KR101257709B1 - Drainage control system of first flush - Google Patents

Abstract

PURPOSE: An initial rainwater drainage control system is provided to purify rainwater flowing into water treatment equipment and to maximize flood prevention efficiency during a rainy season. CONSTITUTION: An initial rainwater drainage control system comprises a water quality purification unit(10), a drain(20), a drainage pump(30), a rainfall sensor unit(40), and a control unit(50). The water quality purification unit purifies rainwater flowing with pollutants in rainfall. The drain comprises a drain opening or closing valve(25) and discharges purified water to one side of the water quality purification unit. The drainage pump is connected to the drain and operates to discharge water stored in the water quality purification unit. The rainfall sensor unit is installed on ground and senses rainfall. The control unit approves a control signal of the drainage pump according to a signal inputted from the rainfall sensor unit. [Reference numerals] (10) Water quality purification unit; (20) Drain pipe; (25) Drain opening or closing valve; (30) Drain pump; (40) Rainfall sensor unit; (50) Control unit; (55) Operating unit; (AA,BB) Control signal; (CC) Sensing signal;

Description

Drainage Control System of First Flush

The present invention relates to an initial excellent drainage control system, and more particularly, to control the drainage after a predetermined time elapses from the start and end of the rainfall, respectively, and to control the drainage at the next next rainfall sufficient purification period The present invention relates to an initial excellent drainage control system capable of collectively draining purified water and preventing flooding during the rainy season.

In general, nonpoint sources of water pollution originate from a wide range of discharged areas, such as farmland, grassland, forests, construction sites, waste treatment plants, roads, etc. Because it causes pollution, various types of water treatment facilities (artificial wetlands, vegetation filtration, reservoirs, physical filtration facilities such as filtration tanks and infiltration tanks) are used to reduce nonpoint source.

For example, in recent years, governments and local governments have created a water treatment system by removing artificial non-pollutants while forming artificial wetlands, which are ecologically healthy natural purification techniques.

However, in water treatment facilities such as artificial wetlands, the nonpoint source is washed out by rainwater, and then purified from natural water such as underground infiltration and evaporation. This will cause flooding as the water is continuously drained during the rainy season, and there is a problem that the purification function is deteriorated because the water is drained without sufficient purification.

Therefore, in recent years, the water treatment facility controls the drainage of water from the drainage system, which is constructed by constructing mechanical facilities such as water gates and pumps such as beams and pumps so that water can be drained while artificially controlling the water flowing into the rainy season. I'm doing it.

However, if the water gate is installed as a drainage system of the water treatment facility, it takes a lot of cost and time, and it may interfere with the flow of the surrounding waterways due to the installation of the water gate. Even when constructing a mechanical facility, it was difficult to check the flow rate of water from the water treatment facility, which made it difficult to manage the facility and to make it impossible to set an appropriate drainage time by artificial control of the drainage facility.

In order to solve the problem as described above, a conventional drainage facility technology for controlling water to be automatically drained after a certain time has elapsed has been developed. In other words, the equipment technology configured to detect a signal by configuring a rain gauge to detect rainfall in the drainage equipment, and automatically drains water after a predetermined set time has passed after the rainfall signal is input. It is used.

However, in the rainy season where rainfall frequently occurs, even if the drainage system is operated after a certain time from the start of the rainfall, even if the drainage drains water, there is a high possibility of causing a flood because the rain lasts for a long time. Even though a new rainfall started, there was a problem that the drainage system could continue to operate due to the initial rainwater detection to make the flood worse.

In addition, in the conventional water treatment facilities, it is still difficult to sufficiently purify contaminants because water is drained immediately without being stored for a certain period of time.

The present invention is made by taking a view of the above points, and after detecting the start and end of the rain, respectively, automatic control so that the drainage is made only when a predetermined time elapses. After purification, it is drained to preserve the natural environment and to provide an initial excellent drainage control system that can prevent flooding during the rainy season.

In addition, the present invention can automatically control the drainage system operating from the initial rainfall to stop at the next rainfall, so that it is possible to purify and drain all the water flowing into the water treatment facility, the initial excellent rain can maximize the flood prevention efficiency during the rainy season It is to provide a drainage control system.

The initial excellent drainage control system proposed by the present invention includes: a water purification unit which is disposed to allow the initial rainwater to be introduced during rainfall and to purify the water from non-point pollutants; A drain pipe connected to the drain port to discharge the purified water from one side of the water purification unit and having a drain opening / closing valve; A drain pump connected to the drain pipe and operative to discharge water stored in the water purification unit; A rain detection unit installed on the ground to signal whether the drain pump is operated and detecting whether or not the rain is external; And a control unit for applying a control signal to the drain pump according to the signal input from the rainfall detecting unit.

The control unit is configured to input a predetermined elapsed time from the rainfall detection unit to the control signal for operating the drainage pump after inputting the detection signal according to the start of the rain and the end of the rain, respectively. It is made, including.

In the controller, both the time set by the operation means after inputting the detection signal according to the start of rainfall from the rainfall detection unit and the time set by the operation means after inputting the detection signal according to the end of the rainfall from the rainfall detection unit are input. When the elapsed time, a control signal for operating the drain pump is applied.

In the control unit, when a detection signal is input from the rainfall detection unit and a new signal is input from the rainfall detection unit while the drain pump is operating as a detection signal is input to the start of the rainfall and the end of the rainfall, the drain pump is stopped. Apply the control signal to change to.

In another aspect, the present invention may further comprise a solar panel for generating power using sunlight, and a battery unit that charges electricity generated by the solar panel and supplies power to the controller.

According to the initial excellent drainage control system according to the present invention, since the drain pump is operated only when all the set time for rainfall start and rainfall end have elapsed, the control signal is applied from the control unit so that drainage can be made, so that all of the excellent rain drops for a long time are sufficient. Since it can be purified over time, it is possible to protect the environment by improving the water quality, and to control the drain pump to operate at regular intervals, thereby preventing the disaster caused by flooding in the rainy season.

In addition, according to the initial excellent drainage control system according to the present invention, since the control signal is applied from the control unit to stop the operation of the drainage pump in operation to purify and drain the initial rainfall, the new rain, the purification process for the next storm It can be drained afterwards to maximize the efficiency of water quality improvement and to prevent indiscriminate discharge, which can maximize flood prevention efficiency during the rainy season.

In addition, according to the initial excellent drainage control system according to the present invention, since the power is supplied using the solar panel and the battery unit, it can be supplied without a separate power equipment to reduce the construction cost of the equipment and power by natural power generation It is possible to operate the drainage system efficiently by supplying it, and it is possible to operate the facility effectively even in areas or points where power supply is difficult.

1 is a block diagram schematically illustrating an embodiment according to the present invention;
2 is a cross-sectional view schematically showing an embodiment according to the present invention.
3 is a conceptual diagram schematically showing an embodiment according to the present invention.
4 is a block diagram schematically showing another embodiment according to the present invention;
5 is a conceptual diagram schematically showing another embodiment according to the present invention.

The present invention provides a water purification unit that is located so as to be able to enter the initial rainwater during rainfall and to purify the water from non-point pollutants; A drain pipe connected to the drain port to discharge the purified water from one side of the water purification unit and having a drain opening / closing valve; A drain pump connected to the drain pipe and operative to discharge water stored in the water purification unit; A rain detection unit installed on the ground to signal whether the drain pump is operated and detecting whether or not the rain is external; The control unit for applying a control signal to the drain pump in response to the signal input from the rainfall detecting unit; characterized in that the initial excellent drainage control system comprising a technical configuration.

The control unit may be configured to input a predetermined elapsed time from the rainfall detecting unit to a control signal for operating and controlling the drain pump after inputting a detection signal according to the start of the rain and the end of the rainfall. An initial excellent drainage control system comprising means is characterized by a technical configuration.

The controller may further include a time set by the operation means after inputting a detection signal according to the start of rainfall from the rainfall detection unit and a time set by the operation means after inputting a detection signal according to the end of the rainfall from the rainfall detection unit. An initial excellent drainage control system which applies a control signal for operating the drainage pump when all have passed, is characterized by a technical configuration.

In addition, the control unit stops the drainage pump when a detection signal for informing a new next rainfall is input from the rainfall detection unit while the drainage pump is operating according to the detection of the rainfall start and the start of rainfall from the rainfall detection unit. An initial excellent drainage control system for applying a control signal to a state is characterized by a technical configuration.

In addition, the present invention is characterized in that the initial excellent drainage control system further comprises a solar panel for generating power by using solar light and a battery unit for charging the electricity generated in the solar panel and supplying power to the controller. do.

Next, a preferred embodiment of the initial excellent drainage control system according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of the initial excellent drainage control system according to the present invention, as shown in Figures 1 to 3, the water purification unit 10, the drain pipe 20, the drainage pump 30, the rainfall detection unit ( 40 and the controller 50.

Although the water purification unit 10 is described as an example of the application of a water treatment facility consisting of artificial wetlands in Figure 2, the water purification unit 10 in the present invention is not limited to this, the natural environment such as vegetation It is possible to apply various water treatment plants which are configured to have a drainage system for purifying and draining water.

The water purification unit 10 is for purifying the rainwater introduced with the non-point pollutant during the rain, the initial rainwater is placed to be introduced and the water is installed from the non-point pollutant.

The water purification unit 10 is to form a sedimentation site for the precipitation of suspended solids mixed in water or to create a vegetation wetland equipped with a plurality of vegetation to facilitate the water purification by using the interaction of the ecosystem and the food chain It is possible.

A drain pipe 20 for discharging the purified water to one side of the water purification unit 10 is embedded.

Since the water of the water purification unit 10 is connected to the drain port so as to be discharged to the outside through the drain pipe 20, the water is disposed to be drained.

The drain pipe 20 is provided with a drain opening and closing valve 25. The drain opening and closing valve 25 is preferably configured using a solenoid valve or the like so as to be automatically controlled by a control signal.

The drain pump 30 operates to discharge the water stored in the water purification unit 10 and serves to drain.

The drain pump 30 is connected to any one of the drain pipe 20. That is, the drain pump 30 is installed in the drain pipe 20 at a position adjacent to the water purification unit 10 is possible to drain in the form of drawing water upward by applying pressure from the lower side, the drain pump 30 is connected to the drain pipe 20 at a position adjacent to the ground that is outside of the water purifying unit 10, it is possible to drain in the form of pulling water from the lower side by applying pressure from the upper side.

In the case of the drain pump 30, the control unit 50 is configured to apply a control signal for operation.

The drain pump 30 is preferably configured to switch the operating state in the same manner as the drain opening and closing valve 25 of the drain pipe (20). For example, when the control unit 50 applies a control signal for stopping the operation of the drain pump 30, the control unit 50 applies a control signal for changing the drain opening / closing valve 25 to the closed state, and the drain pump In the case of applying the operating control signal of 30, the control signal for changing the drain opening / closing valve 25 to the open state is applied.

The rainfall detecting unit 40 is installed on one ground of the water purification unit 10 and is configured to detect whether it is raining (outside the rain) outside the area where the water purification unit 10 is installed.

The rainfall detecting unit 40 detects whether the rainfall is a signal to the controller 50 to determine whether the drain pump 30 is operating.

The rainfall detecting unit 40 is configured using a rainfall meter or a rainfall sensor.

The controller 50 is configured to apply a control signal to automatically set the operation of the drain pump 30 according to a signal input from the rainfall detecting unit 40.

For example, the control unit 50 operates the drainage pump 30 to drain the water from the water purification unit 10 to the drainage pipe 20 and the operation stop state of the drainage pump 30. In order to maintain as it is configured to control in accordance with the detection signal from the rainfall detecting unit (40).

The controller 50 applies a control signal toward the drain pump 30 and at the same time applies a control signal to the drain opening / closing valve 25. That is, when a signal is input from the rainfall detecting unit 40 to the control unit 50, a control signal is applied to operate or stop the drain pump 30, and at the same time, the control unit 50 opens or closes the drain opening / closing valve 25. Apply a control signal so as to.

The control unit 50 receives a detection signal for notifying the start and end of the rain through the rainfall detection unit 40, respectively.

The control unit 50 controls a control signal for operating and controlling the drainage pump 30 after a predetermined time elapses from a detection signal (rainfall start detection signal, rainfall end detection signal) input from the rainfall detection unit 40. Configure to apply.

The control unit 50 configures the operation means 55 to set and input the elapsed time from when the detection signal is input until the control signal for operating control to the drain pump 30 is applied.

The controller 50 is configured to individually set and input the elapsed time until the control signal is applied from the detection signal according to the start of the rainfall and the end of the rainfall by the operation means 55, respectively. That is, the control unit 55 is the control unit 50 is the drainage pump 30 from the rainfall detection unit 40 after the detection signal according to the start of the rain and the end of the rainfall is input to the control unit 50 It is configured to set and input a predetermined elapsed time before applying a control signal for controlling operation.

For example, when the elapsed time is set in the controller 50, the elapsed time from the input of the detection signal corresponding to the start of the rainfall to the control signal is set and input through the operation means 55, After the detection signal is input, the elapsed time until the control signal is applied is separately set and input through the operation means 55.

The controller 50 applies a control signal for operating the drainage pump 30 when all the time set from the operation means 55 for the start of the rainfall and the end of the rainfall has elapsed. That is, the controller 50 detects the time set by the operation means 55 and the rainfall end from the rainfall detector 40 after the detection signal corresponding to the start of rainfall is input from the rainfall detector 40. The control unit 50 applies the control signal for operating the drainage pump 30 only when the time set by the operation means 55 has elapsed since the signal was input.

For example, if the time is set to drain after 24 hours after the start of rainfall to the control unit 50 by the operation means 55 and the time to set to drain after 6 hours after the end of the rainfall, the rainfall detection If the rainfall continues 24 hours after the detection signal for the start of rainfall from the unit 40 is input to the controller 50, the rainfall detection unit 40 does not input the detection signal indicating the end of the rain or When 6 hours have not elapsed since the end of the rain, the drainage pump 30 is not operated, and thus no drainage occurs. The control unit 50 only 24 hours after the start of the rain and 6 hours after the end of the rain. The drainage is achieved by applying a control signal to the drainage pump (30).

Only when all of the above set time for the start of rain and the end of rainfall have passed, the drainage pump 30 operates to apply the control signal from the controller 50 so that drainage can be achieved, so that all of the rain that has fallen for a long time is sufficient. Since it can be purified by the water quality improvement to protect the environment, and to control the drainage pump 30 to operate at regular intervals it is possible to prevent disasters due to flooding in the rainy season.

The controller 50 applies a control signal to the drain pump 30 to change to a stop state when a detection signal for notifying a new next rainfall is input from the rainfall detector 40 in a draining process for the initial rainfall. That is, the controller 50 detects the next rainfall while the drain pump 30 is operating as the rain detection unit 40 detects the start of rainfall and the end of the rainfall from the rainfall detection unit 40. When the unit 40 is detected and input to the control unit 50, a control signal to the drain pump 30 stops the operation.

By applying a control signal from the control unit 50 to stop the operation of the drainage pump 30 in operation to purify and drain the initial rainfall as described above, new drainage, the drainage after sufficiently undergoing the purification process for the next rainwater It is possible to maximize the efficiency of flood prevention by maximizing the efficiency of water quality improvement and preventing indiscriminate discharge.

And another embodiment of the initial excellent drainage control system according to the present invention, as shown in Figs. 4 and 5, the solar panel 60 for generating power using the sunlight and the electricity generated in the solar panel 60 It further comprises a battery unit 65 is charged to supply the power to the control unit 50.

The solar panel 60 may be provided in plurality in accordance with the scale of the water purification unit 10.

The battery unit 65 is connected to supply power to the control unit 50 to supply power to the drain pump 30 or the drain opening / closing valve 25 which are other components.

When the solar panel 60 and the battery unit 65 are configured as described above, power can be supplied without a separate power facility, thereby reducing the construction cost of the facility and supplying power by power generation by natural force, thereby providing an efficient drainage system. It is possible to operate, and it is possible to operate the equipment effectively even in areas or branches where power supply is difficult.

In the above, a preferred embodiment of the initial excellent drainage control system according to the present invention has been described. However, the present invention is not limited thereto, and various modifications can be made within the scope of the claims, the specification, and the accompanying drawings. It also belongs to the scope of the present invention.

10: water purification unit 20: drainage pipe
25: drain opening and closing valve 30: drain pump
40: rainfall detection unit 50: control unit
55: operation means 60: solar panel
65: battery unit

Claims (5)

A water purification unit which is disposed so that the initial rainwater can be introduced during the rainfall and is purified to purify the water from non-point pollutants;
A drain pipe connected to the drain port to discharge the purified water from one side of the water purification unit and having a drain opening / closing valve;
A drain pump connected to the drain pipe and operative to discharge water stored in the water purification unit;
A rain detection unit installed on the ground to signal whether the drain pump is operated and detecting whether or not the rain is external;
A control unit for applying a control signal to the drain pump according to a signal input from the rainfall detecting unit; and
It is made to include; a solar cell panel for generating power by using solar light and a storage battery for charging electricity generated by the solar panel for supplying power to the control unit;
The control unit is configured to input a predetermined elapsed time from the rainfall detection unit to the input of the control signal for the operation control of the drain pump after the input of the detection signal according to the start of the rain and the end of the rain, respectively. Including,
In the controller, both the time set by the operation means after inputting the detection signal according to the start of rainfall from the rainfall detection unit and the time set by the operation means after inputting the detection signal according to the end of the rainfall from the rainfall detection unit are input. The initial excellent drainage control system, characterized in that made to apply a control signal for operating the drainage pump.
delete delete The method according to claim 1,
In the control unit, when a detection signal is input from the rainfall detection unit and a new signal is input from the rainfall detection unit while the drain pump is operating as a detection signal is input to the start of the rainfall and the end of the rainfall, the drain pump is stopped. Initial excellent drainage control system, characterized in that made to apply a control signal to change to.
delete

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