KR101163649B1 - Aeration apparatus - Google Patents

Abstract

PURPOSE: An aerating apparatus is provided to stably draw and return a gas introducing unit to be repaired or replaced if a problem is occurred in the gas introducing unit. CONSTITUTION: An aerating apparatus(10) includes a guiding rail(23), a gas introducing unit(11), and a drawing unit(27). The guiding rail is expanded from the bottom side to the side wall of an aerating bath. The gas introducing unit includes a flexible tube(12) and an air diffuser(16). The flexible tube is in connection with the supplying tube(7) of the gas supplying unit in order to receive gas from the gas supplying unit. The flexible tube is bendable to move along the guiding rail. The air diffuser is combined with the air diffuser and introduces gas from the flexible tube to treating liquid in the aerating bath. The drawing unit moves the gas introducing unit along the guiding rail from the treating liquid in the aerating bath.

Description

Aeration apparatus

The present invention relates to an aeration apparatus, and more particularly, to an aeration apparatus capable of repairing or replacing a gas supply unit for supplying a gas such as air into a treatment liquid stored in an aeration tank without discharging the treatment liquid in the aeration tank.

Today's industrialization and urbanization continue to intensify environmental pollution worldwide. In particular, water pollution caused by sewage, wastewater, and sewage increases the severity of water shortage, and various efforts are being made to treat these wastewater.

Currently, biochemical methods combined with physical and chemical methods are used mainly for the treatment of wastewater. Biological treatment methods can be roughly classified into aerobic treatment method and anaerobic treatment method.

The anaerobic treatment method does not require oxygen supply and has advantages of obtaining combustible methane gas as energy, but it has disadvantages such as long reaction period and odor. The aerobic treatment method has disadvantages such as the energy requirement for oxygen supply, but it takes up most of the current wastewater treatment process due to advantages such as short reaction time and complete organic matter removal.

In the aerobic treatment method, the supply of oxygen is essential for the growth and activity of aerobic microorganisms, and an aeration device is used for this purpose. The aeration unit is installed inside the aeration tank and serves to maintain proper dissolved oxygen in the aeration tank by supplying air to the wastewater in the aeration tank.

In order to increase the efficiency of wastewater treatment through air supply, the gas-liquid contact area must be increased. In order to increase the contact area between the gas and the liquid, it is necessary to uniformly generate the size of the bubbles and supply them to the aeration tank. The diffuser has a pipe type diffuser, a ball diffuser, and a disk diffuser depending on the type.

Since the air diffuser is installed in the wastewater in the aeration tank, the discharge port may be clogged or damaged by various foreign substances contained in the wastewater. In this case, the performance of the diffuser is degraded, so repair or replacement is necessary.

However, in case of an anteroposterior device fixed on the bottom surface of the aeration tank, in order to repair or replace it, all wastewater in the aeration tank must be discharged and the operator must enter the aeration tank. Therefore, it is difficult and time-consuming to perform maintenance work or replacement work of the air diffuser, and there is a problem that the entire wastewater treatment facility must be shut down. Particularly, when the upper surface of the aeration tank is of a hermetically closed type, the difficulty of repairing or replacing is increased.

In order to solve this problem, a technology has been introduced that can repair or replace the air diffuser without discharging the wastewater in the aeration tank. An example of such a technique is disclosed in Korean Patent No. 10-401742 (September 30, 2003).

The aeration device disclosed in the above publication includes an aerodynamic block for generating fine bubbles, a guide post for supporting the aerodynamic block and guiding the aerodynamic block movably up and down, lifting means for vertically transporting the aerodynamic block, Rotating means for rotating the diffusing block in the horizontal direction, and air supplying means for supplying air to the diffusing block. And the vertical block pipe is connected through the flange. The vertical block pipe is connected to the front end of the horizontal block pipe and the vertical block pipe is connected to the front end of the horizontal block pipe. do.

In this conventional aeration apparatus, fine air is supplied into the aeration tank through the membrane diffuser, and when the repair or inspection of the diffuser block is required, the lifting device connected to the bottom of the diffuser block is pulled by the lifting device, And is lifted to the outside of the aeration tank.

However, since the aerator block including the plurality of membrane diffusers coupled to the right and left of the horizontal block pipe is raised while maintaining a horizontal state along one guide post disposed at one end of the horizontal block pipe, It is likely that the damper block is damaged. Also, the operating load of the lifting device is large due to the lifting load.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gas supply apparatus for supplying a gas into an aeration tank and reliably lifting the gas supply apparatus to the outside of the aeration tank to facilitate maintenance or replacement of the aeration apparatus without stopping the operation of the aeration tank. And to provide an aeration device that can be used to perform the aeration.

According to an aspect of the present invention, there is provided an aeration apparatus including a guide rail extended from a bottom surface of aeration tank, a guide rail connected to a supply tube of the gas supply device to receive gas from the gas supply device, A gas introducing unit having a flexible tube capable of bending deformation so as to be able to move along and a diffuser feeding a gas supplied to the flexible tube into the processing liquid in the aeration tank; And lifts the waste liquid to the outside of the treatment liquid in the aeration tank.

The aeration apparatus according to the present invention may further include a scraper coupled to the flexible tube and scraping sediments deposited on the bottom surface of the aeration tank when the flexible tube moves by the lifting device to move the flexible tube in a moving direction of the flexible tube have.

The aeration apparatus according to the present invention may further include a pressure sensor coupled to the flexible tube to detect an internal pressure of the flexible tube.

A plurality of the gas introduction units are arranged in parallel in the aeration tank, and one of the lifting devices can selectively lift the plurality of gas introduction units.

The aeration apparatus according to the present invention may further include a coupler for detachably connecting the supply tube and the flexible tube.

The aeration apparatus according to the present invention may further include a return device for moving the gas charging unit pulled out of the treatment liquid in the aeration tank into the treatment liquid in the aeration tank by the lifting device.

The return device may include a pull string coupled to the flexible tube and a pull string take-up device for pulling the pull string and pulling the flexible tube.

The lifting device may include a lifting rope coupled to the flexible tube, and a lifter lifter for lifting the lifting rope and pulling the flexible tube out of the treatment liquid in the aeration tank.

The gas charging unit may further include a wheel coupled to the flexible tube and received in the guide rail so as to move along the guide rail.

The aeration apparatus according to the present invention has a structure in which the gas introduction unit for introducing gas into the treatment liquid in the aeration tank can be lifted to the outside of the aeration tank along the guide rails so as to stop the operation of the aeration tank when a problem occurs in the gas introduction unit The gas input unit can be lifted to the outside of the aeration tank and can be easily repaired or replaced.

Further, the aeration apparatus according to the present invention has a structure in which a gas introducing unit has a structure in which a diffuser is combined with a flexible tube capable of bending deformation freely, and a flexible tube moves along a guide rail extending from the bottom of the aeration tank to the outside of the aeration tank The lift of the gas-inserting unit and return to the original position can be smoothly and stably performed as compared with the conventional one.

Further, the aeration apparatus according to the present invention can combine a scraper capable of scraping sediment deposited on the bottom surface of the aeration tank into the gas introduction unit, thereby raking the sediment in the aeration tank upon lifting of the gas introduction unit. This helps to remove sediment from the aeration tank.

1 is a plan view showing a state where an aeration apparatus according to an embodiment of the present invention is installed in an aeration tank.
2 is a side view showing a state where an aeration apparatus according to an embodiment of the present invention is installed in an aeration tank.
FIG. 3 is a view illustrating a structure of a gas introduction unit of aeration device and a guide rail according to an embodiment of the present invention.
4 is a view for explaining an operation of lifting a gas introduction unit of an aeration apparatus according to an embodiment of the present invention.
5 is a plan view showing a state where an aeration apparatus according to another embodiment of the present invention is installed in an aeration tank.
Fig. 6 is a view for explaining an operation in which the gas charging unit of the aeration apparatus according to another embodiment of the present invention is lifted.

Hereinafter, an aeration apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, the terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. These terms are to be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the contents throughout the present specification.

FIG. 1 is a plan view showing a state where an aeration apparatus according to an embodiment of the present invention is installed in an aeration tank, FIG. 2 is a side view showing a state where an aeration apparatus according to an embodiment of the present invention is installed in an aeration tank, 1 is a perspective view illustrating a connection structure of a gas introduction unit and a guide rail of an aeration apparatus according to an embodiment of the present invention.

1 and 2, an aeration device 10 according to an embodiment of the present invention supplies air such as air or various gases from a gas supply device (not shown) provided outside the aeration tank 1 The guide rails 23 and the gas introducing unit 11 provided in the aeration tank 1 are guided to the aeration tank 1 to guide the gas introduction unit 11 and the gas introduction unit 11 to be introduced into the treatment liquid in the aeration tank 1, 1 for moving the gas input unit 11 moved by the lifting device 27 to the original position. The gas introducing unit 11, the guide rails 23, the lifting device 27 and the return device 32 are provided with a plurality of flexible tubes 12 and a gas supplied to the flexible tube 12, (16) into the treatment liquid in the treatment tank (1). The flexible tube 12 has a structure that is made of a soft material or can be bent and deformed freely such as a corrugated tube shape. The flexible tube 12 includes a pair of main flow tube 13 connected at its both ends to each other, a plurality of branch tubes 14 connecting a pair of main flow tubes 13, a main flow tube 13, And a connection tube 15 connecting the supply tube 7 of the apparatus. The connection tube 15 is releasably coupled to the supply tube 7 via a coupler 17. A plurality of the diffuser (16) are coupled to the plurality of branch tubes (14).

When the gas supply device is operated with the supply tube 7 connected to the connection tube 15, the gas is supplied to the connection tube 15 through the supply tube 7. The gas supplied to the connecting tube 15 is supplied to the plurality of branch tubes 14 through the main flow tube 13 and the gas flowing along the branch tubes 14 is supplied to the aeration tank 1).

A pressure sensor 18 for detecting the internal pressure of the flexible tube 12 is coupled to the portion of the flexible tube 12 which lies outside the aeration tank 1. Since the pressure of the gas supplied into the flexible tube 12 through the supply tube 7 and the flow rate of the gas discharged from the flexible tube 12 through the plurality of air diffusers 16 are determined at design time, The pressure inside the flexible tube 12 may be constant or somewhat variable within a certain range.

The discharge port of the air diffuser 16 is clogged and the gas is not smoothly discharged to the outside of the flexible tube 12 or the air is discharged from the flexible tube 12 due to breakage of the diffuser 16 or the flexible tube 12. [ The pressure inside the flexible tube 12 is higher or lower than the normal operation state. Therefore, the operator can easily check the state of the gas charging unit 11 by observing the measured pressure of the pressure sensor 18 without directly visually confirming the state of the gas charging unit 11. [

A scraper 19 is attached to a portion of the flexible tube 12 lying inside the aeration tank 1. The scraper 19 is disposed perpendicularly to the direction of movement of the flexible tube 12 so that when the flexible tube 12 is moved along the guide rail 23 by the lifting device 27 the bottom surface 2 of the aeration tank 1, And moves the flexible tube 12 in the moving direction. The precipitate scraped off the bottom surface 2 of the aeration tank 1 when the flexible tube 12 is lifted is collected and collected by the side wall 3 of the aeration tank 1. The sediment collected by the scraper 19 can be discharged to the outside through the sediment discharge port 4 provided on the side wall 3 side of the aeration tank 1 or can be discharged to the outside by the operator and removed from the aeration tank 1.

Further, a plurality of wheels 20 are coupled to one side surface of each main flow tube 13 of the flexible tube 12 at a predetermined interval. The plurality of wheels 20 are disposed within the guide rails 23 so as to be capable of rolling movement so that the flexible tube 12 can smoothly move along the guide rails 23. Of course, the wheel 20 may be structured to slide in the guide rail 23 without rolling.

1 to 3, the guide rails 23 are arranged so as to extend from the bottom surface 2 of the aeration tank 1 to one side wall 3 to guide the gas introduction unit 11. As shown in Fig. One end of the guide rail 23 disposed outside the aeration tank 1 is bent toward the lifting device 27. The portion of the flexible tube 12 lying on the bottom surface 2 of the aeration tank 1 passes through the side wall 3 of the aeration tank 1 along the guide rail 23 and flows into the aeration tank 1 toward the lifting device 27, It can move outside. Two guide rails 23 are arranged parallel to each other on both side surfaces of the flexible tube 12 per one gas introducing unit 11. [ The guide rail 23 is provided with a guide groove 24 for receiving the wheel 20.

The structure of the guide rail 23 is not limited to the illustrated one. The guide rail 23 can be changed into various shapes that can guide the gas input unit 11 from the bottom surface 2 of the aeration tank 1 to the outside of the aeration tank 1. Depending on the structure of the guide rail 23 and the structure of the gas introduction unit 11, the structure of the connection between the guide rail 23 and the gas introduction unit 11 can be variously changed.

As shown in Figs. 1 and 2, the lifting device 27 and the return device 32 are disposed on the outside of the aeration tank 1 opposite to each other with the inner space of the aeration tank 1 interposed therebetween. The lifting device 27 and the return device 32 pull the gas charging unit 11 out of the aeration tank 1 to lift the gas charging unit 11 out of the aeration tank 1 or return it to the inside of the aeration tank 1 .

The lifting device 27 includes a lifting rope 28 coupled to one end of the flexible tube 12 and a lifting winch 29 for winding the lifting rope 28. When the lifting wire take-up winder 29 winds up the lifting rope 28, the lifting rope 28 pulls the flexible tube 12 toward the lifting winch 29 disposed outside the aeration tank 1, Is lifted out of the aeration tank (1). The lifting rods 28 may be of various types such as various wires, chains, belts, etc., which can be wound.

The return device 32 includes a pull string 33 coupled to the other end of the flexible tube 12 and a pull string winding 34 for winding the pull string 33. When the pulling-up winder 34 winds the pulling string 33, the pulling string 33 pulls the flexible tube 12 toward the pulling-up reel 34 and pulls it out of the aeration tank 1 by the lifting device 27 And the lifted flexible tube 12 moves back into the aeration tank 1 again.

The pulling string 33 is supported by a plurality of guide rollers 35 and 36. The pulling string 33 is supported by the first guide roller 35 and the second guide roller 36 disposed on the upper and lower sides of the one sidewall 3 of the aeration tank 1 and the other end of the flexible tube 12 Is pulled in a direction parallel to the portion of the guide rail (23) placed on the bottom surface (2) of the aeration tank (1). The flexible tube 12 can smoothly move along the guide rail 23 when a force is applied to the other end of the flexible tube 12 in a direction parallel to the portion of the guide rail 23 placed on the bottom surface 2 of the aeration tank 23 have.

In the present invention, the structures of the lifting device 27 and the return device 32 are not limited to those shown. The lifting device 27 or the return device 32 can be changed into various structures that can pull or push the gas input unit 11 and move along the guide rail 23. [

Hereinafter, the operation of the aeration apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 and 2, when gas is supplied through the supply tube 7 in a state where the supply tube 7 is connected to the flexible tube 12, a plurality of diffuser devices (not shown) placed in the processing solution in the aeration tank 1 And the gas is discharged into the treatment liquid through the discharge port 16. While the gas is introduced into the treatment liquid, the operator checks the pressure inside the flexible tube 12 through the pressure sensor 18 coupled to the flexible tube 12 to determine whether or not a problem has occurred in the gas introduction unit 11 . When a problem occurs in the gas charging unit 11, the operator can operate the lifting device 27 to lift the gas charging unit 11, which has a problem, out of the treatment liquid in the aeration tank 1, thereby solving the problem.

The feed tube 7 and the flexible tube 12 must be separated from each other in order to lift the gas feed unit 11 out of the aeration tank 1. [ When the supply tube 7 and the flexible tube 12 are separated from each other and the lifting trolley 29 of the lifting device 27 is operated as shown in Fig. 4, the lifting trolley 28 is lifted up by the lifting trolley 29 , The gas charging unit 11 is pulled toward the take-up reel 29. [ When the lifting rope 28 pulls the gas charging unit 11, the gas charging unit 11 moves to the outside of the aeration tank 1 along the guide rail 23. At this time, the pulling string 33 of the return device 32 is released from the pulling-up reel 34 so that the gas input unit 11 can smoothly move. In the state where the gas charging unit 11 is lifted to the outside space of the aeration tank 1, the operator can easily repair or replace the problematic portion of the gas charging unit 11. [

The scraper 19 coupled to the flexible tube 12 when the gas input unit 11 is pulled out of the aeration tank 1 by the lifting device 27 is returned to the bottom surface 2 of the aeration tank 1, Is scraped and moved toward the sediment outlet (4) in the aeration tank (1) to remove the precipitate. Therefore, the sediment in the aeration tank (1) can be easily treated only by lifting the gas input unit (11).

When the maintenance or replacement work of the gas charging unit 11 lifted outside the aeration tank 1 is completed, the gas charging unit 11 is returned to the inside of the aeration tank 1 by using the return device 32, . When the pulling-up winder 34 of the return device 32 operates to close the pulling strap 33, the pulling strap 33 pulls the gas feed unit 11 so that the gas feed unit 11 can pull the guide rail 23, To the inside of the aeration tank (1). At this time, the lifting rope 28 of the lifting device 27 is loosened from the lifting winch 29 so that the gas charging unit 11 can smoothly move. The gas input unit 11 is returned to its normal state by connecting the supply tube 7 to the gas input unit 11 after the gas input unit 11 is returned by the return device 32. [

5 shows an aeration apparatus according to another embodiment of the present invention.

5 includes a plurality of gas charging units 11 for charging a gas into the processing liquid in the aeration tank 1 and a plurality of gas charging units 11 for supplying a gas into the aeration tank 1 for guiding the plurality of gas charging units 11. [ A single lifting device 41 for lifting the gas introducing unit 11 to the outside of the treatment liquid in the aeration tank 1 and a gas introducing unit 41 for moving the gas introducing unit 11 by the lifting device 41, 11 to the original position. Here, the gas input unit 11, the guide rail 23, and the return device are the same as the aerator 10 according to the embodiment of the present invention described above, and a detailed description thereof will be omitted.

The lifting device 41 includes a lifting rope 42 and a lifting winch 43 for winding the lifting rope 42 and is movably coupled to a rail 45 provided outside the aeration tank 1. [ The rails 45 guide the lifting device 41 forward of each of the plurality of gas charging units 11. The lifting rope 42 is provided at the end of the lifting rope 42 with a hook 44 capable of being engaged with the connecting ring 48 coupled to the end of the flexible tube 12, And may be selectively coupled to the tube 12. Here, the coupling structure of the lifting rods 42 and the gas input unit 11 can be variously changed. In other words, the lifting rope 42 can be selectively coupled to the flexible tube 12 of each gas input unit 11 through a coupling structure other than the structure using the coupling ring and the hook.

The aeration device 40 according to another embodiment of the present invention can lift all of the plurality of gas charging units 11 by using one lifting device 41. [ The supply tube 7 and the flexible tube 12 must be separated from each other in order to lift the gas charging unit 11 out of the aeration tank 1. [ When the hook 44 provided on the lifting rope 42 is coupled to the connecting ring 48 coupled to the flexible tube 12 and the lifting rope hoist 43 is operated, the lifting rope 42 is lifted by the gas input unit 11 ) To the outside of the aeration tank (1).

6, after the lifting device 41 lifts the gas charging unit 11 to the outside of the aeration tank 1, the operator can easily repair or replace the problematic portion of the gas charging unit 11 . The lifting device 41 may have a structure in which the flexible tube 12 as well as the lifting rope 42 is wound. If the lifting device 41 is constructed to be able to wind the flexible tube 12, the space to leave the lifted gas charging unit 11 can be reduced.

On the other hand, the gas charging unit 11 lifted outside the aeration tank 1 can be returned to the inside of the treatment liquid in the aeration tank 1 by using the return device 32. When the pulling-up winder 34 of the return device 32 operates to close the pulling strap 33, the pulling strap 33 pulls the gas feed unit 11 and pulls the lifting strap 42 of the lifting device 41, The gas input unit 11 is moved to the inside of the aeration tank 1 along the guide rail 23 while being unwound from the lifting winch 43.

As described above, the aeration apparatus according to the present invention has a structure in which the gas introduction unit 11 for introducing the gas into the treatment liquid in the aeration tank 1 can be easily lifted to the outside of the aeration tank 1 along the guide rail 23 , When a problem occurs in the gas charging unit 11, the gas charging unit 11 in which the problem has occurred can be easily lifted to the outside of the aeration tank 1 without interrupting the operation of the aeration tank 1, and can be easily repaired or replaced.

The aeration apparatus according to the present invention can be used in various apparatuses and facilities for treating various treatment liquids such as water treatment facilities and various industrial facilities by inputting gas such as air or gas.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical idea of the present invention in various forms. Accordingly, these modifications and variations are intended to fall within the scope of the present invention as long as it is obvious to those skilled in the art.

10, 40: aeration device 11: gas introduction unit
12: Flexible tube 13: Main flow tube
14: branch tube 15: connecting tube
16: diffuser 17: coupler
18: Pressure sensor 19: Scraper
20: wheel 23: guide rail
27, 41: lifting device 28, 42: lifting device
29, 43: take-up winder 32: return device
33: Pull string 34: Pull string
35, 36: first and second guide rollers 44: hook
45: rail 48: connecting ring

Claims (9)

An aeration apparatus for supplying a gas to a treatment liquid in an aeration tank by supplying gas from a gas supply apparatus,
A guide rail extending from the bottom surface of the aeration tank to the side wall;
A flexible tube which is connected to the supply tube of the gas supply device so as to receive gas from the gas supply device and is capable of bending deformation so as to move along the guide rails, and a gas supply device connected to the flexible tube, A gas introducing unit having an oxidizer device to be introduced into the treatment liquid in the aeration tank; And
And a lifting device for lifting the gas input unit along the guide rail to the outside of the treatment liquid in the aeration tank.
The method according to claim 1,
Further comprising a scraper coupled to the flexible tube and scraping sediments deposited on a bottom surface of the aeration tank when the flexible tube moves by the lifting device to move the flexible tube in a moving direction of the flexible tube.
The method according to claim 1,
Further comprising a pressure sensor coupled to the flexible tube to detect an internal pressure of the flexible tube.
The method according to claim 1,
Wherein a plurality of said gas introduction units are arranged in parallel in said aeration tank, and said lifting device selectively lifts said plurality of gas introduction units.
The method according to claim 1,
Further comprising a coupler for releasably connecting said feed tube and said flexible tube.
The method according to claim 1,
Further comprising a return device for moving the gas charging unit pulled out of the treatment liquid in the aeration tank into the treatment liquid in the aeration tank by the lifting device.
The method according to claim 6,
Wherein the return device includes a pulling string coupled to the flexible tube and a pulling-back winding device for pulling the pulling string and pulling the flexible tube.
The method according to claim 1,
Wherein the lifting device includes a lifting rope coupled to the flexible tube and a lifting reel that winds the lifting rope and pulls the flexible tube out of the treatment liquid in the aeration tank.
The method according to claim 1,
Wherein the gas introduction unit further comprises a wheel coupled to the flexible tube and received within the guide rail for movement along the guide rail.

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