KR20150000238A - Module type diffuser - Google Patents

Abstract

The present invention relates to a module type diffuser, which easily supplies microbubbles and coarse bubbles without an extra driving device even though required air amounts increase. The diffuser includes a body which has an opening part on the upper part and accordingly discharges air supplied from outside to the opening part; and a blade box whose upper part and lower part are opened and which is mutually connected to the opening part of the body and divides air bubbles rising supplied from the body, discharging the same to upper part. In the present invention, a plurality of blades are arranged on the inside of the blade box.

Description

Module type diffuser

The present invention relates to a module-type anaerobic apparatus in which the function of an air cleaning apparatus of a membrane and an apparatus for supplying oxygen to microorganisms is combined in a membrane biological reactor using a high concentration microorganism equipped with a separation membrane. More specifically, The present invention relates to a modular air diffuser capable of simultaneously supplying minute bubbles and coarse bubbles even when the amount of air required is increased.

Among the most commonly used sewage treatment methods, there are biological treatment methods. In the biological treatment method, the inflow water is introduced into the aerobic tank through the primary settling tank, the oxygen dissolved in the aerobic tank is removed by using microorganisms, and then the microorganisms are settled in the settling tank Only the upper water is discharged. At this time, the microorganism concentration in the aerobic tank affects sewage treatment efficiency, and the higher the concentration, the higher the treatment efficiency. However, the sedimentation property in the downstream process becomes poor in sedimentation property of microorganisms, making it difficult to separate the treated water and microorganisms from the sedimentation tank. Therefore, in recent years, in order to increase the treatment efficiency, a sewage treatment process for discharging treated water by installing a membrane on a high concentration of microorganisms has been widely used. An air cleaning device of the membrane is needed to reduce the clogging of the pores of the separation membrane while separating and discharging microorganisms and treated water by using the separation membrane.

In the sewage treatment process in which the conventional separation membrane is installed, an air supply device for supplying dissolved oxygen to the microorganisms and an air supply device for reducing the clogging phenomenon at the time of discharging the treated water through the separation membrane are required. Because of the different sizes, different types of diffuser have been used. Although microbubbles are required to efficiently supply sufficient amount of dissolved oxygen required for the activity of the microorganisms, continuous air cleaning of the membrane surface using coarse bubbles is required to reduce clogging of the micropores in the membrane. Accordingly, a sewage treatment process using a high concentration microorganism equipped with a separation membrane has been required to have a larger amount of blowing power than a conventional activated sludge process for membrane cleaning and oxygen supply to microorganisms.

Therefore, it is necessary to develop a modular anaerobic device capable of simultaneous washing of membranes and oxygen supply of microorganisms in a sewage treatment process using a high concentration microorganism equipped with a separation membrane.

Korean Patent Publication No. 10-2004-0072775 (Publication No.) 2004.08.19

It is another object of the present invention to provide a modular air diffuser capable of simultaneously generating fine bubbles and coarse bubbles to supply oxygen to microorganisms and a separator air cleaning function without requiring a separate driving device. have.

It is also an object of the present invention to provide a modular air diffuser capable of easily supplying fine bubbles and coarse bubbles according to a required amount of gas.

The present invention relates to an air conditioner, comprising: a body having an opening formed at an upper portion thereof and through which air supplied from the outside is discharged to the opening; And a blade box coupled to the upper and lower openings to communicate with the opening of the body and to discharge air bubbles that are supplied from the body and rise up to the upper portion of the blade box, And a plurality of blades are arranged.

Further, the blade of the present invention is characterized in that the blade body is formed to have a thicker thickness from the lower end to the upper end and a lower end shape having a blade shape.

Further, the blade of the present invention is characterized in that the blade box is coupled to the inner surface of one of the mutually facing inner surfaces of the blade box so as to face another inner surface.

Further, the blades of the present invention are alternately joined to the mutually facing inner surfaces of the blade boxes.

Further, the blade of the present invention is arranged so as to form a plurality of rows in the vertical direction.

Further, the blade of the present invention is characterized in that it is arranged on a vertical line staggered with the upper or lower blade.

In addition, the blade box of the present invention is characterized in that a bundle coupled to the plurality of blade boxes is coupled to the opening of the body.

Further, the blade of the present invention is characterized in that the intervals arranged in the upper blade box are narrower than the intervals arranged in the lower blade box.

The blade of the present invention is characterized in that blade grooves extending from a side surface to a lower end of the blade body are formed.

Further, the blade of the present invention is characterized in that it has an upwardly curved shape as it gets farther from the coupling portion with the blade box.

Further, the body of the present invention is characterized in that a pipe-shaped air inflow pipe extends through one side and extends inward, and a plurality of branch pipes are formed in communication with one side of the air inflow pipe.

A plurality of the openings of the present invention are formed on the upper portion of the body, and the blade box is provided for each of the openings.

In the present invention, blades (300) are densely arranged on both sides of a blade box (200) and are coupled to each other to break air bubbles supplied from the body (100) to generate fine bubbles, By forming coarse bubbles in the blade box 200, it is possible to simultaneously produce fine bubbles and coarse bubbles without the need for a separate drive device.

In addition, since the microbubbles and the coarse bubbles can be generated at the same time, the present invention has the effect of simultaneously performing the function of supplying oxygen to the microorganisms and the function of separating-air cleaning function.

In addition, even if the amount of air is increased according to the amount of gas required, the present invention can easily supply fine bubbles and coarse bubbles by replacing the body 100 having a plurality of bifurcations, It is effective.

1 is an exploded perspective view of a modular air diffuser according to an embodiment of the present invention;
2 is a side cross-sectional view of a blade box of a modular air diffuser device according to an embodiment of the present invention.
3 is a front sectional view of a blade box of a modular air diffuser device according to an embodiment of the present invention.
4 is a plan view of a blade box of a modular epidote apparatus according to an embodiment of the present invention.
5 is an exploded view of a blade of a modular air diffuser according to an embodiment of the present invention.

Hereinafter, a modular air diffuser according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a side cross-sectional view of a blade box of a modular air diffuser apparatus according to an embodiment of the present invention, and Fig. 3 is a cross-sectional view of an embodiment of the present invention. Fig. Fig. 4 is a plan view of a blade box of a modular air diffuser device according to an embodiment of the present invention, and Fig. 5 is a plan view of a blade of a modular air diffuser device according to an embodiment of the present invention, Respectively.

1 to 5, an opening 110 is formed on an upper portion of the body 100, and air supplied from the outside is discharged to the opening 110. The upper portion and the lower portion of the body 100 are opened, And a blade box 200 connected to the opening 110 of the body 100 to divide the air bubbles supplied from the body 100 and rise up and discharge the air bubbles to the upper part.

The body 100 serves to disperse the air supplied from the outside and supply the air to each of the upper and lower blade boxes 200. For this purpose, the body 100 is hermetically closed at the bottom and the inside is hollow, So that the blade box 200 can be coupled.

The air inlet pipe 120 extends through the one side of the body 100 and extends to the inside of the body 100. An air inlet 121 is formed at an end of the air inlet pipe 120, A plurality of branch pipes 122 are formed at one side of the pipe 120 so that the air supplied from the outside through the air inlet pipe 120 can be discharged through the branch pipe 122. At this time, the branch pipes 122 may be formed in a line on the upper side of the air inlet pipe 120, or may be formed symmetrically or zigzag on both sides.

The body 100 may be formed in the shape of a bundle by dividing the body 100 into two or more pieces in the upper direction of the air inlet pipe 120 or the branch pipe 122. In each of the divided bodies 100, 110 may be formed so that the blade boxes 200 can be coupled to each other. The reason why the upper part of the body 100 is divided into several parts is that when the amount of air flowing through the air inlet pipe 120 is large, the air bubbles are broken into one blade box 200, There is a large probability that the split bubbles will be rejoined, and it is difficult to form minute bubbles. At this time, fine bubbles can be easily formed by controlling the amount of air to be supplied, but this method is difficult to use in a place where a large amount of gas is required. Accordingly, the upper part of the body 100 is divided into several branches, and the blade box 200 is provided for each of the forked upper openings 110. The supplied air is divided into the blade boxes 200 to supply the air bubbles per unit volume It becomes possible to perform distributed processing.

Therefore, even if the amount of air is increased according to the required amount of gas, it is possible to easily supply fine bubbles and coarse bubbles by replacing the body 100 having a plurality of bumps formed therein and connecting the blade box 200 .

The blade box 200 is formed in a rectangular tube shape having open top and bottom so as to be connected to the opening 110 of the body 100 and has a plurality of blades 300 arranged in the inside thereof, The supplied air bubbles are split and discharged to the upper part.

The shape of the lower end of the blade box 200 may be the same as the shape of the opening 110 of the body 100 so as to receive and break all the bubbles supplied from the body 100, The outer periphery or the inner periphery.

The blade 300 is arranged on the inner surface of the blade box 200 and serves to split air bubbles rising from the lower part of the blade box 200. The blade body 310 and the blade body 310, And a blade groove 320 formed on a side surface of the blade groove 320.

To describe this in more detail, the blades 300 are coupled to the inner side of one of the mutually opposed inner sides of the blade box 200 to face another inner side, and as shown in Figs. 1, 2 and 4 And can alternately be coupled to the mutually opposing inner surfaces of the blade box 200 as well.

The plurality of blades 300 may be arranged in the lateral direction to form one row, and may be arranged in the blade box 200 to form a plurality of rows in the vertical direction. 3, each of the blades 300 is arranged on a vertical line staggered with the upper or lower blades 300 so that the bubbles cleaved by the subsequent lower blades 300 can be further divided to form more minute bubbles .

The blade body 310 is formed in a sharp blade shape at its lower end so that bubbles rising from the lower part can be contacted and broken, and is formed thicker toward the upper end so that the thickness of the upper end portion becomes thicker than the thickness of the lower end portion. The blade body 310 has an upwardly curved shape as it moves away from the coupling portion with the blade box 200 in order to prevent attachment of contaminants such as hair, which may be contained in the raw water. In addition, the blade body 310 may be formed such that the length of the blade body 310 becomes shorter as the distance from the coupling portion with the blade box 200 increases.

The blade 300 may also be formed with blade grooves 320 in the blade body 310 to allow the bubbles to break up more easily and such blade grooves 320 may extend from the upper side to the lower side of the blade body 310 It can be shaped like a groove with a circular carving knife. The blade groove 320 is formed in such a manner that when the bubble is split by the blade body 310, the cleaved air bubbles rise on the side of the blade body 310, It is preferable that the blade body 310 is formed in a zigzag shape alternately on the left and right sides when the blade body 310 is bisected right and left. Therefore, when the blade body 310 is viewed from the bottom by the blade groove 320, the blade shape of the lower end of the blade body 310 is zigzag like a knife blade.

The blade groove 320 induces a swirling phenomenon of the raw water when the air bubbles rise, and removes foreign matter from the blades 300. The air bubbles generated by the vortex further disturb the air bubbles, An effect may be generated.

The blade box 200 may be coupled to the opening 110 of the body 100 alone and may be coupled to the plurality of blade boxes 200 and then coupled to the opening 110 of the body 100 . In this case, the interval of the blades 300 arranged in the upper part of the blade box 200 is formed to be narrower than the interval of the blades 300 arranged in the lower part of the blade box 200, So that it can be further broken down. The combination of the blade boxes 200 can be appropriately selected by the user depending on the size of the required bubbles and the amount of air to be supplied, and by using the blade boxes 200 in a modular manner in combination, So that it is not necessary to replace the entire equipment.

In the present invention having the above-described structure, the blades 300 are closely arranged on both sides of the blade box 200, thereby separating the air bubbles supplied from the body 100 to generate fine bubbles, Some of them are combined again in the blade box 200 to generate coarse bubbles. Therefore, there is an effect that both fine bubbles and coarse bubbles can be generated at the same time without requiring a separate drive device.

In addition, since the microbubbles and the coarse bubbles can be generated at the same time, the present invention has the effect of simultaneously performing the function of supplying oxygen to the microorganisms and the function of separating-air cleaning function.

In addition, even if the amount of air is increased according to the amount of gas required, the present invention can easily supply fine bubbles and coarse bubbles by replacing the body 100 having a plurality of bifurcations, It is effective.

100: body 200: blade box
300: blade 310: blade body
320: blade home

Claims (12)

A body formed with an opening at an upper portion thereof and discharging air supplied from the outside to the opening portion; And
A blade box connected to the opening of the body so as to open upward and downward and to divide air bubbles supplied from the body and discharge the air bubbles to the upper part;
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Wherein the blade box has a plurality of blades arranged on an inner surface thereof. The method according to claim 1,
Wherein the blade includes a blade body having a thicker thickness from a lower end to an upper end and a lower end shape having a blade shape. 3. The method of claim 2,
Wherein the blade is coupled to another inner side of the inner side of one of the mutually opposing inner sides of the blade box. The method of claim 3,
Wherein the blades are alternately coupled to mutually opposed inner surfaces of the blade box. 5. The method of claim 4,
Wherein the blades are arranged to form a plurality of rows in a vertical direction. 6. The method of claim 5,
Wherein the blades are arranged on a vertical line staggered with the upper or lower blades. The method according to claim 6,
Wherein the blade box is coupled to the plurality of blade boxes so that the bundle is coupled to the opening of the body. 8. The method of claim 7,
Wherein the blades are narrower in spacing arranged in the upper blade box than in the lower blade box. 3. The method of claim 2,
Wherein the blade has a blade groove extending from a side surface to a lower end of the blade body. 10. The method of claim 9,
Wherein the blade has an upwardly curved shape as it is away from the engagement with the blabbing box. 11. The method of claim 10,
Wherein the body is formed with a pipe-shaped air inflow pipe extending inwardly through one side thereof, and a plurality of branch pipes are formed in communication with one side of the air inflow pipe. 12. The method of claim 11,
Wherein a plurality of the opening portions are formed on the upper portion of the body, and the blade box is provided for each of the opening portions.

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