KR102227445B1 - Aeration Apparatus of Sewage Disposal Plant for Preventing Counterflow - Google Patents

Abstract

The present invention provides a backflow prevention type diffusion device for a sludge storage tank of a sewage treatment facility, which is installed in the sludge storage tank of the sewage treatment facility. The backflow prevention type diffusion device includes: an air supply pipe for flowing air for agitation of the sludge accommodated in the storage tank; and a plurality of diffusers provided along the air supply pipe to spray the air flowing through the air supply pipe into a storage tank, wherein the diffuser includes: a cover having an accommodating space having an open lower portion therein, and having a nozzle formed at an upper end thereof; a first tube having a first air passage through which air flows therein, the lower portion of which is connected to the air supply pipe to introduce air into the first air passage, wherein the upper portion of the first tube is drawn into the receiving space to discharge air into the receiving space; and a second tube having a second air passage through which air flows therein, wherein the second tube is accommodated in the accommodating space, re-introduced air discharged into the accommodating space by the first tube to the second air flow path, and discharges the re-introduced air toward the nozzle.

Description

Sewage/wastewater treatment facility sludge storage tank backflow prevention type air diffuser {Aeration Apparatus of Sewage Disposal Plant for Preventing Counterflow}

The present invention relates to an air diffuser provided in a sludge storage tank of a sewage treatment facility, and more particularly, an air diffuser that prevents nozzle clogging by including a backflow prevention diffuser and supplies an appropriate amount of air required for scattering of sludge It relates to the device.

In general, a pipe diffuser type stirring device applied to a sewage treatment facility is a component that is installed in the water of the sludge storage tank to supply air required for stirring the sludge in the storage tank, thereby equalizing the sludge and preventing sediment sedimentation. It is a major facility to prevent rancidity and spoilage of sludge and to produce good dehydrated cakes.

In addition, such a pipe diffuser must be connected to the air supply pipe and fixed in the sludge storage tank, and must have a suitable size and quantity of holes through which the supplied air can be injected.

Pipe diffusers that are conventionally applied to many sewage treatment facilities are mostly simple porous pipe diffusers that consider the volume of a general storage tank, and this type of diffuser frequently causes a specific phase blockage that requires agitating high-concentration sludge. There is a problem that it is not able to supply the necessary air volume.

In addition, this causes rot and rancidity of sludge, resulting in a bad smell, as well as a problem in that high water treatment efficiency is greatly reduced.

Therefore, a method for solving these problems is required.

Korean Utility Model Registration No. 20-0314015

The present invention is an invention conceived to solve the problems of the prior art described above, and is provided with a diffuser formed to prevent backflow of sludge to prevent nozzle clogging, and to supply an appropriate amount of air required for scattering of sludge. It has the purpose of providing a diffuser.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The sewage/wastewater treatment facility sludge storage tank backflow prevention type air diffuser device of the present invention for achieving the above object is installed in the sludge storage tank of the sewage treatment facility, and an air supply pipe for flowing air for stirring the sludge accommodated in the storage tank and A plurality of diffusers are provided along the air supply pipe to inject air flowing through the air supply pipe into the storage tank, wherein the diffuser has a receiving space with an open lower portion thereof, and a cover with a nozzle formed at the top , A first air passage through which air flows is formed, the lower part is connected to the air supply pipe to introduce air into the first air passage, and the upper part is drawn into the receiving space to discharge air into the receiving space. A first tube and a second air channel through which air flows are formed, and the air received in the receiving space and discharged from the receiving space by the first tube is re-introduced into the second air channel side, and And a second tube for discharging the introduced air to the nozzle side.

At this time, the second tube may be formed in a form in which at least a portion is attached to the outside of the first tube, and the upper end may be formed to support the cover by being coupled to the nozzle.

And the first tube, a connection part protruding from the opened lower part of the accommodation space to be connected to the air supply pipe, and an air flow part extending from the connection part to the accommodation space, the upper end of which is open to discharge air into the accommodation space. Can include.

In addition, the first tube may further include a direction changing part provided between the connection part and the air flow part and for changing a direction so that the air flow part is located at an eccentric position with respect to the connection part with respect to a cross section.

In this case, the opened upper end of the air flow unit may be formed to be inclined at a predetermined angle.

On the other hand, the second tube is formed to extend downward from the nozzle, an air discharge part for discharging air toward the nozzle, an extension part extending laterally from the lower end of the air discharge part, and an extension part extending upward from the extension part. It is formed, and may include a re-inlet portion for re-introducing the air discharged to the accommodation space by the first tube.

The sewage/wastewater treatment facility sludge storage tank backflow prevention type air diffuser device of the present invention for solving the above problems can prevent backflow of sludge in the storage tank through the unique shape of the first tube and the second tube accommodated in the cover. Accordingly, there is an advantage of preventing nozzle clogging of the diffuser and supplying an appropriate amount of air required for scattering of sludge.

In addition, the present invention can prevent the sludge from decaying and rancidity, thereby minimizing the occurrence of odors, and improving water treatment efficiency.

In addition, the present invention has the advantage that the life of the diffuser is significantly increased compared to the prior art, and thus the cost required for maintenance/repair can be greatly reduced.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing a state of an air diffuser according to a first embodiment of the present invention;
2 and 3 are views showing the structure of a diffuser in the diffuser according to the first embodiment of the present invention; And
4 is a view showing the structure of a diffuser in the diffuser according to the second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be realized in detail will be described with reference to the accompanying drawings. In the description of the present embodiment, the same names and the same reference numerals are used for the same components, and additional descriptions thereof will be omitted.

1 is a view showing the state of the air diffuser according to the first embodiment of the present invention.

As shown in FIG. 1, the air diffuser according to the first embodiment of the present invention is installed in a sludge storage tank of a sewage treatment facility, and includes an air supply pipe 10 and a diffuser 100.

The air supply pipe 10 is a component that flows air for stirring the sludge contained in the storage tank, and may be installed along a predetermined path at the bottom of the storage tank.

In addition, the diffuser 100 is provided with a plurality of the air supply pipe 10, and is a component that performs agitation and aeration of the sludge by spraying the air flowing through the air supply pipe 10 into the storage tank.

In this embodiment, the air supply pipe 10 is provided with a connection connector 50 for connecting the diffuser 100, and the diffuser 100 is connected to the connection connector 50 and the air supply pipe ( The air supplied through 10) can be received and sprayed.

In particular, in the case of the present invention, the diffuser 100 has a unique structure for preventing backflow of sludge, and this will be described in detail below.

2 and 3 are views showing the structure of a diffuser 100 in the diffuser 100 according to the first embodiment of the present invention.

2 and 3, the diffuser 100 includes a cover 110, a first tube 130, and a second tube 120.

The cover 110 has an accommodation space 111 formed therein, and the accommodation space 111 has an opening 112 with an open lower portion thereof. In addition, a nozzle having a predetermined diameter may be formed on the upper end of the cover 110 to inject air.

The first tube 130 has a first air flow passage 131 through which air flows, and the lower portion is connected to the above-described air supply pipe 10 to introduce air into the first air flow passage 131. , The upper portion is formed to be drawn into the receiving space 111 to discharge air into the receiving space 111.

Specifically, in the present embodiment, the first tube 130 protrudes from the opened lower portion of the accommodation space 111 and is connected to the air supply pipe 10 and the connection part 134 and the accommodation from the connection part 134 It includes an air flow part 132 extending into the space 111 and having an open top to discharge air into the receiving space 111.

Accordingly, an air inlet 135 through which air is introduced into the first air flow path 131 is formed in the connection part 134, and air is discharged from the first air flow path 131 in the air flow part 132. The air outlet 133 is formed.

At this time, the opened upper end of the air flow unit 132 may be formed to be inclined at a predetermined angle θ, which facilitates the discharge of air and allows the air to be discharged in the lateral direction, which will be described later. This is to facilitate the re-inflow of air into the tube 120.

In addition, in this embodiment, the first tube 130 is provided between the connection part 134 and the air flow part 132, so that the air flow part 132 is connected to the connection part 134 based on a cross section. It may further include a direction change unit 136 for changing the direction so as to be located at an eccentric position.

This is to allow the second tube 120 to be connected to the nozzle by providing the air flow part 132 of the first tube 130 at an eccentric position since the nozzle of the cover is formed in the center.

The second tube 120 has a second air passage 121 through which air flows, and is accommodated in the receiving space 111 to be accommodated in the receiving space 111 by the first tube 130. It is formed so that the discharged air can be re-introduced into the second air flow path 121 and the re-inflowed air can be discharged to the nozzle side.

Specifically, in this embodiment, the second tube 120 is formed to extend downward from the nozzle, an air discharge part 124 for discharging air toward the nozzle, and a side from the lower end of the air discharge part 124 Re-inflow to re-introduce the air discharged into the receiving space 111 by the extension part 126 extending in the direction and extending upward from the extension part 126 Includes part 122.

Accordingly, an air re-inlet 123 through which air is introduced into the second air passage 121 is formed in the re-intake part 122, and the air outlet 124 is provided with the second air passage 121 from the second air passage 121. An injection hole 125 through which air is discharged is formed.

Meanwhile, the second tube 120 is formed in a form in which at least a portion is attached to the outside of the first tube 130, and an upper end thereof is formed to support the cover 110 by being coupled to the nozzle. Specifically, in this embodiment, the air outlet portion 124 of the second tube 120 is welded to each other with the air flow portion 132 of the first tube 130 to be fixed. It can also be combined.

In addition, in this embodiment, the air outlet 133 of the first tube 130 may be provided at a position higher than the air re-inlet 123 of the first tube 120, which is a situation in which sludge is introduced to the nozzle side. Even if this occurs, the purpose is to prevent flow back toward the air supply pipe 10 by preventing it from flowing into the first tube 120.

Hereinafter, another embodiment of the present invention will be described.

4 is a view showing the structure of the diffuser 100 in the diffuser according to the second embodiment of the present invention.

In the case of the second embodiment of the present invention shown in FIG. 4, the overall components are formed in the same manner as in the first embodiment, but the sludge discharge that can be selectively opened and closed at the lower end of the extension portion 126 of the second tube 120 It has a feature that the door 128 is further provided.

The sludge discharge door 128 may be located directly under the nozzle, and when sludge flows into the nozzle, it is opened and communicates the sludge discharge port 127 with the receiving space 111 to cover the sludge. It can be induced to flow to the lower side of the opening of (110). That is, the second tube 120 smoothly supplies air to the nozzle side to enable spraying, and the incoming sludge is discharged to the outside of the diffuser 100 to prevent clogging.

As described above, preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms without departing from its spirit or scope other than the above-described embodiments is known to those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

10: air supply pipe
50: connection connector
100: diffuser
110: cover
111: accommodation space
112: opening
120: second tube
121: second air flow path
122: re-entry
124: air outlet
126: extension
130: first tube
131: first air flow path
132: air flow section
134: connection
136: direction changer

Claims (6)

An air supply pipe installed in a sludge storage tank of a sewage treatment facility and flowing air for stirring the sludge contained in the storage tank; And
A diffuser provided along the air supply pipe to inject the air flowing through the air supply pipe into the storage tank;
Including,
The diffuser,
A cover in which an accommodation space with an open lower part is formed therein, and a nozzle is formed at the top;
A first air flow path through which air flows is formed, the lower part is connected to the air supply pipe to introduce air into the first air flow path, and the upper part is introduced into the accommodation space to discharge air into the accommodation space. A first tube; And
A second air passage through which air flows is formed, and the air received in the receiving space and discharged into the receiving space by the first tube is re-introduced to the second air passage, and the re-inflowed air is introduced into the receiving space. A second tube discharged to the nozzle side;
Including,
The second tube,
An air discharge unit formed to extend downward from the nozzle and discharging air toward the nozzle;
An extension part extending in a lateral direction from a lower end of the air discharge part;
A re-inlet portion formed to extend upward from the extension portion, and re-inflow the air discharged into the accommodation space by the first tube; And
A sludge discharge door positioned below the extension part, which is opened when sludge is introduced to the nozzle side and is opened and opened to communicate with the accommodation space so that the sludge is discharged to the outside of the cover;
Sewage wastewater treatment facility including a sludge storage tank backflow prevention type air diffuser. The method of claim 1,
The second tube is formed in a form in which at least a portion is attached to the outside of the first tube, and the upper end is formed to support the cover by being coupled to the nozzle,
Sewage and wastewater treatment facility sludge storage tank backflow prevention type air diffuser. The method of claim 1,
The first tube,
A connection part protruding from the opened lower portion of the receiving space to be connected to the air supply pipe; And
An air flow part extending from the connection part to the receiving space and having an upper end open to discharge air into the receiving space;
Containing,
Sewage and wastewater treatment facility sludge storage tank backflow prevention type air diffuser. The method of claim 3,
The first tube,
It is provided between the connection portion and the air flow portion, further comprising a direction changer for changing the direction so that the air flow portion is located at an eccentric position with respect to the connection portion,
Sewage and wastewater treatment facility sludge storage tank backflow prevention type air diffuser. The method of claim 3,
The opened upper end of the air flow unit is formed to be inclined at a preset angle,
Sewage and wastewater treatment facility sludge storage tank backflow prevention type air diffuser. delete

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