KR101789994B1 - Rapid air-melt and apparatus generating of micro bubbles for water treatment - Google Patents

Abstract

The present invention relates to a rapid air-dissolving and micro-bubble generating device for water treatment, comprising a micro-bubble generator (200) comprising a perforated plate (220) having a plurality of vent holes and an air supply pipe (210) A dissolution tank 100 provided with an inlet 101 for circulating water and an outlet 102 for dissolved water and maintained at a constant pressure by a pressure gauge 103; The circulation water flowing into the dissolution tank 100 may be installed only at the inner rear of the dissolution tank 100 so as to have a force of swirling until the circulation water reaches the outlet 102, A plurality of screw-type vortex generators (300) installed to provide fine bubbles and good air dissolution,
The micro bubble generator 200 includes a base 240 to be fastened to the mounting flange 110 of the dissolving tank 100 so as to be able to move in and out through the mounting hole 111 formed in the wall of the dissolving tank 100, So that the efficiency of air dissolution in all the circulating water passing through the center portion from the rim inside the dissolving tank 100 can be maximized by arranging the air supply pipes 210 at different heights by the air supply pipes 210 having different lengths Thereby reducing maintenance costs and increasing water treatment efficiency.

Description

Technical Field [0001] The present invention relates to a rapid air-dissolving and micro-bubble generating device for water treatment,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rapid air-dissolving and micro-bubble generating device for water treatment, and more particularly, And the air introduced into the dissolving tank is quickly dissolved in the pressurized water to which the vortex rotational force is perfectly applied, thereby maximizing the efficiency of air dissolution. .

Generally, waste water from wastewater, wastewater including various domestic sewage from households and business sites, and various ozone and wastewater from farms and poultry farms that have poultry farms or husbandry are discharged into rivers or buried in land, Contaminated soil and air pollution, these wastewater must be cleaned and discharged through a wastewater treatment system.

The wastewater containing various byproducts generated in the home, business place, industrial site, and livestock farmhouse is mostly processed by a pretreatment process and a first to third process.

The pretreatment process is a physical treatment process. Specifically, it refers to a treatment process in which contaminants, sand, solid matter, and the like are removed by a process in which screen cistern water separation is performed.

The primary treatment process is a chemical treatment process in which neutralization-reaction-agglomeration is performed to precipitate or float, thereby removing sediment or suspended matter.

The secondary treatment process is a biological treatment process, in which activated sludge is carried out, thereby removing the volatile organic substances.

The tertiary treatment process is an advanced treatment process, in which nitrogen and phosphorus removal, adsorption, and filtration are performed, whereby the treatment is advanced.

There is a process of forcibly floating the suspended material in the chemical treatment process during the above-mentioned wastewater treatment process and then removing the suspended material. In order to remove the suspended material from the wastewater, high-pressure air is removed from the wastewater in a stepwise manner It is easy to remove the suspended matters by allowing the suspended solids in the treated water to float together by using the levitation force of the bubbles produced at atmospheric pressure.

In other words, it can be said that the improvement of the treatment efficiency and the shortening of the working time in the water treatment depend on how quickly the air is dissolved in the water.

Prior arts developed for the air dissolution at the time of the water treatment include a rotary vortex type water treatment apparatus using a bubble generator and a Korean registered patent No. 20-0171311 (published on Mar. 15, 2000) No. 10-0927673 (2009.11.20. Announcement) "Dissolved air injection type pressurized flotation tank" has been proposed. (Hereinafter referred to as "prior art"),

In the prior art, an inlet of circulating water having a nozzle portion curved toward one inner wall of the pressure tube is provided at one end of the pressurizing tube so that the circulating water can be vortexed. In the center inner wall of the pressurizing tube through which the vortex circulating water passes A minute bubble generator for supplying fine bubbles by diffusing compressed air supplied from the outside into a perforated plate is provided and the other end of the pressurizing tube is provided with a striking plate for finer bubbles when mixed water containing the minute bubbles is hit, Outlet.

Korean Registered Utility Model No. 20-0171311 (Announcement of Mar. 15, 2000) "Rotating Vortex Type Water Treatment System Using Bubble Generator" Korean Registered Patent No. 10-0927673 (Notice of Nov. 20, 2009) "Dissolved air injection type pressurized flotation tank"

However, since the water treatment apparatus of the prior art has a structure in which water is first vigorously vortexed by the nozzle unit installed at the circulation water inlet of the pressure tube, but gradually weakened while passing through the portion of the micro bubble generator at the rear, There is a problem that the dissolution rate of the air supplied from the generator is lowered.

Further, it is difficult to securely fix the micro-bubble generator on the inner walls of both sides of the pressure tube. This is because the micro-bubble generator can not be repaired or replaced when an abnormality occurs in the micro-bubble generator, There is a problem that the maintenance cost is excessively increased.

In addition, since the perforated plate of the microbubble generator is fixed to the inner wall of both sides of the pressurizing tube, air is dissolved in the circulating water flowing close to the perforated plate, but the circulating water passing through the center of the pressurizing tube is weak in vortexing force There is a problem that the air is not efficiently dissolved due to a distance from the bubble generator.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a circulating water circulating apparatus and a circulating circulating water circulating pump which are constructed so that circulating water pressurized to have a pressure lower than a holding pressure of a dissolving tank To the inner wall edge of the dissolving tank until it reaches the dissolving water outlet while being vortexed, so that the force and the air dissolving in the center of the inner wall of the dissolving tank are satisfactorily passed therethrough to maximize the air dissolution rate. And a bubble generator.

Another object of the present invention is to provide a micro-bubble generator for dissolving air in pressurized water, which can be easily installed inside a dissolution tank, and can easily repair and replace only a micro-bubble generator from a dissolution tank, And to provide a rapid air-dissolving and micro-bubble generating device for water treatment.

In order to achieve the above object, the present invention provides a dissolution tank having an inlet for circulating water and an outlet for dissolved water on both sides, a dissolution tank having a micro bubble generator maintained at a constant pressure by a pressure gauge; And a screw type vortex generator installed in the interior of the dissolution tank so as to have a vortex flow until the circulating water flowing into the dissolving tank reaches the outlet, wherein the minute bubble generator has an air supply pipe So as to be positioned at various heights.

Further, the present invention provides a fine bubble generator which is mounted on a base which is fastened to a mounting flange of a dissolution tank so that the fine bubble generator can be inserted and removed through a mounting hole formed in a wall of a dissolving tank, The micro bubble generator can be easily detached from the dissolving tank and adhered to the tank so that it can be repaired or replaced. Thus, the above-mentioned other object can be achieved effectively.

The present invention is advantageous in that the force to vortify not only the inner wall edge but also the central portion of the dissolving tank until the pressurized circulating water (pressurized water) flowing into the inlet of the dissolving tank reaches the dissolving water outlet, Since the air bubbles are rapidly dissipated at all sites by the installed micro bubble generator, it is possible to maximize the air dissolution rate in a short time, thereby shortening the water treatment time and improving the water treatment effect.

Further, a micro-bubble generator for dissolving air in the pressurized water of the dissolution tank can be easily installed inside the dissolution tank, and if necessary, the micro-bubble generator can be easily taken out from the dissolution tank and can be repaired and replaced. It is possible to reduce the maintenance cost because the workability is good.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view schematically showing the device structure of the present invention. Fig.
2 is a cross-sectional view showing the internal structure of a perforated plate of a microbubble generator to which compressed air of a constant pressure and a predetermined amount is supplied according to the present invention
3A to 3C are views showing a state where fine bubble generators are installed at different heights, angles, and different shapes through installation holes of side walls of the melting tank of the present invention
Figures 4 and 5 are views of embodiments of the apparatus of the present invention showing different structures.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

FIG. 1 is a cross-sectional view schematically showing an apparatus structure of the present invention, and FIG. 2 is a cross-sectional view showing the internal structure of a perforated plate of a microbubble generator to which compressed air of a predetermined amount and a predetermined amount is supplied.

The present invention includes a micro bubble generator 200 including a perforated plate 220 having a plurality of vent holes and an air supply pipe 210 to dissolve air in micro bubbles and circulation water.

An inlet 101 for introducing circulating water is provided at one end of the dissolution tank 100 where the microbubble generator 200 is installed and an outlet 102 for dissolving water is provided at the other end. So that the internal pressure of the dissolution tank 100 and the internal pressure can be maintained at a predetermined pressure.

A feature of the present invention is that only a screw type vortex generator (not shown) is provided only at the inner rear of the dissolving tank 100 so as to have a force vortexed until the circulating water flowing into the inlet 101 of the dissolution tank 100 reaches the outlet 102 300 or two or more vortex generators 300 are provided from the inlet 101 side to the outlet 102 side.

That is, when the circulating water flowing into the inlet 101 of the dissolution tank 100 reaches the screw-type vortex generator 300, the water flows naturally along the screw shape, so that a force that naturally swirls is obtained.

At this time, the vortex generator 300 maximizes the vortex phenomenon of the circulating water because the circulation water flowing into the dissolution tank 100 in the form of a shaftless axial screw has a maximum vortex area so as to vortex with a good rotational force Accordingly, the air of the minute bubbles generated in the minute bubble generator 200 is improved in the rate of dissolving in the circulating water.

The present invention has a mounting flange 110 provided with a mounting hole 111 of a predetermined size on the wall of the melting tank 100 when the fine bubble generator 200 is installed in the melting tank 100, The base 240 is detachably attached to the mounting flange 110 with a fastening bolt or the like and is provided with one or a plurality of air supply pipes 210. The air supply pipe 210 is installed in the air supply pipe 210 of the base 240 The fine bubble generator 200 is formed to be large enough to enter the dissolving tank 100 through the installation hole 111.

The micro bubble generator 200 can be easily installed through the installation hole 111 of the dissolution tank 100 and the mounting flange 110 and the base The micro bubble generator 200 can be easily removed from the dissolving tank 100 and can be repaired or replaced by simply separating the base 240 from the mounting flange 110 by releasing the binding means of the micro bubble generator 240. [ It is easy to install and maintain the generator 200 according to the removal and attachment of the generator 200.

The micro bubble generator 200 may be installed at various heights up to the center of the dissolution tank 100 by using an air supply pipe 210 having different lengths in the base 240. When the micro bubble generator 200 is installed at various heights, all the circulating water passing through the center of the inside of the dissolution tank 100 flows through the micro bubble generator 200 at any position, Can be maximized.

Also, as shown in FIG. 1, the perforated plate 220 provided in the plurality of microbubbles generator 200 may be installed horizontally with respect to the flow direction of the water or may be inclined at an angle. That is, if the height and angle of the perforated plate 220 of the micro-bubble generator 200 are varied with respect to the flow direction of the water, the efficiency of dissolving air in both circulating water passing through the cross-sectional area of the dissolution tank 100 is maximized .

The circulation water flowing into the inlet 101 of the dissolution tank 100 is made of pressurized water pressurized at a high pressure of 5 to 6 kg / cm 2, and the minute bubbles generated in the microbubble generator 200 have a pressure of 1 to 100 microns And the compressed air pressure in the dissolution tank 100 is preferably maintained at a pressure higher than the pressure of the pressurized water of 5 to 6 kg / cm 2.

Then, the pressurized water of 5 to 6 kg / cm < 2 > is vortexed with air particles having a size of 1-100 microns due to the compressed air in the dissolution tank 100 maintaining the higher pressure, The efficiency is improved.

As shown in FIG. 2, on the back surface of the perforated plate 220 forming the micro-bubble generator 200, a ceramic-based or porous plastic-based bubble generating member 230 having a through hole of 1 to 100 microns .

That is, the compressed air generated by the compressors 250, which are high-pressure air compressors, is maintained at a constant pressure by the constant-pressure device 260 while the compressed air is supplied to the perforated plate 220 through the quantitative device 270 When the compressed air is supplied to the bubble generating member 230, a large amount of fine bubbles are generated in the circulating water as it passes through the bubble generating member 230 having a very fine through hole of 1 to 100 microns, The efficiency of dissolving in the circulating water that is swirling is increased.

3A to 3C are views showing a state where fine bubble generators are installed at different heights, angles, and different forms through installation holes of a side wall of a dissolution tank according to the present invention, wherein a perforated plate 220 ) Can be formed into various shapes in various forms.

That is, the shape of the perforated plate 220 may be opposite to the shape of the perforated plate 220 as shown in FIG. 3B, or alternatively, the shape of the perforated plate may be a square hexahedron, a circular sphere, If one is formed, the amount of fine bubbles generated is increased, and the air dissolution rate can be increased.

4 and 5, the fine bubble generator 200 is formed into a cylindrical shape, and the fine bubble generator 200 is formed into a cylindrical shape, As soon as the circulating water is introduced into the cover 120 on the inlet 101 side, fine bubbles generated in large quantities in all four directions of the cylindrical micro bubble generator 200 are easily mixed, and then, So that the dissolution efficiency is increased.

When the fine bubble generator 200 installed on the inlet side cover 120 is installed together with the fine bubble generator 200 installed on the mounting flange 110 of both side walls, the air dissolution efficiency can be further increased.

The inlet 101 of the dissolution tank 100 may further include a nozzle (not shown in the drawing) for circulating the circulating water toward the inner wall of the dissolving tank 100. The nozzle applies the nozzle technology of the prior art mentioned in the above prior art literally.

Then, the vortex flow of the circulating water becomes stronger by the nozzle and the vortex generator 300, and the vortex phenomenon of the circulating water is increased. Thus, the circulating water flows from the moment when the circulating water flows into the dissolution tank 100 to the outlet 102 The phenomenon of vortexing can be maintained very well until reaching the maximum, so that the air dissolution can be maximized.

4 and 5, the dissolution tank 100 is provided with a sight window 140 and an air vent 150. The air vent 150 is configured such that when the air not dissolved in the circulating water remains in the interior of the dissolution tank 100, To be discharged to the outside from time to time.

The present invention is characterized in that all portions of the circulating water passing through the center portion from the edge of the inside of the dissolving tank 100 are uniformly vortexed until reaching the dissolution water outlet 102 from the inlet 101 of the dissolution tank 100, And it is possible to maximize the air dissolution rate in a short time, so that the water treatment effect can be enhanced.

Particularly, the vortex generator 300 provided in the dissolving tank 100 is installed in the form of a shaftless axial screw to give a perfect vortex torque to the circulating water, thereby maximizing vortex efficiency.

The fine bubble generator 200 installed in the dissolution tank 100 is easily detached and attached to the dissolution tank 100 through the mounting hole 111 having a flange. It is possible to reduce the maintenance cost burden.

100: melting tank 101: inlet
102: outlet 103: pressure gauge
110: mounting flange portion 111: mounting hole
120: cover 140:
150: air vent 200: fine bubble generator
210: Air supply pipe 220: Perforated plate
230: bubble generating member 240: base
300: Vortex generator

Claims (10)

In constituting the air dissolution and micro-bubble generating device for water treatment,
A perforated plate 220 having an inlet 101 for the circulating water and an outlet 102 for the dissolved water at both ends and a pressure gauge 103 for maintaining the internal pressure at a constant pressure, A dissolution tank 100 having a micro-bubble generator 200 composed of an air supply pipe 210;
Or only at the inner rear end of the dissolving tank 100 so as to have a force of swirling until the circulating water flowing into the inlet 101 of the dissolving tank 100 reaches the outlet 102, A plurality of screw-type vortex generators (300) installed in at least two positions;
So that the vortex generation by the vortex generator 300 continues until the vortex generator 300 reaches the outlet 102,
The micro bubble generator 200 may be installed at different heights to the center of the dissolution tank 100 by the air supply pipe 210 having different lengths when the micro bubble generator 200 is installed in the dissolution tank 100,
Characterized in that the efficiency of air dissolution is maximized from the rim of the interior of the dissolution tank (100) to all the circulating water passing through the center portion of the dissolution tank (100).
The method according to claim 1,
The wall of the dissolution tank 100 is provided with a mounting flange portion 110 having a mounting hole 111 of a predetermined size,
The base 240, which is detachably attached to the mounting flange portion 110 by a binding means such as a fastening bolt, has one or a plurality of air supply pipes 210,
The fine bubble generator 200 installed in the air supply pipe 210 of the base 240 is formed to be large enough to enter the dissolving tank 100 through the installation hole 111
Characterized in that the micro bubble generator (200) is easily installed and maintained in accordance with the removal and attachment of the micro bubble generator (200).
delete The method according to claim 1,
The circulating water flowing into the inlet 101 of the dissolution tank 100 is pressurized water pressurized at a high pressure of 5 to 6 kg /
Microbubbles generated in the microbubble generator 200 are caused by air particles of 1-100 microns,
The compressed air pressure in the dissolving tank 100 is maintained at a pressure higher than the pressure of the pressurized water flowing into the inlet 101
Wherein the air is dissolved more rapidly in the circulating water. ≪ RTI ID = 0.0 > 15. < / RTI >
The method according to claim 1,
The vortex generator 300 is a non-axial screw type,
The porous bubble generating member 200 is made of a ceramic or porous plastic bubble generating member having a through hole having a size of 1 to 100 microns so as to generate a large amount of minute bubbles when the air passes through a predetermined amount of air. (230)
Characterized in that the eddy current phenomenon and the air dissolution efficiency of the circulating water are increased.
The method according to claim 1,
The perforated plate 220 provided in the plurality of minute bubble generator 200
Wherein the air blowing device is installed at a plurality of angles in a horizontal state and an obliquely inclined state along the water flow direction to maximize the air dissolution efficiency.
The method according to claim 1,
The micro-bubble generator 200 may be formed in any one of a type in which the perforated plate 220 is provided before and after the porous plate 220, a square-hexahedral type or a rounded sphere type
Characterized in that the amount of fine bubbles generated is further increased.
The method according to claim 1,
The dissolving tank 100 is in the form of a tube in which the fastening cover 120 is assembled to the inlet 101 side and the outlet 102 side,
The minute bubble generator 200 is installed in the fastening cover 120 on the side of the inlet 101
Wherein air is dissolved by the fine bubble generator (200) as soon as the circulating water is introduced, and vortex generated by the screw-type vortex generator (300) continues to the outlet (102) Bubble generator.
The method according to claim 1,
A nozzle for vortifying the circulating water toward the inner wall of the dissolving tank 100 is installed at the inlet 101 of the dissolution tank 100
Characterized in that the vortex flow of the circulation water by the nozzles and the screw-type vortex generator (300) increases the air dissolution, thereby maximizing the air dissolution and micro-bubble generation for water treatment.
The method according to claim 1,
In the dissolving tank 100,
Wherein a transparent window 140 for seeing the interior and an air vent 150 for discharging the undissolved air are installed.

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