KR101163971B1 - Aeration device for water treatment - Google Patents

Abstract

PURPOSE: A micro-bubble generator for improving the quality of water is provided to purify precipitated foreign materials by dissolving air in water and increasing dissolved oxygen in the water. CONSTITUTION: A micro-bubble generator includes a main body(10), a plurality of perforated blades(20), and an air supplying pipe. The perforated blades generate micro-bubbles. The perforated blades include housings(20A), shafts(21), fixed bases(22), and a plurality of perforated plates(23). The housings are installed at the main body. The shafts are installed at the center of the housings. The fixed bases are fixed to the shafts. The perforated plates radially installed to the fixed bases.

Description

[0002] Aeration Device for Water Treatment [

The present invention relates to a micro-bubble generator for improving water quality, and more particularly, to a micro-bubble generator for improving water quality, which is installed in a facility such as a wastewater treatment plant or a fish farm, floats foreign matters settled in the underwater floor to improve purification efficiency, To a micro-bubble generator for improving water quality.

Aeration systems are usually installed to improve water quality, such as wastewater treatment plants and farms, or to increase the amount of dissolved oxygen in the water where it needs to be maintained.

The aeration system consists largely of an air supply device and a fine bubble generator. Even if air is supplied through the air supply device, relatively large air bubbles are not fused into water unless the micro bubbles are generated through the micro bubble generator, So that the efficiency of increasing the amount of dissolved oxygen in the water is significantly lowered.

Therefore, it is most important for the aeration system to supply fine air bubbles at the same time as air is supplied to the water, and to maintain such fine bubbles for a long time.

As a conventional technology of an aeration system installed for this purpose, there is a registered patent No. 605036 (water purification aeration system).

1, a water inlet duct 100 having a water inlet disposed in the water, a first water pipe 110 connected to the water inlet duct 100, A plurality of second water pipes 120 connected to the water pipes 110 and a pump 130 for flowing water in the water through the water inlet duct 100 and the first water pipes 110 and the second water pipes 120 An air inlet duct 200 having an air inlet disposed in the air, a first air pipe 210 connected to the air inlet duct 200, and a second air pipe 210 disposed adjacent to the water outlet of the second water pipe 120 And a plurality of second air pipes 220 having an air outlet and connected to the first air pipe 110 so that the pressure difference between the air inlet of the air inlet duct 200 and the air outlet of the second air pipe 220 And the water discharged from the first water pipe 110 is uniformly discharged into the plurality of second water pipes 120 The first water pipe 110 and the second water pipes 120 are disposed between the first water pipe 110 and the second water pipes 120 so that the water introduced into the first water pipe 110 and the second water pipes 120 can be temporarily And a first water pressure balance tank 300 capable of storing water.

The technique of this document is to produce air bubbles by discharging air and water in the air together to improve the quality of water. In this case, the efficiency of generating fine bubbles is low because only air is discharged at high pressure together with water, In addition, even if minute bubbles are generated, they easily aggregate with surrounding bubbles and become large bubbles. As a result, there is a problem in that efficiency is low to increase the amount of dissolved oxygen.

Accordingly, a micro-bubble generating device for generating micro-bubbles may be additionally provided at a discharge port through which air is discharged. In this micro-bubble generating device, a plurality of fine pores are formed on the surface of a plate or a cylinder, The micro bubbles are generated.

However, such a micro-bubble generating device can easily become a large air bubble after air and water are discharged to the outside through a plate formed with a perforated plate, and then they can be easily combined with surrounding air bubbles, As a result, even if a micro-bubble generator is installed, the problem of not maintaining the micro-bubble state for a long time as in the prior art is intact.

Therefore, it is difficult to achieve the purpose of generating and supplying micro-bubbles to increase the amount of dissolved oxygen. Thus, the effect of improving the water quality in the wastewater treatment plant is insufficient, and problems such as suffocation can not do it.

In addition, there is also a problem that the quality of the water quality may deteriorate even if the quality of the water is improved because the foreign substances precipitated on the water floor are not removed or decomposed.

In order to solve such a problem, a regeneration utility model No. 441265 (bubble oxygen supply device for aquaculture apparatus) is disclosed. As shown in FIG. 2, The air introduced through the suction pipe 420 by the water to be discharged is sucked by the pressure difference and mixed with the discharged water to form bubbles and is blown out through the blower pipe 430.

However, the technique of the above document is merely to discharge fine bubbles farther away by discharging water and air at high pressure together.

Therefore, even if the minute bubbles are distantly discharged, the minute bubbles can be easily bundled with larger bubbles during discharge, and thus the problems of the prior art can not be solved.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a method for improving the quality of water, which can improve the quality of water and increase the amount of dissolved oxygen, And an object of the present invention is to provide a bubble generator.

It is another object of the present invention to provide a micro-bubble generator for improving the quality of water, which can purify foreign substances such as sludge and foreign matter precipitated on the floor.

According to another aspect of the present invention, there is provided a micro-bubble generating apparatus including a main body having upper and lower openings; A plurality of perforated blades installed in the main body to generate minute bubbles; A piercing blade for supplying air into the main body, the piercing blade comprising: a housing installed in the main body; A shaft installed at the center of the housing; A fixed base fixed to the shaft; And a plurality of perforated plates radially provided on the fixed base.

At this time, the shaft has a vertical length, a plurality of fixing bases are installed on the shaft, and the plurality of the perforated plates installed on the fixed base are arranged so that the positions of the upper and lower perforated plates are shifted from each other .

The body may be formed with a through hole penetrating the body vertically, and a plurality of side through holes connected to the through hole may be formed in a lower portion of the body.

Meanwhile, one end of the air supply unit may be provided with a spray nozzle for spraying air supplied into the main body at a high speed, and a blower for supplying air to the main body may be installed. .

According to the present invention, a plurality of perforated blades of a perforated plate are arranged so as to be shifted from each other so that air supplied into the water passes through the perforations of the perforated plate to form minute bubbles, So that the fine bubbles can be continuously maintained, and as a result, the air is easily dissolved in water and the amount of dissolved oxygen is increased.

The water around the main body is sucked into the main body through the side through holes of the main body by the pressure of the air supplied to the inside of the main body, so that the water can be forcibly flowed. In addition, foreign substances precipitated in the surrounding sludge and sludge They flow together and float along with the water, and as a result, the precipitated foreign matter can be purified and the water quality is improved.

1 and 2 are diagrams showing an example of a conventional aeration system,
3 is a perspective view showing an example of a micro-bubble generating device for improving water quality according to the present invention,
Figure 4 is an exploded perspective view of Figure 3,
5 is a cross-sectional view illustrating an example in which a body and a piercing blade according to the present invention are combined,
6 is a plan view showing an example in which the perforated blades of the perforated plate according to the present invention are shifted,
7 is a perspective view and a cross-sectional view showing an example of a feeder according to the present invention,
8 is a use state diagram showing an example of use of a micro-bubble generating device for improving water quality according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a micro-bubble generating apparatus for improving water quality, which is installed on a water floor and generates micro-bubbles while supplying external air into water. The micro-bubble generating apparatus includes a main body 10, a piercing blade 20 And a gas engine 30.

The body 10 is formed in a cylindrical shape as shown in FIG. 3. A through hole 11 is formed through the body 10 so that the upper and lower surfaces thereof are opened upward and downward. A through hole 11 is formed in a lower side surface of the body 10, A plurality of side through holes 12 are formed so as to communicate with each other.

Such a body 10 has a length in the vertical direction, and minute air bubbles are naturally generated while the air bubbles are being raised by supplying the outside air into the through holes 11 in the body, and the state is continuously maintained It is preferable to have a length up and down.

As shown in FIG. 4, the piercing blade 20 installed inside the main body 10 and generating fine bubbles has a length in the vertical direction and is installed in the main body 10 and has a plurality of projections B formed on the inner surface thereof Shaped housing 20A, a shaft 21 provided at the center of the housing 20A, a fixed base 22 fixed to the shaft 21, and a plurality of And a perforated plate (23).

The plurality of pier plates 23 provided on the fixed base 22 are disposed such that the positions of the pier plates 23 located on the upper and lower sides of the housing 20A are different from each other .

The shaft 21 may be rotatably installed to facilitate a person skilled in the art. For this purpose, a separate driving means for rotating the shaft 21 may be provided, or may be naturally rotated by the air supplied to the shaft 21 .

As a result, as shown in FIG. 6, the perforated plate 23 provided in a plurality of layers is radially connected, so that the bubble passes through the perforation 23A of the perforated plate 23.

Also, a plurality of grooves 23B may be formed on the side surface of the perforated plate 23. The area of contact with the bubbles is enlarged by the grooves 23B, thereby improving the efficiency of making bubbles into fine bubbles.

The bubbles rising along the outer surface of the housing 20A are struck through the bosses B formed on the inner surface of the housing 20A to form fine bubbles and a concave groove is formed on the bottom surface of the baffle 23 Further, it is possible to further improve the efficiency of making micro-bubbles by forming them in a wavy shape.

Meanwhile, the perforated blades 20 of the present invention are arranged to be shifted from each other and are naturally rotated by air bubbles which are supplied to the lower portion of the main body 10 and floated, thereby generating vortex of water.

As a result, minute bubbles are generated and vortexes are generated in the water, so that the minute bubbles are more likely to be dissolved in water. In addition, the sediment and sludge in the bottom of the water float more easily and higherly and the purification efficiency of water is improved.

As shown in FIG. 7, the air supply unit 30, which is connected to the inside of the main body 10 and supplies the outside air on the surface of the water, is provided at one end thereof with an injection nozzle 31 ) May be provided.

In this case, the air is rapidly discharged into the main body 10, so that the bubbles float at high speed, and as a result, the perforated plate 20 is more easily rotated by the bubbles.

8, an air blower 40 for supplying outside air to the air supply / discharge unit 30 is provided at the upper portion of the air supply unit 30. By supplying the outside air to the blower unit 40, And flocculation of sludge and sediment in the bottom of the water float to improve purification efficiency.

8, when the main body 10 is installed on the underwater floor in an upright position and external air is supplied to the air supply unit 30 through the blower 40 installed on the water surface, The bubble is rotated rapidly while the bubble floats rapidly inside the bubble generator 10 and at the same time the bubble passes through the bore 23A of the pore plate 23 to become fine bubbles, And passes through the perforation 23A of the other perforated plate 23 to maintain the fine bubble state.

Therefore, the present invention maintains the air bubbles for a long time in the water supplied to the water, and at the same time, the float pressure of the air to be supplied allows the contaminants around the bottom of the water to float together.

10: Body 11: Through-hole
12: side through hole 20: perforated blade
20A: housing 21: shaft
22: fixed base 23: perforated plate
23A: perforation 23B: groove
30: air supply tube 31: injection nozzle
40: blower B: projection

Claims (5)

A main body 10 having upper and lower openings;
A plurality of piercing blades (20) installed inside the main body (10) and generating minute bubbles;
(30) for supplying air into the main body (10)
The piercing blade (20) includes a housing (20A) installed in the main body (10); A shaft 21 installed at the center of the housing 20A; A fixed base (22) fixed to the shaft (21); And a plurality of perforated plates (23) radially installed on the fixed base (22)
The shaft 21 has a vertical length and a plurality of fixing bases 22 are provided on the shaft 21 as upper and lower layers. The plurality of the perforated plates 23 provided on the fixing base 22 are vertically And the side perforated plates (23) are disposed so as to be shifted from each other.
delete The method according to claim 1,
The main body 10 is formed with a through hole 11 penetrating up and down inside and a plurality of side through holes 12 connected to the through hole 11 is formed at a lower portion of the main body 10 Wherein said microbubble generator is a microbubble generator for improving water quality.
The method according to claim 1,
And a spray nozzle (31) for spraying air supplied into the main body (10) at a high speed is provided at one end of the air supply duct (30).
The method according to claim 1 or 4,
Wherein the air supply unit (30) is provided with a blower (40) for supplying air to the main body (10).

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