KR101046198B1 - A water treatment remote control monitoring system - Google Patents

Abstract

PURPOSE: A system for monitoring water treatment remote control by utilizing internet-base is provided to efficiently manage a water tank and a sewage disposal plant using minimum manpower. CONSTITUTION: A water treatment remote control monitoring system is connected with a water tank processing part(10), a sewage treatment part(20) and an integrated management server(30) through an internet network. A water tank water level sensor part transmits measured data to a collected water level sensor part and a water tank processing part. A chlorine measurement sensor part(13) measures the residual chlorine of the water tank and transmits measurement data to a water tank processing part. The sewage treatment part comprises a water tank water sampling part, a water tank web camera part and a water tank incoming and outgoing monitor.

Description

A water treatment remote control monitoring system}

The present invention relates to a remote control monitoring system for water treatment. More specifically, the management manpower is applied by integrating IT (information technology) technology to manage and check the water quality and quantity treatment status of the sewage treatment plant and whether the device is operating at a remote location. It is possible to recognize the quality of water and quantity in real time while saving, and the administrator can check and control data directly at the site through the touch screen, and check the site situation in real time through the web camera and access monitoring unit. The present invention relates to a remote control monitoring system for water treatment using an Internet-based recording system.

In general, environmental pollution has emerged as a social problem in developed countries for a long time, and at the national level, the protection of water sources and the management and regulation of pollutant discharge facilities have been continuously implemented.

In the liver abnormal waterworks or small sewage treatment plant, the place where such water treatment is performed, the water quality of the liver abnormal water tank is checked once or twice a year, but these regular inspections are temporary and temporary and cannot be said to be accurate. Since it is not known that the chlorine, a disinfectant, is put into the product properly, only unsealed management is being performed.

In addition, even if a water purification device is installed, since the operation status of the water purification device is not accurately known, residents are using unsanitary water even if an excess of E. coli is detected. Although there was a facility, there is a problem that the sewage treatment is not performed properly due to neglect of management because the raw water quality is unknown.

In order to solve these problems and supply clean drinking water to the public, samples are collected for regular water quality surveys at various points in the water supply and sewage system. The water quality analysis is performed by transporting to a place equipped with various types of sensors, and in general, the remote water quality management and control environment is sewage treatment by transmitting and receiving data through the PLC communication card through a dedicated modem to use a dedicated Internet line. When the data collected in the central control room is collected and the data obtained from the central control room is uploaded onto the web, a method of accessing the outside to view the water quality is used. Transmission was impossible, and there was some trouble that it was transmitted to the web through the central control room of sewage treatment.

As we are constantly trying to integrate new systems in our current situation in the cutting-edge Internet era, we are reducing the operational cost of an integrated center or unit processing plant and efficiently managing the web integration field as well as building an efficient integrated system. As various new technologies have been introduced and managed, the trend of minimizing management manpower has been increasing, but there are some difficulties in continuous maintenance for each unit treatment plant. Process management and water quality management are in progress by utilizing, but the current domestic technology installs data transmission equipment for each unit treatment plant, aggregates the data into one, and uploads the data from a web server to the web. When problems occur in the environment, maintenance vulnerabilities due to various abnormal cause checks are emerging as problems in the lower stage. Overseas technologies to solve these problems are frequently encountered due to some problems in reflecting our reality. There was.

Recently, according to the integrated management system, it monitors and controls various facilities at a remote location, and although many communication technologies and measurement technologies have developed a lot, the data loss in the lower stage is lowered when the Internet environment of the web server is still a problem on the integrated management system. Frequently, situations such as maintenance of the system caused direct worker's on-site visit, which is still difficult to expect the effect of personnel reduction.

The object of the present invention is to solve these problems, and collect and measure various sensor units for measuring water quantity and water quality in the automatic control unit, and check and manage them anywhere using a network. It is possible to provide a remote control monitoring system for water treatment that is easy to maintain and enables efficient management of multiple intake ponds, sewage treatment plants, and water tanks distributed in various regions with minimal manpower.

Another object of the present invention is to measure the quantity and water quality of the water tank in the liver, and in connection with the integrated management server, the operation state of the intake pump and the chlorine injecting device, and when the water purification device is installed, in connection with the integrated management server in the water purification device. It is possible to check and control the operation status of the water purification system and the water quality of the small-scale sewage treatment system in connection with the integrated management server, and measure the water quality of the stream or river coming down from each village to measure the operation of the sewage treatment status of each village. It is to provide a remote control monitoring system for water treatment that displays and manages data and can be checked and managed anywhere on the computer of related equipment construction companies, town halls, and local and municipal government officials.

Another object of the present invention is to provide a water treatment remote control monitoring system capable of sending an emergency message to an administrator's mobile communication terminal stored in the system in advance through an SMS service when an emergency occurs.

Still another object of the present invention is to install a water quality analysis device capable of data transmission through the web at each site, and install an integrated management server linked to a number of water quality analysis devices to integrate operation status and abnormality of each site. It is to provide an internet-based water treatment remote control monitoring system that enables verification by a management server to establish a remote maintenance system.

Another object of the present invention, by allowing the administrator to check and control data directly in the field through the touch screen, so that it can quickly respond when a problem occurs, and check and record the situation in real time through a web camera and an access monitoring unit. Therefore, it is possible to provide a remote control monitoring system for water treatment to maintain security.

This object of the present invention is connected by a water tank processing unit, a sewage treatment unit, an integrated management server and an internet network connecting them, and the water tank processing unit measures the water level of the water intake and sends the measurement data to the integrated management server. A water intake level sensor unit for transmitting; A water tank level sensor unit for measuring the amount of water used and the amount of water stored in the water tank for liver water supply and transmitting the measurement data to the water tank processing unit; A chlorine measurement sensor unit for measuring residual chlorine in the water tank and transmitting measurement data to the water tank processing unit; A hydrogen ion concentration measurement sensor unit for measuring the hydrogen ion concentration in the water tank and transmitting the measurement data to the water tank processing unit; A turbidity measurement sensor unit that measures turbidity in the water tank and transmits measurement data to the water tank processing unit 10; A water tank total nitrogen (TN)/total phosphorus (TP) sensor unit for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) on the inlet side in the water tank; A water tank collection unit; A water tank web camera unit; It includes a water tank access monitoring unit, the sewage treatment unit, the raw water inlet BOD sensor unit for measuring the biochemical oxygen demand at the inlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit; A raw water inflow COD sensor unit for measuring the chemical oxygen demand on the inlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit; A raw water inlet TN/TP sensor unit for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the inlet side of the sewage treatment plant; A treated water discharge BOD sensor unit for measuring the biochemical oxygen demand on the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit; A treated water discharge COD sensor unit for measuring the chemical oxygen demand at the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit; A raw water discharge TN/TP sensor unit for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the outlet of the sewage treatment plant; A tap water inflow BOD sensor unit for measuring the biochemical oxygen demand of the stream or river and transmitting the measurement data to the integrated management server; A water inflow COD sensor unit for measuring the chemical oxygen demand of the river or river and transmitting the measurement data to the integrated management server; A PH/SS sensor unit for measuring hydrogen ion concentration (PH)/float concentration (SS) in the sewage treatment plant; A sewage treatment plant collection unit; A sewage treatment plant web camera unit; It includes a sewage treatment plant access monitoring unit, and the integrated management server is connected to the water tank processing unit and the sewage treatment unit to check and manipulate/manage measurement data of the sewage treatment plant, and to measure the measured data through each sensor unit. It is achieved by the water treatment remote control monitoring system according to the present invention, the integrated display unit for displaying identifiably.

The remote control monitoring system for water treatment according to the present invention collects measurement data measured by various sensor units and sensor units for measuring water quantity and water quality in a water tank processing unit and a sewage processing unit, and is checked and managed anywhere using a network. It is possible to easily manage and manage multiple intake ponds, sewage treatment plants, water tanks, etc. distributed in various areas with minimal manpower. In connection with the server, the operation status of the water intake pump and the chlorine input device, and when the water purification device is installed, the operation state of the water purification device in connection with the integrated management server of the water purification device and the water quality of the small-scale sewage treatment device are measured It can be linked to check and control, measure the water quality of streams or rivers coming from each village, and display the operation and data of the sewage treatment status of each village. It is possible to check and manage anywhere on the computer of the public official in charge of sewage, and in case of an emergency, it is possible to send an emergency message to the mobile communication terminal of the administrator who is stored in the system through SMS service. Install a water quality analysis device that can transmit data through the web, and install an integrated management server that is linked to a number of water quality analysis devices, so that the integrated management server can check the operation status and abnormality of each site through a remote maintenance system. It can be established, and administrators can check and control data directly in the field through a touch screen, so that they can respond quickly when problems occur, and can check and record on-site conditions in real time through a web camera and an access monitoring unit. Therefore, it is effective to maintain security.

1 is an overall block diagram of a water treatment remote control monitoring system according to a first embodiment of the present invention.
2A is a block diagram of a sewage treatment unit of a water treatment remote control monitoring system according to a first embodiment of the present invention.
2B is a block diagram of the central processing unit of the sewage treatment unit of FIG. 2A.
3 is a block diagram of an integrated management server of a water treatment remote control monitoring system according to a first embodiment of the present invention.
4 is a configuration diagram of a water purification device for a remote control monitoring system for water treatment according to a first embodiment of the present invention.

In describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice, and thus the definitions should be made based on contents throughout the present specification.

The remote control monitoring system (A) for water treatment according to an embodiment of the present invention, as shown in FIG. 1, connects the water tank treatment unit 10, the sewage treatment unit 20, the integrated management server 30, and the like. Letting the internet work mutually organically.

The water tank processing unit 10 of the water treatment remote control monitoring system (A) according to an embodiment of the present invention measures the water level of the water intake area and transmits the measurement data to the integrated management server 30 ( 11) and; A water tank water level sensor unit (12) for measuring the amount of water used and water storage of the water tank for liver water supply and transmitting the measurement data to the water tank processing unit (10); A chlorine measurement sensor unit (13) for measuring residual chlorine in the water tank and transmitting measurement data to the water tank processing unit (10); A hydrogen ion concentration measuring sensor unit 14 measuring the hydrogen ion concentration in the water tank and transmitting the measurement data to the water tank processing unit 10; A turbidity measurement sensor unit 15 that measures turbidity in the water tank and transmits measurement data to the water tank processing unit 10; A water tank total nitrogen (TN)/total phosphorus (TP) sensor unit 16 which measures and transmits total nitrogen (TN)/total phosphorus (TP) at the inlet side in the water tank; A water tank collecting unit 17; A water tank web camera unit 18; It includes a water tank access monitoring unit 19.

The sewage treatment unit 20 of the remote control monitoring system (A) for water treatment according to an embodiment of the present invention measures raw water inflow BOD by measuring the biochemical oxygen demand at the inlet side of the sewage treatment plant and transmitting the measured data to the sewage treatment unit 20 A sensor unit 21; A raw water inflow COD sensor unit 22 for measuring the chemical oxygen demand on the inlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A raw water inflow TN/TP sensor unit 23 for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the inlet side of the sewage treatment plant; A treated water discharge BOD sensor unit 24 for measuring the biochemical oxygen demand at the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A treated water discharge COD sensor unit 25 for measuring the chemical oxygen demand on the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A raw water discharge TN/TP sensor unit 26 for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the outlet of the sewage treatment plant; A tap water inlet BOD sensor unit 27 for measuring the biochemical oxygen demand of the stream or river and transmitting the measurement data to the integrated management server 30; A water supply inflow COD sensor unit 28 for measuring the chemical oxygen demand of a river or river and transmitting the measurement data to the integrated management server 30; A PH/SS sensor unit 29 for measuring the hydrogen ion concentration (PH)/float concentration (SS) in the sewage treatment plant; A sewage treatment plant collection unit 201; A sewage treatment plant web camera unit 202; It includes a sewage treatment plant access monitoring unit 203.

The integrated management server 30 of the remote control monitoring system (A) for water treatment according to an embodiment of the present invention is connected to the water tank treatment unit 10 and the sewage treatment unit 20 to check and manipulate measurement data of the sewage treatment plant. /It is possible to manage, and it is configured to include an integrated display unit (31) that displays measurement data measured through each sensor unit to be identifiable.

The total nitrogen/total phosphorus sensor unit 16 of the water tank measures the total nitrogen and total phosphorus of the water in the water tank, converts it into a digital signal according to the level of the measured value, and outputs the measured value.

The PH/SS sensor unit 29 for measuring the hydrogen ion concentration/suspension concentration measures the hydrogen ion concentration and suspended solids concentration of the treated water, converts it to a digital signal according to the level of the measured value, and outputs the measured value.

The water tank collection unit 17 and the sewage treatment plant collection unit 201 are operated according to an external control signal to collect and store samples of the treated water.

The water tank web camera unit 18 and the sewage treatment plant web camera unit 202 are ordinary web cameras that can be operated on the web, and take images and transmit the captured images.

The water tank access monitoring unit 19 and the sewage treatment plant access monitoring unit 203 are normal access door monitoring devices such as passwords, cards, and fingerprints that perform access control and access management, and the water tank and sewage treatment unit (10, 20) ) Is installed on the door of the place where it is installed to manage access, and transmits the corresponding signal according to the access management to the outside.

A remote control monitoring system (A) for water treatment according to an embodiment of the present invention, as shown in FIG. 1, connects the integrated management server 30 distributed in various regions to a network to connect the water intake and the water tank. A monitoring control unit 42 that monitors and controls the water level and water quality, and the pollution status of streams and rivers for supplying water and treating sewage; A database unit 43 for storing the acquired quantity and water quality measurement data of each region, status information of each unit, and manager information; To receive the measurement data of the quantity and water quality of each region at a remote location and transmit the control signal of the monitoring and control section 42 to the sewage treatment section 20 or the integrated management server 30, and perform a function of transmitting to the external linkage agency. A transmission unit 41; A management system 40 consisting of a mobile communication terminal text transmission unit 44 for generating a short text message is added and configured.

In the water treatment remote control monitoring system A according to an embodiment of the present invention, as shown in FIG. 2A, the sewage treatment unit 20 collects and stores data measured by each sensor unit 21-29. A data collection unit 210; A storage unit 220 for storing the collected data; A power supply unit 240 for supplying power; A central processing unit 270 in charge of overall control; A data output unit 250 for outputting data stored or required in the storage unit 220; A display unit 260 for displaying data output from the data output unit 250 so as to be viewed; It comprises a transmitting and receiving unit 230 for transmitting data to the management system 40 at a remote location, and performing a function of receiving a control signal of the management system 40.

The central processing unit 270, as shown in Figure 2b, the central control module (270a) for controlling each component and analyzing the selected measurement value and processing, and outputs a corresponding control signal, and the corresponding measurement When the value exceeds the set value and the alarm generation control signal is input from the central processing module 270a, the alarm setting module 270b reporting to the administrator by sound or short message (SMS) or e-mail (E-Mail) and the central When the measurement value transmitted from the processing module 270a is input, the average value for each second, minute, and hour is saved as a report daily report in a designated time unit, and the daily report is collected and stored as a weekly report, monthly report, or yearly report, and history and measurement are performed. Data generation module (270c) for storing the historical data of the value in the storage unit 220, and a trend monitoring processing module (270d) for analyzing and providing the real-time trend of the measured value transmitted from the central processing module (270a), Web transmission module (220e) that transmits the data processed by each component to the administrator PC or integrated management server (30), and displays in real time under the control of the central processing module (270a), GUI (Graphic User Interface) It is composed of a graphic module (270f) for the administrator to perform graphic editing and operation operations by embedding an environment's MMI (Man Machine Interface), and an image processing module (270g) for processing images from the sewage treatment plant web camera (202).

At this time, the central processing module 270a shoots in real time through the web camera 202, stores the captured image data in the storage unit 220, and simultaneously transmits it to the integrated management server 30, and access monitoring unit 203. When an administrator or a third party accesses through, the web camera 202 captures and records the captured image data while following the administrator or a third party, and simultaneously transmits the captured image data to the integrated management server 30. In addition, when the measured value exceeds the set value, the central processing module 270a controls the collecting unit 201 at the same time as the output of the alarm generation control signal to collect a sample of the processed water. The storage unit 220 stores data processed by the central processing unit 270.

The description of the sewage treatment unit 20 of the water treatment remote control monitoring system A according to the first embodiment of the present invention is applied to the water tank treatment unit 10 as well, so repeated description thereof will be omitted.

In addition, as shown in FIG. 3, the integrated management server 30 includes a storage unit 320 for storing data processed by the central processing unit 370; A power supply unit 340 that supplies power to each unit; A central processing unit 370 in charge of overall control; A data output unit 350 for outputting data processed by the central processing unit 370; And a transmitting/receiving unit 330 that transmits data processed by the central processing unit to the management system 40 at a remote location and performs a function of receiving a control signal of the management system 40.

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Hereinafter, the operation of the water treatment remote control monitoring system according to the first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, the administrator accesses the web page of the remote control monitoring system for water treatment through the administrator PC (not shown) at a desired location.

Here, assuming that access is made through the sewage treatment unit 20, and when an administrator logs in through an ID and password, the web transmission module 270e of the central processing unit 270 measures the BOD, COD, measured through the data collection unit 210, Measured values of total nitrogen (TN) / total phosphorus (TP), hydrogen ion concentration (PH) / by-product concentration (SS) and flow rate are transmitted and provided in real time in graphical form through the monitor of the manager PC.

In this state, when the administrator clicks the corresponding icon or command button to request a report, the central processing unit 270 displays the report stored in the memory unit 220 by the data generation module 270c on the web. At this time, the report is provided on a daily, weekly, monthly, or yearly basis.

Then, when the administrator clicks the corresponding icon or command button and requests the trend status, the central processing unit 270 displays the trend status stored in the author unit 220 by the trend monitoring processing module 270d on the web.

On the other hand, the central processing module 270a of the central processing unit 270 analyzes the measurement values measured at each sensor unit and generates an alarm control signal when the measured value is abnormal, that is, exceeds a preset value. When transmitted to (270b), the alarm setting module 270b reports to the manager by sound or short message or e-mail so that the manager responds quickly, and at the same time controls the water collection unit 201 to collect samples of the processed water. .

In addition, the administrator can visually check the image taken by the web camera 202 in real time on the administrator PC or the integrated management server 30 to check the appearance state, the remaining state of reagents, and systematically perform reagent maintenance. And can immediately cope with an abnormality in appearance. In addition, since the image captured by the web camera 202 is stored in the storage unit 220, the administrator can freely check the image at a desired time.

In addition, the central processing module 270a of the central processing unit 270 controls the web camera 202 when an administrator or a third party enters or exits through the access monitoring unit 203 so as to follow the administrator or a third party to take a picture, The captured image data is stored in the storage unit 220 through the image processing module 270d, and when requested by the administrator PC or the integrated management server 30, security is maintained by transmitting the captured images in real time through the Internet. Can be.

In addition, the central processing module 270a of the central processing unit 270 is the BOD, the COD, the total nitrogen (TN)/total phosphorus (TP), the hydrogen ion concentration (PH)/ It displays various measurement values such as suspended solids concentration (SS) and flow rate so that the administrator can check the measurement values in real time in the field.

In addition, when the administrator inputs a control signal to perform a graphic editing and operation operation, the graphic module 270f of the central processing unit 270 generates a signal corresponding thereto, and the MMI (Man of the Graphic User Interface) environment Machine Interface) to perform graphic editing and operation operations.

On the other hand, the central processing module 270a of the central processing unit 270 is measured BOD, BOD, COD, total nitrogen (TN) / total phosphorus (TP), hydrogen ion concentration (PH) / floating concentration (SS) ) And various measurement values such as flow rate and abnormality, each sensor unit installed at each site in the integrated management server 30 by transmitting to the integrated management server 30 in real time or by a certain time unit through communication with the integrated management server 30 The measured value can be checked, and the integrated manager can immediately respond when an error occurs.

As described above, the remote control monitoring system for water treatment according to the present invention collects various sensor units for measuring water quantity and water quality, and measures data measured by the sensor unit to be checked and managed anywhere using a network. It is easy to maintain and manage multiple intake ponds, sewage treatment plants, and water tanks distributed in various areas with minimal manpower. On the other hand, when an emergency occurs, the SMS service can be used to send an emergency message to the mobile communication terminal of the administrator who is stored in the system in advance, thereby enabling more flexible management.

The present invention can be variously modified and can take various forms, and the detailed description of the invention has been described only for the specific embodiments accordingly. However, it should be understood that the present invention is not limited to the particular forms mentioned in the detailed description, but rather includes all modifications, equivalents, and substitutes within the spirit and scope of the present invention as defined by the appended claims. Should be.

The water treatment remote control monitoring system according to the present invention will be said to be an industrially applicable invention because it will be said that it is possible to repeatedly manufacture the same product in a manufacturing plant that manufactures a general water treatment remote control monitoring system.

10. Water tank processing unit 11. Water intake level sensor unit
12. Water tank level sensor unit 13. Chlorine measurement sensor unit
14. Hydrogen ion concentration measurement sensor unit 15. Turbidity measurement sensor unit
16. Total nitrogen/total phosphorus sensor section 17. Water tank collection section
18. Water tank web camera unit 19. Water tank access monitoring unit
20. Sewage treatment unit 30. Integrated management server

Claims (2)

In the water treatment remote control monitoring system (A),
The water treatment remote control monitoring system (A) is connected by a water tank treatment unit 10, a sewage treatment unit 20, an integrated management server 30 and an Internet network connecting them,
The water tank processing unit 10 includes a water intake level sensor unit 11 for measuring the water level of the water intake and transmitting the measurement data to the integrated management server 30; A water tank water level sensor unit (12) for measuring the amount of water used and water storage of the water tank for liver water supply and transmitting the measurement data to the water tank processing unit (10); A chlorine measurement sensor unit (13) for measuring residual chlorine in the water tank and transmitting measurement data to the water tank processing unit (10); A hydrogen ion concentration measuring sensor unit 14 measuring the hydrogen ion concentration in the water tank and transmitting the measurement data to the water tank processing unit 10; A turbidity measurement sensor unit 15 that measures turbidity in the water tank and transmits measurement data to the water tank processing unit 10; A water tank total nitrogen (TN)/total phosphorus (TP) sensor unit 16 which measures and transmits total nitrogen (TN)/total phosphorus (TP) at the inlet side in the water tank; A water tank collecting unit 17; A water tank web camera unit 18; It includes a water tank access monitoring unit 19,
The sewage treatment unit 20 includes: a raw water inflow BOD sensor unit 21 for measuring biochemical oxygen demand at the inlet side of a sewage treatment plant and transmitting measurement data to the sewage treatment unit 20; A raw water inflow COD sensor unit 22 for measuring the chemical oxygen demand on the inlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A raw water inflow TN/TP sensor unit 23 for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the inlet side of the sewage treatment plant; A treated water discharge BOD sensor unit 24 for measuring the biochemical oxygen demand at the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A treated water discharge COD sensor unit 25 for measuring the chemical oxygen demand on the outlet side of the sewage treatment plant and transmitting the measurement data to the sewage treatment unit 20; A raw water discharge TN/TP sensor unit 26 for measuring and transmitting total nitrogen (TN)/total phosphorus (TP) at the outlet of the sewage treatment plant; A tap water inlet BOD sensor unit 27 for measuring the biochemical oxygen demand of the stream or river and transmitting the measurement data to the integrated management server 30; A water supply inflow COD sensor unit 28 for measuring the chemical oxygen demand of a river or river and transmitting the measurement data to the integrated management server 30; A PH/SS sensor unit 29 for measuring the hydrogen ion concentration (PH)/float concentration (SS) in the sewage treatment plant; A sewage treatment plant collection unit 201; A sewage treatment plant web camera unit 202; Sewage treatment plant including the access monitoring unit 203,
The sewage treatment unit 20 includes a data collection unit 210 for collecting data measured by each sensor unit 21 to 29; A storage unit 220 for storing the collected data; A central processing unit 270 in charge of overall control; A power supply unit 240 for supplying power; A data output unit 250 for outputting data stored in the storage unit 220; A display unit 260 for displaying data output from the data output unit 250 so as to be viewed; It is configured to include a transmitting and receiving unit 230 that performs a function of transmitting data and receiving a control signal,
The central processing unit 270, the central control module (270a) for controlling the overall configuration of each component and analyzing and screening the input measurement value, and outputting a corresponding control signal, and the measurement value exceeds the set value centrally When an alarm generation control signal is inputted from the processing module 270a, an alarm setting module 270b reporting to the administrator by an acoustic or short message (SMS) or e-mail and an centralized processing module 270a When the measured value is input, the average value for each second, minute, and hour is saved as a report daily report in a designated time unit, and the daily report is collected and stored as a weekly report, monthly report, or yearly report to store the history data of the operation history and the measured value in the memory unit ( Data generation module 270c stored in 220), trend monitoring processing module 270d for analyzing and providing real-time trends of measured values transmitted from central processing module 270a, and corresponding data processed in each component Web transfer module 270e that transmits the data to the integrated management server 30, the graphic module 270f that displays in real time under the control of the central processing module 270a, and the administrator performs graphic editing and operation operations, and sewage It consists of an image processing module (270g) for processing the image of the processing web camera 202,
The central processing module 270a of the central processing unit 270 analyzes the measurement values measured at each sensor unit and generates an alarm generation control signal when the measurement value is abnormal, that is, exceeds a preset value, and generates an alarm setting module ( 270b), the alarm setting module 270b reports to the manager by sound or short message or e-mail so that the manager can respond quickly, and at the same time, controls the water collection unit 201 to collect samples of the processed water,
The central processing module 270a of the central processing unit 270 controls the web camera 202 when an administrator or a third party enters or exits through the access monitoring unit 203 so as to follow the administrator or a third party to shoot, and shoot The stored image data is stored in the storage unit 220 through the image processing module 270d, and upon request of the integrated management server 30, the captured images are transmitted in real time through the Internet,
The graphic module 270f of the central processing unit 270 generates a signal corresponding thereto and performs graphic editing and operation operations through a Man Machine Interface (MMI) in a graphical user interface (GUI) environment,
The integrated management server 30 is connected to the water tank processing unit 10 and the sewage treatment unit 20 to check and manipulate/manage measurement data of the sewage treatment plant, and the measurement data measured through each sensor unit A remote control monitoring system for water treatment, characterized in that an integrated display unit (31) is displayed to be identifiable. delete

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