invention.

10...Bubble generator body 11...Circulating water inlet
12...Saturated water outlet 13...Compressed air supply pipe
14...Check valve 15...Microbubble permeable membrane
20...control unit 21...air pressure gauge
22... Flowmeter 23. Circulating water pressure gauge
30...air compressor 31...compressed air supply pipe
32...Compressed air distribution pipe 34...Shutoff valve
35...Regulator 40...Agglomeration tank
41...mixing group 42...first coagulation group
43...Second coagulation tank 41', 42', 43'...Agitator
45...Chemical tank 46...Chemical pump
50...Pressure flotation tank 51...Sludge removal unit
52...discharge unit 53...floating sludge removal device
54..Water level control device 55...Circulating water pressurized pump
56...sump pipe 60...bubble tank

Claims (7)

Water treatment including a mixing and coagulation tank 40 for coagulating colloidal foreign substances contained in wastewater using the injected chemicals and a pressurizing flotation tank 50 for flotation and removal of foreign substances contained in wastewater using the buoyancy force of air bubbles In the bubble generator of a water treatment device that supplies saturated water containing a large amount of microbubbles to the bubble tank 60 provided between the mixing and coagulation tank 40 and the pressure flotation tank 50 in the device,
The bubbler body is provided with a circulating water inlet 11 through which circulating water is introduced from the pressurization flotation tank 50 and a saturated water outlet 12 through which saturated water is discharged so as to supply saturated water to the lower portion of the bubble tank 60 . (10);
It is installed inside the bubbler body 10 so that compressed air supplied through the compressed air supply pipe 13 is discharged in the form of microbubbles, and both ends of the cover plates 10a and 10b of the bubbler body 10 are ) a plurality of microbubble permeable membranes 15 fixed by a permeable membrane support member 15' respectively installed in the bubble generator body 10 and arranged in a horizontal direction;
a check valve 14 provided between the compressed air supply pipe 13 and the microbubble permeable membrane 15 to block the compressed air from flowing backward;
The pressure of the compressed air supplied through the compressed air supply pipe 13 and the pressure of the circulating water introduced through the circulating water inlet 11 to control the flow rate of the compressed air supplied to the microbubble permeable membrane 15 and An air pressure gauge 21 that displays the flow rate of compressed air passing through the compressed air supply pipe 13 and displays the pressure of compressed air supplied to the microbubble permeable membrane 15, and each microbubble permeable membrane 15 ) A control panel 20 including a plurality of flow meters 22 indicating the flow rate of compressed air supplied to the );
a regulator 35 for constantly adjusting the pressure of compressed air discharged from the air compressor 30 and supplied through the compressed air supply pipe 31;
a plurality of valves 32 provided in the compressed air supply pipe 31 to control the compressed air supplied to the regulator 35;
a compressed air distribution pipe 33 provided on a downstream side of the regulator to distribute compressed air to a plurality of microbubble permeable membranes 15; and
A shut-off valve 34 provided between each compressed air supply pipe 13 and the compressed air distribution pipe 33 so as to control the amount of compressed air supplied to the plurality of compressed air supply pipes 13 .
including,
The size of the microbubbles passing through the microbubble permeable membrane 15 is 30 to 70 μm, and the air saturation rate of the saturated water discharged through the saturated water outlet 12 is 0.8 to 0.9%,
The mixing and coagulation tank 40 includes a mixing tank 41 having a stirrer 41' so that the chemicals supplied by the chemical pump 46 from the chemical tank 45 are evenly mixed, and the foreign substances contained in the wastewater. and a first coagulation tank 42 and a second coagulation tank 43 having stirrers 42' and 43' to react with the chemicals mixed in the mixing tank 41 to form a precipitate,
The pressurized floating tank 50 includes a sludge removal unit 51 provided with a floating sludge removal device 53 on the upper portion to remove the floating sludge floating on the water by air bubbles, and a discharge unit from which the treated water from which the floating sludge is removed is discharged. (52) and a water collecting pipe (56) for communicating the sludge removal unit (51) and the lower side of the discharge unit (52), and a water level adjusting device (54) is provided at the upper portion of the discharge unit (52) and a circulating water pipe equipped with a circulating water supply pump 55 is connected to a lower portion of the discharge unit 52 to supply circulating water to the bubble generator body 10 . .
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