KR101460068B1 - Apparatus for draining treated water of wastwater treatment system - Google Patents

Abstract

Disclosed is a treated water discharging device of a wastewater treating facility, wherein a changed batch-type activated sludge process in which the aeration, precipitation, and discharging processes of wastewater are sequentially performed in one single treating tank. The treated water discharging device comprises: a sludge floating preventing plate which is installed adjacent to the top of a sludge-treated water boundary surface and is formed in a cone shape so as to prevent floating of the sludge precipitated at the bottom thereof; a vertical pipe which is installed to be downwardly extended from the center of the sludge floating preventing plate so as to feed and discharge sludge precipitated on the top surface of the sludge floating preventing plate; a flexible pipe which is installed between top and bottom vertical pipes which are formed by dividing the vertical pipe up and down; a fixing unit which supports the top and bottom vertical pipes and the flexible pipe and has a central point which can be bent towards the center; and a slope adjusting unit which adjusts a slope angle by pushing or pulling the sludge floating preventing plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wastewater treatment system,

The present invention relates to a treated water discharging device of a sewage treatment plant applying a modified batch activated sludge process in which aeration, sedimentation, and discharge processes of sewage are sequentially performed in the same treatment tank.

Generally, wastewater such as municipal water or manure generated in homes and work places is purified by physical or biological methods for preservation of ecosystem and conservation of water resources, and then discharged to rivers.

Particularly, in order to remove organic pollutants of sewage and nutrients such as nitrogen and phosphorus which cause eutrophication of rivers and lakes, a batch activated sludge process in which sewage desorption, sedimentation and discharge processes are sequentially performed in the same treatment tank The spread of the wastewater treatment device by the wastewater is increasing.

In such a wastewater treatment apparatus, the treatment water discharging device for preventing the sludge from being included in the treated water during the treated water discharging process and allowing the treated water to be discharged quickly is a part that is important enough to determine the success or failure of the entire process .

Fig. 1 shows the structure of a conventional process water discharging device.

Referring to FIG. 1, an inspection port (not shown) is installed in the batch type reaction tank 10 so that the treated water and related facilities can be maintained at one side of the upper surface of the batch type reaction tank 10. A flow rate control tank (not shown) Is introduced.

At this time, the wastewater flowing into the batch type reaction tank 10 from the flow rate adjusting tank can flow to the height of the line "L1" of FIG. 1 which is the highest water level.

The conventional process water discharging device includes a sludge float prevention plate 30 installed near the upper side of the sludge-treated water interface 16 in the reaction tank 10 and a sludge float prevention plate 30 disposed above the sludge float prevention plate 30, A treated water discharging portion 40 for sucking treated water from the upper side of the float prevention plate 30 and discharging the treated water from the upper side of the reaction tank 10 to the outside of the reaction tank 10 and a sludge float prevention plate 30 installed below the sludge float prevention plate 30 30 for discharging the sludge deposited on the upper surface of the reaction tank 10 to the outside of the reaction tank 10.

Here, the sludge drawing unit 50 includes an air lift pump 58 installed outside the reaction tank 10.

The treated water discharging portion 40 sucks the treated water 14 from the upper side of the sludge float prevention plate 30 by the treated water discharging pump 42, And so on.

When the air lift pump 58 is operated and air is supplied to one side of the air lift tube 56 through the air supply pipe 57 after the sedimentation process is completed, air supplied to the air lift pipe 56 ) As a bubble.

As the air bubbles rise, a negative pressure is formed in the air lift tube 56. As the negative pressure is formed, the sludge deposited on the upper surface of the sludge flood prevention plate 30 is sucked into the vertical tube 52.

The sludge sucked through the vertical pipe 52 is discharged to the sludge concentration storage tank outside the reaction tank 10 via the second connection pipe 54 and the air lift pipe 56.

1, a conventional sludge flotation prevention plate is disposed above the treated water-sludge interface, and a treatment and discharge unit 40 for discharging treated water is disposed on the sludge flotation prevention plate 30, The sludge deposited on the upper surface of the sludge float prevention plate 30 is discharged to the sludge tank (not shown) by the air lift pump 58, So that the treated water of good quality can be discharged.

However, it is difficult to transfer the sludge smoothly due to frequent failure of the air lift pump 58, operation failure and efficiency decrease, and the solidified sludge is immersed on the surface of the sludge float prevention plate 30, It is discharged together with the treated water in the suction / discharge process to deteriorate the quality of the final treated water.

Patent literature; Korean Patent Laid-Open Publication No. 2001-0074161 (published on August 4, 2001)

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a sludge float prevention apparatus, It is an object of the present invention to provide a treated water discharging device of a wastewater treatment device to which a separate sludge treatment device is added so as not to be discharged.

Another object of the present invention is to add a tilting function capable of tilting the float prevention plate manually or automatically so that the sludge deposited on the upper surface of the sludge float prevention plate when the air lift pump fails, And to improve the quality of the final treated water without deteriorating the quality of the final treated water.

In order to achieve the above object, according to a preferred embodiment of the present invention,

A treated water discharging device of a wastewater treatment apparatus to which a batch activated sludge process is applied,

A sludge flood prevention plate 30 in the form of a funnel provided near the upper side of the sludge-treatment water interface 16 to prevent floatation of the sludge 12 precipitated downward;

A treatment water discharge pump 42 mounted on the upper surface of the sludge flood prevention plate 30 by the support table 32 and sucking the treatment water 14 from the upper side of the sludge float prevention plate 30, A treated water discharging portion 40 composed of a treated water discharging pipe 44 connected to discharge the treated water 14 sucked by the treated water discharging pump 42 to the outside of the reaction tank 10;

(52) extending downward from a central portion of the sludge flotation prevention plate (30) so as to suck and discharge the sludge deposited on the upper surface of the sludge flotation prevention plate (30) An air lift pipe 56 connected to the second connection pipe 54 and vertically arranged to be connected to the outside of the reaction tank 10 from outside, A sludge drawing unit 50 composed of a transferring unit 57 connected to one side and an air lift pump 58 for supplying air through the transferring unit 57;

An oil connection 59 provided between the upper and lower vertical pipes 52a and 52b formed by vertically dividing the vertical pipe 52;

A fixing part configured to support the upper and lower vertical pipes (52a, 52b) and the oil connection and to be bent around a center point; And

A slope adjusting unit 70 for adjusting the slope by pushing or pulling the sludge flood prevention plate;

And a control unit.

Here,

An upper fixture formed in an inverted U-shape and having the center pipe penetrated and fixed therein;

A lower fixture formed in a U shape and having a center through which the second connection pipe is inserted and fixed; And

A hinge that connects the upper fixing base and the lower fixing base to bend the upper fixing base about the center point with respect to the lower fixing base;

.

The apparatus may further include a tilting limiting plate installed on one side of the upper fixing table for limiting the degree of bending of the upper fixing table when the upper fixing table is bent about the hinge with respect to the lower fixing table.

Here,

First and second wires each having one end fixed to two points facing each other around the opening of the sludge flood prevention plate;

A rotation bar in which the other ends of the first and second wires are wound in opposite directions to each other; And

A rotating part for rotating the rotating rod;

And one side of the first and second wires is wound when the rotating rod is rotated according to the rotation direction of the rotating rod.

The sludge flotation prevention plate may further include first and second support rods which are positioned below the sludge flotation prevention plate and support the first and second wires, respectively.

As described above, the treated water discharging apparatus according to the present invention minimizes the distance between the minimum water level of the treated water and the sludge treatment water interface to increase the discharge amount of the treated water, reduce the size of the treatment tank in designing the batch type reaction tank, It reflects the characteristics of the existing sludge float prevention plate which can reduce the cost of the whole treatment facility and the tilting function which can tilt the float prevention plate manually or automatically is added to reduce the trouble of the blower, The sludge immersed in the upper surface of the sludge float prevention plate can be effectively treated by gravity so that the quality of the final treated water is not deteriorated.

Fig. 1 shows the structure of a conventional process water discharging device.
Fig. 2 conceptually shows the principle of the treated water discharging device of the present invention.
3 shows the structure of the treated water discharging device according to the present invention in detail.
4 is a schematic diagram showing the operation of the sludge flood prevention plate in the treated water delivery apparatus according to the present invention.
Fig. 5 shows the configuration of the inclination adjusting portion.
6 shows the structure of the fixing part connecting the vertical tube of the sludge flotation prevention plate and the oil sludge connection in detail.
Fig. 7 shows a detailed configuration of the fixing portion shown in Fig.
Fig. 8 shows a structure for limiting the bending range of the sludge flood prevention plate.

Fig. 2 conceptually shows the principle of the treated water discharging device of the present invention.

Referring to FIG. 2, the treated water discharging apparatus according to the present invention operates the sludge flood prevention plate 30 by applying external force to the sludge flood prevention plate 30 when the air lift pump 58 fails, 30 is operated to be inclined and left for a sufficient time to remove the sludge deposited on the upper surface of the sludge float prevention plate 30 by gravity (see the right side of FIG. 2). When the treated water discharging portion 40 is operated after the sludge flood prevention plate 30 is returned to its original state, the deposited sludge is removed and is not discharged (see the left side of FIG. 2).

3 shows the structure of the treated water discharging device according to the present invention in detail.

2 and 3, the treated water discharging apparatus 100 according to the present invention is installed near the upper side of the sludge-treated water interface 16 to prevent the sludge 12 deposited downward from being floated A sludge float prevention plate 30 in the form of a funnel; A slope control unit 70 (see FIG. 5) for controlling the slope by pushing or pulling the sludge flotation prevention plate 30 and the treated water discharge unit 40, the sludge drawing unit 50, the fixing unit 60, do.

The treated water discharging portion 40 is installed on the upper surface of the sludge float prevention plate 30 by the support table 32 and is disposed above the sludge float prevention plate 30 for discharging the treated water 14 A pump 42 and a pipe 44 for discharging process water connected to discharge the treated water 14 sucked by the process water discharge pump 42 to the outside of the reaction tank 10.

The sludge drawing unit 50 includes a sidewall 52 installed to extend downward from the center of the sludge float prevention plate 30 so as to suck and discharge the sludge deposited on the upper surface of the sludge flood prevention plate 30, An air lift pipe 56 connected to the second connection pipe 54 and connected to the outside from the upper side of the reaction tank 10 so as to be vertically disposed and connected to the straight pipe 52, And an air lift pump 58 for supplying air through the air supply pipe 57. The air lift pump 58 is connected to one side of the air intake pipe 56,

Here, the oil connection 59 is provided between the upper vertical pipe 52a and the lower vertical pipe 52b formed by dividing the vertical pipe 52 in the horizontal direction in the middle portion. The oil connection 59 may be embodied as a soft vinyl tube or a bellows.

The fixing part 60 supports the oil pipe 59 with the vertical pipes 52a and 52b so that the sludge flotation prevention plate 30 can be bent around the center point C. [

4 is a schematic diagram showing the operation of the sludge flood prevention plate in the treated water delivery apparatus according to the present invention.

 4, the sludge flotation prevention plate 30 is inclined with respect to the center point C and is connected to the sludge flotation prevention plate 30 when it is vertically erected, 59) are straightened one to another.

At both ends of the opening of the sludge float prevention plate 30, that is, at two opposing points, a connection loop 32 is attached to the first wire and the second wire in the summary of the present invention (Corresponding to the first and second support bars in the summary of the present invention) at the lower end thereof to connect the wires (Wire_A, Wire_B) connected to the connection loop 32, (Wire_A, Wire_B) in the direction of the wire (Wire_A, Wire_B).

At this time, if the wire (Wire_B) is loosened while pulling the wire (Wire_A), the sludge float prevention plate (30) is tilted forward. On the contrary, when the wire (Wire_A) is loosened while pulling the wire (Wire_B), the sludge float prevention plate (30) is vertically erected. At this time, when the wire (Wire_A) is pulled by attaching a heavy object to the end of the sludge flotation prevention plate 30 in the tilting direction, even if only a small force acts, it can be configured to be slowly tilted to the final rotation point.

The sludge flotation prevention plate 30 can be stably held at any inclination angle if the wirefishes Wire_A and Wire_B pull the sludge flotation prevention plate 30 in the direction opposite to each other.

Fig. 5 shows the configuration of the inclination adjusting portion.

5, the wires (Wire_A and Wire_B) connected to the sludge float prevention plate 30 are wound in opposite directions to each other on the rotating rod 74. The rotating portion 76, to which the handle is attached and can be manually rotated, The motor can be mounted so that the motor can be automatically rotated using electricity. The motor can be installed so as to rotate the rotating rod 74 in the forward or reverse direction. When the rotating part 76 is turned clockwise as shown in FIG. 4, The wheel 78b is rotated in the counterclockwise direction when viewed from the direction of the wire B (Wire_B) by the action of the toothed wheel 78a and the rotating portion 76, so that the wire B (Wire_B) loosens. In addition, when viewed in the direction of the wire A (Wire_A), the gear wheel 78a rotates in a clockwise direction, so that the wire A (Wire_A) is wound around the wire (Wire_A, Wire_B) It can be changed. It is also acting as a rotary part (76) in the opposite direction of the above information when turned counterclockwise.

Therefore, since the wires A and B (Wire_A, Wire_B) of FIG. 4 are connected to the connection rings 32 disposed at two opposite positions around the opening of the sludge float prevention plate 30, the rotation unit 14 is rotated clockwise The wire A (Wire_A) is pulled and the wire B (Wire_B) is released loosely, so that the sludge float prevention plate 30 is tilted forward. On the contrary, when the rotary part 76 is rotated in the counterclockwise direction, the wire A (Wire_A) loosens and the wire B (Wire_B) is pulled, so that the sludge float prevention plate 30 is vertically positioned. When the motor is installed and operated by electricity, the direction of rotation can be changed by changing the polarity (+, -) of electricity supplied.

6 shows the structure of the fixing part connecting the vertical tube of the sludge flotation prevention plate and the oil sludge connection in detail.

Referring to FIG. 6, an oil pipe 59 operable in all directions is connected to the vertical pipe 52 extending to a lower portion of the sludge float prevention plate 30. Specifically, the middle portion of the vertical tube 52 is horizontally cut to constitute upper and lower vertical tubes 52a and 52b, and the oil connector 59 is connected therebetween.

The connection portion between the upper vertical pipe 52a and the oil connection 59 and the connection portion between the oil connection 59 and the lower vertical pipe 52b are tightly tightened with the corrosion resistant metal ring 86 to maintain a watertight state . The fixing portion 60 is provided so as to maintain the engagement of the upper and lower vertical pipes 52a and 52b while connecting the oil connection 59 between the upper and lower vertical pipes 52a and 52b of the sludge float prevention plate 30 .

Fig. 7 shows a detailed configuration of the fixing portion shown in Fig.

The fixing portion 60 has an upper fixing table 62a, a lower fixing table 62b, and a hinge 64. [

A lower vertical tube 52b penetrates into the center of a U-shaped lower fixing table 62b and a lower vertical tube 52b penetrates through the upper and lower fixing tables 62a and 62b Are connected to a hinge 64, respectively. The upper fixing table 62a can be bent with respect to the lower fixing table 62b by the action of the hinge 64. [ The center point of the hinge 64 corresponds to the center point C of Fig.

The fixing portion 60 is configured to limit the operating range of the sludge float prevention plate 30, that is, the range in which the sludge float prevention plate 30 is bent.

Fig. 8 shows a structure for limiting the bending range of the sludge flood prevention plate.

Referring to FIG. 8, an inclined limiting plate 62c is attached to one side of the upper fixing table 62a. When the sludge float prevention plate 30 is rotated in the clockwise direction and the counterclockwise direction by the inclined limiting plate 62c, the resistance is received at the "contact point"

As described above, according to the treated water discharging apparatus of the present invention, the sludge float prevention plate is operated manually or automatically even when the air lift pump fails or temporarily fails and the efficiency is lowered, It is possible to prevent the sludge from being discharged at the time of operating the treated water discharging unit 40. As shown in FIG.

According to the treated water discharging device of the wastewater treatment apparatus of the present invention, it is possible to discharge good treated water even in an emergency.

30 ... sludge float prevention plate 40 ... treated water discharge portion
50 ... sludge drawing part 60 ... fixed part
70 ... inclination adjusting portion

Claims (5)

delete A treated water discharging device of a wastewater treatment apparatus to which a batch activated sludge process is applied,
A funnel-type sludge float prevention plate installed near the upper side of the sludge-treated water interface and capable of preventing floating of the sludge settled downward;
A treatment water discharge pump mounted on the upper surface of the sludge float prevention plate and adapted to suck treated water from above the sludge float prevention plate; A process water discharging portion composed of a pipe for discharging the process water to be connected;
A sludge flotation prevention plate having a sidewall extending downward from a central portion of the sludge flotation prevention plate so as to suck and discharge the sludge deposited on the sludge flotation prevention plate, a second connection pipe connected to the vertical pipe, A sludge withdrawal part connected to the pipe and vertically disposed, an air lift pipe connected to the outside from the upper side of the reaction tank, a sludge outlet connected to one side of the air lift pipe, and an air lift pump for supplying air through the sludge pipe;
An oil connection provided between upper and lower vertical pipes formed by vertically dividing the vertical pipe;
A fixing part configured to support the upper and lower vertical pipes and the oil connection and to be bent around a center point; And
And a slope adjusting unit for adjusting the slope by pushing or pulling the sludge flood prevention plate,
Here,
An upper fixture formed in an inverted U-shape and having the center pipe penetrated and fixed therein;
A lower fixture formed in a U shape and having a center through which the second connection pipe is inserted and fixed; And
A hinge that connects the upper fixing base and the lower fixing base to bend the upper fixing base about the center point with respect to the lower fixing base;
And a discharge port for discharging the treated water.
[3] The apparatus of claim 2, further comprising an inclined limiting plate installed on one side surface of the upper fixing table to limit a degree of bending of the upper fixing table when the upper fixing table is bent about the hinge with respect to the lower fixing table Characterized in that the process water discharging device comprises:
The apparatus of claim 2, wherein the inclination adjusting portion
First and second wires each having one end fixed to two points facing each other around the opening of the sludge flood prevention plate;
A rotation bar in which the other ends of the first and second wires are wound in opposite directions to each other; And
A rotating part for rotating the rotating rod;
Wherein one side of the first and second wires is wound when the rotating rod is rotated, and the other side is loosened.
5. The method of claim 4,
Further comprising a first and a second support bar located below the sludge float prevention plate and supporting the first and second wires, respectively,

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