KR101935506B1 - Treatment facility for nonpoint pollution - Google Patents

Abstract

The present invention relates to a nonpoint pollution treatment facility which is capable of, when cleaning a filter agent in a filter tank forming the nonpoint pollution treatment facility, reversely cleaning the filter agent in a direction opposite to the filtering direction of rainwater by a physical agitation in accordance with the driving of an agitator, thereby securing excellent reverse cleaning efficiency. According to the present invention, the nonpoint pollution treatment facility comprises: a pre-treatment tank which precipitates floating matter and solids of rainwater introduced from the outside through a rainwater inflow pipe; and a filter tank which receives treated water from the pre-treatment tank through a transport pipe and filters the treated water. The filter tank comprises: a filter unit whose upper and lower surfaces are made of a net to accommodate a bead-type filter agent inside; a reverse cleaning water spray unit which sprays reverse cleaning water towards the filter unit; and two or more parallel agitators placed inside the filter unit which rotate in opposite directions and have a screw agitation wing engaged with a rotary shaft to agitate the bead-type filter agent inside the filter unit.

Description

Non-point pollution treatment facility {Treatment facility for nonpoint pollution}

The present invention relates to a non-point pollution treating facility, which is capable of ensuring excellent backwashing efficiency by backwashing filtration in a direction opposite to the direction of filtration by physical stirring by driving a stirrer when washing filtration media of a filtration tank constituting a non- It is about pollution treatment facilities.

Pollution caused by the emission of all the pollutants of unspecified majority or area which can not specify the discharge point of the pollutant source such as storm is called nonpoint pollution and corresponds to the pollution of the river by agricultural pesticide spraying or soil erosion in agricultural land .

The non-point pollution treatment facility for treating such non-point pollution generally comprises firstly precipitating the sludge contained in the initial rainwater in the pretreatment tank, then sending the treated water excluding the sludge to the filtration tank to some extent, And is discharged to the outside.

However, in a filtration tank, when a certain treatment time passes, there is a problem that the filtration efficiency is deteriorated due to adsorption of contaminants to the filtration media.

For this purpose, conventionally, as described in Japanese Patent No. 10-1743712, it is necessary to remove the contaminants adsorbed on the filtration process by spraying the reverse water wash water in the upper part and air spraying in the lower part simultaneously. And backwashing techniques have been developed and used.

However, such backwashing by air injection has a limitation in that the cleaning efficiency is low.

In order to solve the above-mentioned problems, the present invention has been made to solve the above problem by using air to remove the contaminants adsorbed on the filtration media during physical washing of the filtration tank constituting the non-point pollution treatment facility, So as to provide a non-point pollution treatment facility capable of obtaining excellent backwashing efficiency.

According to a preferred embodiment of the present invention, a pretreatment tank for precipitating suspended solids and solids from the outside through a stormwater inflow pipe from the outside, and a filtration tank for transporting the treated water treated in the pretreatment tank through a transfer pipe, The filtration tank has a filtration unit in which the upper and lower surfaces are formed of a mesh body and the bead type filtration material is contained therein, and a backwash water dispersion unit for spraying backwash water to the filtration unit. The filtration unit stirs the bead filtration in the filtration unit A stirrer in which two or more screw blades are coupled to a rotating shaft so as to be parallel to each other and rotates in opposite directions to each other, a centrifugal separator for washing the bead filtrate from the filtrate tank, A reverse water conveyance pipe provided with a check valve for allowing only the conveyance of the filtrate, A drainage pump provided in a pit formed on a bottom surface of the pretreatment tank for discharging the wash water to the outside, a molten pipe connected to one end of the pretreatment tank of the transfer pipe so as to extend to a predetermined height above the pretreatment tank, And a partition wall provided in the interior of the pretreatment tank to bypass the stormwater flowing between the transfer tubes.

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According to the present invention, when cleaning a filter in a filtration tank constituting a non-point pollution treatment facility, the filter is backwashed in a direction opposite to the filtration direction by the physical stirring by the driving of the stirrer provided in the filtration unit It is possible to provide a non-point pollution treatment facility capable of securing the backwashing efficiency.

1 is a perspective view of a non-point pollution treatment facility of the present invention.
2 is a plan view of the non-point pollution treatment facility of the present invention.
3 is a perspective view showing a filtration unit;
4 is a cross-sectional view taken along line A-A 'of Fig.
Figure 5 is a cross-sectional view taken along line B-B 'of Figure 2 during the filtration process;
FIG. 6 is a cross-sectional view taken along line B-B 'of FIG. 2 during backwashing.

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

FIG. 1 is a perspective view of the non-point pollution treatment facility of the present invention, FIG. 2 is a plan view of the non-point pollution treatment facility of the present invention, and FIG. 3 is a perspective view showing the filtering part. FIG. 4 is a cross-sectional view taken along the line A-A 'of FIG. 2, FIG. 5 is a cross-sectional view taken along the line B-B' of FIG. 2 during the filtration process, Sectional view.

1, 2, and the like, the non-point pollution treatment facility of the present invention includes a pretreatment tank 1 for precipitating floating suspended solids and solids introduced from outside through a storm inflow pipe 11, And a filtration tank 2 in which the treated water treated in the filtration tank 2 is conveyed and filtered by the conveyance pipe 12. The filtration tank 2 is composed of upper and lower surfaces as a mesh body and a bead- A backwash water splitting part 23 for spraying backwash water to the filtration part 21 and a bead type filtering part 22 provided inside the filtration part 21 and inside the filtration part 21, And a stirrer 24 having two or more screw blades 242 coupled to the rotating shaft 241 so as to be rotated in opposite directions to each other.

In the pretreatment tank 1, suspended matters and solids contained in the rainwater are precipitated.

The preprocessing tank 1 is connected to one side of the storm inflow pipe 11 and the outside stormwater is introduced into the pretreatment tank 1 through the storm inflow pipe 11.

The treated water treated in the pretreatment tank (1) is transferred to the filtration tank (2) through a transfer pipe (12).

Preferably, the stormwater inflow pipe 11 is located at an upper end of the transfer pipe 12.

The filtration tank (2) filters foreign matters in the treated water transferred from the pretreatment tank (1) by a transfer pipe (12).

The transfer pipe 12 may be located near the bottom of the filtration tank 2 at the bottom of the filtration unit 21.

An outflow pipe 25 is installed at one side of the upper end of the filtration tank 2 to discharge the treated water from the filtration tank 2 to the outside.

The filtration tank (2) is provided with a filtration unit (21) therein.

As shown in FIG. 3, the upper surface and the lower surface of the filtration unit 21 may be formed of a network such as a grid 211. So that the storm water and the backwash water can pass smoothly from the upper part and the upper part to the lower part of the filtration part 21, respectively.

A bead-shaped filtering member 22 is accommodated in the filtering part 21.

The bead filter 22 is made of beads of the same kind as expanded clay, that is, a bead type, and adsorbs impurities in the fine particles passing through the filtration part 21. [

The filtration tank (2) is provided with a backwash water splitting part (23) for spraying backwash water to the filtration part (21).

The backwash water splitter 23 injects backwash water into the filtration unit 21 in a direction opposite to the filtration direction of the rainwater to clean the contaminants. The pollutants separated by the reverse water wash water flow down to the lower portion of the filtration unit 21. [

1, 4 and so on, the filtration tank 2 is provided with a stirrer 24 provided inside the filtration unit 21 and stirring the bead-shaped filtration media 22 inside the filtration unit 21 Respectively.

The stirrer 24 may be provided in two or more. At this time, if the agitators 24 adjacent to each other are rotated in opposite directions, the stirring efficiency of the bead type filtration task 22 located inside the filtration portion 21 can be maximized.

1, 2, and the like, the agitator 24 agitates the bead-shaped filtration media 22 in the filtration part 21. As shown in FIG.

The stirrer 24 may be configured such that a stirring blade 242 such as a screw or a blade is coupled to the rotating shaft 241. As a result, the bead-shaped filtration media 22 can be agitated by rotating the stirring blade 242 as the rotating shaft 241 of the stirrer 24 is rotated.

The agitator 24 is drivable in accordance with the driving of the backwash motor 243.

When the agitator 24 is rotated, contaminants adsorbed on the bead-shaped filtration media 22 are removed by contact between the agitator 24 and the bead filtration media 22, do.

In addition, the backwash water can be sprayed by the backwash water divider 23 at the upper portion of the filtration tank 2 as in the conventional art. As a result, the contaminants separated from the bead-shaped filtration media 22 by the agitator 24 are washed by the reverse water and flow down to the bottom of the filtration tank 2. [ Then, the stationary water discharge pump 13 discharges the stationary water to the outside.

The backwash water is supplied to the backwash water splitter 23 by the backwash pump 26 connected separately.

Referring to FIG. 5, the filtration process of the stormwater transferred to the filtration tank 2 will be described as follows.

The rainwater conveyed from the pretreatment tank 1 by the transfer pipe 12 passes through the filtration unit 21 while rising up from the lower part of the filtration tank 2. At this time, the contaminants are filtered by the bead type filtering unit 22 located inside the filtration unit 21, and the filtered water is introduced into the filtration tank 2 through an outflow pipe 25, respectively.

The backwashing process of the storm is washed off from the top down to the bottom as opposed to the filtration process described above, which is shown in Fig.

As described above, in the present invention, not only the pollutant adsorbed on the filtration agent is removed by air, but the non-point pollution treatment facility having an excellent backwashing efficiency is obtained by backwashing the filtration agent by physical stirring according to the driving of the agitator .

The filtration tank 2 is provided with a reverse water conveyance pipe 27 for conveying backwash water having been washed with the bead type filtration agent 22 to the pretreatment tank 1 and a filtration tank 2 is disposed inside the pretreatment tank 1, And a drain pump 13 for discharging the circulated sewage water to the outside.

The backwash water used to clean the bead type filter 22 needs to flow out to the outside, which requires a separate pump.

However, since the water in the pretreatment tank (1) and the filtration tank (2) must be removed before backwashing, backwashing is required, so that the pretreatment tank (1)

Therefore, the reverse water in the filtration tank 2 is sent to the pretreatment tank 1 and then subjected to pretreatment in the filtration tank 2 so that it can be discharged simultaneously with the remaining water in the pretreatment tank 1 by the drainage pump 13 of the pretreatment tank 1 And a stationary water conveying pipe 27 for discharging the stationary water to the tank 1 can be installed.

The stationary water transferred to the pretreatment tank 1 is transferred to the sewage pipe 17 through the drainage pump 13 and is collected and collected in an external treatment facility.

The reverse water conveyance pipe 27 may be provided with a check valve 271 for allowing only the transfer from the filtration tank 2 to the pretreatment tank 1.

In order for the backwash water after backwashing to be naturally conveyed to the pretreatment tank 1 through the reverse waterwheel conduit 27, it is preferable that the reverse waterwheel conduit 27 is located below the filtration tank 2. [

In this case, the remaining water in the pretreatment tank 1 during backwashing and the backwash water transferred to the pretreatment tank 1 after backwashing may be introduced into the filtration tank 2 through the reverse water storage tank 27 again.

Therefore, in order to prevent this, a check valve 271 can be installed in the reverse water conveyance pipe 27 to allow the fluid to move only in the direction of the pretreatment tank 1 in the filtration tank 2 while preventing fluid movement in the opposite direction have.

The check valve 271 is closed during the non-point pollution treatment and is opened only during backwashing, thereby preventing the rainwater in the filtration tank 2 from being fed back to the pretreatment tank 1. [

A pit 14 may be formed on the bottom surface of the pretreatment tank 1 to have a predetermined depth and the drain pump 13 may be provided on the pit 14.

The pit 14 for collecting the backwash water to the drain pump 13 side can be formed so as to completely discharge the stationary water transferred to the pretreatment tank 1 and the remaining water originally left in the pretreatment tank 1.

The pits 14 may be formed by gently sloping the bottom surface of the pretreatment tank 1.

A drain pipe (15) extending to an upper portion of a certain height inside the pretreatment tank (1) may be coupled to one end of the transfer pipe (12) on the side of the pretreatment tank (1).

When the overflow pipe 15 is installed in the pretreatment tank 1 as described above, when the storm is exuded from the pretreatment tank 1, only the excellent sedimentation is carried out through the overflow pipe 15 and the transfer pipe 12, (2).

The backflow pipe 15 prevents backwash water transferred to the pretreatment tank 1 after backwashing from being fed back to the filtration tank 2 through the transfer pipe 12.

It is preferable that the upper end of the overflow pipe 15 is installed lower than the position of the inflow pipe 11 and the partition wall 16 as much as possible.

In the pretreatment tank 1, a partition wall 16 may be provided for bypassing the rainwater flowing between the stormwater inflow pipe 11 and the transfer pipe 12.

The partition wall (16) is installed in front of the storm inflow pipe (11).

One end of the partition wall 16 may be spaced apart from the inner surface of one side of the pretreatment tank 1 and the upper end may be spaced apart from the upper surface of the pretreatment tank 1 by a predetermined distance.

As a result, the inflowing storm can bypass the partition wall 16 laterally and upwardly to flow along the open portion, thereby increasing the sedimentation efficiency by increasing the moving distance of the storm.

Particularly, since the moving distance of the storm is increased as the distance between the storm inflow pipe 11 or the portion of the conveyance pipe 12 opened by the partition 16 is increased, And install it in an appropriate place.

1: Pretreatment tank 11: Strong inlet pipe
12: Transfer pipe 13: Drain pump
14: feet 15:
16: bulkhead 17: sewer pipe
18: Flow meter 2: Filtration tank
21: filtration unit 211: lattice network
22: Bead type filter 23: Backwash water distribution
24: stirrer 241: rotating shaft
242: stirring wing 243: backwash motor
25: outlet pipe 26: backwash pump
27: Reverse water pipeline 271: Check valve

Claims (6)

A pretreatment tank 1 for precipitating suspended solids and solids introduced from the outside through the stormwater inflow pipe 11 and a filtration tank 10 for transporting and treating the treated water treated in the pretreatment tank 1 by the transfer pipe 12 2,
The filtration tank 2 is provided with a filtration section 21 whose upper and lower surfaces are formed of a net and in which a bead type filtration agent 22 is accommodated, a backwash water dispersion section 23 for spraying backwash water to the filtration section 21, The screw stirring vane 242 is coupled to the rotating shaft 241 in order to stir the bead type filtration task 22 inside the filtration part 21, and two or more of them are parallel to each other The filtration tank 2 is provided with a stirrer 24 which rotates in the opposite direction to the beaker-shaped filtration tank 2, (27) which is provided with a check valve (271) so as to allow only the transfer to the bottom of the pretreatment tank (1) so as to allow the transfer to the filtration tank (2) (1) inside the pretreatment tank (1) at a side of the pretreatment tank (1) side of the transfer pipe (12) And a partition wall 16 provided in the interior of the pretreatment tank 1 for bypassing the stormwater introduced between the stormwater inflow pipe 11 and the transfer pipe 12, And a non-point pollution treatment facility. delete delete delete delete delete

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