KR101352491B1 - Nonpoint pollution unmanned maintenance control system and treatment method of nonpoint source using thereof - Google Patents

Abstract

The present invention relates to a nonpoint pollution unmanned maintenance system and a nonpoint pollutant treatment method using the same. The system comprises: a nonpoint reducing tank having an inlet into which rainwater containing nonpoint pollutants flows; a sludge storing tank having a sludge bag made from a material having pores inside the same, and connected to a rainwater pipeline so that the filtered rainwater is discharged; and a pumping part pumping the rainwater containing the nonpoint pollutants deposited in the nonpoint reducing tank to the sludge storing tank, wherein the rainwater containing the nonpoint pollutants is automatically pumped to the sludge storing tank when a water level inside the nonpoint reducing tank is raised to a predetermined water level, and then is detected, and a pumping operation for the rainwater is stopped when the water level is lowered, and then is detected, so that a nonpoint pollutant reducing facility is capable of being maintained without a man and without periodic dredging operations in full.

Description

NONPOINT POLLUTION UNMANNED MAINTENANCE CONTROL SYSTEM AND TREATMENT METHOD OF NONPOINT SOURCE USING THEREOF}

The present invention relates to a non-point unattended unmanned maintenance system for unattended maintenance of a device type non-point pollution reduction facility that is difficult to maintain and a method of treating non-point pollutants using the same.

Nonpoint sources are generally referred to as nonspecific sources, cotton sources, and mobile sources.

In contrast to point sources having specific emissions pathways, nonpoint sources refer to places or areas that generate nonpoint pollutants through unspecified emissions pathways, such as urban road drainage or agricultural drainage.

Nonpoint pollutants are mainly pollutants that are discharged along with surface runoff when it rains. Fertilizers, pesticides, soil erosions, barn spills, traffic pollutants, urban dust and garbage, residues of natural animals and plants It refers to water and air pollutants.

In general, the initial rainwater from nonpoint sources contains a variety of pollutants, bacteria, bacteria, etc., and in the future, more diverse and higher concentrations of pollutants will be released.

Non-point pollution abatement facilities that reduce these non-point pollutants are largely divided into natural facilities and device-type facilities.

Apparatus-type facilities are divided into vortex type, screen type, and filtration type. Such apparatus-type facilities are installed in the middle of rain pipe, and rainwater runoff is introduced during rainfall to remove pollutants.

In this way, the device-type facility should be installed underground because it should be connected with rainwater pipes, and the pollutants collected on the floor of the facility should be sucked into the vacuum cleaner and dredged periodically.

Periodic dredging takes a lot of work vehicles and a lot of manpower, and if the cleaning cycle is missed, the collected pollutants are rotted or washed away by successive rainfall, causing the role of the non-point pollution reducing facility to be colorless.

In addition, since the level difference between the channel flowing into the non-point pollution abatement facility and the channel being discharged is not large, a certain amount of rainwater is always stored even in normal times. As such, there is no regulation in Korea yet, but the United States Environmental Protection Agency (EPA) requires that it not be stored for more than 48 hours.

However, in reality, it is almost impossible to dredge all abatement facilities within 48 hours.

Republic of Korea Patent No. 1009634 (2011.01.13, 'Non-point pollution purification device') Republic of Korea Patent No. 0814063 (2008.03.10, 'Initial Excellent Treatment Device') Republic of Korea Patent Publication No. 1103269 (2011.12.30, 'Non-point source reduction facility capable of dredging sediment')

The present invention has been made in order to solve the above problems, in the non-point pollution reduction facility to provide a non-point pollution unmanned maintenance system that can be maintained unattended without having to dredge periodically one by one, and to provide a non-point pollutant treatment method using the same. Its purpose is to.

Non-point pollution unmanned maintenance system according to the present invention is a non-point lowering tank formed with an inlet in which rainwater is introduced containing non-point pollutants; A sludge bag of a material having voids therein, and a sludge storage tank connected to the rainwater pipe so that the filtered rainwater flows out; And a pumping part for pumping rainwater containing the non-point pollutant deposited on the non-point reducing tank into the sludge storage tank.

In addition, the non-point pollution unmanned maintenance system further comprises a photovoltaic power generation unit for supplying the electrical energy required for the pumping unit.

In addition, a plurality of sludge bags are provided, the plurality of sludge bags are connected to a distribution pipe or a distribution plate, the distribution pipe or distribution plate is inclined to be inclined downward toward the outside, the plurality of sludge bags It is characterized in that it is provided to be filled sequentially.

together. The non-point pollution unmanned maintenance system includes a water level sensor provided in the non-low point reduced tank for detecting a water level in the non-low point reduced tank; And a timer for controlling the operation of the pumping unit according to a set time after the detection of the water level sensor.

In addition, the pumping unit is characterized in that the stirring device is provided.

In addition, the non-point pollution unmanned maintenance system is characterized in that the non-point lowering tank or the sludge storage tank is provided with a prevention and odor removal means.

In addition, the non-point pollution unmanned maintenance system is characterized in that the rainwater and sludge stagnated inside the non-point low reduction tank in the Cheongcheon drainage to the sewer pipe by the pumping unit.

In addition, in the non-point pollutant treatment method using a non-point unattended maintenance management system, when rainwater containing non-point pollutant is introduced into the non-point low abatement tank and the water level in the non-point low abatement tank is increased by the set level, the boiling point is detected. A pumping step of pumping rainwater and sludge containing contaminants into the sludge storage tank; And after the pumping step, if the water level in the non-low point reducing tank is lowered by a predetermined level, stopping the step of detecting the pumping step.

In addition, the pumping step is characterized in that for pumping the sludge storage tank within 24 hours to 48 hours after the set water level detection.

The non-point unmanned unmanned maintenance system according to the present invention and the method for treating non-point pollutants using the same, when the water level in the non-low point reduced tank is increased by the set level, automatically detects this and the rainwater containing the non-point pollutant is pumped to the sludge storage tank. By detecting this when the water level is lowered, the pumping operation is stopped, so there is an advantage that it can be maintained unattended without dredging periodically in a non-point pollution reduction facility.

In particular, the non-point unattended unmanned maintenance system according to the present invention and the method for treating non-point pollutants using the same can be usefully used even in locations where it is difficult to always use electric power by obtaining the electrical energy necessary for the pumping unit by the solar power generation unit. There is an advantage.

1 is a conceptual diagram schematically showing a conventional non-point pollution reduction system.
Figure 2 is a conceptual diagram schematically showing a non-point pollution unmanned maintenance system according to the present invention.
Figure 3 is another conceptual diagram schematically showing a non-point pollution unmanned maintenance system according to the present invention.
4 is a conceptual diagram schematically showing a sludge bag formed in the sludge storage tank of the non-point pollution unmanned maintenance system according to the present invention.
5 is another conceptual view schematically showing the sludge bag formed in the sludge storage tank of the non-point pollution unmanned maintenance system according to the present invention.
Figure 6 is a conceptual diagram showing an embodiment for discharging rainwater and sludge stagnated in the sewage pipe of the non-point pollution unmanned maintenance system according to the present invention for treatment.

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

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a conceptual diagram schematically showing a conventional non-point pollution reduction system, Figure 2 is a conceptual diagram schematically showing a non-point pollution unmanned maintenance system according to the present invention, Figure 3 is a non-point pollution unmanned maintenance system according to the present invention 4 is a conceptual diagram schematically showing a sludge bag formed in the sludge storage tank of the non-point pollution unmanned maintenance system according to the present invention, and FIG. 5 is a sludge of the non-point pollution unmanned maintenance system according to the present invention. Another conceptual diagram schematically showing a sludge bag formed in the storage tank, Figure 6 is a conceptual diagram showing an embodiment for discharging the treated rainwater and sludge discharged into the sewage pipe to treat the non-point pollution unmanned maintenance system according to the present invention. .

As shown in Figures 2 to 3 and 6, the non-point pollution unmanned maintenance system according to a preferred embodiment of the present invention, the non-point reduction tank 100, the sludge storage tank 200, the pumping unit 300 and the solar It includes a power generation unit 700, the water level sensor 400 and the timer 500.

The non-point low reduction tank 100 is formed with an inlet 110 through which rainwater containing nonpoint pollutants is introduced, and the inlet 110 connects an inflow pipe 130 through which rainfall outflow water containing nonpoint pollutants during rainfall is connected. do.

The lower side of the non-point reducing tank 100 is a sludge deposition unit 101 in which sludge such as non-point pollutants are deposited.

The sludge deposit 101 is preferably inclined as much as possible, and when the sludge deposit 101 is inclined, the sludge deposit 101 may be pumped without a residual amount when the sludge is pumped.

The sludge storage tank 200 provided separately from the boiling point reduction tank 100 is connected to the rainwater pipe 600 so that the rainwater filtered in the sludge storage tank 200 flows out, and a sludge bag 210 is installed therein.

The sludge storage tank 200 may be made of a material such as concrete, stainless steel.

The sludge bag 210 is preferably made of a material having water permeability such that non-woven fabric, hemp sacks, and water can escape, and it is appropriate to have a void of 100 micrometers or less, but is not limited thereto.

The sludge bag 210 is to make a stand, etc. separately to be easily installed or separated in the sludge storage tank (200).

In addition, the sludge bag 210 may be collected and processed together with the sludge in order to facilitate the convenience of the sludge collection.

Sludge bag 210 is preferably provided in plurality for efficient sludge removal.

The plurality of sludge bags 210 are connected to each other by a distribution pipe 230 or a distribution plate.

As shown in FIG. 4, in this embodiment, the sludge bags 210 are paired and provided in three lines, and each sludge bag 210 is connected to the distribution pipe 230.

In addition, as shown in Figure 5, the distribution pipe 230 or the distribution plate connecting the sludge bag 210 is preferably inclined to be inclined downward toward the outside, so the distribution pipe 230 or the distribution plate is inclined Therefore, the sludge bag 210 is sequentially filled with a plurality of sludge.

That is, the sludge containing the non-point pollutant flowing into the sludge storage tank 200 through the distribution pipe or the distribution plate is filled in the sludge bag 210 is provided first, and the first sludge bag 210 is filled, then, Located in the sludge bag 210 is located.

The pumping unit 300 pumps the rainwater containing the non-point pollutants deposited in the sludge deposition unit 101 of the non-point reduction tank 100 to the sludge storage tank 200.

The pump of the pumping unit 300 may use a capacity capable of pumping water stored in the sludge deposition unit 101 of the boiling point reduction tank 100 within 24 to 48 hours, and when using a larger capacity pump Intermittent operation for energy efficiency.

In addition, the pumping unit includes a pump capable of pumping the sludge and the stirring device 310 so that the total amount of the deposited sludge can be evenly pumped, and the stirring device 310 is configured as an agitator or an auxiliary pump.

At this time, the stirrer or auxiliary pump, which is the stirring device 310, is configured to be operated simultaneously with the sludge pump or to be operated separately as needed, and the pump may use both direct current or alternating current, but when using an AC pump, an inverter is installed. shall.

In addition, the water level sensor 400 for detecting the water level in the non-point low damping 100 is provided, and the operation of the pumping unit 300 according to the set time after the detection of the water level sensor 400. A timer 500 for controlling is provided. Therefore, when rainfall flows into the non-low point reduced tank 100 during rainfall, the water level in the non-low point reduced tank 100 rises, and the water level sensor 400 detects this and elapses a predetermined time according to the time setting of the timer 500. The sludge is then pumped into the reservoir.

On the other hand, the electrical energy required for the pumping unit 300 is provided with a photovoltaic unit 700 for supplying electrical energy using solar heat to use renewable energy such as solar cells.

The electrical energy obtained using solar heat can be stored in the battery and used when needed. Since the photovoltaic unit 700 is a device that is conventionally known to generate electrical energy using solar heat, a detailed description thereof will be omitted.

If the solar panel used in the photovoltaic unit 700 is a 1m ㅧ 1m module, it can produce about 25W of power, and the concentration of pollutants in the rainfall runoff for 3 days prior to the dry season (when no prior rainfall came for 3 days) Because of its high level, nonpoint pollution abatement facilities can produce approximately 1.8 kWh of electricity, which usually requires a three-day lead-drying efficiency.

In other words, even if the pump of the pumping unit 300 is used as a horsepower capacity, 1 m ㅧ 1 m solar panel is sufficient because it takes 750 kWh when using the total operating time for 1 hour.

Thus, by obtaining the electrical energy required for the pumping unit 300 by the photovoltaic unit 700, it can be usefully used even in a position where it is difficult to always use power.

On the other hand, it is preferable that the upper portion of the boiling point reduction tank 100 or the sludge storage tank 200 is provided with anti-rust and odor removal means.

Thus, in order to prevent the occurrence of pests after pumping the sludge by installing the prevention and odor removal means can be sprayed smoke screening or insect repellent means or the odor removing agent or masking agent in order to prevent odor emission. .

Since such prevention and odor removing means are commercially available methods, detailed description thereof will be omitted.

As shown in FIG. 6, the non-point pollution unmanned maintenance system of the present invention drains rainwater and sludge stagnated inside the non-point-lowering tank 100 by the pumping unit 300 to the sewer pipe 800 in Cheongcheon. can do.

At this time, when draining rainwater and sludge to the sewage pipe 800, the sewage pipe 800 is applicable only when the non-low point reduced tank (100).

Hereinafter, a non-point pollutant treatment method using the non-point pollution unmanned maintenance system of the present invention configured as described above will be described.

First, when rainwater containing non-point pollutants is introduced into the non-lowering tank 100 and the water level in the non-lowering tank is increased by the set level, the sludge storage tank 200 detects rainwater by detecting this. To the pump. (Pumping stage)

In this pumping step, it is preferable to pump to the sludge reservoir 200 within 24 to 48 hours after the set water level detection.

After the pumping step, if the water level in the non-low point reduction tank 100 is lowered by the set level, the pumping step is stopped by detecting this.

As described above, when the water level in the non-point reducing tank 100 is increased by the set water level, the rainwater containing the non-point pollutant is automatically pumped to the sludge storage tank 200 by detecting this, and when the water level is lowered, the pumping operation is detected. By discontinuing this, non-point pollution abatement facilities can be maintained unattended without the need for dredging periodically.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100: non-point reduction
110: inlet 120: outlet
130: inlet pipe
101: sludge deposit
200: sludge storage tank
210: sludge bag
230: distribution pipe
300 pumping part
310: stirring device
400: water level sensor
500: timer
600: storm pipe
700: solar power generation department
800: sewer pipe

Claims (9)

A non-point reducing tank (100) formed with an inlet (110) through which rainwater containing non-point pollutants is introduced;
A sludge bag 210 of a material having voids therein is installed, and a sludge storage tank 200 connected to the storm pipe line 600 so that the filtered rainwater flows out;
A pumping unit (300) for pumping rainwater containing the non-point pollutant deposited on the non-point reducing tank (100) to the sludge storage tank (200);
A water level sensor 400 provided in the non-lowering reduction tank 100 for detecting a water level in the non-lowering reduction tank 100; And
Timer 500 for controlling the operation of the pumping unit 300 according to the set time after the detection of the water level sensor 400; includes,
The sludge bag 210 is provided with a plurality, the plurality of sludge bags 210 are connected to the distribution pipe 230 or the distribution plate,
The distribution pipe 230 or the distribution plate is inclined to be inclined downward toward the outside, non-point pollution unmanned maintenance system, characterized in that it is provided to be sequentially filled in the plurality of sludge bags (210). The method of claim 1,
The non-point pollution unmanned maintenance system
Non-point pollution unmanned maintenance system further comprising; a solar power generation unit 700 for supplying the electrical energy required for the pumping unit (300). delete delete The method of claim 1,
The pumping unit 300 is
Non-point pollution unmanned maintenance system, characterized in that the stirring device 310 is provided. The method of claim 1,
The non-point pollution unmanned maintenance system
Non-point pollution unmanned maintenance system, characterized in that the anti-fouling and odor removal means is provided in the non-point reduction tank (100) or the sludge storage tank (200). delete In the non-point pollutant treatment method using the nonpoint unattended unmanned maintenance system according to any one of claims 1, 2, 5, and 6,
When rainwater containing nonpoint pollutants is introduced into the non-lowering tank 100 and the water level in the non-lowering tank is increased by the set water level, the rainwater and sludge storage tank containing the non-point pollutants is detected and detected. A pumping step of pumping to 200);
Non-point pollutant using a non-point pollution unmanned maintenance system comprising a; stopping step of stopping the pumping step by detecting this, if the water level in the non-point low reduction tank 100 after the pumping step is lowered by the set water level; Treatment method. The method of claim 8,
The pumping step
Non-point pollutant treatment method using a non-point pollution unmanned maintenance system, characterized in that for pumping the sludge storage tank within 24 to 48 hours after the set water level detection.

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