KR20040079814A - Drainage treatment device - Google Patents

Abstract

PURPOSE: To provide an apparatus for removing grit from sewage by having a screen on a flow path of the sewage. CONSTITUTION: The apparatus is constituted by connecting a reservoir(2), an upstream passage(3) and a downstream passage(4). A grit pit(5) is formed on the reservoir and has a rotary cylinder(6) on the center thereof. A screen(8) is horizontally placed on the upstream passage according to the flow of sewage and an operable sinking bank is equipped at the upstream side thereof.

Description

Drainage Treatment Equipment {DRAINAGE TREATMENT DEVICE}

The present invention relates to wastewater treatment for obtaining a predetermined water quality by treating wastewater such as sewage, industrial wastewater, or other general wastewater. Specifically, the present invention removes residues and quadrants contained in such wastewater. It relates to a technique for doing.

There are various methods and forms for the wastewater treatment in which various treatments are performed on the wastewater to be treated to obtain a predetermined water quality. However, FIG. 4 schematically shows a wastewater treatment flow of a conventional general wastewater treatment facility 30.

The wastewater collected and flowed into the drainage pipe 31 formed of various squares M, pipes K, etc. is first settled in the drainage treatment facility 30 by the pump P. Iv) The quadrant contained in the drainage is settled and removed therefrom, and a relatively large residue or the like suspended in the drainage is removed by the screen.

Subsequently, the wastewater is sent to the flow regulating tank 33 and stored at a time, and the quantity is sent to the next aeration tank 34. In the aeration tank 34, chemical or biological treatment is performed, and aeration, stirring, and the like are also performed. The wastewater subjected to such treatment becomes a sludge mixed liquid including sludge floc, and is then sent to the settling basin 35, where sludge in the sludge mixed liquid is precipitated and the supernatant water is sent to the sterilization tank 36 for disinfection and discharge.

On the other hand, some of the sludge settled in the settling basin 35 is stored and discharged in the sludge tank 37, but some are used as return sludge. This conveying sludge is conveyed to the aeration tank 34, the flow regulating tank 33, etc. via the conveyance pipe 38, and mixed with waste water by each tank by the action of the various fungi contained in abundance in a conveying sludge. The purification process of the wastewater is promoted.

However, in the conventional wastewater treatment facilities as described above, the capacity is limited and the installation and maintenance costs of the facility and the apparatus are not small. Therefore, it is desirable to further increase the treatment capacity and efficiency and to reduce various costs. It became.

Particularly, in the case of settled land, it is necessary to slow down the flow rate of the drainage in order to naturally settle and remove the four parts contained in the drainage. Therefore, a large area is inevitably required, which increases installation and maintenance costs. It became.

Also, for screens, thinning the mesh as much as possible is ideal for the next drainage process, but in addition to being easily clogged, it is necessary to increase the area as the drainage increases. In addition, the installation space of the screen and the installation cost are limited, which inevitably allows a certain size of the area and the mesh to be somewhat increased.

In addition, the residues removed and recovered by sedimentation are in a state in which residues are also mixed, and there is a problem such as decay or odor at the time of disposal. Was to be done.

SUMMARY OF THE INVENTION The present invention has been made in view of such conventional techniques and phenomena, and includes a drainage treatment apparatus capable of more efficiently removing residues suspended in drainage, and more efficiently containing residues in the quadrant contained in the drainage. It is an object of the present invention to provide a wastewater treatment apparatus capable of removing and recovering the wastewater, and a small, high efficiency and high performance wastewater treatment apparatus which is replaced with a conventional settlement.

1 is a schematic perspective view showing an embodiment of a wastewater treatment apparatus of the present invention.

FIG. 2 is a schematic side view showing the screen 8 and the movable locking bank 9 of the particularly fine mesh of the embodiment shown in FIG. 1.

3 (a) and 3 (b) are schematic side views each showing an embodiment of a rotating cylinder of the embodiment shown in FIG. 1, respectively.

4 is a schematic diagram showing a wastewater treatment flow of a conventional general wastewater treatment facility.

* Explanation of symbols for the main parts of the drawings *

1: Drainage treatment device 2: Sump part

3: upstream flow path 4: downstream flow path

5: immersion feet 6,6 ': rotating cylinder

8: screen of grinding mesh 9: movable lock

In order to solve the above problems, the wastewater treatment apparatus according to the present invention is provided with a screen for removing residue in the flow passage of the drainage which is in a substantially horizontal state, and the screen is flat in a substantially horizontal state as the drainage flows. It is equipped with a batch.

In addition, the lock bank is provided upstream of the screen, and the lock bank is a movable lock bank, and the movable lock bank is appropriately adjusted to increase the flow rate of the drainage through the movable lock bank. The residue deposited and deposited on the phase is allowed to flow into the drainage to clean the screen.

In addition, another wastewater treatment apparatus according to the present invention forms a pool portion having a settling pit which has dug a bottom portion in a drainage flow path in order to solve the above problems, and lowers the flow rate of the drainage water during the drainage. The included quadrant is allowed to settle on the settling pit, and is also provided with a rotating cylinder which floats the residue in the sump and collects the settling center.

In addition, another wastewater treatment apparatus according to the present invention is configured in various forms by sequentially connecting and connecting the wastewater treatment apparatus as described above in order to solve the above problems.

Embodiment of the invention

Embodiment of this invention is described below based on drawing. In addition, the same code | symbol is attached | subjected to a common part and the overlapping description is abbreviate | omitted.

1 is a schematic perspective view of a partial cross section showing a wastewater treatment apparatus 1 of the present invention.

This wastewater treatment apparatus 1 is comprised by connecting the sump part 2, its upstream flow path 3, and the downstream flow path 4 by planar view to substantially U shape or about C shape.

The sump part 2 is provided with the needle pit 5 which dug the bottom part, and the rotating cylinder 6 is provided in the center, and this rotating cylinder 6 is rotated by the rotation drive apparatus which is not shown in figure. It is.

The upstream flow passage 3 is provided with a screen 7 of coarse mesh and a screen of fine mesh 8, in particular, the screen 8 of fine mesh is drained out of the upstream flow passage 3 in a substantially horizontal state. It is provided in a flat arrangement in a substantially horizontal state according to the flow. A movable locking bank 9 is provided upstream of the screen 8 of the thin mesh. Further, on the downstream side of the screen 8 of the fine mesh, a scraper 10 and a discharge container 11 for scraping and discharging the residue deposited and adhered on the screen 8 of the fine mesh are provided.

The downstream flow passage 4 is provided with a lock bank 12 for blocking, removing and recovering the oil fraction floating near the surface of the drain, an oil fraction recovery pit 13, and a drain port 14 for discharging the drain. . Reference numeral 15 denotes a weir for stabilizing the water level of the entire drainage apparatus 1.

The drainage flowing into the upstream flow passage 3 is first passed through the screen 7 of the coarse mesh to remove relatively large impurities, and then suspended by relatively thin impurities and residues by the screen 8 of the thin mesh again. Impurities are removed.

The screen 8 of the thin mesh is provided in the substantially upstream side flow path 3 in a substantially horizontal state in a substantially flat state in a substantially horizontal state in accordance with the flow of the drainage so that the area thereof can be sufficiently enlarged, and thus the thinner mesh Can be done with the screen.

That is, in the case where the screen 8 is assumed to be a vertical arrangement, in order to increase the area, the width and depth of the flow path 3 must be increased, and further, the entire drainage treatment apparatus 1 is enlarged. By providing the screen 8 in a flat arrangement in this manner, the width and depth of the flow path 3 can be used to increase the area by using the length of the flow path 3 and the screen 8 as a long dimension. (1) The whole can also be miniaturized.

Moreover, as shown in the schematic side view of FIG. 2, the movable locking bank 9 provided on the upstream side of the screen 8 of a thin mesh adjusts suitably and it is set to a position lower than a normal position, and the flow velocity of the waste water which passes through It is possible to increase the flow rate and to wash the residue deposited and adhered on the screen 8 of the mesh with the increased drainage force.

In addition, when it is not necessary or does not clean the screen 8 of the mesh which goes to the drainage force in this way, or when always cleaning the screen 8 of the mesh which goes to the drainage force, the movable lock bank 9 It can also be a fixed lock bank set at a suitable position in each case.

In this way, the drainage from which loose impurities such as relatively large impurities and relatively small residues are removed by the coarse mesh screen 7 and the thin mesh screen 8 of the upstream flow passage 3 is then formed in a sump part ( 2) flows into.

The sump part 2 is provided with the needle pit 5 which dug the bottom part, and since the cross-sectional area through which drainage passes becomes large, the flow velocity of drainage can be reduced, and therefore, the small residue which has a small specific gravity contained in wastewater While floating and flowing, the quadrant with a large specific gravity tends to settle. In addition, since the sedimentation pit 5 is dug, a step | step difference arises with the downstream flow path 4, Therefore, it becomes a structure which the quarter settled and deposited by the sedimentation pit 5 does not flow out into the downstream flow path 4, have.

In addition, when the sump part 2, the upstream flow path 3, and the downstream flow path 4 are connected in substantially U shape or substantially c shape in planar view like this Example, drainage is By changing the flow direction by 180 degrees, the flow rate of the drainage can be further lowered.

In addition, in the case where the sump part 2 is provided with the rotary cylinder 6, the fine residue in the waste water by the action of the transverse vortex H and the longitudinal vortex V generated by the rotation of the rotary cylinder 6 It becomes harder to settle more in a floating state, and it is possible to collect the quadrant S settled by sedimentation on the sedimentation pit 5 at the center of rotation of the rotating cylinder 6. As shown in FIG. Reference numeral 16 denotes a drawing tube for extracting and discharging the quadrant S deposited on the settling pit 5 and discharging it. The drawing port is positioned at the center of rotation of the rotating cylinder 6 to settle the settling pit 5. It is formed at the bottom of).

Moreover, in the form of the rotating cylinder with which the sump part 2 is equipped, as a rotating cylinder 6 which has a ceiling plate and a bottom plate as shown in FIG. It can also be used in the water-repellent state as a hollow rotating cylinder 6 'as shown to Fig.3 (b).

As a result, minute residues are less likely to be mixed in the quadrant S taken out from the needle pit 5, and thus, problems such as decay and odor generation at the time of disposal are significantly reduced. In addition, when the rotary cylinder 6 or the rotary cylinder 6 'is provided, the fine residue becomes more difficult to be mixed in the quadrant S, and the quadrant S that has settled down and deposited on the needle pit 5 is deposited. Can be collected at the center of rotation of the rotating cylinder 6 or the rotating cylinder 6 ', so that the removal and discharge of the quadrant S can be remarkably saved and improved.

In this way, the waste water whose quadrant was removed from the sump part 2 flows into the downstream flow path 4 then.

The downstream side flow passage 4 is provided with a locking bank 12 and an oil powder recovery pit 13, and the oil powder floating near the surface of the drainage can be prevented from being removed and recovered. In addition, the locking bank 12 is not intended to adjust the water level, and acts like an oil fence.

And the waste water from which the oil powder was removed is discharged | emitted from the discharge port 14 over the bank 15, and is sent to a post process, such as a flow adjusting tank which is a next step.

Further, each of the wastewater treatment apparatuses according to claims 1 to 3 of the present invention, i.e., each of the wastewater treatment apparatuses provided with a screen for removing residues in a flat arrangement in a substantially horizontal state in a flow passage of a drainage in a substantially horizontal state And the wastewater treatment apparatus according to claim 4 or 5 of the present invention, that is, each of the wastewater treatment apparatuses based on the formation of a sump having a sedimentation pit digging a bottom in a drainage flow path can be used alone. Although there is a drainage treatment apparatus, in addition to these drainage treatment apparatus can be configured by combining the drainage treatment apparatus of various forms sequentially.

That is, when the wastewater treatment apparatus according to any one of claims 1 to 3, the wastewater treatment apparatus according to claim 4 or 5, and the combination are sequentially connected to each other, for example, in a straight or bent form, each wastewater treatment apparatus is used. Since the device is basically a configuration using a drainage flow path, it is possible to considerably reduce the size and efficiency of the conventional sinking paper, and to increase the degree of freedom in the layout of the entire drainage treatment device.

In addition, as in the embodiment shown in FIG. 1, the wastewater treatment apparatus of any one of claims 1 to 3, the wastewater treatment apparatus of claim 4 or 5, and the sump part 2 in the wastewater treatment apparatus of claim 4 or 5. The downstream flow passage 4 for discharging the drainage and the triangular combination are sequentially connected, and in particular, the drainage treatment apparatus has a U-shape or a roughly c-shape in view of the entire shape in plan view with the sump part 2 as a return site. In the case of (1), the sedimentation of the four quarters in the sump part 2 is further promoted, so that it is possible to further reduce the size, high efficiency and high performance as compared with the conventional settling paper.

The wastewater treatment apparatus of the present invention has the contents as described above, and can more efficiently remove residues suspended in the drainage, and more efficiently remove the quadrant contained in the drainage in a state that does not contain the residue. It is possible to obtain a compact, high efficiency and high performance wastewater treatment system which can be replaced with a conventional settlement basin.

Claims (7)

A drainage treatment apparatus having a screen for removing residues in a drainage passage that is approximately horizontal, And said screen is provided in a flat arrangement in a substantially horizontal state in accordance with the flow of the drain. The drainage treatment apparatus according to claim 1, further comprising a locking bank upstream of the screen. The method of claim 2, wherein the locking bank is a movable locking bank, and the movable locking bank is appropriately adjusted to increase the flow rate of the drainage through the movable locking bank, thereby depositing residue deposited on the screen. A drainage device, characterized in that for cleaning the screen by flowing to the drain. A sump having a settling pit which has dug the bottom part in the drainage flow path, and the four parts contained in the drainage settle to the settling pit by lowering the flow velocity of a drainage in this sump part. 5. The wastewater treatment apparatus according to claim 4, further comprising a rotating cylinder which floats the residue on the sump and collects the settling centers. A wastewater treatment apparatus configured by sequentially combining the wastewater treatment apparatus according to any one of claims 1 to 3, the wastewater treatment apparatus according to claim 4 or 5, and the above. From the said wastewater treatment apparatus in any one of Claims 1-3, the wastewater treatment apparatus of Claim 4 or 5, and the said wastewater treatment apparatus in Claim 4 or 5. And a downstream flow path for discharging the drainage, and sequentially combining the three characters, and having the puddle portion as a return portion, and configured the overall shape in a substantially U-shaped or approximately c-shaped in plan view.