KR101742274B1 - Apparatus of water quality of integrated management system of small scale water supply facility - Google Patents

Abstract

The present invention relates to a water quality measuring apparatus of a small scale water facility integrated management system. More particularly, the present invention relates to a small-scale water facility integrated management system capable of efficiently operating and managing a small-scale water facility installed in a walled area due to characteristics of a local environment, and a water quality measuring apparatus used in the system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water quality measuring apparatus for an integrated management system,

The present invention relates to a water quality measuring apparatus of a small scale water facility integrated management system. More particularly, the present invention relates to a small-scale water facility integrated management system capable of efficiently operating and managing a small-scale water facility installed in a walled area due to characteristics of a local environment, and a water quality measuring apparatus used in the system.

Currently, most small-scale water facilities and village waterworks take water from underground water and valleys and store them in a water tank.

In addition, about 43% of the village waterworks do not have disinfection facilities, and are managed by nonprofessional management personnel such as village heads.

In addition, most of the village water facilities have not been properly maintained for over 20 years, and the water quality is deteriorating due to technical defects at the time of installation, lack of facilities and aging, lack of management around the water source and incomplete water treatment, And water shortage due to increased water usage.

Therefore, the management and improvement of the water source is also an important task, and the management and water quality management of the actual village water facilities should be continuously carried out. However, the water quality management is performed by non-experts such as village heads periodically, There is no action.

In order to guarantee the practical and efficient water quality management and safety of small water facilities in line with the trend of demanding higher quality of life along with public health at the threshold of the entry into developed countries, the introduction of an integrated management system which is inexpensive and easy to maintain need.

In addition, it is necessary to clean the sensor and calibrate the sensor reference value by the contamination of the sensor of the water quality measuring device and disturbance over time.

Korean Registered Patent No. 10-1046198 (Registered Date: June 28, 2011, Name: Water Treatment Remote Control Monitoring System) Korean Registered Patent No. 10-0906654 (Registered Date: July 01, 2009, Name: Automatic remote water quality monitoring system and turbidity observation method for small scale reservoir and reclamation fresh water lake agricultural water)

It is an object of the present invention to provide a water quality measuring apparatus which prevents contamination and disturbance of a sensor and corrects a change in an actual measured value due to a disturbance.

Another object of the present invention is to provide an integrated management system for a small scale water facility, which can reduce the maintenance cost while enhancing water quality safety by efficiently performing water quality management of a small scale water facility.

The present invention also relates to a method and apparatus for managing maintenance information including water quality information including nitrate nitrogen (NO ₃ ) information, electrical conductivity information, residual chlorine information, pH information, turbidity information and temperature information, water level information, The present invention provides a small-scale water facility integrated management system capable of ensuring water quality safety of a water source by accurately collecting water in real time and actively coping with collected information in real time.

A water quality measurement apparatus according to the present invention is a water quality measurement chamber for temporarily storing a water quality measurement sample, comprising: an inlet pipe through which the sample flows; an inlet valve that opens and closes the flow of oil in the inlet pipe; The water quality measurement chamber having a free outlet pipe for allowing the water to flow out to the outside, a forced outflow pipe disposed at the bottom and forcibly discharging the sample, and an outflow valve for opening and closing the oil of the forced outflow pipe; A first suction pipe for sucking distilled water from the distilled water tank; A second suction pipe for sucking the fixed sample liquid of the fixed sample liquid container; A discharge pipe for discharging at least a part of the distilled water and the fixed sample liquid sucked through the first and second suction pipes into the water quality measurement chamber; An input / output switching valve configured between the first and second suction pipes and the discharge pipe so that the first and second suction pipes and the discharge pipe are switched and connected; A pump for controlling a suction amount of the first and second suction pipes and a discharge amount of the discharge pipe through a oil pipe connected to the switching valve; And a controller for controlling the inlet valve, the outlet valve, the switching valve, and the pump to clean the probe of the contamination measuring sensor disposed inside the water quality measuring chamber and to calibrate the reference value of the pollution measuring sensor .

In addition, the integrated management system for a small scale water facility according to the present invention includes a complex sensor module for collecting water quality information and maintenance information of a small scale water facility, and the water quality information and the maintenance information from the complex sensor module in real time And transmits a control command stored in advance corresponding to the water quality information and the maintenance information received from the complex sensor module to a peripheral device for water quality management for managing the water quality of the small scale water facility, A remote terminal unit for transmitting the integrated monitoring information including the received water quality information and the maintenance information to the outside, and a receiving unit for receiving and storing the integrated monitoring information from the remote terminal unit, Integrated monitoring service information processed by the user Services to 60, and may include an integrated operating apparatus for transmitting the administrator control command inputted through the manager terminal to the remote terminal apparatus.

In addition, the complex sensor module includes a sensor module for maintenance comprising a sensor module for water quality measurement and a sensor for collecting the maintenance information. The sensor module includes a sensor for collecting the water quality information.

The water quality information includes nitrate nitrogen information, electrical conductivity information, residual chlorine information, pH information, turbidity information, and temperature information, and the maintenance information includes water level information, water pressure information, and flow rate information.

The sensor module for maintenance of the water quality measuring sensor module is installed in a drain line drained to a customer, and the maintenance sensor module for collecting the flow rate information and the water pressure information is connected to a water supply line And a maintenance sensor module for collecting the water level information is installed in the storage tank.

In addition, the remote terminal device may determine whether a preset specific situation has occurred according to the integrated monitoring information transmitted from the complex sensor module, and store the event information for the specific situation when it is determined that the specific situation has occurred And then to the integrated operating device.

The remote terminal device may further include a solar cell module and a battery unit for storing power generated by the solar cell module.

In addition, the remote terminal device is normally operated by supplying AC power through a power network at all times, and is supplied with DC power stored in the battery unit when a power failure occurs.

In addition, the remote terminal apparatus may further include a display unit for displaying integrated monitoring information received from the hybrid sensor module and status information of the remote terminal apparatus.

In addition, the integrated operating apparatus receives and stores the integrated monitoring information from the remote terminal apparatus through a gateway, generates integrated monitoring service information in which the integrated monitoring information is processed in a predetermined format, And a web server for providing the integrated monitoring service information generated by the integrated management server through a web browser.

The integrated management server analyzes the integrated monitoring information received from the remote terminal apparatus to determine whether a predetermined emergency situation has occurred. If it is determined that the emergency situation has occurred, the integrated management server transmits emergency state information And to output the information through the warning unit.

In addition, the integrated management server may control the emergency information to be transmitted to a related party terminal set in advance by a Short Message Service (SMS) method.

According to the present invention, contamination and disturbance of a sensor for measuring a water quality can be removed by cleaning of a chamber and a sensor probe, and accurate concentration values can be provided by calibrating fluctuations of a sensor value over time.

In addition, it is effective to provide a small-scale water facility integrated management system capable of reducing the maintenance cost while enhancing water quality safety by efficiently performing water quality management of small-scale water facilities.

In addition, maintenance information including water quality information, water level information, water pressure information and flow rate information including nitrate nitrogen (NO ₃ ) information, electrical conductivity information, residual chlorine information, pH information, turbidity information and temperature information There is provided an integrated management system for a small scale water facility which can accurately acquire the water quality and actively cope with the collected information in real time to secure water quality of the water source.

FIG. 1 is a diagram illustrating a small-scale water facility integrated management system according to an embodiment of the present invention.
FIG. 2 is a view showing an example of a concrete configuration of a sensor module for water quality measurement among a sensor module for water quality measurement and a maintenance sensor module constituting the complex sensor module according to an embodiment of the present invention.
3 is a diagram illustrating an example of a specific configuration of a remote terminal unit (RTU) according to an embodiment of the present invention.
FIG. 4 and FIG. 5 are views showing examples of a user interface screen configuration provided by the integrated management server in an embodiment of the present invention.
FIGS. 6 and 7 illustrate a water quality measuring apparatus according to an embodiment of the present invention. FIG. 8 is a flowchart of a method of resetting a sensor reference value, and FIG. 9 is a graph of sensor reference value correction.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating a small-scale water facility integrated management system according to an embodiment of the present invention.

1, the integrated management system for a small scale water facility according to an embodiment of the present invention includes a complex sensor module 10, a remote terminal unit (RTU) 20, a wireless communication module 30, a gateway 40 and an integrated operating device 50. [

The complex sensor module 10 is a means for collecting water quality information and maintenance information of a small scale water facility. Generally, small-scale water facilities are in a difficult situation to maintain and maintain, and they are showing weakness in environments such as lightning, humidity, high temperature or cryogenic temperature, and there are many places where communication is not easy due to the nature of the installed area. In order to solve the difficulty of water quality management of such a small scale water facility, the present embodiment installs a multiple sensor module 10 for each small water facility to collect information for various water quality evaluation items and maintenance information for facilities And transmits the information to the integrated operation device 50 located at a remote place through the remote terminal device 20 to be described later so that the status of the small scale water facilities can be checked in real time at a remote place and appropriately coped with the situation .

For example, the complex sensor module 10 includes a sensor module 12 for measuring the quality of water constituted by a combination of sensors for collecting water quality information, and a maintenance sensor module 12 composed of sensors for collecting maintenance information. (14). Here, the sensors for collecting the water quality information are combined with the sensor module 12 for measuring water quality, which is an integrated module, so that the efficiency of the sensor maintenance can be improved.

2, the sensor module 12 for measuring water quality includes a nitrate nitrogen information collecting sensor 121 for collecting nitrate nitrogen information, an electric conductivity information collecting sensor 121 for collecting electric conductivity information 122, a residual chlorine information collection sensor 123 for collecting residual chlorine information, a pH information collection sensor 124 for collecting pH information, a turbidity information collection sensor 125 for collecting turbidity information, Side communication module 127 for communication with the information collection sensor 126 and the remote terminal device 20 described later. The sensor side communication module 127 can be configured to support wired and wireless communication with the remote terminal device 20. [

The maintenance sensor module 14 may include sensors for collecting water level information, water pressure information and flow rate information, and a communication module for communication with the remote terminal device 20.

For example, the sensor module 12 for water quality measurement is installed in a drainage line that is supplied with a constant water from a small scale water facility, that is, a drainage line to a customer, and a sensor module 14 for maintenance for collecting flow rate information and water pressure information Can be installed in a water supply line located in a path where the water source flows into the storage tank and the maintenance sensor module 14 for collecting water level information can be installed in the storage tank to improve the accuracy of measured information.

The remote terminal device 20 receives and stores the water quality information and the maintenance information in real time from the complex sensor module 10 and stores the water quality information and the maintenance information in advance in association with the water quality information and the maintenance information received from the complex sensor module 10 The control command is transmitted to the water quality management peripheral device 16 for managing the water quality of the small scale water facility and the integrated monitoring information including the water quality information and the maintenance information transmitted from the complex sensor module 10 is transmitted to the integrated operation device (50).

3, the remote terminal apparatus 20 includes a first RTU side communication module 210, a control unit 220, a storage unit 230, a display unit 240, a second RTU side The communication module 250, the normal power supply unit 260, and the emergency power supply unit 270.

The first RTU side communication module 210 is a means for real-time communication with the hybrid sensor module 10 and can be configured to support wired and wireless communication.

The control unit 220 controls the storage unit 230 to store the water quality information and the maintenance information received from the complex sensor module 10 through the first RTU communication module 210, A water quality control peripheral device 16 for analyzing the received water quality information and maintenance information and controlling the water quality of the small scale water facility through the first RTU side communication module 210 in response to the control command stored in advance, And controls integrated monitoring information including the water quality information and the maintenance information transmitted from the complex sensor module 10 to be transmitted to the integrated operation device 50. [ For example, the water quality management peripherals 16 may be a chlorine injection device for injecting an appropriate amount of chlorine.

For example, the control unit 220 configuring the remote terminal apparatus 20 analyzes the integrated monitoring information transmitted from the composite sensor module 10 to determine whether a preset specific situation has occurred, The event information is stored in the storage unit 230 so that the event information is transmitted to the integrated operating device 50 through the second RTU communication module 250 to be described later can do.

The storage unit 230 stores integrated information related to the management of the water facility including the integrated monitoring information including the water quality information and the maintenance information received from the complex sensor module 10 and the event information generated by the controller 220 Is a repository.

The display unit 240 displays the water quality information and the maintenance information transmitted from the complex sensor module 10 under the control of the controller 220 and the event information generated by the controller 220 and the status information of the remote terminal 20 And performs a function of visually displaying it. For example, the status information of the remote terminal device 20 may include information on the power status and information on the communication status.

The second RTU communication module 250 is a means for communicating with the wireless communication module 30, which is the first node for remote communication, as a means for communicating with the integrated operating device 50 located at a remote location.

The constant power supply unit 260 converts the constant alternating current power supplied through the power network into a direct current and supplies the direct current power to the respective components constituting the remote terminal apparatus 20. [

The emergency power supply unit 270 may include a solar cell module 272 and a battery unit 274 as a power source when a power failure occurs. The emergency power supply unit 270 supplies the DC power stored in the battery unit 274 to the respective components constituting the remote terminal apparatus 20 when a power failure occurs.

The wireless communication module 30 performs a function of connecting the remote terminal device 20 to the gateway 40 through wireless communication with the remote terminal device 20 and the gateway 40 functions as the remote terminal device 20 And accesses the integrated operating device 50 via Ethernet.

The integrated operating device 50 receives the integrated monitoring information from the remote terminal device 20 through the wireless communication module 30 and the gateway 40 and stores the integrated monitoring information in a database, And transmits monitoring service information to the user terminal 60 and transmits an administrator control command input through the administrator terminal to the remote terminal device 20. [

For example, the integrated operating device 50 may be configured to include an integrated management server 52, a web server 54, and an emergency alert unit 56.

The integrated management server 52 receives the integrated monitoring information from the remote terminal device 20 via the gateway 40, stores the integrated monitoring information in the database, generates integrated monitoring service information obtained by processing the integrated monitoring information into a predetermined format, And transmits an administrator control command input through the terminal to the remote terminal device 20. [

In one example, the integrated management server 52 analyzes the integrated monitoring information transmitted from the remote terminal device 20 to determine whether a preset emergency situation has occurred. If it is determined that an emergency situation has occurred, Can be controlled to be output through the emergency alert unit 56 provided in the situation room.

As another example, the integrated management server 52 may control the emergency situation information to be transmitted to the stakeholder terminal 70 previously set in the Short Message Service (SMS) manner.

The web server 54 performs a function of providing the integrated monitoring service information generated by the integrated management server 52 through a web browser. That is, the user located at the remote location can access the web page provided by the web server 54 through his / her user terminal 60, thereby being provided with the integrated monitoring service.

The emergency warning unit 56 may be a warning light installed in the control room, and outputs the emergency status information under the control of the integrated management server 52.

FIG. 4 and FIG. 5 are views showing examples of a user interface screen configuration provided by the integrated management server in an embodiment of the present invention.

Referring to FIG. 4, the user interface screen provided by the integrated management server 52 is structured so that the user can easily understand and control the system diagram of each small-scale water facility point. In addition, And the information to be collected and transmitted in real time by the sensor module and the maintenance sensor module can be read and acquired. This screen is the same screen as the HMI monitoring system. All the screens shown in the HMI monitoring system can be monitored by a user through a web browser on a smart phone, tablet, general PC, etc. without any restrictions on the operating system and the device Therefore, it is possible to check the status and take prompt action whenever an emergency occurs.

Referring to FIG. 5, the user interface screen displays historical data of real-time data in association with a database in which data is stored in real time, displays the data in a trend of a graph type to easily grasp the past data flow at a glance, It shows the flow as predictable, and is configured so that the user can directly view grouping, trend color, and graph size.

As described above in detail, according to the present invention, there is provided an integrated management system for a small scale water facility, which can reduce the maintenance cost while enhancing water quality safety by efficiently managing water quality of a small scale water facility.

In addition, maintenance information including water quality information, water level information, water pressure information and flow rate information including nitrate nitrogen (NO ₃ ) information, electrical conductivity information, residual chlorine information, pH information, turbidity information and temperature information There is provided an integrated management system for a small scale water facility which can accurately acquire the water quality and actively cope with the collected information in real time to secure water quality of the water source.

FIGS. 6 and 7 illustrate a water quality measuring apparatus according to an embodiment of the present invention. FIG. 8 is a flowchart of a method of resetting a sensor reference value, and FIG. 9 is a graph of sensor reference value correction.

to be. This water quality measuring device may be part of the integrated management system of the small scale water facility mentioned in FIG. 1, or may use a part of the multiple sensor module.

Sensors for water quality measurements can cause contamination to degrade or disturb the sensor due to samples such as groundwater to be measured. If the sensor probe is still in the sample to continuously measure the specific contaminants in the sample, it is necessary to correct the error between the voltage value measured by the sensor and the measured value which compensates the voltage value.

The water quality measuring apparatus according to the present embodiment includes a water quality measurement chamber 350, a sensor 340 having a sensor probe 330 disposed in the chamber 350, a distilled water reservoir 320 for storing distilled water, A fixed sample liquid container 325 for storing the sample liquid, a pump device for introducing the distilled water and the fixed sample liquid into the chamber 350 by a predetermined volume, and a control unit 400.

The chamber 350 includes an inlet pipe 360 through which the sample flows, an inlet valve 365 through which the flow of the oil in the inlet pipe 360 is opened and closed, a free outlet pipe 370 A forced outflow pipe 380 disposed at a lower portion for forcibly discharging the sample, and an outflow valve 385 for opening and closing the oil in the forced outflow pipe 380.

In continuous water quality measurement, the sample is introduced into the chamber 350 through the open inlet valve 365, and the introduced sample is discharged outside through the free outlet pipe 370 when the volume exceeds the predetermined volume. When the probe 330 of the sensor 340 is cleaned, the inlet valve 365 is closed and the outlet valve 385 is opened / closed at a predetermined time period so that the chamber 350 can be repeatedly filled with the distilled water and then emptied have. In this case, it is preferable that the probe 330 is sufficiently locked in the distilled water. When the sensor reference value is measured, the inlet valve 365 and the outlet valve 385 can be closed.

The pump device includes a first suction pipe 316 for sucking distilled water from the distilled water bottle 320, a second suction pipe 314 for sucking the fixed sample solution of the fixed sample liquid bottle 325, first and second suction pipes 316, The first and second suction pipes 316 and 314 and the discharge pipe 318 for discharging at least a part of the distilled water and the fixed sample liquid sucked through the suction pipe 314 to the inside of the chamber 350 are connected to the switching connection The first and second suction pipes 316 and 316 are connected through the oil pipe 312 connected to the input / output switching valve 310 and the switching valve 310 constituted between the first and second suction pipes 316 and 314 and the discharge pipe 318, And 314, and a discharge amount of the discharge pipe 318. The pump 300 may be a water pump,

The pump 300 is preferably a syringe pump composed of a syringe, a flange, or the like. This is because you can control the exact amount.

The switching valve 310 may couple two specific pipes of the four pipes connected to the switching valve 310 according to the control signal. The operation of the pump 300 and the switching valve 310 is as follows. When the fluid is moved into the pump 300, the pump 300 performs an inhalation process and the switching valve 310 connects the oil pipe 312 to one of the first and second suction pipes 316 and 314 . When the fluid inside the pump 300 is discharged to the chamber 350, the pump 300 performs the discharge process and the switching valve 310 connects the oil pipe 312 and the discharge pipe 318.

The sensor 340 may measure any of nitrate nitrogen (NO3) information, electrical conductivity information, residual chlorine information, and pH information. In this embodiment, it is assumed that the sensor 340 measures nitrate nitrogen concentration. The sensor 340 may output a concentration value of nitrate by multiplying a voltage value measured at the probe 330 by a constant value. Such a measurement may be performed in the control unit 400. [ The sensor 340 can determine a reference value to be a reference concentration value at at least two reference concentration values that are known concentrations, for example, the measured voltage values v1 and v2 according to the concentrations d1 and d2 of FIG. 9 (a) have.

Distilled water in the distilled water can 320 may be used to clean the interior of the chamber 340 and the sensor probe 330 or to create a reference sample liquid. The fixed sample liquid 325 is a nitrate nitrogen aqueous solution of a specific concentration. The reference measurement shall be made at least twice and the reference concentration used in the measurement of the reference standard shall not be the same. Therefore, it is cheaper to mix the distilled water with the fixed sample solution at a high concentration to produce a reference sample solution having various concentrations, and the apparatus can be simplified, rather than preparing sample solutions having various concentrations.

The control unit 400 may control the overall operation of the water quality measuring apparatus by controlling the operation of the inlet valve 365, the outlet valve 385, the switching valve 310, and the pump 300. The control unit 400 may clean the probe 330 of the contamination measuring sensor 340 disposed inside the chamber 350 and calibrate the measured value of the contamination measuring sensor 340 through the control of the respective units. The control unit 400 may use a processor of another device.

Referring to FIG. 8, the controller 400 may perform probe cleaning and sensor reference value calibration at predetermined intervals (S410). As described above, if the probe 330 is in the sample for a long time, it is contaminated and disturbed. The probe 330 is cleaned and the reference value of the sensor 340 is calibrated.

Referring to Figs. 9 (a) and 9 (b), the fluctuation of the sensor value due to contamination and disturbance is as follows. Figures 9 (a) and 9 (b) show the values measured at the sensor 340, in time, of the two aqueous solutions with known concentrations of nitrate. That is, the measured voltage values of the first sample liquid with nitrate nitrogen concentration d1 and the second sample liquid with d2 were measured by v1 and v2 in FIG. 9 (a), and v1 'and v2' Respectively. It is a matter of course that the voltage values v1 and v1 'and v2 and v2' may differ in size or size depending on the case. If the measured voltage value of the fixed concentration aqueous solution is changed by stigma or disturbance, it is not possible to present the exact concentration of nitrate. It is thus possible to calibrate the nitrate concentration of the actual sample on the basis of the reference measurement of at least two known concentrations of the reference sample liquid at every cycle. It is needless to say that the measurement value in the sensor of the measurement range in this embodiment is set to be as linear as possible.

The controller 400 preferably cleans the chamber 350 and the probe before the reference measurement. The control unit 400 closes the inlet valve 365 and opens the outlet valve 385 to remove the sample temporarily stored in the chamber 350 and to remove the sample from the outlet valve 385, So that the probe can be immersed in distilled water. This cleaning process is preferably repeated several times.

In this embodiment, the reference measurement value is generally measured with the first reference sample liquid having the d1 concentration and the second standard sample liquid having the d2 concentration. In order to measure the reference value of the first sample liquid, the control unit 400 controls the switching valve 310 and the pump 300 so as to have a d1 concentration in the chamber to introduce a predetermined volume of distilled water and fixed sample liquid into the chamber 350 . The order of the distilled water and the fixed sample liquid flowing into the chamber 350 is such that the first volume of distilled water in the set distilled water volume flows into the chamber 350 and the fixed sample liquid of the set fixed sample liquid flows into the chamber 350 And the second volume of distilled water excluding the first volume of the set distilled water volume is introduced into the chamber 350. The concentration of the nitrate in the aqueous solution, which is the sum of the volume of the distilled water and the volume of the fixed sample solution, is d1. It is preferable that the second volume of the distilled water set is larger than the volume of the discharge tube 318 so that the fixed sample liquid of the set fixed sample liquid does not remain in the discharge tube 318. [ Here, the volume of the discharge pipe 318 means a volume in which the residual liquid in the discharge pipe 318 can remain. The maximum volume of the volume in which the residual liquid remains is the actual volume inside the discharge tube 318. When the measurement of the first reference sample liquid is completed, the controller 400 performs the cleaning operation again, and then the second reference liquid is put into the chamber 350 to measure the sensor value. The procedure may be the same as the measurement of the first reference solution. When the measurement of the second reference liquid is finished, the cleaning operation is performed again and the sample is introduced into the chamber 350.

In the present embodiment, it is preferable that the reference concentration used for the periodic measurement is a concentration d1 which is the maximum value of the range measured in a general sample (ground water), and the minimum value of the dangerous value concentration which should never be used is the concentration d2. Nonlinearity and error occur even if the sensor is manufactured and set so that the voltage value measured by the sensor is as linear as possible. Such nonlinearity and error make it difficult to accurately measure the concentration. However, when the maximum value of the range generally measured is set as the first reference concentration and the minimum danger value is set as the second reference concentration, the measured value of the sensor can be made accurate at the first and second reference concentrations.

The control unit 400 may determine whether the concentration value Vs of the nitrate nitrogen of the sample measured in real time exceeds the minimum risk value Vmin at step S420. It is also possible to determine whether the concentration value (Vs-1) measured in the previous time window exceeds a specific range (S430, S440). If the real-time concentration value (Vs) deviates from the minimum risk value (Vmin) or a certain range in comparison with the previous value, it is more likely to be an error of the sensor than a concentration change of the actual nitric acid of the sample. In this case, the control unit 400 may perform the cleaning operation for cleaning the chamber 350 and the probe 330 and the sensor reference value (S425, S435, S450). The concentrations of the first and second standard sample liquids for calibrating the sensor reference value may be different during each reset operation. For example, as shown in Fig. 9 (c), it is preferable to correct the concentration of the first reference sample liquid to 0 and maintain the concentration of the second reference sample liquid at the minimum dangerous concentration d2. In this case, it can be sensitive to whether the actual concentration of the sample exceeds the minimum threshold.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: Composite sensor module 12: Sensor module for water quality measurement
14: Sensor module for maintenance 16: Peripheral device for water quality management
20: Remote Terminal Unit (RTU)
30: wireless communication module 40: gateway
52: Integrated management server 54: Web server
56: Emergency situation warning section 60: User terminal
70: Personnel terminal 300: Pump
310: switching valve 330: probe
400:

Claims (7)

A water quality measuring chamber for temporarily storing a sample for measuring water quality, comprising: an inlet pipe through which the sample flows; an inlet valve that opens and closes the flow of the oil in the inlet pipe; and a free outlet pipe A water quality measurement chamber having a forced outflow pipe disposed at the bottom and forcibly discharging the sample and an outflow valve for opening and closing the oil in the forced outflow pipe;
A first suction pipe for sucking distilled water from the distilled water tank;
A second suction pipe for sucking the fixed sample liquid of the fixed sample liquid container;
A discharge pipe for discharging at least a part of the distilled water and the fixed sample liquid sucked through the first and second suction pipes into the water quality measurement chamber;
An input / output switching valve configured between the first and second suction pipes and the discharge pipe so that the first and second suction pipes and the discharge pipe are switched and connected;
A pump for controlling a suction amount of the first and second suction pipes and a discharge amount of the discharge pipe through a oil pipe connected to the switching valve; And
And a controller for controlling the inlet valve, the outlet valve, the switching valve, and the pump to clean a probe of a contamination measuring sensor disposed inside the water quality measuring chamber and to calibrate a reference value of the contamination measuring sensor,
The control unit measures at least two reference sample solutions to calibrate the reference value, calibrates a concentration value that is a final output value of the sensor based on the reference measured reference value,
Wherein the control unit is operable to clean the probe of the contamination measuring sensor before the reference measurement,
Closing the inlet valve and opening the outlet valve to remove the sample temporarily stored in the chamber,
The control unit controls the outlet valve, the switching valve, and the pump so that the probe is immersed in the distilled water, and the locking of the probe in the distilled water is repeated a predetermined number of times,
Wherein the controller controls the switch valve and the pump so as to obtain a concentration of the first sample solution preset in the chamber so as to measure a reference value of the first sample solution in the at least two reference sample solutions, The fixed sample liquid is allowed to flow into the chamber,
Wherein the distilled water and the fixed sample liquid are introduced into the chamber in such a manner that the first volume of the distilled water in the set distilled water volume flows into the chamber and the fixed sample liquid of the set fixed sample liquid volume flows into the chamber, And a second volume of distilled water excluding the first volume of the volume is introduced into the chamber. delete delete delete The method according to claim 1,
And the second volume of the set distilled water is larger than the volume of the discharge tube so that the fixed sample liquid of the set fixed sample liquid does not remain in the discharge tube. The method according to claim 1,
The controller may perform the probe cleaning and sensor reference value calibration at a predetermined cycle,
Wherein the control unit determines that the concentration value measured in real time is higher than the minimum threshold value of the substance measured by the contamination measuring sensor and the predetermined range value of the concentration value measured in the previous time window, Water quality measuring device for calibration. In a small scale water facility integrated management system,
Complex sensor module that collects water quality information and maintenance information of small scale water facility;
Wherein the control unit receives and stores the water quality information and the maintenance information from the complex sensor module in real time and transmits a control command stored in advance corresponding to the water quality information and the maintenance information received from the complex sensor module to the water quality A remote terminal unit transmitting the integrated monitoring information including the water quality information and the maintenance information received from the complex sensor module to the outside; And
The integrated monitoring information is transmitted from the remote terminal to the user terminal, and the integrated monitoring service information is processed into a predetermined format, and the manager control command is transmitted to the remote terminal And an integrated operating device for transmitting to the device,
In the composite sensor module,
A water quality measuring chamber for temporarily storing a sample for measuring water quality, comprising: an inlet pipe through which the sample flows; an inlet valve that opens and closes the flow of the oil in the inlet pipe; and a free outlet pipe A water quality measurement chamber having a forced outflow pipe disposed at the bottom and forcibly discharging the sample and an outflow valve for opening and closing the oil in the forced outflow pipe;
A first suction pipe for sucking distilled water from the distilled water tank;
A second suction pipe for sucking the fixed sample liquid of the fixed sample liquid container;
A discharge pipe for discharging at least a part of the distilled water and the fixed sample liquid sucked through the first and second suction pipes into the water quality measurement chamber;
An input / output switching valve configured between the first and second suction pipes and the discharge pipe so that the first and second suction pipes and the discharge pipe are switched and connected;
A pump for controlling a suction amount of the first and second suction pipes and a discharge amount of the discharge pipe through a oil pipe connected to the switching valve; And
And a controller for controlling the inlet valve, the outlet valve, the switching valve, and the pump to clean a probe of a contamination measuring sensor disposed inside the water quality measuring chamber and to calibrate a reference value of the contamination measuring sensor,
The control unit measures at least two reference sample solutions to calibrate the reference value, calibrates a concentration value that is a final output value of the sensor based on the reference measured reference value,
Wherein the control unit is operable to clean the probe of the contamination measuring sensor before the reference measurement,
Closing the inlet valve and opening the outlet valve to remove the sample temporarily stored in the chamber,
The control unit controls the outlet valve, the switching valve, and the pump so that the probe is immersed in the distilled water, and the locking of the probe in the distilled water is repeated a predetermined number of times,
Wherein the controller controls the switch valve and the pump so as to obtain a concentration of the first sample solution preset in the chamber so as to measure a reference value of the first sample solution in the at least two reference sample solutions, The fixed sample liquid is allowed to flow into the chamber,
Wherein the distilled water and the fixed sample liquid are introduced into the chamber in such a manner that the first volume of the distilled water in the set distilled water volume flows into the chamber and the fixed sample liquid of the set fixed sample liquid volume flows into the chamber, Wherein the second volume of distilled water, excluding the first volume, is introduced into the chamber.

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