KR20130022717A - Apparatus for removing non-point source pollution from rainwater with control function - Google Patents

Abstract

PURPOSE: A non-point pollutant processing unit with a controlling function is provided to prevent the decomposition of rainwater or other sewage inside by discharging the rainwater while simultaneously blocking the inflow of other sewage except for the rainwater through an inlet. CONSTITUTION: A non-point pollutant processing unit with a control function comprises a partition plate(100), a section wall(200), a first filter(300), a second filter(400), an on-off valve(500), and a pump(600). The partition plate partitions the upper space of a precipitation unit, and holds floating substances among rainwater inflowing through an inlet which forms a passage in the lower space. The section wall partitions the lower space to divide the precipitation unit from a filtration unit. The first filter covers the space between the section wall and the partition plate, and removes oil substances contained in the rainwater which is transferred to the filtration unit. The second filter removes adulterations in the rainwater which is discharged through an outlet, and covers the front side of the outlet while partitioning the lower space of the filtration unit. The on-off valve is installed on the inlet, and opens and closes the access of the rainwater or the sewage. The pump is installed in between the second filter and the outlet, and discharges the rainwater through the outlet after absorbing the rainwater of the floor.

Description

Apparatus for removing non-point source pollution from rainwater with control function}

The present invention relates to a non-point pollutant treatment apparatus having a control function having a control function for treating the non-point pollutant contained in the initial rainwater.

Non-point Source Pollution, unlike point pollutants, means scattered over a wide area. That is, non-point pollutants include various pollutants such as pesticides, fertilizers, buns, oils, heavy metals, tire powders and contaminants generated from areas such as farmland, ranch, deforestation, mines, various construction sites, parking lots, and roads. Will be.

Such rain-point pollutants are polluted by rainwater and flow into rivers and lakes, causing pollution. Therefore, rainwater containing boiling point pollutants is usually discharged after being treated in various stages of sedimentation or filtration process before being discharged into rivers or lakes. The facility for this is called a non-point pollutant treatment device.

Looking at the conventional non-point pollutant treatment device can be largely divided into sediment and filtration unit, the sediment is formed to trap the rainwater introduced into the interior while the sediment is settled to the bottom and the suspended matter is trapped on the water surface, the filtration unit By installing a filter filled with contact media such as sand or zeolite, rainwater passes through it and is formed to filter out oily substances or contaminants that are not separated from the sediment.

However, according to the conventional non-point pollutant treatment device, even if the rainwater is stopped, since the rainwater is filled up from the bottom to the height of the discharge port, there is a problem of easily decaying. In addition, the rainwater remaining in the settling section and the filtering section may rot faster by various non-point contaminants. Such deterioration degrades the function of the filter installed in the settling section or the filtering section, and causes odors and various pests. Not only that, but also the polluting the stream when discharged through the outlet.

On the other hand, the conventional non-point pollutant treatment device is not only excellent because the inlet is always open, various waste water that is discarded in the vicinity can be introduced, the various waste water introduced in this way is mixed with the rain remaining in the sedimentation tank and filtration tank water quality Cause further deterioration.

The present invention is not only to discharge rainwater remaining from the bottom to the bottom of the outlet, but also to provide a non-point pollutant treatment device having a control function for blocking the inflow of other waste water in addition to rainwater through the inlet.

The present invention seeks to provide a non-point pollutant treatment device having a control function that automatically shuts off the inlet opening and automatically performs a series of operations to discharge the rainwater remaining therein.

The present invention seeks to provide a non-point pollutant treatment apparatus having a control function for producing and supplying power for self control.

The present invention is formed on the inlet side in which rainwater flows in and consists of a sedimentation part for separating sediment and suspended matter from rainwater and a filtering part for filtering foreign substances contained in rainwater separated from sediment and suspended matter formed on the discharge port side. In the non-point pollutant treatment device,

Dividing the upper space of the settling portion and forming a passage in the lower space to form a trap to trap the suspended matter in the rainwater flowing from the inlet; A partition wall partitioning a lower space to partition the precipitate and the filter; A first filter covering a space between the partition wall and the diaphragm and removing oil substances contained in the rainwater that is transferred to the filtration unit; A second filter formed to cover the front of the outlet while partitioning a lower space of the filtration unit to remove contaminants during rainwater exiting through the outlet; An opening / closing valve installed at the inlet and configured to open or close the rainwater or wastewater; And a pump disposed between the second filter and the discharge port and sucking the rainwater from the bottom to discharge the discharge to the discharge port.

The bottom extending from the settling portion to the filtering portion is formed at an inlet side with a higher slope than the outlet side.

And an auxiliary filter formed at the lower portion of the partition wall to remove the contaminants contained in the rainwater while the rainwater of the precipitation portion flows to the lower portion of the filtration portion.

The auxiliary filter or the second filter is formed by filling any one selected from bamboo activated carbon filter pads, zeolites or cospas into a case formed of a net.

The auxiliary filter is formed with a high density filter on the upper side and a low density filter on the lower side.

A water passage formed in the lower portion of the partition wall so that the rainwater of the precipitation portion flows to the lower portion of the filtration portion; And a net covering the front of the lower portion of the partition wall in which the water passage is formed.

The bottom extending from the settling portion to the filtering portion is formed in a flat state, the inlet side is formed on the perforated plate is installed at a higher slope than the outlet side thereon.

Rainfall measuring means for forming a control panel for controlling the on-off valve and the pump, and for transmitting the rainfall measurement data to the control panel; A water detection sensor installed at the bottom of the filtration unit and configured to detect rainwater remaining on the bottom; And power supply means for supplying power.

It comprises a temperature sensor for sensing the temperature of the filter unit for opening and closing the operation of the control panel.

The power supply means is formed of a solar generator.

And a screen installed at a lower portion of the first filter to cover a space between the partition wall and the diaphragm, and having a plurality of corrugated plates formed at a predetermined angle to form a wavy shape up and down.

According to the non-point pollutant treatment apparatus having a control function of the present invention, while draining the rainwater remaining inside, it is possible to prevent the rainwater or other wastewater from decaying inside by blocking the random inflow of other wastewater besides the rainwater through the inlet. It can be effective.

According to the non-point pollutant treatment device having a control function of the present invention, a series of operations are automatically performed to block the inlet and discharge the rainwater remaining therein, thereby making it easier to use and manage.

According to the non-point pollutant treatment device having a control function of the present invention by producing and supplying the power required for automatic control by itself, there is an environmentally friendly effect of reducing the use of energy.

1 is a partially cutaway perspective view showing a non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 2 is a front sectional view showing a non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 3 is a plan view showing a non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 4 is a block diagram showing a control unit of a non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 5 is an exemplary embodiment showing a control panel of a non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 6 is a front sectional view showing another embodiment of the non-point pollutant treatment apparatus having a control function to which the present invention is applied.
Figure 7 is a front sectional view showing another embodiment of the non-point pollutant treatment apparatus having a control function to which the present invention is applied.
8 is an enlarged view illustrating main parts of the screen of FIG. 7;

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 to FIG. 6, the non-point contaminant treatment apparatus of the present invention includes a partition plate 200 partitioning an upper space of a precipitation portion, a partition wall 200 partitioning a lower space between the precipitation portion and a filtration portion, A first filter 300 covering a space between the partition wall and the diaphragm, a second filter 400 partitioning a lower space of the filtration unit, an opening / closing valve 500 and the second filter installed at the inlet; It is configured to include a pump 600 installed between the outlet.

The non-point pollutant treatment apparatus to which the present invention is applied is formed on the inlet 10 side where rainwater enters as shown in FIGS. It is formed on the) side and consists of a filtration unit for filtering foreign matter contained in the rainwater separated from the sediment and suspended matter. At this time, the settling portion and the filtering portion is divided by the partition wall 200 to be described later. In addition, the non-point contaminant treatment apparatus to which the present invention is applied is installed underground.

The diaphragm 100 is formed to define a passage in the lower space while partitioning the upper space of the settling portion to trap the suspended matter in the rainwater flowing from the inlet. That is, the diaphragm 100 serves to confine the floating material floating in the water, such as styrofoam, in the rainwater introduced from the inlet 10 so as not to move to the filtration unit.

On the other hand, the bottom of the diaphragm 100 may be bent upward to interfere with the flow of rain that moves from the upper side to the lower side to form a vortex. Such vortices improve rainwater by increasing the amount of dissolved oxygen in the rainwater.

The partition wall 200 partitions the lower space so as to partition the precipitation part and the filtration part, and an upper end of the partition wall 200 should be formed at a height lower than that of the inlet 10.

At this time, the bottom extending from the settling portion to the filter portion is formed in the inlet 10 side inclined higher than the outlet 20 side as shown in Figures 1 to 3 and 6 to the rainwater inside the outlet 20 While flowing down to the side, an auxiliary filter 210 is formed in the lower portion of the partition wall 200 so that rainwater passes, as shown in FIG. 6, and the auxiliary filter 210 is described below with a second filter 300. As such, it is formed to remove the impurities contained in the rainwater. Therefore, the auxiliary filter 210 is configured by filling any one selected from the bamboo activated carbon filter pad, zeolite or cospa inside the case formed of a mesh so that rainwater passes. At this time, the bamboo activated carbon filter pad, zeolite or cospa is selected according to the location or environment where the non-point pollutant treatment apparatus of the present invention is installed.

In another embodiment of the auxiliary filter 210, a high density filter 210a having an excellent filter function may be formed on the upper side thereof, and a low density filter 210b may be formed on the lower side of the auxiliary filter 210 to smooth out the rainwater.

Meanwhile, as shown in FIGS. 1 and 2, the partition wall 200 has a water passage 220 penetrated so that the rainwater of the precipitation portion flows to the lower portion of the filtration unit, and the water passage 220 is formed in the compartment. In front of the lower portion of the wall 200, the net 230 may be installed to filter foreign matter or impurities.

In addition, the bottom extending from the settling portion to the filtering portion is formed in a flat state as shown in Figure 7, the inlet 10 side is installed on the porous plate 800 with a higher slope than the outlet 20 side thereon Can be formed. Such a porous plate 800 traps the sediment of the bottom of the sedimentation tank and the filter tank so that the sediment does not rise by the flow rate of rain.

The first filter 300 covers the space between the partition wall 200 and the diaphragm 100 and removes an oil substance contained in the rainwater transferred to the filtration unit. For example, the first filter 300 is to remove oil or oily substances such as gasoline in rainwater that flows from the settling section to the filtering section beyond the partition wall 200 as shown in FIGS. 1 to 3.

Therefore, the first filter 300 is configured by filling a zeolite in a case formed of a mesh so that rainwater passes as an example.

The second filter 400 is formed to partition the lower space of the filtration unit to remove the contaminants during rainwater exiting through the outlet 20, the cross section viewed from the top to cover the front of the outlet 20 ' It is formed in the form of 'c' removes the contaminants out of the rainwater exiting through the outlet 20. In this case, an upper end of the second filter 400 is higher than an upper end of the partition wall 200, and the outlet 20 is installed lower than the partition wall 200.

The second filter 400 is configured by filling any one selected from the bamboo activated carbon filter pad, zeolite or cospa inside the case formed of a mesh so that rainwater passes. At this time, the bamboo activated carbon filter pad, zeolite or cospa is selected according to the location or environment where the non-point pollutant treatment apparatus of the present invention is installed.

The opening and closing valve 500 is installed in the inlet 10 to open or close the rain or waste water, and is formed to open and close the inlet by automatic or manual. In order to automatically open and close the on-off valve 500, a control panel 700 to be described later is configured.

The pump 600 is installed between the second filter 400 and the outlet 20, and is formed to suck the rainwater from the bottom to discharge to the outlet 20.

On the other hand, the present invention forms a control panel 700 for automatically controlling the opening and closing valve 500 and the pump 600, when the rain automatically opens and closes the valve 500 and the pump 600 automatically stops raining It can work. That is, the present invention, for example, to open the on-off valve 500 so that the initial rain is introduced through the inlet 10 when the rain falls more than 5mm per hour, and closes the on-off valve 500 when the rain stops.

The present invention for this purpose is to measure the rainfall of the rain as shown in Figure 4 as an embodiment, the rainfall measuring means 710 for transmitting the measured data to the control panel 700, the bottom while being installed on the bottom of the filter It may be configured to include a moisture detection sensor 720 for detecting the amount of rain remaining in the power supply means 730 for supplying power. That is, when it rains, the rainfall measured by the rainfall measuring means 710 is transmitted to the control panel 700 in real time, and the control panel 700 detects the rainfall to open the opening / closing valve 500, so that the rainwater has excellent boiling point pollution. Allow it to enter the material handling device.

Subsequently, if the rain stops, the closing valve 500 is closed after a predetermined time and the pump 600 is operated to discharge the rainwater remaining in the discharge port 20. At this time, the moisture sensor 720 installed on the bottom of the filter unit transmits the data to detect the remaining amount of water to the control panel 700 to determine whether the pump 600 is operating.

On the other hand, the power supplied to the control panel 700 for automatically controlling the opening and closing valve 500 and the pump 600, it is preferable to use a solar generator as shown in FIG. The solar generator stores power through the sun on a sunny day and supplies the stored power on a rainy day.

In addition, the control panel 700 is configured to include a temperature sensor 740 for opening and closing the operation of the control panel 700 by sensing the temperature of the filter unit. The temperature sensor 740, for example, detects when the temperature inside the filtration tank falls below zero in winter, and transmits it to the control panel 700, the control panel 700 and the pump 600 with the on-off valve 500 To stop the operation.

Such a control panel 700 is installed in all of the non-point pollutant treatment apparatus of the present invention installed in various areas, all of these control panel 700 can be controlled and managed while monitoring, for example, in the central center. .

In addition, the present invention is installed on the lower portion of the first filter 300 to cover the space between the partition wall 200 and the diaphragm 100, a plurality of corrugated plate is formed in a wave shape up and down a constant angle It is configured to include a screen 900 installed as. As shown in FIG. 8, the screen 900 filters out foreign matter contained in the rainwater before the rainwater reaches the first filter 300, and the foreign matter passing through the screen 900 together with the rainwater is wrinkled. The rise is suppressed by touching the plate.

According to the present invention having the above configuration, while draining the rainwater remaining inside the non-point pollutant treatment device at the same time through the inlet 10 to block any other wastewater in addition to rainwater, the rainwater or other wastewater to rot inside Can be prevented.

In addition, since a series of operations are automatically performed to block the inlet 10 and discharge the rainwater remaining in the inside, it is more convenient to use and manage, and uses energy by producing and supplying power required for automatic control by itself. Can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be.

10: inlet 20: outlet
100: plate 200: partition wall
210: auxiliary filter 220: water outlet
230: net 300: first filter
400: second filter 500: on-off valve
600: pump 700: control panel
710: rainfall measuring means 720: moisture detection sensor
730: power supply means 740: temperature sensor
800: perforated plate
900: screen

Claims (11)

Rainfall is formed on the inlet (10) side inlet is formed on the sedimentation part to separate the sediment and suspended matter from the rainwater and discharge outlet 20 is formed to discharge the rainwater to filter the foreign matter contained in the rainwater separated from the sediment In the non-point pollutant treatment device consisting of a filtration unit,
A partition plate (100) formed to define a passage in a lower space while partitioning an upper space of the settling portion to confine suspended matter in rainwater introduced from an inlet;
A partition wall 200 dividing a lower space so as to partition the precipitation part and the filtration part;
A first filter (300) covering a space between the partition wall (200) and the diaphragm (100) and removing oil substances contained in the rainwater conveyed to the filtration unit;
A second filter 400 which is formed to cover the front of the outlet while partitioning a lower space of the filtration unit and removes contaminants during rainwater exiting through the outlet;
An opening / closing valve 500 installed at the inlet and configured to open or close the rainwater or wastewater; And
A non-point pollutant treatment device having a control function, comprising: a pump 600 is installed between the second filter and the discharge port, the pump 600 to suck the rainwater of the bottom to discharge to the discharge port. The apparatus of claim 1, wherein the bottom extending from the settling portion to the filtering portion is formed at an inlet (10) side with a slope higher than that of the outlet (20) side. The filter of claim 1 or 2, further comprising: an auxiliary filter (210) formed under the partition wall (200) to remove the contaminants contained in the rainwater, while the rainwater from the precipitation portion flows to the lower portion of the filtering portion. A non-point pollutant treatment device having a control function. The apparatus of claim 3, wherein the auxiliary filter 210 or the second filter 400 is formed by filling any one selected from bamboo activated carbon filter pads, zeolites, and cospas into a case formed of a net. . The apparatus of claim 3, wherein the auxiliary filter (210) has a high density filter (210a) formed at an upper side thereof, and a low density filter (210b) formed at a lower side thereof. According to claim 1 or 2, Water flow passage 220 formed in the lower portion of the partition wall 200 and penetrated so that the rainwater of the precipitation portion flows to the lower portion of the filtering portion; And
Non-point pollutant treatment apparatus comprising a; net mesh 230 for covering the front of the lower portion of the partition wall formed with the water port. The method of claim 1, wherein the bottom extending from the settling portion to the filter portion is formed in a flat state, there is formed a porous plate 800 on the inlet 10 side is installed at a higher slope than the outlet 20 side; Non-point pollutant treatment device having a control function, characterized in that configured. The method of claim 1, wherein the control panel 700 for controlling the opening and closing valve 500 and the pump 600,
Rainfall measuring means (710) for transmitting the rainfall data of rainwater to the control panel;
A water detection sensor 720 installed at the bottom of the filtration unit and detecting the amount of rainwater remaining on the bottom; And
Non-point pollutant treatment apparatus having a control function, characterized in that it comprises a; power supply means for supplying power (730). The apparatus of claim 8, further comprising a temperature sensor 740 for sensing the temperature of the filter unit to open and close the operation of the control panel. The apparatus of claim 1, wherein the power supply means is formed of a solar generator. The method according to claim 1, wherein the plurality of pleated plate is installed in the lower portion of the first filter 300 to cover the space between the partition wall 200 and the diaphragm 100, the upper and lower waves are formed at a constant angle Non-point pollutant treatment device having a control function, characterized in that configured including; screen 900 installed as.

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