KR200460806Y1 - The diffuser to creat a tiny bubble to the both - Google Patents

Abstract

The present invention relates to a diffuser for generating micro-bubbles in both directions, the configuration is the upper and lower space grooves are formed in each, the center is formed through the inside of the connecting projection extending vertically downward, at least inside An air branch unit in which one or more communication holes are formed; and a plurality of fine pores are formed therein, and are formed to be in close contact with the upper edge of the air branch unit to generate a first bubble for sealing a space groove formed on an upper surface of the air branch unit; And, a plurality of fine pores are formed therein, is formed in close contact with the lower edge of the air branch portion to seal the space groove formed on the lower surface of the air branch portion, there is formed through holes through the connecting projections And a second bubble generating unit; and an O-ring positioned on the connection protrusion and tightly fixed to a lower surface of the second bubble generating unit. And binding means for binding and fixing the first and second bubble generators positioned at upper and lower portions of an air branch.
By supplying air from the outside and producing and discharging fine bubbles in both directions (upper and lower part), not only can the fine bubbles be discharged in large quantities, but this also increases the amount of dissolved oxygen in the wastewater and increases and decreases the self-purifying capacity of the wastewater. There is an effect to perform a smooth purification.
In addition, it produces and discharges a large amount of fine bubbles by producing and discharging fine bubbles in both directions (upper and lower) by receiving air from the outside, but the structure is simple and the volume is small, thus reducing the cost of maintenance and maintenance. It can work.

Description

Diffusers that generate microbubbles in both directions {The diffuser to creat a tiny bubble to the both}

The present invention relates to an diffuser that generates micro bubbles in both directions, and more particularly, by producing and discharging micro bubbles in both directions (upper and lower) by receiving air from the outside, a large amount of micro bubbles can be discharged as well. Therefore, the present invention relates to an diffuser that generates fine bubbles in both directions to increase the amount of dissolved oxygen in the wastewater, thereby increasing and decreasing the self-purifying capacity of the wastewater.

Generally, a highly contaminated wastewater is treated in several stages. Among them, an aeration system is installed in the aeration tank, and the amount of dissolved oxygen in the wastewater is increased through the bubbles generated through the aeration tank to purify the wastewater. Wastewater is treated as a way to improve

 Such diffusers typically receive air from the outside to generate microbubbles upward.

That is, the conventional diffuser generates and discharges fine bubbles in one direction (upper), so that the amount of fine bubbles is small, and thus there is a problem in that the self-purification capacity of the wastewater cannot be efficiently improved.

Therefore, in order to solve the above problems, the number or size of diffusers is increased to increase the amount of fine bubbles, which induces the increase or decrease of the volume of diffusers, which leads to severe installation constraints, and high costs for maintenance and maintenance. There was an exhausting issue.

In addition, the conventional diffuser has a problem that the fine bubbles are discharged only in one direction (upper), the fine sludge which is often introduced into the inside is stored on the bottom to block the inflow of external air to reduce the generation of fine bubbles.

The present invention has been proposed to solve the above-mentioned problems, the purpose is to produce and discharge micro bubbles in both directions (upper and lower) by receiving air from the outside, it is possible to discharge a large amount of fine bubbles as well Therefore, the present invention provides an diffuser that generates fine bubbles in both directions to increase the amount of dissolved oxygen in the wastewater, thereby increasing and decreasing the self-purifying capacity of the wastewater.

In addition, it produces and discharges a large amount of fine bubbles by producing and discharging fine bubbles in both directions (upper and lower) by receiving air from the outside, but the structure is simple and the volume is small, thus reducing the cost of maintenance and maintenance. It is to provide an diffuser that generates micro bubbles in both directions.

In order to achieve the above object, the diffuser generating micro-bubbles in both directions according to the present invention, the upper and lower space grooves are formed in each, the center is penetrated by the inner penetrating vertically extending downward is formed, An air branch portion having at least one communication hole formed therein, and a plurality of fine pores formed therein and formed to be in close contact with an upper edge of the air branch portion to seal a space groove formed on an upper surface of the air branch portion; 1 bubble generating unit; and a plurality of fine pores are formed therein, is formed to be in close contact with the lower edge of the air branch portion to seal the space groove formed on the bottom surface of the air branch portion, but penetrates through the connection projection therein A second bubble generating part having a hole formed thereon; and being positioned on the connection protrusion, the second bubble generating part being tightly fixed to the lower surface of the second bubble generating part. O-rings; composed, including,; and, coupling means for securing the first and second bubble generating portion to the binding position on the lower the air branch portion?

Air flowing through the hose coupled to the end of the connecting projection of the air branch is characterized in that the branched to the first and second bubble generating unit is discharged as a fine bubble.

In addition, the binding means is open to the inside, the upper surface of the first bubble generating portion is fixed tightly, the lower outer peripheral surface of the upper cover and the thread is formed, the inside is open, the lower surface of the second bubble generating portion is fixed tightly The upper inner circumferential surface includes a lower cover which is formed with a thread corresponding to the thread of the upper cover.

The first cover and the second bubble generating unit by the combination of the upper cover and the lower cover is fixed.

In addition, the second bubble generating unit is characterized in that it has a tapered shape that is sharpened as it extends downward.

In addition, it characterized in that it further comprises a fixing member which is located on the hose to prevent the air branch to which the first, second bubble generating unit is bound due to air flowing through the hose.

As described above, according to the diffuser generating micro bubbles in both directions according to the present invention, by receiving air from the outside to produce and discharge the micro bubbles in both directions (upper and lower), not only a large amount of fine bubbles can be discharged As a result, the amount of dissolved oxygen in the wastewater is increased to increase and decrease the self-purifying capacity of the wastewater, thereby enabling smooth purification of the wastewater.

In addition, it produces and discharges a large amount of fine bubbles by producing and discharging fine bubbles in both directions (upper and lower) by receiving air from the outside, but the structure is simple and the volume is small, thus reducing the cost of maintenance and maintenance. It can work.

1 is a perspective view of a diffuser for generating microbubbles in both directions according to an embodiment of the present invention
FIG. 2 is an exploded perspective view of the diffuser generating microbubbles in both directions shown in FIG. 1; FIG.
FIG. 3 is a cross-sectional view AA of the diffuser generating microbubbles in both directions shown in FIG.
Figure 4 is a cross-sectional view of the diffuser for generating fine bubbles in both directions according to another embodiment of the present invention
FIG. 5 is a state diagram of use of an diffuser for generating microbubbles in both directions shown in FIG.

The diffuser generating micro bubbles in both directions according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 illustrate a diffuser generating microbubbles in both directions according to an embodiment of the present invention, Figure 1 is a perspective view of a diffuser generating microbubbles in both directions according to an embodiment of the present invention, 2 is an exploded perspective view of the diffuser generating microbubbles in both directions shown in Figure 1, Figure 3 is a cross-sectional view AA of the diffuser generating microbubbles in both directions shown in Figure 1, Figure 4 is Cross-sectional view of the diffuser for generating fine bubbles in both directions according to another embodiment, Figure 5 shows a state diagram of use of the diffuser for generating fine bubbles in both directions shown in FIG.

As shown in the figure, the diffuser 100 for generating fine bubbles in both directions according to an embodiment of the present invention is the air branch portion 10, the first bubble generating portion 20, and the second bubble generation A part 30, an o-ring 40, and a binding means 50 are included.

As shown in Figures 2 and 3, the air branch 10 is formed in the upper and lower space grooves 11, respectively, the center is connected through the inner projection 12 extending vertically downward It is formed, it is configured to form at least one or more communication holes 13 therein.

Four communication holes 12 formed in the air branch portion 10 of the diffuser 100 generating the micro bubbles in both directions according to the embodiment of the present invention are configured at intervals of 90 °, Of course not.

That is, as shown in FIG. 3, each of the space grooves 11 formed on the upper and lower surfaces of the air branch part 10 by the first bubble generating part 20 and the second bubble generating part 30 to be laid down. Since the air is sealed, as shown in FIG. 5, a part of air introduced through the connection protrusion 12 is introduced into the space of the upper space groove 11 to be positioned above the air branch 10. The air is discharged into the fine bubbles through the first bubble generator 20, and the remaining air flows into the space of the lower space groove 11 through the communication hole 13 and is located below the air branch 10. Through the second bubble generating unit 30 to be discharged to the fine bubbles.

Therefore, due to the structure of the air branch portion 10 to branch the incoming air to the upper and lower to discharge to the outside to efficiently produce and discharge a large amount of fine bubbles.

As shown in FIGS. 1 to 3, the first bubble generating unit 20 has a plurality of fine pores 21 formed therein, and is formed to be in close contact with the upper edge of the air branch 10. It is configured to seal the space groove 11 formed on the upper surface of the air branch (10).

As shown in FIG. 2 and FIG. 3, the second bubble generator 30 has a plurality of fine pores 31 formed therein, and is formed to be in close contact with the lower edge of the air branch 10. The space groove 11 formed on the bottom surface of the air branch 10 is sealed, but a through hole 32 through which the connection protrusion 12 penetrates is formed.

Here, the second bubble generating unit 30 is tapered to be sharper as it extends downward so that the fine bubbles discharged from the second bubble generating unit 30 and the fine bubbles discharged and floating upwards are prevented from joining together. Formed to have a shape so that the fine bubbles discharged from the second bubble generating portion 30 to rise while spreading in the outer direction of the second bubble generating portion (30).

The first bubble generator 20 and the second bubble generator 30 of the diffuser 100 to generate micro bubbles in both directions according to an embodiment of the present invention is easy to manufacture the micro pores through a laser, Although the unit price of the material is low, it is formed of a rubber material that can secure excellent price competitiveness of the product, but is not limited thereto.

As shown in FIG. 2 and FIG. 3, the o-ring 40 is positioned on the connection protrusion 12, and is fixed to the lower surface of the second bubble generating unit 30. The sludge is prevented from flowing into the air branch unit 10, and at the same time, air circulated into the air branch unit 10 is discharged through the through hole 32 of the second bubble generating unit 30. To prevent it.

As shown in Figures 1 to 3, the binding means 50 is to firmly fix the first and second bubble generating units (20, 30) located in the upper and lower parts of the air branch (10). In that,

The inside is open, the upper surface of the first bubble generating portion 20 is fixed in close contact, the outer peripheral surface of the upper cover 51 is formed with a thread (51a), the inside is open, the second bubble generating portion ( 30 is tightly fixed to the lower surface, the upper inner circumferential surface is configured to include a lower cover 52 formed with a thread 52a corresponding to the thread 51a of the upper cover 51,

The first and second bubble generators 20 and 30 are tightly fixed by the combination of the upper cover 51 and the lower cover 52.

That is, the diffuser (100) for generating a micro bubble in both directions of the present invention consisting of the above components are introduced through the hose (1) coupled to the end of the connecting projection 12 of the air branch (10) Air is branched to the first and second bubble generators 20 and 30 to produce and discharge fine bubbles in both directions (upper and lower parts), thereby not only discharging a large amount of fine bubbles, but also dissolving dissolved oxygen in the wastewater. By increasing and increasing the self-purifying capacity of the waste water, there is an effect to perform a smooth purification of the waste water.

Moreover, the air is supplied from the outside through the hose 1 to produce and discharge fine bubbles in both directions (upper and lower) to generate and discharge a large amount of fine bubbles, but the structure is simple and the volume is small, thus maintaining and maintaining the maintenance and maintenance. The cost to reduce the cost is effective.

In addition, as shown in FIG. 4, the air branching part in which the first and second bubble generators 20 and 30 are bound by air flowing through the hose 1 is located on the hose 1. It characterized in that it further comprises a fixing member (60) to prevent the (10) to rise.

The diffuser 100 for generating microbubbles in both directions according to an embodiment of the present invention having the configuration as described above acts as follows.

First, as shown in FIG. 5, the air supplied through the hose 1 is introduced into the connection protrusion 12 of the air branch 10 so that the upper space groove 11 of the air branch 10 is provided. Supplied to the air, and a part of the supplied air is discharged into the microbubbles through the first bubble generating unit 20 positioned above the air branch unit 10, and the remaining air supplied to the communication hole 13 It is introduced into the space of the lower space groove 11 through the second bubble generating unit 30 located in the lower portion of the air branch portion 10 to be discharged to the fine bubbles.

Therefore, due to the structure of the air branch portion 10 to branch the incoming air to the upper and lower to discharge to the outside to efficiently produce and discharge a large amount of fine bubbles.

The diffuser 100 for generating microbubbles in both directions according to an embodiment of the present invention has been described in detail for the purpose of wastewater treatment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It is needless to say that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claims of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and their technical ideas.

1. Hose
10. Air branch 11. Space groove
12. Connection projection 13. Communication hole
20. First bubble generating part 21, 31. Fine pores
30. First bubble generating part 32. Through hole
40. O-Ring 50. Binding Means
51. Upper cover 51a, 52a. Thread
52. Lower cover 60. Fastening member
100. Diffusers that generate microbubbles in both directions

Claims (4)

In the diffuser that generates fine bubbles,
A space groove 11 is formed in each of the upper and lower sides, and a connection protrusion 12 is formed in the center to penetrate the inside so as to vertically extend downward, and an air branch portion in which at least one communication hole 13 is formed. 10;
A plurality of micropores 21 are formed therein, and are formed to be in close contact with the upper edge of the air branch 10 so as to seal the space groove 11 formed on the upper surface of the air branch 10. Generating unit 20;
A plurality of micropores 31 are formed therein, and are formed to be in close contact with the lower edge of the air branch portion 10 to seal the space groove 11 formed on the bottom surface of the air branch portion 10, A second bubble generator 30 having a through hole 32 through which the connection protrusion 12 is formed;
An o-ring 40 positioned on the connection protrusion 12 and tightly fixed to a lower surface of the second bubble generator 30; And
And a binding means (50) for binding and fixing the first and second bubble generators (20,30) located at the upper and lower portions of the air branch (10).
The air flowing through the hose 1 coupled to the end of the connecting protrusion 12 of the air branch 10 is branched to the first and second bubble generators 20 and 30 so as to be discharged as fine bubbles. As a diffuser that generates microbubbles.
The method of claim 1,
The binding means 50,
The inside is open, the upper surface of the first bubble generating portion 20 is fixed in close contact, the lower outer peripheral surface of the upper cover 51 is formed with a screw thread (51a),
The inner cover is open and fixed to the lower surface of the second bubble generating portion 30, but the upper inner peripheral surface of the lower cover 52 is formed with a thread 52a corresponding to the thread 51a of the upper cover 51 Consists of including,
An diffuser that generates fine bubbles in both directions, characterized in that the first and second bubble generators 20 and 30 are tightly fixed by combining the upper cover 51 and the lower cover 52.
The method of claim 1,
The second bubble generator 30 is a diffuser for generating fine bubbles in both directions, characterized in that it has a tapered shape is gradually sharpened as it extends downward.
The method of claim 1,
Located on the hose (1) to prevent the air branch 10, the first and second bubble generation unit (20, 30) bound by the air flowing through the hose (1) to rise A diffuser generating micro bubbles in both directions, characterized in that it further comprises a fixing member (60).

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