KR101398010B1 - The apparatus for controlling the watergate and the method therefor using rtu - Google Patents

Abstract

The present invention relates to a water gate opening / closing device capable of effectively managing initial storms by simply and efficiently constructing a water gate structure for interrupting a gut pipe and a storage tank and managing the system remotely, The apparatus comprises: a storage tank installed on the lower side of the gutter; A connection pipe connecting the storm water pipe and the storage tank; A storage tank installed in the connection pipe for controlling the stormwater flowing into the storage tank through the connection pipe; A first sensor installed on the upstream side of the connection pipe among the gross conduits and measuring a contamination degree and a quantity of the ozone flowing into the gutter tube; A second sensor installed inside the storage tank for measuring a contamination level and a water level of the storm water filled in the storage tank; A discharge pump installed in the storage tank for sucking the rainwater in the storage tank and discharging the rainwater to the outside; And a control unit for opening and closing the storage tank gates in accordance with an initial stormwater inflow signal and an initial wastewater termination signal of the first sensor and driving the discharge pump according to the high water level signal or the contamination signal of the second sensor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for opening and closing a waterslide using RTU,

The present invention relates to a water gate opening and closing apparatus, and more particularly, to a water gate opening and closing apparatus capable of efficiently managing initial floors by simply and effectively structuring a water gate for interrupting a grate and a storage tank, ≪ / RTI >

Generally, in the classifying sewer, the storm drained during the rainfall flows to the earth through the storm sewer, which is a sewer, and discharged to the stream through the toe. Sewage type sewerage is sewage which is separated from sewer pipe through which storm water flows and sewer.

However, in the initial rainfall that flows into the gutters at the early stage of rainfall, various non-point pollutants are contained in the rainwater, and the pollution load increases. When the pollutant load of the initial storm flows into the river as it is, there is a problem that the quality of the river is deteriorated.

Therefore, as a method to efficiently treat polluted initial rainwater generated from various non-point source pollutants in the early stage, it is necessary to collect the initial rainwater in a storage tank and send it to a sewage treatment plant to purify the water. The method of discharging to the river is mainly used. (Prior art document: Korean Patent Laid-Open Publication No. 10-2013-58718), a storage type non-point pollution abatement system and a storage type nonpoint pollution abatement method based on weather information and simulation calculation,

However, there is a case where soil or suspended matter contained in the non-point source is always obstructed by the action of depositing or sticking in the floodgate that controls the storm that enters the storage tank storing the initial storm, There is a problem that the water gate opening / closing apparatus itself can not perform its function. Also, it is urgently required to develop a technology capable of automatically controlling the system by actively responding to the flow of the initial storm in real time.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water gate opening / closing device capable of efficiently managing initial storms by simply and effectively constructing a water intake door structure for interrupting a gut pipe and a storage tank, will be.

According to an aspect of the present invention, there is provided a water gate opening / closing apparatus comprising: a storage tank installed below a gutter; A connection pipe connecting the storm water pipe and the storage tank; A storage tank installed in the connection pipe for controlling the stormwater flowing into the storage tank through the connection pipe; A first sensor installed on the upstream side of the connection pipe among the gross conduits and measuring a contamination degree and a quantity of the ozone flowing into the gutter tube; A second sensor installed inside the storage tank for measuring a contamination level and a water level of the storm water filled in the storage tank; A discharge pump installed in the storage tank for sucking the rainwater in the storage tank and discharging the rainwater to the outside; And a control unit for opening and closing the storage tank gates in accordance with an initial stormwater inflow signal and an initial wastewater termination signal of the first sensor and driving the discharge pump according to the high water level signal or the contamination signal of the second sensor.

In addition, in the present invention, the storage tank gudgeon includes a connection pipe interrupter installed rotatably at an inlet of the connection pipe, and which rotates while interrupting the connection pipe; And a gutter-tube blocking part slidably installed in the connection tube channel and slid in a state where the connection tube channel part is opened to block the gutter tube.

Meanwhile, in the present invention, the storage tank gudge is provided with one end rotatably installed at one side wall of the connection pipe, A filter unit slidably installed on the other side wall of the connection pipe to filter the float in the stormwater passing through the connection pipe when the hydrologic unit is opened; As shown in FIG.

In the present invention, it is preferable that the first sensor, the second sensor, and the control unit communicate with each other in real time by a local wired / wireless communication network.

Preferably, the control unit receives meteorological information from a meteorological office server using a wired / wireless data communication network, and is remotely controlled by a control signal of a central meteorological control server.

The initial quality management system of the present invention further includes a filter unit interlocked with the storage tank gates to prevent accumulation of suspended matters in the storage tank by preventing the ingress of suspended matters into the storage tank, There is an advantage to settle.

Also, since the storage tank gates of the present invention can be interrupted up to the gut pipe by a single operation, there is no need to separately install a gutter water gate besides the storage tank gates, thereby facilitating the construction and management of the system.

In addition, the water gate opening / closing apparatus of the present invention not only realizes on-site and remote control in real time, but also has an advantage of being able to predict and control information such as weather information in real time.

1 is a view showing a structure of a water gate opening / closing apparatus according to an embodiment of the present invention.
FIGS. 2 and 3 are views showing the structure and operation of a storage tank according to an embodiment of the present invention.
FIGS. 4 and 5 are views showing the structure and operation of a storage tank according to another embodiment of the present invention.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1, the water gate opening / closing apparatus 1 according to the present embodiment includes a storage tank 10, a connection pipe 20, a storage tank gland 30, a first sensor 40, a second sensor 50 A discharge pump 60, and a control unit 70. [0033]

First, as shown in FIG. 1, the storage tank 10 is installed below the grate 3 buried in the ground, and has an internal volume capable of storing a predetermined amount of initial storm. The storage tank 10 may be made of various materials such as concrete and has an inlet 12 through which the rainwater can flow into the upper portion and an outlet 14 through which the rainwater stored in the lower portion can be discharged to the outside Is formed.

Next, the connection pipe 20 is a component connecting the storm valve 3 and the storage tank 10, as shown in FIG. The stormwater that has flowed through the brine pipe (3) through the connection pipe (20) flows into the storage tank (10).

1, the storage tank gates 30 are installed in the connection pipe 20 and are a component for interrupting storm water flowing into the storage tank 10 through the connection pipe 20 . When the first storages 40 detect that the initial storm flows through the stormwater tube 3, the stormwater storm door 30 is connected to the connection pipe 20 according to a control signal of the controller 70, So that the initial storm flows into the storage tank 10. Then, when all the initial stormwater flows into the storage tank 10 and the clean stormwater flows into the stormwater tube 3, the connection pipe 20 is shut off, and the stormwater does not flow into the storage tank 10, ) To the earth.

In this embodiment, the storage tank gates 30 are formed into two types. As shown in FIG. 2, the connection pipe line interrupting portion 32a and the excellent pipe shutoff portion 34a may be provided. As shown in FIG. 2, the connection channel intermittent portion 32a is rotatably installed at an inlet of the connection channel 20, and is a component that rotates and interrupts the connection channel 20 while rotating. In the present embodiment, the upper surface of the connection channel intermittent portion 32a is formed as a flat surface or a curved surface, and the upper surface of the connection channel intermittent portion 32a is connected to the connection pipe 20a, It is preferable to have a shape matching with the lower end surface because it does not disturb the flow of the rain.

The connection channel intermittent portion 32a opens and closes the connection pipe 20 by a simple operation in which the rotation member 36a rotates.

Next, as shown in FIGS. 2 and 3, the excellent conduit blocking portion 34a is slidably installed in the connection conduit intermittent portion 32a, and when the connection conduit conduit 32a is opened, Thereby blocking the bell pipe 3.

Generally, in the storage tank for early storm management, a hydrological gate for interrupting the connection channel and a hydrological gate for interrupting the gut pipe are installed separately. Therefore, when the stormwater is sent to the storage tank, the water gate for interrupting the connecting pipe is opened and the water gate for interrupting the storm pipe is blocked to prevent the stormwater from flowing into the storeroom and passing through the storm water pipe. On the other hand, when the stormwater is passed without passing the stormwater into the storage tank, the waterway door which blocks the connecting pipe is cut off, and the waterway door which controls the stormwater pipe is opened.

However, in the present embodiment, since the brine conduit blocking portion 34a is integrally installed in the connection conduit blocking portion 32a and operates in an interlocked manner, there is no need to provide a separate gate for interrupting the brine conduit 3 separately. As shown in FIG. 2, when the upper surface of the connection channel intermittent portion 32a is aligned with the lower surface of the gutter 3, the storage tank gates 30a according to the present embodiment pass through the gutter tube 3 , And does not flow into the storage tank (10). At this time, the gutter conduit blocking portion 34a is in a state of being in close contact with the lower surface of the connection conduit interrupting portion 32a.

3, when the connection pipe 20 is opened, the connection pipe intermittent portion 32a is rotated so that the upper surface thereof stands upright at a vertical or more angle, and the superior conduit blocking portion 34a Is slid and protruded from the connection channel intermittently-fixed portion 32a. The gutter tube blocking portion 34a slides until it comes into contact with the upper surface of the gutter tube 3 so as to prevent the gutter tube from flowing into the storage tank 10 only.

In this case, as shown in FIG. 2, a filter 80 is installed at the lower end of the connection pipe 20 to prevent suspended substances from flowing into the storage tank 10. The suspended matter caught in the filter 80 is interlocked with the opening operation of the storage tank gates 30a.

As shown in Figs. 4 and 5, the storage tank basin 30b of another structure shown in this embodiment is configured to include the hydrator portion 32b and the filter portion 34b. First, the handle portion 32b is a component that is rotatably installed at one end 31b on one side wall of the connection pipe 20 and rotates the connection pipe 20 while rotating. That is, one end 31b of the handle portion 32b is rotatably coupled to one side wall of the connection pipe 20. The other end 33b of the handle portion 32b is spaced apart from the connection pipe 20 by a width of the connection pipe 20 and is connected to the filter portion 34b.

4, the filter portion 34b is rotatably connected to the other end 33b of the male portion 32b, and the other end 35b is connected to the connection pipe 20, And is slidably mounted on the other side wall of the housing. Therefore, as shown in FIG. 5, when the male portion 32b is opened, it is installed across the connection pipe 20 and serves to filter the float in the stormwater passing through the connection pipe 20.

When the filter unit 34b is installed in conjunction with the operation of the male part 32b, the filter unit 34b and the male part 32b can be driven by a single operation, which facilitates the control. Of course, in this case, as shown in FIGS. 4 and 5, a grate water gate 90 for interrupting the gushing tube 3 must be additionally provided.

1, the first sensor 40 is installed on the upstream side of the connection pipe 20 among the bellows pipes 3, and the first sensor 40 is provided on the upstream side of the connection pipe 20, . Therefore, the first sensor 40 senses that the initial storm is first introduced through the gush pipe 3, and sends the detection signal to the controller 70. Based on the detection signal, the controller 70 And opens the storage tank gates 30.

In addition, the first sensor 40 measures the contamination degree of the storm through the storm water tube 3 in real time and transmits the result to the controller 70. Based on this result, when the pollution degree of the rainwater is low and the water can be discharged to the river, the control unit 70 blocks the storage tank water gate 30 to allow the water to pass through the storm water tube 3 just.

In addition, the first sensor 40 senses the flow rate of stormwater passing through the gush pipe 3, and performs a modeling method such as rational modeling in the controller 70 based on the value and the meteorological station weather information So that the storage tank gates 30 can be actively controlled.

1, the second sensor 50 is installed inside the storage tank 10 and is a component for measuring the contamination degree and the water level of the stormwater 2 filled in the storage tank 10 . If the reservoir (10) is filled with stormwater (2) of storage capacity or more, it should be discharged and sent to the sewage treatment facility. At this time, the second sensor 50 measures the water level in real time and transmits it to the control unit 70, and the control unit 70 controls the driving of the discharge pump 60 based on the measured level.

Also, the second sensor 50 measures the contamination degree of the storm stored in the storage tank 10 in real time.

1, the discharge pump 60 is installed in the storage tank 10 and sucks the stormwater in the storage tank 10 and discharges the stormwater to the outside. As described above, the discharge pump 60 discharges the storages in the storage tank 10 to the sewage treatment facility when they are filled up to the storage capacity.

Next, the controller 70 opens and blocks the storage tank gates 30 according to an initial storm inflow signal and an initial wastewater termination signal of the first sensor 40, Or driving the discharge pump 60 in accordance with the contamination signal. For this, the controller 70 has a structure capable of real-time communication with the first sensor 40 and the second sensor 50 by a local wired / wireless communication network. In this embodiment, as described above, the control unit 70 may perform an active control function by predicting the opening time and the blocking time of the water gate 30 by using the information provided with the modeling program.

In the meantime, the water gate opening / closing apparatus 1 according to the present embodiment can perform on-site control through the control unit 70, and the control unit 70 and the central excellent control server 4 can control the remote wired / wireless data communication network Weather information from the weather station server 5 and remote control by the control signal of the central abnormality control server 4. [

In order to enable remote control, the water gate opening / closing device 1 is provided with a remote terminal unit (RTU) for communication and control with the central excellence control server 4. Receives the control signal from the central excellence control server using the RTU, and transmits the control information to the central excellence control server.

1: According to one embodiment of the present invention,
2: Excellent 3: Excellent pipe
4: central excellent control server 5: weather station server
10: Storage tank 20:
30: Storage tank hydrology 40: First sensor
50: second sensor 60: discharge pump
70: control unit 80: filter
90: Excellence water gate

Claims (6)

delete A reservoir installed on the lower side of the gutter;
A connection pipe connecting the storm water pipe and the storage tank;
A storage tank installed in the connection pipe for controlling the stormwater flowing into the storage tank through the connection pipe;
A first sensor installed on the upstream side of the connection pipe among the gross conduits and measuring a contamination degree and a quantity of the ozone flowing into the gutter tube;
A second sensor installed inside the storage tank for measuring a contamination level and a water level of the storm water filled in the storage tank;
A discharge pump installed in the storage tank for sucking the rainwater in the storage tank and discharging the rainwater to the outside;
And a control unit for opening and closing the storage tank gates in accordance with an initial stormwater inflow signal and an initial wastewater termination signal of the first sensor and driving the discharge pump according to the high water level signal or the contamination signal of the second sensor,
The storage tank gates
A connection pipe interlocking part installed to be rotatable at an inlet of the connection pipe and interrupting the connection pipe while rotating;
And an excellent pipe shut-off part slidably installed in the connection pipe cut-off part and slid in a state where the connection pipe cut-off part is opened to cut off the excellent pipe. A reservoir installed on the lower side of the gutter;
A connection pipe connecting the storm water pipe and the storage tank;
A storage tank installed in the connection pipe for controlling the stormwater flowing into the storage tank through the connection pipe;
A first sensor installed on the upstream side of the connection pipe among the gross conduits and measuring a contamination degree and a quantity of the ozone flowing into the gutter tube;
A second sensor installed inside the storage tank for measuring a contamination level and a water level of the storm water filled in the storage tank;
A discharge pump installed in the storage tank for sucking the rainwater in the storage tank and discharging the rainwater to the outside;
And a control unit for opening and closing the storage tank gates in accordance with an initial stormwater inflow signal and an initial wastewater termination signal of the first sensor and driving the discharge pump according to the high water level signal or the contamination signal of the second sensor,
The storage tank gates
One end of the connecting pipe is rotatably installed on one side wall of the connecting pipe;
A filter unit slidably installed on the other side wall of the connection pipe to filter the float in the stormwater passing through the connection pipe when the hydrologic unit is opened; And a control unit for controlling the opening / closing unit. 4. The method according to any one of claims 2 to 3,
Wherein the first sensor, the second sensor, and the control unit communicate with each other in real time by a local wired / wireless communication network. 4. The apparatus according to claim 2 or 3,
Wherein the meteorological information is received from a meteorological office server using a remote wired / wireless data communication network and remotely controlled by a control signal of a central good management server. delete

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