KR101979543B1 - Sewer pipe pollution monitoring system - Google Patents

Abstract

The present invention relates to a sewer pipe pollution monitoring system for measuring pollution of sewer flowing in a sewer pipe to detect and warn of polluted sewers. According to the present invention, the sewer pipe pollution monitoring system comprises: a pollution level detection device detecting a pollution level of sewer and wastewater flowing in a sewer pipe to output a measurement signal; a pollution level transmitter receiving a pollution level measurement signal outputted from the pollution level detection device in real-time to convert the pollution level into a pollution level value and transmit the pollution level value to a central control center through a communication network; and the central control center receiving the pollution level value transmitted from the pollution level transmitter to issue an alarm in real-time and store alarm data when the pollution level is out of a reference range. The central control center comprises: a reference storage unit storing the reference range of the pollution level; a reception unit receiving the pollution level value transmitted from the pollution level transmitter; a control unit comparing the reference range of the reference storage unit with the received pollution level value to determine whether the received pollution level value is out of the reference range; a pollution occurrence alarm unit warning of pollution when the pollution level value out of the reference range is checked based on a comparison result of the control unit; and a data storage unit storing the pollution level value out of the reference range.

Description

{SEWER PIPE POLLUTION MONITORING SYSTEM}

The present invention relates to a sewage pipe pollution monitoring system, and more particularly, to a sewage pipe pollution monitoring system, such as an industrial complex, which measures the pollution of a sewage pipe at a place where water pollutant discharge sites are concentrated, The present invention relates to a sewage pipe pollution monitoring system for preventing pollution from deteriorating.

Industrial wastewater is one of the three major pollutants causing water pollution along with domestic sewage and livestock wastewater. Sewer pipe that we install to handle such sewage, facilities such as sewage treatment plant are said to be sewer together. Sewerage is divided into sewer that treats domestic sewage and sewer which treats factory wastewater. In Korea, it uses multipurpose sewer which can handle sewage and domestic wastewater. Wastewater flowing into the sewage treatment plant through the sewage line is discharged to public water bodies such as rivers and waters.

Wastewater is a combination of dirty water such as domestic wastewater, industrial wastewater, and livestock wastewater, and chemical or biological contamination may lead to a catastrophic effect on the human or marine environment.

Generally, sewer lines are arranged in the form of branches because they are installed along the natural flow of sewage along the slope of the treatment area. Since the sewage line is buried in the basement, it is difficult to confirm the condition of the pipeline and the quality of the sewage after the installation is completed. In addition, it takes a lot of time and effort to measure the quality of sewage.

Industrial wastewater, which is one of the pollutants that give a load to rivers, has a relatively low discharge rate and high throughput compared to domestic sewage, but it requires high management because it has a high pollution concentration and an absolutely large amount of pollution load. In addition, due to concerns about new water pollutants that are increasing due to diversification and advancement of industry, it is necessary to manage them.

According to the "Occurrence and Treatment of Wastewater from the 2014 Plant" issued by the Ministry of Environment, industrial wastewater was generated in 56,162,000 m3 of the day at 51,138 industrial wastewater discharge facilities in 2012, and about 64.3% Was discharged to the water system. Calculating this amount as an annual amount, the amount of output is 2,066 million cubic meters and the discharge amount is 1,329 million cubic meters.

As an example of a method for monitoring the contamination of the sewage line, a 'remote control monitoring system for a water supply and drainage pipeline' is known in Patent No. 10-1465775 (hereinafter referred to as 'Prior Art 1').

The prior art 1 includes a pressure sensing part, a flow sensing part, a water texture part, a motorized valve part for controlling a flow rate through opening and closing of a valve, and a pressure sensing part, a flow sensing part, The flow rate data and the water quality data and transmits a control command to the electric valve unit to remotely control the fluid in the water supply and drainage pipe, And a control and monitoring unit.

The prior art 1 has a technical effect that can easily measure and control the degree of contamination of water flowing in the water supply and drainage pipe as well as measure and control the change in flow rate of the inside of the water supply and drainage pipe according to the valve opening degree control in real time.

However, it takes a considerable amount of time to take precautions in response to sewage contamination from sewage pipe installation areas, and it is difficult for managers to quickly respond to the situation.

On the other hand, when wastewater containing high concentrations of contaminants such as livestock wastewater or factory wastewater flows into the sewer line, the contamination concentration of the sewage rapidly increases, and when the groundwater or the rainwater is introduced, the pollution concentration of the sewage rapidly decreases. Therefore, there is a need for means for measuring the quality of the sewage flowing into the sewerage line in real time and measuring the quality of the sewage flowing into the sewage treatment plant.

As an example of a method for measuring the quality of sewage water flowing into the sewer pipe, a 'water pollution degree measuring device' is known in the patent No. 10-1656432 (hereinafter referred to as 'Prior Art 2').

The prior art 2 includes a manhole embedded in the ground, a sewer pipe installed on one side and the other side of the manhole, a pipe vertically installed in the manhole, a sensor cover rotatably installed on the upper surface of the pipe, A sensor assembly mounted on the cover for lifting the bottom of the manhole and measuring the quality of the water introduced into the manhole, so that the sensor is installed inside the manhole, so that the contamination of the water quality can be measured in real time, The water quality can be continuously measured, and a plurality of sensors can be installed according to need to variously measure the pollution state of the water quality.

In the prior art 2, since the sensor is installed inside the manhole, it is possible to measure the pollution state of the water quality in real time, and the state of the sensor is maintained, so that the water quality can be continuously measured. The pollution state of water quality can be measured in various ways.

However, the sensor installed vertically in the manhole can not protect against breakage or shock, and when it is broken, the contamination of the water quality can not be measured, and there is a disadvantage that a large maintenance cost is incurred in replacing or repairing the sensor.

Korean Patent Registration No. 10-1465775 Korean Patent Registration No. 10-1656432

The object of the present invention is to solve the problems of the prior art and to solve the necessity of technology development. The object of the present invention is to prevent contamination from being deteriorated early and to prevent pollution from entering the sewer line, And to provide a sewage pipe pollution monitoring system capable of coping with the source water.

It is another object of the present invention to provide a sensor network network for a sewer line installed on a specific management area and to measure the pH (hydrogen ion concentration), E. coli, heavy metals, turbidity, etc. of wastewater generated in the pipeline The present invention also provides a sewer pipe pollution monitoring system that can detect and monitor the pollution degree of a sewage pipe based on measurement data collected through the sensor.

It is another object of the present invention to provide a pollution control system and a pollution control method for polluting sewage by monitoring pollution state in real time and installing it in a sewer pipe line where pollution material discharge work sites are concentrated like an industrial complex in which various pollutants that pollute water quality are introduced. And to provide a sewage pipe pollution monitoring system capable of promptly responding and reducing damage.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention for achieving the above object,

A sewage pipe pollution monitoring apparatus for monitoring sewage contamination flowing through a sewer pipe line and monitoring and warning when polluted sewage flows,

A contamination degree sensing device for sensing a pollution degree of the wastewater flowing through the inside of the sewer line and outputting the measurement signal;

A pollution degree transmitter for inputting the pollution degree measurement signal output from the pollution degree sensing device in real time, converting the pollution degree to a numerical value, and transmitting the numerical value to a central control center through a communication network; And

And a central control center for receiving the pollution level value transmitted from the pollution level transmission unit and alerting the pollution degree to a real time when the pollution degree is out of the reference range and storing the data,

Wherein the pollution degree sensing device is composed of a plurality of sensors and detects at least one of pH, E. coli, heavy metals, and turbidity of the wastewater.

According to an additional feature of the present invention, the pollution degree transmitter includes a numerical value converter for converting the pollution degree measurement signal input from the pollution degree sensing device into numerical values; And a communication unit for transmitting the pollution degree converted into the numerical value by the numerical value conversion unit to the central control center.

According to another aspect of the present invention,

A reference storage unit for storing a reference range of the pollution degree; a reception unit for receiving the pollution level value transmitted from the pollution level transmission unit; and a control unit for comparing the reference level of the reference storage unit with the received pollution degree value to determine whether the received pollution level value is out of a reference range And a data storage unit for storing pollution level values that are out of a reference range, wherein the pollution level warning unit warns when a pollution level value out of the reference range is found as a result of comparison between the control unit and the control unit, The present invention provides a sewage pipe pollution monitoring system.

The central control center analyzes the pollution degree transmitted from the plurality of clients and stores pollution degree information for each client in the data storage unit. The present invention provides a sewage pipe pollution monitoring system.

By applying the pollution monitoring system of the present invention to the sewer pipe, it is possible to recognize the pollution at an early stage, prevent deterioration of pollution, and cope with the inflow of pollutants from the source site.

In addition to being able to measure the contamination of the sewage pipe in real time, it also has an effect of preventing the spread of damage by constantly grasping the spread of pollution in the sewer pipe.

And the pollution information of the sewage pipe can be transmitted to the manager promptly.

It is installed in a sewer line where water pollutants discharge workshops are concentrated, such as an industrial complex in which various pollutants that pollute the water are introduced, so that the pollution is detected in real time and the diffusion is monitored. There is a possible effect.

FIG. 1 is a block diagram schematically illustrating a concept of a sewage pipe pollution monitoring system for applying the present invention.
FIG. 2 is a view for explaining a sewer pipe pollution monitoring system for applying the present invention. FIG.
3 and 4 are control block diagrams for explaining a sewer pipe pollution monitoring system for applying the present invention.

Hereinafter, a sewer pipe pollution monitoring system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 schematically illustrates the concept of a sewage pipe pollution monitoring system for applying the present invention. The client 10 is installed at a specific point of a sewer line. The client 10 is connected to a pollution degree sensing device 11, And a central control center 20 connected to each other through a communication network.

The contamination level sensing device 11 senses the degree of pollution of the wastewater flowing through the inside of the sewer line and outputs a measurement signal.

The pollution degree transmitter 12 receives the pollution degree measurement signal output from the pollution degree sensing device 11 in real time, converts the pollution degree to a numerical value, and transmits the numerical value to the central control center 20 through a communication network.

The central control center 20 receives the pollution level value transmitted from the pollution level transmitter 12 and alerts the user in real time when the pollution level is out of the reference range and stores the data.

At this time, a power supply unit including the solar cell installed on the upper surface of the sewage pipe and supplying the driving power to each of the above-described configurations may be provided.

In addition, a charger is mounted in the interior of the apparatus, so that the power obtained by the solar battery can be supplied to each configuration by being charged in the rechargeable battery.

The electricity generated from the solar cell or the electricity supplied from the outside can be supplied as driving power to the respective structures.

Accordingly, external electricity can be used when the power of the rechargeable battery is less than a certain level, and the electricity of the charger can be used when a power failure occurs.

The contamination level sensing device 11 is preferably installed at a predetermined interval in the sewage line, and senses the degree of contamination of the wastewater flowing in the sewer line and outputs a measurement signal. At this time, it is preferable that each contamination level sensing device 11 has an address, so that the central control center 20 can immediately grasp its position in the case where the contamination is detected in the sewer line.

At this time, the contamination level sensing device 11 is composed of a plurality of sensors, and a method of measuring the concentration of the wastewater using a sensor that senses at least one of pH, E. coli, heavy metal, and turbidity is used.

In addition, by using the properties of various materials such as water, oil, or hydrochloric acid or mercury which have inherent electric resistance, it is possible to detect the inflow of contaminants immediately by using a powerful electric resistance meter .

At this time, the cleaning unit can be provided to extend the service life of the contamination level sensing apparatus 11 and to measure the water quality more accurately by cleaning the contamination level sensing apparatus 11 using high-pressure air or a cleaning liquid.

The cleaning unit includes a spray nozzle for spraying a cleaning liquid and an air tube communicating with the air pump. The compressor automatically operates the compressor at predetermined time intervals by a timer, and the compressed air is supplied to the contamination level sensor 11, so that the foreign substances easily adhered to the contamination level sensing device 11 are washed out, so that the foreign matter can be stably operated at all times.

2 is an exemplary view for explaining a sewer pipe pollution monitoring system for applying the present invention,

A client (10) and a sewage treatment plant (30) installed at a specific point of a sewer line where a plurality of water pollutant discharge business sites (A, B, C) are concentrated such as an industrial complex, And a central control center 20 which alerts the user in real time when the data is out of the range and stores the data.

A client 10 installed at a specific point of the sewage pipe may be provided with a pollution level alarm device for generating an alarm function according to the notification from the central control center 20. [

At this time, the pollution level alarming device is installed on the upper ground, and when the pollution degree is out of the reference range, it is alarmed at least one of visual or auditory level, and when an alarm signal is transmitted from the central control center 20, And a sound display unit for generating an audible alarm when an alarm signal is displayed on the alarm display unit. The alarm display unit may be configured to display the alarm signal on the display unit.

In addition, the warning display unit flashes red when an alarm signal is received from the central control center 20 because the LED illumination normally displays various images according to season and time, exceeds the reference range, and the cause of the pollution is removed When the pollution level is restored to within the reference range, it flashes in blue or green, and again, it reproduces normal seasonal and time-based images.

The pollution level alarming device can quickly remove the cause of pollution and lower the degree of pollution according to a warning from the central control center 20 when the pollution degree is increased.

In addition, the sound display unit has a function of reproducing an alarm sound according to the level of contamination, and notifies the user of the contamination state by sound.

According to another embodiment of the present invention, the pollution level alarm device is not limited to generating an alarm signal when an alarm signal is transmitted from the central control center 20, And an alarm signal can be output immediately when the degree of contamination is out of the alarm reference range.

The contamination level sensor 11 and the pollution level transmitter 12 may be hermetically sealed by the operation preventing cap to prevent theft and manipulation by an external person.

3 is a control block diagram for explaining a sewage pipe pollution monitoring system for applying the present invention and includes a pollution degree sensor 11, a pollution degree transmitter 12 composed of a numerical value conversion unit 12a and a communication unit 12b And a client 10.

The numerical value converter 12a converts the pollution degree measurement signal input from the pollution degree sensing device into numerical values.

The communication unit 12b transmits the pollution degree converted into the numerical value in the numerical conversion unit to the central control center.

FIG. 4 is a control block diagram for explaining a sewage pipe pollution monitoring system for applying the present invention. The central control center 20 includes a reference storage unit 21, a control unit 22, a receiving unit 23, (24), and a data storage unit (25).

The reference storage unit 21 stores the reference range of the pollution degree.

At this time, a contamination state determination unit that determines that the contamination degree measured from the pollution degree sensing device 11 exceeds the contamination reference range, and an information request unit that requests the alarm reference range from the reference storage unit 21 may be included.

The reception unit 23 receives the pollution level value transmitted from the pollution level transmitter 12.

At this time, a communication unit for transmitting an alarm contamination state to the portable terminal of the administrator may be installed.

Accordingly, the manager can analyze the degree of contamination and recognize the situation and instruct the inspection.

The control unit 22 compares the reference range of the reference storage unit 21 with the received pollution level to determine whether the received pollution level is out of the reference range.

The contamination occurrence warning unit 24 warns when the pollution level value out of the reference range is found as a result of the comparison by the control unit.

At this time, if it is determined that the degree of contamination exceeds the alarm reference range, an audible alarm is generated according to the control signal of the control unit 22. [

The data storage unit 25 stores the pollution level values out of the reference range.

Accordingly, not only the water pollution degree can be managed by the central control center 20, but also the water pollution can be managed in a comprehensive manner by connecting the plurality of pollution degree sensing devices 11 and the central control center 20.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made without departing from the scope of the present invention as defined by the appended claims. will be. Accordingly, the true scope of the present invention should be determined by the technical idea of the claims.

10: Client
11: Pollution degree detecting device
12: Pollution degree transmitter
12a: Numerical conversion section
12b:
20: Central Control Center
21: Reference storage unit
22:
23: Receiver
24: Pollution occurrence warning section
25: Data storage unit
30: sewage treatment plant

Claims (5)

In the area where many water pollutants discharge workplaces are concentrated, it is installed in the sewer line connected to each water pollutant discharge workplace, and individually measures the pollution degree of wastewater discharged from each water pollutant discharge plant, A plurality of pollution degree sensing devices for sensing the pollution degree of the wastewater flowing through the connected sewer pipe and outputting measurement signals thereof;
A plurality of pollution degree transmitters connected to the pollution degree sensing devices, receiving a pollution degree measurement signal output from the pollution degree sensing device in real time, converting the pollution degree into numerical values, and transmitting the pollution degree values to a central control center through a communication network; And
And a central control center for receiving the pollution degree value transmitted from the pollution degree transmitter and alerting the pollution degree to a real time when the pollution degree is out of the reference range and storing the data,
A plurality of clients including the pollution degree sensing device and a pollution degree transmitter are installed in a sewer line connected to a water pollution material discharge site in the area, respectively, and the central control center analyzes the pollution degree transmitted from the plurality of clients, So that the pollution degree information is stored separately,
The contamination level sensing apparatus has a unique address so that the central control center can immediately recognize the position of the pollution degree sensor when the pollution is detected in the sewer line and includes a plurality of sensors for detecting pH of the wastewater, and a cleaning unit for periodically cleaning the surface of the sensor using a cleaning liquid and high-pressure compressed air, wherein the cleaning unit includes an injection nozzle for spraying the cleaning liquid, and an air tube communicating with the air pump,
The pollution degree transmitter includes a numerical value conversion unit for converting the pollution degree measurement signal inputted from the pollution degree sensing device into a numerical value, a communication unit for transmitting the pollution degree converted into numerical value in the numerical value conversion unit to the central control center, And a pollution level alarming device for receiving a signal of the central control center and alarming at least one of visual and / or auditory when the pollution level is out of the reference range,
The central control center comprises a reference storage unit for storing a reference range of the pollution degree, a receiver for receiving the pollution level value transmitted from the pollution level transmitter, and a controller for comparing the received pollution level value with the reference range of the reference storage unit, And a data storage unit for storing pollution level values that are out of the reference range, wherein the pollution level warning unit warns the user when a pollution level value out of the reference range is found as a result of comparison by the control unit Sewage pipe pollution monitoring system.
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