KR101440535B1 - Self-aspirating microbubble generater - Google Patents

Abstract

The present invention relates to a microbubble generator capable of self-suction. In particular, the microbubble generator includes: an impeller including a main body having a plurality of blades formed to protrude downward and a connection hole which penetrates the center of the upper side of the main body; a joining piece which makes the main body of the impeller and a base fixed in close contact with each other; an air supplying pipe provided in a type of a hollow pipe; a motor which rotates the impeller joined with the air supplying pipe by the joining piece and includes a fixing flange protruding from the bottom thereof; and a coupling having air suction holes formed to penetrate and arranged at regular intervals along the circumference of the lower end portion so as to selectively draw in air from the atmosphere.

Description

[0001] Self-aspirating microbubble generator [0002]

More particularly, the present invention relates to a self-priming micro-bubble generator, and more particularly, to a self-priming micro-bubble generator, in which a motor is installed to be disposed in the air, and an impeller is connected to a lower end of an air supply pipe through a connection port, It is possible to implement a bubble generating mechanism and to diffuse and supply fine bubbles discharged by the rotation of the impeller in the direction of 360 degrees and to provide air sucking so that air injection by mechanical forced pressure is not required, It is not necessary to frequently clean or replace essential parts due to deposits of organic materials and metal oxides by installing the motor in the atmosphere so that maintenance can be easily performed and energy efficiency for operation is maximized The present invention relates to a self-priming microbubble generator All.

In general, all water requires sufficient dissolved oxygen as a condition to be cleaned. Therefore, the demand of dissolved oxygen varies depending on the level of pollution degree in each of water, sewage, industrial wastewater, agricultural water, reservoir, lake, river, etc., and here, many kinds of technologies for supplying dissolved oxygen have been developed.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exemplary view showing a bubble generator for generating bubbles containing oxygen according to the prior art; Fig.

As shown in FIG. 1, the pump 10 is installed so as to be submerged below the water surface, sucks and pressurizes water through the suction port 40, and then forcibly feeds the water to the discharge port 50. In order to generate bubbles, The external air introduction pipe 70 is connected to the discharge pipe 60 in a direction substantially perpendicular to the discharge pipe 60 after the discharge pipe 60 is connected to the pump discharge port 50 and the open end of the external air connection pipe 70 is protruded outside the water surface The impeller 20 rotates and sucks the water 30 in the water tank through the pump suction port 40 to discharge the water through the discharge pipe 60. [

Here, when the suctioned water is pressurized and passes through the discharge pipe at a high speed, air is sucked into the discharge pipe from the outside through the external air introduction pipe by the negative pressure formed in the discharge pipe, and the sucked air flows into the flowing water in the form of bubbles It is sprayed with water while mixing.

However, when the essential components such as the motor are placed in water for a long period of time, the bubble generator according to the conventional art as described above frequently deposits (clogging) organic materials and metal oxides, There was a problem that occurred.

Further, since it is required to use a high-voltage motor or the like in order to reduce the number of times of maintenance such as cleaning or replacement of essential parts, energy efficiency for operation is lowered as the installation period is longer.

Therefore, it is not necessary to frequently clean or replace essential parts due to deposits of organic substances and metal oxides by installing motors, which are essential parts, in the atmosphere, thereby making it easy to perform maintenance, It is necessary to study and develop a self-priming micro-bubble generator capable of maximizing the energy efficiency of the micro-bubble generator.

Korean Registered Patent No. 1072569. 2011.10.05. Registration.

In order to solve the above-mentioned problems, the present invention is arranged such that a motor, which is an essential part, is disposed in the air so that frequent cleaning or replacement of essential parts is not required due to deposition of organic materials and metal oxides, And to provide a self-sucking micro-bubble generating device capable of performing self-sucking.

Another object of the present invention is to provide a motor, which is an essential part, to be disposed in the air so that a highly efficient motor is not required unlike the prior art, thereby maximizing energy efficiency for operation.

Further, the technology according to the present invention allows the motor to be installed in the air and to connect the impeller to the lower end of the air supply pipe through the connecting hole so as to be placed in the water, thereby realizing a self-priming fine bubble generating mechanism using the centrifugal centrifugal force. There is a purpose.

In addition, the technique according to the present invention is capable of diffusing and supplying fine bubbles discharged by rotation of the impeller in water in the direction of 360 degrees, and is provided by self-priming so that, unlike the conventional compressor, which is separately required, So that it is not required.

The present invention for achieving the above-mentioned objects is as follows. That is, the self-priming micro-bubble generating device according to the present invention is a self-priming micro-bubble generating device for generating air bubbles in water by sucking air in the atmosphere, A main body having a plurality of vanes protruding downward at regular intervals from a circumferential direction at a position spaced a certain distance from the center of the bottom surface of the plate corresponding to the base is in close contact with the top surface of the plate, ; A lower part of the impeller is inserted through the coupling hole of the impeller and a coupling part is formed on the outer surface of the central part so that the coupling part is in tight contact with the upper surface of the coupling hole on the main body of the impeller, And the plurality of ribs are connected to the side wall at regular intervals in the circumferential direction from the outside of the coupling hole, and the coupling member is fastened and fixed by the through holes formed in the center of the coupling hole and the base of the impeller, A connector for tightly fixing the main body and the base; An air supply pipe provided in a hollow pipe type having a predetermined length in which a lower end portion is connected to an upper end of the connection port; The air supply pipe is rotated in accordance with the rotation of the shaft protruding by a predetermined length so as to be rotatable on the bottom face so as to rotate the impeller connected to the air supply pipe by the connection port, A motor in which a flange protrudes; And an upper end connected to the shaft of the motor and a lower end connected and fixed to an upper end of the air supply pipe to connect the shaft of the motor and the air supply pipe, And a coupling through which an air suction hole is formed to be selectively sucked.

At this time, when the air sucked from the air suction hole and introduced between the inside of the air supply pipe and the rib of the connecting port is pushed out into the water due to centrifugal force generated by the rotational force of the impeller, The impeller is formed to be sloped downward from the outer side of the main body toward the inner side so as to be smaller in area so that the air discharged through the impeller can be supplied and mixed in the form of fine bubbles. desirable.

The coupling has an upper end connected to the shaft of the motor, a lower end connected and fixed to the upper end of the air supply pipe, and a fixing hole formed horizontally through the upper end of the coupling, A screw is formed on the inner surface of the lower end so that a spiral formed on the outer surface of the upper end of the air supply pipe is engaged and the lower end is screwed into the air supply It is good to be connected and fixed to the upper end of the pipe.

The self-priming micro-bubble generating device according to the present invention further includes a floating mounting member such that the motor and the coupling are disposed in the air and can be operated while floating while floating in the water, A mounting frame which is formed in a shape of a flat U shape and through which an installation hole is inserted at the center of the upper surface to insert the shaft of the motor through the installation hole and then fixes the motor to the central portion by the fixing flange; A bearing installed at a center of the bearing frame to allow the outer surface of the air supply pipe to be rotatably installed on the inner side of the bearing, A support frame for supporting the outer surface of the support frame so as to be rotatable, And a motor which is fixedly installed on the air supply pipe and floats to allow the coupling and the motor to be disposed in the air from an upper end of the air supply pipe, An extension support frame for preventing the impeller from coming into contact with the bottom of the water when the water level is lowered, and a support plate connected to the lower end of the extension support frame and having a plate portion with a predetermined area, .

Further, the self-priming micro-bubble generating device according to the present invention further includes a stationary mounting member such that the motor and the coupling are disposed in the atmosphere and can be fixed and operated on the installation wall during use, A horizontal installation piece provided as a mounting angle of a "-shaped" shape, through which a mounting hole is formed on an upper surface thereof to insert the shaft of the motor through the mounting hole, and then the motor is fixedly installed by the fixing flange; And a vertical installation piece that is bent downward from an end of the horizontal installation piece and has a fixing hole penetrating through the fixing hole at a predetermined distance in the vertical direction at a center and is fixed to the fixing wall by the fixing member through the fixing hole.

The impeller is mounted on the main body of the impeller and is fixed to the upper surface of the connecting hole. The impeller is fixed on the upper surface of the coupling hole and the upper surface of the connecting hole, And a diffusion impeller having a plurality of diffusion wings.

At this time, it is preferable that the diffusion wing of the diffusion impeller is provided such that the end thereof protrudes a certain length from the outer end of the impeller, while the diffusion wing is inclined at a predetermined angle with respect to the horizontal.

The effect of the sucking type micro-bubble generating device according to the present invention will be described as follows.

First, since the motor, which is an essential part, is disposed in the air, it is not required to frequently clean or replace essential parts due to deposition of organic materials and metal oxides, and maintenance can be easily performed.

Secondly, by providing a motor, which is a necessary component, in the atmosphere, a high-efficiency motor is not required unlike the prior art, and energy efficiency for operation can be maximized.

Third, the motor is installed to be placed in the air, and the impeller is connected to the bottom of the air supply pipe through the connecting port so as to be placed in the water, so that a self-priming micro-bubble generating mechanism using the axial rotation centrifugal force can be realized.

Fourth, fine bubbles discharged by rotation of the impeller can be diffused and supplied into the water in the 360 degree direction, and it is provided by self-suction so that air injection by mechanical forced pressure may not be required unlike the conventional compressor .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an example of a bubble generator for generating bubbles containing oxygen according to the prior art; Fig.
FIG. 2 is a perspective view illustrating a self-priming micro-bubble generating device according to the present invention. FIG.
3 is a cross-sectional view of a recessed portion showing a self-priming micro-bubble generating device according to the present invention.
FIG. 4 is a view showing a state of use in which the self-priming micro-bubble generating device according to the present invention is applied in a floating manner.
FIG. 5 is a view illustrating a state of use in which the self-priming micro-bubble generating device according to the present invention is fixedly applied.
FIG. 6 is a perspective view illustrating a self-priming micro-bubble generating device according to another embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a self-priming micro-bubble generating device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view illustrating a self-priming micro-bubble generating device according to the present invention, and FIG. 3 is a cross-sectional view illustrating a self-priming micro-bubble generating device according to the present invention.

2 to 3, the self-priming micro-bubble generating device 100 according to the preferred embodiment of the present invention sucks in air in the air to generate micro-bubbles in water, and includes an impeller 110, An air supply pipe 150, a motor 160, and a coupling 170. [

Specifically, the impeller 110 is disposed so as to be slightly submerged below the water surface at the time of installation. The impeller 110 is disposed on the upper surface of the base 111 on a circular plate at a position distant from the center of the bottom surface of the plate 111, The main body 113 having a plurality of blades 114 protruding downward at a predetermined interval from the main body 113 is closely contacted.

At this time, the impeller 110 may be formed with a through hole 115 at the center of the upper surface of the main body 113.

The connecting portion 120 is partially inserted through the connecting hole 115 of the impeller 110 and the connecting piece 121 is protruded from the central portion of the connecting hole 120 so that the connecting piece 121 is connected to the impeller 110, And is fixed to the main body 113 of the impeller 110 through the coupling member 130. The main body 113 of the impeller 110 is fixed to the main body 113 of the main body 113 by means of screws.

At this time, it is preferable that the coupling member 130 is provided as a coupling bolt 131 and a coupling nut 132.

A plurality of ribs 125 are formed at the center of a certain area of the bottom of the connector 120 so that a plurality of ribs 125 from the outside of the fastening holes 123 are connected to the side walls 122 at regular intervals in the circumferential direction. And the coupling member 140 is fastened and fixed to the coupling hole 123 and the through hole 111a formed at the center of the base 111 of the impeller 110 so that the main body 113 of the impeller 110 and the base 111 ).

Here, the fastening member 140 may be provided as a fastening bolt 141 and a fastening nut 142.

Meanwhile, the air supply pipe 150 is provided as a hollow pipe type having a predetermined length, the lower end of which is connected to the upper end of the connection port 120.

The motor 160 is disposed in the air above the water surface when installed and rotates the air supply pipe 150 in accordance with the rotation of the shaft 161 protruding for a predetermined length so as to be rotatable on the bottom surface of the air supply pipe 150, And the impeller 110 connected by the connection port 120 is rotated.

In particular, the motor 160 is preferably formed with a fixing flange 163 protruding from the lower outer side.

The upper end of the coupling 170 is fixedly connected to the shaft 161 of the motor 160 and the lower end of the coupling 170 is connected and fixed to the upper end of the air supply pipe 150, And the air supply pipe 150 are connected to each other.

In particular, the coupling 170 is formed with an air suction hole 171 through which air in the atmosphere is selectively sucked at a predetermined interval along the circumference at a lower end thereof.

The upper end of the coupling 170 is connected and fixed to the shaft 161 of the motor 160 and the lower end of the coupling 170 is fixedly connected to the upper end of the air supply pipe 150, And a fixing pin 180 is inserted and fixed through the fixing hole 173 so that an upper end of the fixing pin 180 is inserted into the shaft 161 of the motor 160 To be connected and fixed.

The plurality of fixing holes 173 may be formed at predetermined intervals in the longitudinal direction of the coupling 170. The fixing pins 180 may be inserted and fixed on the plurality of fixing holes 173, So that the upper end of the coupling 170 can be fixedly installed on the shaft 161 of the motor 160 more stably.

In addition, a helical line is formed on the inner surface of the lower end of the coupling 170, so that a spiral formed on the outer surface of the upper end of the air supply pipe 150 is engaged and the lower end is connected and fixed to the upper end of the air supply pipe 150 Do.

Of course, the lower end of the coupling 170 may be connected and fixed to the air supply pipe 150 by welding.

The self-sucking micro-bubble generating device 100 according to the present invention having the above-described structure is particularly suited to the self-sucking micro-bubble generating device 100 according to the present invention, The air introduced through the ribs 125 of the impeller 110 is pushed out into the water due to centrifugal force generated by the rotational force of the impeller 110, It is important to be finely crushed and supplied and mixed in water in the form of fine bubbles.

Therefore, the blade 114 protruding downward from the bottom surface of the main body 113 of the impeller 110 is formed to be inclined so that the area decreases from the outer side toward the inner side of the main body 113.

2 and 3, the apparatus 100 for generating micro-bubbles according to the present invention may further include a floating mounting member 200 so that the micro-bubble generating apparatus 100 can float and operate on the water .

FIG. 4 is a view illustrating a state of use in which the self-priming micro-bubble generating device according to the present invention is applied in a floating state.

Referring to FIG. 4, in conjunction with FIGS. 2 and 3, the apparatus 100 for generating micro-bubbles according to the present invention is characterized in that the motor 160 and the coupling 170 are disposed in the air, (Not shown).

The floating attachment member 200 includes an attachment frame 210, a support frame 220, a mouthpiece 230, an extension support frame 240, and a support plate 250.

The installation frame 210 has a flat U-shaped upper surface and an installation hole 211 is formed at the center of the upper surface of the installation frame 210 so that the shaft 161 of the motor 160 is inserted through the installation hole 211 And the motor 160 is fixed to the center portion by the fixing flange 163. [0052] As shown in FIG.

The support frame 220 is connected to a lower end of the installation frame 210 and extends a predetermined length to both sides of the upper surface of the installation frame 210. A bearing 221 is installed at the center of the support frame 220, The outer surface of the air supply pipe 150 is rotatably installed inside the air supply pipe 150 so that the outer surface of the air supply pipe 150 is rotatably supported.

The coupler 170 and the motor 160 are connected to the air supply pipe 150 at a predetermined distance from the upper end of the air supply pipe 150, As shown in Fig.

The extended support frame 240 extends downward from the outer end of the support frame 220 by a predetermined length and extends longer than a predetermined length from the lower end of the impeller 110 so that the impeller 110, Is prevented from coming into contact with the floor in the water.

The support plate 250 is connected to the lower end of the extension support frame 240 at a central portion thereof and is provided on a plate having a predetermined area.

In addition, an auxiliary support frame (not shown) may be further provided on the upper side of the support plate 250 to connect between the extended support frames 240.

In the apparatus 100 for submerging micro-bubbles according to the present invention, when the motor 160 is driven first, the impeller 110 is rotated. When the impeller 110 is rotated, 110 are temporarily discharged into the vacuum state, and the low pressure state is maintained.

The air in the atmosphere is supplied from the inside of the coupling 170 through the air supply pipe 150 and the connecting port 120 to the impeller 171 through the air suction hole 171 on the coupling 170, 110).

As described above, the air supplied to the center of the impeller 110 is pushed through the space between the blades 114 of the impeller 110 due to centrifugal force generated by the rotational force of the impeller 110.

At this time, the air escaping through the space between the blades 114 of the impeller 110 is finely crushed and supplied into the water in the form of fine bubbles.

The micro-bubbles can be supplied into the water by the operation of the self-wet type micro-bubble generating device 100 according to the present invention through the process as described above.

2 and 3, the apparatus 100 for generating micro-bubbles according to the present invention includes a stationary mounting member 300 fixed to the mounting wall B or the like so as to be fixedly operated. .

FIG. 5 is a view illustrating a usage state of the self-priming micro-bubble generating device according to the present invention in a fixed state.

Referring to FIG. 5 together with FIGS. 2 and 3, in the apparatus 100 for generating micro-bubbles according to the present invention, when the motor 160 and the coupling 170 are disposed in the atmosphere, And a fixed mounting member 300. The fixed mounting member 300 can be fixed and operated.

Here, the stationary mounting member 300 is provided as a mounting angle of a letter shape, and includes a horizontal mounting piece 310 and a vertical mounting piece 320.

At this time, the horizontal mounting piece 310 has a mounting hole 311 formed on one upper surface thereof to insert the shaft 161 of the motor 160 through the mounting hole 311, and then the motor 160 Is fixedly installed by the fixing flange 163.

The vertical installation piece 320 is bent downward from the other end of the horizontal installation piece 310 and has a fixing hole 321 formed at a predetermined distance in the center in the vertical direction and through the fixing hole 321, And is fixed and fixed to the mounting wall B with a fixing member 400.

The fixing member 400 may include an anchor bolt 410 to be partially embedded in the mounting wall B and an anchor nut 420 to be coupled to an end of the anchor bolt 410. [ will be.

6 is a perspective view illustrating a self-priming micro-bubble generating device according to another embodiment of the present invention.

The embodiment shown in FIG. 6 differs from the embodiment described with reference to FIGS. 2 and 3 only in that a diffusion impeller 190 is additionally provided. .

6, the self-priming micro-bubble generating device according to another embodiment of the present invention is fixedly installed between the coupling piece 121 and the upper surface of the coupling hole formed on the main body 113 of the impeller 110, A diffusion impeller 190 having a plurality of diffusion vanes 195 at regular intervals in the circumferential direction along a periphery of a fixed base 191 on a hollow disk fixedly provided between the coupling piece 121 and the upper surface of the coupling hole .

At this time, the diffusion wing 195 of the diffusion impeller 190 is provided such that its end portion protrudes a certain length from the outer end of the impeller 110, and is preferably inclined at a predetermined angle with respect to the horizontal direction.

Since the diffusion impeller 190 as described above is further provided, the fine bubbles supplied to the water through the impeller 110 can be smoothly diffused in water, and thus, the minute bubbles can be widely diffused and supplied into the water It will be.

According to the apparatus 100 for generating micro-bubbles according to the present invention as described above, since the motor 160, which is an essential component of the micro-bubble generator, is disposed in the air, It is not required to frequently clean or replace the battery. Thus, maintenance can be easily performed.

In addition, by providing a motor, which is an essential component of the fine bubble generator, to be disposed in the air, a high efficiency motor is not required unlike the prior art, thereby maximizing energy efficiency for operation.

4 or 5 can be selectively applied to the floating type or fixed type by further including the floating type fixing member 200 or the fixed type installation member 300 described with reference to FIGS. 2 and 3.

The air in the air is sucked through the air suction holes 171 by the rotation of the impeller 110 as the motor 160 is driven to pass air between the blades 114 of the impeller 110, It is possible to supply dissolved oxygen to the water to be used for treatment of wastewater, wastewater treatment, water purification of rivers and lakes, oxygen supply, and food hygiene industry.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

100: Micro bubble generator
110: impeller 111: base
111a: through hole 113: main body
114: wing 115: connecting ball
120: Connector 121:
122: side wall 123: fastening hole
125: rib 130:
140: fastening member 150: air supply pipe
160: motor 161: shaft
163: Fixing flange 170: Coupling
171: Air intake hole 173: Fixed hole
180: Fixing pin
190: Spreading impeller
191: stationary base 195: spreading wing
200: Floating mounting member
210: installation frame 211: installation hole
220: support frame 221: bearing
230: bulb 240: extended support frame
250: Support plate
300: Fixed mounting member
310: Horizontal installation part 311: Installation part
320: Vertical mounting piece 321: Fixing hole
400: Fixing member
B: Installation wall

Claims (7)

The air bubble is generated in the air by sucking air in the air and generating minute bubbles in the water. The air bubbles are generated in the water by a predetermined distance from the center of the bottom surface of the base 111, A main body 113 having a plurality of blades 114 protruding downward at a predetermined distance from the circumferential direction is closely attached to the main body 113 and a connecting hole 115 is formed through the center of the top surface of the main body 113 110); A part of the lower part of the impeller 110 is inserted through the connection hole 115 of the impeller 110 and a coupling part 121 is formed on the outer surface of the central part so that the coupling part 121 is connected to the main body 113 of the impeller 110 And is fastened to the upper surface of the hole 115 and is fixedly coupled to the main body 113 of the impeller 110 through the coupling member 130. A coupling hole 123 is formed at the center of a certain area of the bottom, A plurality of ribs are connected to the side wall 122 at regular intervals in the circumferential direction from the outside and the through holes 111a formed in the center of the coupling holes 123 and the base 111 of the impeller 110 form fastening members 140 (120) for tightly fixing the main body (113) of the impeller (110) to the base (111); An air supply pipe (150) provided in a hollow pipe type having a predetermined length, the lower end of which is connected to the upper end of the connection port (120); The air supply pipe 150 is rotated in accordance with the rotation of the shaft 161 protruding by a predetermined length so as to be rotatable on the bottom surface of the air supply pipe 150 and the connection port 120 A motor 160 rotatably supporting the impeller 110 connected to the lower end of the impeller 110 and having a fixing flange 163 protruding from the lower side; And the upper end of the air supply pipe 150 is connected and fixed to the shaft 161 of the motor 160 and the lower end of the air supply pipe 150 is connected and fixed to the upper end of the air supply pipe 150, And a coupling 170 through which an air suction hole 171 for selectively sucking air in the atmosphere is formed through the lower end of the coupling 170 at regular intervals along the circumference of the air suction hole 171, ,
The air sucked from the air suction hole 171 and introduced between the inside of the air supply pipe 150 and the rib 125 of the connecting hole 120 is discharged to the outside through the centrifugal force generated by the rotational force of the impeller 110 The main body 113 of the impeller 110 is formed so that the air discharged through the wings 114 of the impeller 110 can be finely crushed and mixed in water in the form of fine bubbles. Wherein the wing (114) formed to protrude downward from the bottom surface is inclined so that an area becomes smaller toward the inside from the outside of the main body (113).
delete The method according to claim 1,
The upper end of the coupling 170 is fixedly connected to the shaft 161 of the motor 160 and the lower end of the coupling 170 is connected and fixed to the upper end of the air supply pipe 150,
A fixing hole 173 is formed in the upper end portion of the motor 160 to penetrate through the shaft 161 of the motor 160 and the fixing pin 180 is inserted and fixed through the fixing hole 173, Is fixedly connected to the shaft 161 of the motor 160,
Wherein a spiral line is formed on the inner surface of the lower end portion, and a spiral formed on the outer surface of the upper end of the air supply pipe (150) is engaged to fix the lower end portion thereof to the upper end portion of the air supply pipe (150).
The method according to claim 1 or 3,
And a floating mounting member 200 so that the motor 160 and the coupling 170 can be placed in the air and used while floating in the water,
The floating mounting member 200 has a flat U-shaped upper surface and an installation hole 211 is formed at the center of the upper surface so that the shaft 161 of the motor 160 is inserted through the installation hole 211 An installation frame 210 for fixing the motor 160 to the central portion by the fixing flange 163,
A bearing 221 is installed at the center of the installation frame 210 and extends to a predetermined length on both sides of the upper surface of the installation frame 210. The air supply pipe A support frame 220 rotatably supporting an outer surface of the air supply pipe 150 and supporting the outer surface of the air supply pipe 150 rotatably,
The air supply pipe 150 is fixedly installed at a predetermined interval along the circumference of the mounting frame 210 so as to float the coupling 170 and the motor 160 from the upper end of the air supply pipe 150, 230,
The impeller 110 is extended downward from the outer end of the support frame 220 by a predetermined length longer than the lower end of the impeller 110 to prevent the impeller 110 from coming into contact with the bottom of the water The elongated support frame 240 and
And a support plate (250) connected to the lower end of the extension support frame (240) at a central portion thereof and having a plate shape having a predetermined area.
The method according to claim 1 or 3,
The stationary mounting member 300 may further include the motor 160 and the coupling 170 so that the motor 160 and the coupling 170 may be disposed in the air and fixed and operable to the mounting wall B,
The stationary mounting member 300 is provided with a mounting angle of a letter A. The mounting hole 311 is formed on one side of the stationary mounting member 300 and is connected to the shaft 161 of the motor 160 through the mounting hole 311. [ A horizontal mounting piece 310 for fixing the motor 160 by the fixing flange 163 after being inserted,
A fixing hole 321 is formed through the fixing hole 321 so as to be bent downward from the other end of the horizontal mounting piece 310 at a predetermined distance in the vertical direction and fixed to the fixing member 321 through the fixing hole 321 And a vertical installation piece (320) fixedly installed on the base (400).
The method according to claim 1,
And is fixed between the coupling piece 121 and the upper surface of the coupling hole 115 formed on the main body 113 of the impeller 110 and between the coupling piece 121 and the upper surface of the coupling hole 115 Further comprising a diffusion impeller (190) having a plurality of diffusion vanes (195) arranged at regular intervals in the circumferential direction along a fixed base (191) on a fixed hollow disk. Device.
The method according to claim 6,
The diffusion wing (195) of the diffusion impeller (190) is provided such that its end portion protrudes a certain length longer than the outer end of the impeller (110), and is sloped at a predetermined angle with respect to the horizontal direction. Bubble generator.

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