KR200380322Y1 - Disposal water drain equipment for sewage disposal plant - Google Patents

Abstract

The present invention relates to a treatment water discharge device of a sewage treatment device, and a newly designed sludge injury prevention plate near the deformed batch activated sludge-treated water interface in which the sewage aeration, sedimentation, and discharge processes are sequentially performed in the same treatment tank. And the treatment water discharge device for discharging the treatment water outside by suctioning and discharging the treatment water from the upper side of the sludge injury prevention plate, thereby effectively preventing the discharge of sludge due to the incidence of precipitated sludge. It is an object of the present invention to provide a treatment water discharge device of a sewage treatment device in which only good quality treated water can be discharged during a discharge process.

According to the discharge device of the present invention, it is possible to minimize the gap between the minimum water level of the treated water and the sludge-treated water interface to increase the discharge of the treated water, it is possible to reduce the size of the treatment tank in the design of the batch reactor, The cost of the overall treatment plant can be reduced.

In addition, the treatment water discharge device is not a structure that flows in accordance with the change in the water level of the treated water, because it is a fixed structure excellent durability and can achieve ease of installation and cost reduction.

Description

Disposal water drain equipment for sewage disposal plant

The present invention relates to a treatment water discharge device of a sewage treatment device, and more specifically, a sludge injury prevention plate is installed near the sludge-treated water interface inside the reaction tank, and a treatment water discharge device for external discharge of treated water. By adsorbing and discharging the treated water from the upper side of the additional sludge injury preventing plate, it is possible to effectively prevent the discharge of sludge due to the incidence of precipitated sludge, and thus sewage treatment in which only good water can be discharged during the discharge process. A treatment water discharge device of the device.

Generally, sewage such as wastewater and manure generated from homes and workplaces is purified by physical or biological methods for ecosystem conservation and water resource conservation of streams, and then discharged to streams.

In particular, the batch activated sludge process is performed in order to remove sewage, sedimentation, and discharge processes in the same treatment tank to remove organic pollutants in sewage and nutrients such as nitrogen and phosphorus that cause eutrophication of rivers and lakes. The spread of sewage treatment apparatuses is increasing.

In such a sewage treatment apparatus, a treatment water discharge device which prevents sludge from being included in the treated water discharge process and allows a rapid discharge of the treated water can be determined so that the success of the whole process can be determined. Becomes

1 is a schematic view showing an example of a conventional treatment water discharge device.

As shown in FIG. 1, the reaction vessel 10 has a structure in which sewage flows from a flow adjustment tank (not shown), and an outlet pipe 28 connected to the outside is provided at a bottom side of the reaction vessel 10. Is installed.

The outlet pipe 28 is connected to the lower end of the discharge pipe 26 in the reaction tank 10, the upper end of the discharge pipe 26 is connected to a trap (20) that can discharge the treated water (14). do.

A weir 22 is formed at one side of the trap 20, and an air tank 24 is attached to the trap 20 to float on the water surface of the treated water 14.

As such, the trap 20 in the state where the air tank 24 is attached is raised or lowered according to the level of the treated water 14 in the reaction tank 10, so that the trap 20 and the outlet pipe 28 are separated. The connecting discharge pipe 26 is made of a flexible material and can be flowed in the reactor 10.

When describing the process of discharge of the sewage introduced into the reaction tank 10, the sewage introduced into the reaction tank 10 is first subjected to the aeration process, after which the sludge 12 is precipitated, the lower side in the reaction tank 10 After the sludge 12 is precipitated, the upper treated water 14 flows out of the reaction tank 10 through the outlet pipe 28 through the trap 20 and the discharge pipe 26.

At this time, as the water level of the treated water 14 is lowered, the floating air tank 24 on the water surface moves downward, and thus, the air tank 24 moves downward little by little so that external discharge of the treated water 14 is made. do.

However, in the conventional treatment water discharge device having the above structure, the mixture of sewage and active microorganisms (MLSS) may be easily introduced into the trap 20 through the weirs 22, thereby giving up. There was a problem that the MLSS introduced into the trap 20 during the process is discharged together with the treated water 14 in the discharge process after precipitation.

That is, the treated water discharged at the time of the discharge process is a problem that is discharged to the poor water quality.

In addition, in the conventional treatment water discharge device, since the discharge pipe 26 is connected to the trap 20 moving downward in accordance with the water level of the treatment water 14, the discharge pipe 26 has a large amount of refracted portion, making maintenance difficult. There was a problem.

In addition, the discharge pipe 26 has to be in the form of a hose having flexibility to be easily refracted, so there is a problem that its durability is not good, such as easily broken.

In order to solve this problem, Korean Patent Laid-Open Publication No. 2001-0074161 proposes a treatment water discharge device which adopts a sludge injury prevention means on the treatment water suction side and discharges the treatment water upwards. In order to prevent sludge mixing by the water, there was a limitation in terms of discharging good water quality such as having a limit.

The present invention has been made in view of the above problems, install a sludge injury prevention plate in the vicinity of the sludge-treated water interface inside the reaction tank, the treated water discharge device for the external discharge of the treated water to prevent the sludge injury By suctioning and discharging the treated water from the upper side of the plate, it is possible to effectively prevent the discharge of sludge due to the rise of sedimented sludge, so that only the good quality treated water can be discharged during the discharging process, while the newly designed sludge injury The purpose of the present invention is to provide a treatment water discharge device of a sewage treatment device which can solve the sludge mixing problem caused by the vortex phenomenon through the prevention plate.

The present invention for achieving the above object is installed in the vicinity of the upper side of the sludge-treated water interface to prevent the injuries of sludge settled to the lower side and the sludge injury prevention plate is mounted by a support on the upper surface of the sludge injury prevention plate A treatment water discharge device comprising a treatment water discharge pump configured to suck treatment water from the upper side of the sludge injury prevention plate, and a treatment water discharge pipe connected to discharge the treatment water sucked by the treatment water discharge pump to the outside of the reaction tank; The upper side of the reaction tank is connected to the vertical pipe installed in the center of the sludge injury prevention plate and the second connecting pipe connected to the vertical pipe and the second connecting pipe so as to suck in the sludge deposited on the upper surface of the sludge injury preventing plate. Through the air pipe connected to the outside and the air pipe connected to one side of the air lift pipe Characterized in that the sludge drawn part consisting of an apparatus consisting of an air lift pump for feeding.

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

2 is a schematic view showing a treatment water discharge device of the present invention.

As shown in Figure 2, the batch reactor 10 of the present invention is equipped with a check hole (not shown) to enable the maintenance of the treated water and related equipment on one side of the top, a flow adjustment tank (not shown) to buffer the flow fluctuations (not shown) ) So that sewage can flow from

At this time, the sewage flowing into the reaction tank 10 from the flow rate adjustment tank is to be introduced to the height of the "L ₁ " which is the highest water level.

Treatment water discharge device according to the present invention is installed in the reaction tank 10 in the upper side of the sludge-treated water interface 16 near the upper side of the sludge injury prevention plate 30, the sludge injury prevention plate 30 And a treatment water discharge device 40 for sucking the treated water from the upper side of the sludge injury preventing plate 30 and discharging it to the outside of the reaction tank 10, and installed under the sludge injury preventing plate 30. Sludge drawing device portion 50 for discharging the sludge deposited on the upper surface of the anti-floating plate 30 to the outside of the reaction tank (10).

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

The sludge injury prevention plate 30 has a shape that is easily discharged by the sludge drawing device unit 50 provided with sludge deposited on the upper surface thereof and effectively prevents sludge injuries from the lower side. As a preferred embodiment, as shown in Figure 2, the English M-shaped sludge injury prevention plate 30 can be used.

That is, the sludge injury prevention plate 30 having a vertical cross-sectional shape of an English M-shaped vertical cross section may be used, having a wing portion extending downward by a predetermined angle from the top edge of the funnel-shaped body.

As an embodiment of the present invention, the sludge injury prevention plate 30, which is M-shaped in English, is a shape in which the sludge deposited on its upper surface can be easily sucked into the vertical pipe 52 installed at the center lower end, and gravity sedimentation is performed. It is a shape that can flow down naturally by.

In addition, it is possible to effectively prevent the sludge floating by the vortex due to the characteristics of the English M-shaped flows easily onto the sludge injury prevention plate 30.

That is, by blocking the wing portion extending downward bent from the edge around the sludge injury prevention plate, it is possible to suppress the mixing of the sludge as much as possible.

The sludge injury prevention plate 30 should be secured enough space for the pump 42 of the treatment water discharge unit 40 is installed on the upper surface.

Preferably, the sludge injury prevention plate 30 is installed near the upper side of the sludge-treated water interface 16 as the vertical height thereof, and the height of the sludge-treated water interface 16 is the effective capacity of the batch reactor 10. It can be determined at the time of calculation, accordingly the sludge injury prevention plate 30 is installed so that the up and down height can be adjusted in the installation portion.

The treatment water discharge device unit 40 installed above the sludge injury preventing plate 30 includes a treatment water discharge pump 42 that provides suction power for discharging the treatment water, and the treatment water discharge pump 42. The first connection pipe 46 is connected to the discharge port, and the transfer pipe 48 is connected to the first connection pipe 46 to transfer the treated water discharged to the outside.

The first connection pipe 46 and the transfer pipe 48 of the embodiment according to the present invention are treated water discharge pipes 44 for discharging the treated water sucked from the treated water discharge pump 42 to the outside of the reaction tank 10. to be.

That is, the treatment water discharge device unit 40 sucks the treatment water 14 with the treatment water discharge pump 42 on the upper side of the sludge injury prevention plate 30, and through the treatment water discharge pipe 44. It will be discharged to the outside of the river.

A support 32 for mounting the treatment water discharge pump 42 is attached to one side of the upper surface of the sludge injury preventing plate 30, and the support 32 integrally integrates the treatment water discharge pump 42. It is fixed or, preferably, installed so that the vertical height can be adjusted.

In order to adjust the height of the treatment water discharge pump 42, the support 32 may be implemented by a known technique such as a structure that is slidably foldable.

In addition, the sludge drawing device unit 50 installed to the lower side of the sludge injury prevention plate 30 is connected to the vertical pipe 52 and the vertical pipe 52 installed in the center of the sludge injury prevention plate 30. A second connecting pipe 54, an air lift pipe 56 connected to the second connecting pipe 54, an air pipe 57 connected to one side of the air lift pipe 56, and the air pipe 57 It consists of an air lift pump (58) for supplying air to the air lift pipe (56) through.

The air lift pipe 56 is for discharging the sludge deposited on the upper surface of the sludge injury prevention plate 30 to the outside of the reaction tank 10, that is, the sludge concentrated storage tank (not shown), the second connecting pipe 54 ) And is arranged up and down is connected to the outside from the upper side of the reactor (10).

The sludge deposited on the upper surface of the sludge injury prevention plate 30 is drawn into the sludge concentrated storage tank while sequentially passing through the vertical pipe 52, the second connecting pipe 54, and the air lift pipe 56.

In addition, when the treatment water discharge pump 42 is operated, the vertical pipe 52 and the air lift pipe (to prevent breakage of the pipe due to the vibration and rise of the sludge 12 deposited in the reaction tank 10). 56 is fixed by the fixing means 60.

That is, the fixing means 60 is a device for fixing the treatment water discharge device of the present invention in the reaction tank 10, as shown in Figure 2, in the embodiment of the present invention of the vertical pipe (52) One side and one side of the air lift pipe 56 and the lower end thereof are fixed.

Hereinafter, a state in which the treated water discharge device of the present invention is operated as follows.

In describing the operation state of the treatment water discharge device of the present invention, the sewage treatment process to which the batch activated sludge method is applied will first be described.

First, the sewage flows into the reactor 10 from the flow rate adjustment tank to the height "L ₁ " in FIG.

After the inflow of sewage is completed, the air supply drawing aeration process is performed from a blower (not shown) installed outside the reaction tank 10 to the sewage inside the reaction tank 10.

The organic matter in the sewage in the reaction tank 10 is oxidized and decomposed by the active microorganisms inhabiting the inside of the reaction tank 10 by the aeration process, and when the aeration process for the treatment of the organic matter is completed, the blower stops operation and precipitates. The process proceeds.

Thereafter, as the precipitation process proceeds, the treated water 14 and the sludge 12 are separated, and the sludge 10 is precipitated to the sludge-treated water interface 16 shown in FIG. 2.

At this time, the sludge is also deposited on the upper surface of the sludge injury prevention plate 30, the sludge drawing device unit 50 is first operated to remove the sludge in the deposited state.

After the sedimentation process is completed, if air is supplied to one side of the air lift pipe 56 through the air supply pipe 57 while the air lift pump 58 is operated, the air lift pipe 56 in which the supplied air is disposed up and down is provided. It rises to bubble inside).

As the bubble rises, negative pressure is formed in the air lift tube 56. As such negative pressure is formed, the sludge deposited on the upper surface of the sludge injury preventing plate 30 is sucked into the vertical tube 52. It naturally flows down by gravity sedimentation.

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

As a result, during the discharge process, the sludge deposited during the precipitation process does not exist on the upper surface of the sludge injury prevention plate 30, and in this state, the treated water discharge pump 42 is operated to upper side of the sludge injury prevention plate 30. In the treated water 14 is discharged to the outside of the reaction tank 10 through the first connecting pipe 46 and the transfer pipe (48).

When the treatment water discharge pump 42 is operated, a vortex is formed by the suction force of the pump, but the treatment water discharge pump 42 is installed above the sludge injury prevention plate 30, and the sludge injury prevention plate ( Since 30) is installed above the sludge-treated water interface 16, the sludge injury prevention plate 30 is settled below the treated water 14, the sludge 12 is floated together with the treated water 14 To prevent it from being discharged.

That is, if only the treatment water discharge pump 42 is installed without the sludge injury prevention plate, since the vortex is formed by the suction force, the sludge 12 precipitated to the lower side of the treated water 14 rises and is discharged. When the sludge injury prevention plate 30 is installed together, since the vortex does not affect the precipitated sludge 12, the sludge 12 is prevented from being injured.

Therefore, according to the treatment water discharge apparatus of the present invention, only the treatment water of good quality can be discharged during the discharge process.

In addition, the line "L ₂ " shown in FIG. 2 represents the lowest water level of the treated water 14 which the treated water discharge pump 42 can inhale and discharge the treated water.

In the conventional treatment water discharge device, the settling water level (L ₂ ) is set higher in order to prevent the precipitated sludge 12 from being discharged together with the treatment water 14 while flowing into the weir 22 and the trap 20. In the treatment water discharge device of the present invention, the treated water 14 is sucked from the upper side of the sludge injury prevention plate 30, and the sludge injury prevention plate 30 prevents the sludge 12 from rising to the lower side. Therefore, the lowest water level (L ₂ ) can be lowered.

Therefore, it is possible to discharge treated water of good quality even at a low minimum water level (L ₂ ), thereby increasing the discharge of treated water.

As described above, according to the treatment water discharge device of the sewage treatment apparatus according to the present invention, a sludge injury prevention plate is installed near the upper side of the sludge-treated water interface inside the reaction tank, and treated water for external discharge of the treated water. By discharging the treated water from the upper side of the sludge injury prevention plate to discharge the treated sludge, it is possible to effectively prevent the discharge of sludge caused by the rise of the sludge, so that only good quality treated water can be discharged during the discharge process. It has an effect.

In addition, it is possible to minimize the gap between the minimum water level of the treated water and the sludge-treated water interface to increase the discharge of the treated water, to reduce the size of the treatment tank in the design of the batch reactor, and to reduce the cost of the overall treatment facility. There is a saving effect.

1 is a schematic view showing a conventional treatment water discharge device

2 is a schematic view showing a treatment water discharge apparatus of the present invention

<Explanation of symbols for main parts of drawing>

10: reactor 12: sludge

14 treated water 16 sludge-treated water interface

20: trap 22: weir

24: air tank 26: discharge pipe

28: outflow pipe 30: sludge outflow unit

32: support 40: treated water discharge unit

42: treated water discharge pump 44: treated water discharge pipe

46: first connector 48: transfer pipe

50: sludge drawing device 52: vertical pipe

54: second connector 56: air lift pipe

57: air pipe 58: air lift pump

60: fixing means

Claims (1)

Supporting the sludge injury prevention plate 30 is installed near the upper side of the sludge-treated water interface 16 to prevent the injuries of the sludge 12 precipitated downward, and the upper surface of the sludge injury prevention plate 30 A treatment water discharge pump 42 and the treatment water discharge pump pump 42 which are mounted by a 32 and are configured to suck the treatment water 14 above the sludge injury preventing plate 30. The sludge deposited on the upper surface of the treatment water discharge device unit 40 and the sludge injury prevention plate 30 sucked by the treatment water discharge pipe 44 connected to discharge the treatment water 14 to the outside of the reaction tank 10 is sucked. It is connected to the vertical pipe 52 and the second connecting pipe 54 and the second connecting pipe 54 connected to the vertical pipe 52 installed in the center portion of the sludge injury prevention plate 30 so as to be arranged up and down One side of the air lift pipe 56 and the air lift pipe 56 connected to the outside from the upper side of the reaction tank 10 Deformation batch bioreactor characterized in that it comprises a sludge drawing device unit 50 consisting of an air pipe (57) connected to the air and the air leak pump 58 for supplying air through the air pipe (57) ( In the treated water discharge device of the sewage treatment device to which KM-SBR) is applied, The sludge injury prevention plate 30 is formed in a shape having a wing portion extending downward by a predetermined angle from the top edge of the funnel-shaped body treatment of sewage treatment apparatus, characterized in that the vertical cross-sectional shape is M-shaped in English Water discharge device.