KR100896044B1 - Apparatus for automatically measuring quality of water - Google Patents

Abstract

 The present invention is to install the partition in the automatic water quality measuring device to separate the electrical components required to measure the water quality automatically from the sensors that measure the water quality automatically to protect the electrical components from the external environment such as moisture and humidity An automatic water quality measuring apparatus, comprising: a main body (100); A partition wall 200 separating the inside of the main body 100 into a front space 110 and a rear space 120; A water quality measuring device (300) mounted on the rear panel (140) installed in the rear space (120) to measure and output a water quality state of sample water flowing from the outside; And mounted on the front panel 130 installed in the front space 110, receives the water quality status signal output from the water quality measuring device 300 is converted in real time and stored while outputting on the screen, in real time Characterized in that the water quality measurement data output unit 400 for transmitting the water quality measurement data is converted to a remote water quality monitoring system.

Water quality, automatic, measurement, front and back separation, transparent window, chamber sample tank, area flow meter

Description

Apparatus for automatically measuring quality of water}

The present invention relates to an automatic water quality measuring device.

More specifically, a partition wall is installed in the automatic water quality measurement panel to separate the electrical components necessary for automatically measuring the water quality from the sensors that automatically measure the water quality so that the electrical components can be protected from the external environment such as moisture and humidity. It relates to a water quality automatic measuring device.

Existing water quality measurement panel is composed of a PLC (Programmable Logic Controller) is mounted in the water quality measurement panel as shown in (a) and (b) of FIG. Separated by.

In the case of the water quality measurement panel configured as shown in FIG. 1, the water quality measurement sensor unit 10, the controller unit 20, and the PLC 30 are configured. It is divided into the front mid-level batch water quality measurement panel, the left side mid-level batch water quality measurement panel, and the right side mid-level batch water quality measurement panel. Into the sample tank 40 provided in the van and is distributed to each of the water quality measurement sensor 10 through the sample line 50 and moved.

The signal measured from the water quality measurement sensor 10 is transmitted to each controller 20, calculated, converted into an analog signal or a digital signal, and output. The output water quality detection signal is input to the PLC 30 and integrated. After being converted to the site situation and data transmission method (RS232 or RS485) is transmitted to the water quality management system 60, which is a monitoring PC or server.

As described above, the existing water quality measurement board is equipped with a water quality measurement sensor 10 and a controller 20, and provides only a simple power supply function and a function of supplying a measurement sample to operate these devices. It does not have conversion and data storage functions. Therefore, in order to transmit data from the controller 20 to the water quality management system 60, a relay device having a separate signal conversion and data storage function is required, and the most widely used relay device is the PLC 30.

The PLC 30 is a device having functions such as programming, data conversion, and real-time data storage, which is widely used for process control in the field, but in the case of PLC, an expensive technician requiring a professional technician is required for installation and operation. As a commercial product, it has many difficulties in terms of professional manpower and cost in the application of front-line sites. Also, when PLC or signal conversion device is composed of remote control unit in the water quality measurement unit, the line cost not only increases. There is a problem that data distortion due to noise occurs.

In addition, in the case of the existing water quality measurement panel, as shown in FIG. 2, water quality measuring devices, sample tanks, PLCs, and other wiring and electrical materials are arranged in the same space, so that the use of the layout space is inefficient for mounting internal components. There is this. That is, since the sample tank and the sample line for distributing the sample exist in the same space, water leakage may occur due to aging damage and breakage when the long-term operation is performed, and a short circuit may occur. In addition, when the temperature inside the water quality monitor in the summer rises, a short circuit accident may occur due to moisture generated in the water tank, and due to the short circuit accident, a lot of damage is caused to the electrical equipment and the PLC, and a situation that requires countermeasures is needed. to be.

In addition, most of the water quality control panels operated in the field are equipped with a heater inside as needed, but if the winter temperature falls, condensation is formed on the electrical equipment including the PLC, which causes a short circuit accident. There is a problem.

In the case of the water quality measurement panel, since there are many measurement items, the internal components are installed by using not only the front side but also the side of the main body, so that the sample transfer line and the wiring are very complicated, which causes a lot of difficulties in maintenance and repair.

In addition, the sample water tank 40 provided in the existing water quality measurement panel is a water tank having a square shape as shown in FIG. 3, and is a structure that induces precipitation using the rectifying wall 41 provided at the center. In the case of the sample tank 40 of the sediment is accumulated in the lower edge area (dead space, dead space) as the operation time passes. Therefore, the sediment is removed and cleaned by using the drain line of the sample tank at regular intervals. However, there is a problem in that the sediment at the lower edge portion cannot be removed cleanly due to the structural feature of the square shape.

The present invention is to install the partition wall in the automatic water quality measurement panel to separate the electrical components necessary for automatically measuring the water quality with the sensors for measuring the water quality automatically to protect the electrical components from the external environment such as moisture and humidity It is an object of the present invention to provide an automatic water quality measuring device.

In addition, the present invention is to provide a water quality automatic measuring device to maintain the optimum state to measure the water quality by providing a humidity removal means in the space before and after each of the automatic water quality measurement panel separated by the partition.

In addition, an object of the present invention is to provide an automatic water quality measurement apparatus such that sediments that may occur during water quality measurement do not accumulate on both bottom edge portions of the sample tank so that the bottom edge portions of the sample tank have an inclination angle.

In addition, the present invention provides a water quality automatic measuring device that minimizes the generation of bubbles by stabilizing the flow rate and flow rate of the sample water flowing into the sample tank by installing two discharge walls in a state spaced apart from each other in the sample tank, There is a purpose.

One embodiment of the present invention for achieving the above object, in the automatic water quality measurement apparatus, the main body (100); A partition wall 200 separating the inside of the main body 100 into a front space 110 and a rear space 120; A water quality measuring device (300) mounted on the rear panel (140) installed in the rear space (120) to measure and output a water quality state of sample water flowing from the outside; And mounted on the front panel 130 installed in the front space 110, receives the water quality status signal output from the water quality measuring device 300 is converted in real time and stored while outputting on the screen, in real time Characterized in that the water quality measurement data output unit 400 for transmitting the water quality measurement data is converted to a remote water quality monitoring system.

Therefore, the present invention is to install the partition wall in the automatic water quality measurement panel to separate the electrical components necessary for automatically measuring the water quality with the sensors for measuring the water quality automatically to protect the electrical components from the external environment such as moisture and humidity It is effective.

In addition, the present invention has the effect of allowing the water quality to be accurately measured by maintaining the optimum state to measure the water quality by providing a humidity removal means in the space before and after each of the automatic water quality measurement panel separated by the partition wall.

In addition, the present invention is to ensure that the lower end of both sides of the sample tank has an inclination angle so that sediments that may occur during the measurement of water quality do not accumulate on the lower sides of the bottom, so that the cleaning of the sample bath is simplified or does not need to be cleaned. It works. That is, the lower portion of the sample tank is changed to a chamber type to remove dead space, thereby preventing deposits from being deposited, and maintaining a certain amount of drain to increase sedimentation properties of deposits and prevent deposition.

In addition, the present invention by installing two discharge walls in a space separated from each other in the sample tank to stabilize the flow rate and flow rate of the sample water flowing into the sample tank to minimize the generation of bubbles to accurately measure the water quality of the sample water It is effective. In other words, by applying a double barrier wall, the flow rate / flow rate is stabilized in the tank to minimize the occurrence of bubbles and to prevent eddy currents to prevent the measurement error caused by the rise of the sediment.

In addition, the present invention by applying an area-type flow meter to the turbidimeter tank inlet front of the turbidity measuring unit to induce the inflow flow recommended by the manufacturer to minimize the measurement error, by maintaining a constant drain flow rate of the water tank due to excess flow It is possible to prevent the water level from falling.

In addition, the present invention is basically equipped with an automatic water quality monitoring device having a data conversion / output / storage function to replace the expensive commercial PLC without additional configuration to reduce the production cost, and easy operation method requires no professional personnel It works.

In addition, the present invention is effective to prevent accidents that may occur during operation by configuring in the same space by operating the components that can cause a short-circuit accident completely isolated from the electrical equipment.

In addition, the present invention can utilize the double-sided space of the bulkhead can provide convenience for the maintenance and management of the operator by simplifying the electrical wiring and sample line, and the space utilization is higher, so more water quality automatic measuring panel of the same size It is effective to install and operate the water quality sensor of the item.

In addition, the present invention is to configure the independent air inlet, ventilation fan, heater on the front and rear surfaces so that the automatic water quality measurement panel is operated in the optimum operating conditions, and the panel is built with a structure that is basically inserted into the insulation to influence the external temperature change. By minimizing, there is an effect to minimize the damage caused by moisture, condensation, and the like.

Hereinafter, the configuration of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, the automatic water quality measuring apparatus according to the present invention includes a main body 100, a partition wall 200 that separates the inside of the main body 100 into a front space 110 and a rear space 120. It is mounted on the rear panel 140 installed in the rear space 120, the water quality measuring device 300 for measuring and outputting the water quality of the sample water flowing from the outside, and the front panel installed in the front space 110 Mounted on the 130, receives the water quality status signal output from the water quality measuring device 300 is converted in real time and stored, while outputting on the screen, the water quality monitoring data is converted in real time to monitor the remote water quality The water quality measurement data output device 400 is transmitted to the system.

The water quality measurement apparatus 300 is connected to the sample tank 310 and the sample tank 310 and the transfer pipe 320 to temporarily store the number of samples introduced from the outside, as shown in Figure 5 to 7 And a water quality measuring unit 330 for receiving a sample number of the sample tank 310 to measure a water quality state, a ventilation hole 340 formed at a rear surface of the main body forming the rear space 120, and the ventilation hole ( Ventilation and temperature control fan 350 installed in the 340, and between the ventilation port 340 and the ventilation and temperature control fan 350 or the rear end of the ventilation and temperature control fan 350 is installed in the rear space 120 A filter 360 for purifying the air of the air, a heater 370 for maintaining a constant temperature of the rear space 120, a humidity sensor 380 for measuring humidity of the rear space 120, and the A temperature sensor 385 for measuring the room temperature of the rear space 120, and the humidity sensor Depending on the humidity and temperature measured by 380, and temperature sensor 385 consists of a rear control unit 390 for driving the fan 350 and the heater 370.

The water quality measuring unit 330 includes a hydrogen ion concentration measuring unit 331, a water temperature measuring unit 332, a turbidity measuring unit 333, an electrical conductivity measuring unit 334, and a residual chlorine measuring unit 335. The turbidity measuring unit 333 is connected to the sample water tank 310 and the area flow meter 336. The area flow meter 336 changes the area in which the fluid flows according to the flow rate when the pressure drop is constant. The turbidity of the sample water is measured by the turbidity measuring sensor 333.

Each of the measuring units 331 to 335 includes a water tank and a sensor. That is, the hydrogen ion concentration measuring unit 331 is composed of a water tank containing a sample number for measuring the hydrogen ion concentration and the hydrogen ion concentration measuring sensor, water temperature measuring unit 332, turbidity measuring unit 333, electrical conductivity measuring unit 334 and the current chlorine measuring unit 335 likewise consist of a water tank, a water temperature measuring sensor, a turbidity sensor, an electrical conductivity measuring sensor and a current chlorine measuring sensor.

A lower edge of the sample tank 310 is formed to have a predetermined inclination angle as shown in Figure 8, a plurality of discharge walls are installed in spaced apart from each other at different heights inside the sample tank 310 ( 311) is formed.

The water quality data output device 400 receives and converts the water quality measurement data output from the water quality measurement unit 330 in real time, stores the converted data, and automatically outputs the stored data on the screen. Analog output by separating the water quality measurement data input from the monitoring device 410 and the automatic water quality monitoring device 410 into hydrogen ion concentration measurement data, water temperature measurement data, turbidity measurement data, electrical conductivity measurement data and residual chlorine measurement data A controller 420 for transmitting to a water quality management system at a remote location by a digital output method or a digital output method, a ventilation opening 430 formed at a front surface of the main body forming the front space 110, ventilation installed in the ventilation opening 430, and Between the temperature control fan 440, the ventilation port 430 and the ventilation and temperature control fan 440 or the ventilation and temperature bath A filter 450 installed at the rear of the fan 440 to purify the air in the front space 110, a heater 460 for maintaining a constant temperature of the front space 110, and the front space 110. Humidity sensor 470 for measuring the humidity of the), the temperature sensor 480 for measuring the room temperature of the front space 110, the humidity measured by the humidity sensor 470 and the temperature sensor 480 and A front control unit 490 for driving the fan 440 and the heater 460 according to the temperature, and a surge protector 495.

As shown in FIGS. 10A and 10B, the display unit 411 of the water quality monitoring device 410 is exposed to the door 150 of the water quality measurement device. The transparent case 412 is mounted on an upper end of the display unit 411.

As shown in FIG. 11, a transparent window 131 is formed at a position corresponding to the sample tank 310 of the rear panel 120 of the front panel 130 and the partition 200, and the transparent window ( 131 to check the state of the sample tank (310).

Referring to the operation of the automatic water quality measurement device configured as described above are as follows.

The automatic water quality measuring apparatus according to the present invention is divided into two spaces 110 and 120 by the partition wall 200 as shown in FIG. 4, and the water quality automatic monitoring apparatus 410 is provided in the front space 110. A water quality data output device 400 including electronic circuit components such as a controller 420 is provided, and the water quality measuring device including a sample tank 310 and a water quality measuring sensor 320 is provided in the rear space 120. 300).

By applying a structure that completely isolates the structure that is in direct contact with water from the electrical equipment as described above, it is possible not only to prevent a short circuit accident that may occur when installed in the same space, but also through the separation structure as described above. Because space can be used on the rear side, more water quality sensors can be installed in the same size water quality measuring device, and the arrangement of electrical wiring and sample transfer line can be separated separately for simpler configuration. It also provides convenience in terms of maintenance and repair performed at night.

In addition, the front and rear portions of the automatic water quality measuring device is basically equipped with a ventilation opening (340, 430), ventilation / temperature control fan 350, 440, filters 360, 450 and heaters 370, 460, respectively. In addition, it is manufactured by inserting insulation material into the panel itself to minimize damage of electric equipment caused by moisture generation and winter condensation due to temperature increase in summer.

The partition 200 has a viewing window 131 for tank observation so that the state of the sample tank 310 can be observed through the front part during maintenance.

On the other hand, when the turbidity measurement unit 333 for measuring turbidity, which is the most important and essential measurement item in the water quality monitoring item of the water treatment facility among the water quality measurement unit 320 provided in the rear space 120, Turbidity is the most important measurement item in the water treatment process, and turbidity removal efficiency is one of the most important items in determining the operation status of treatment plants.

The most influential factor in the turbidity measurement as described above is a measurement error due to bubbles generated in the process of introducing a sample (sample number) into the sample tank 310 of the turbidity measurement unit 333, In order to minimize the measurement error caused by the bubble, an area type flow meter 336 is provided between the sample tank 310 and the tank of the turbidity measurement unit 333.

The area flow meter 336 uses the principle that the pressure changes depending on the flow rate when the area, such as orifice, venturi, pitot tube is constant, so that the flow area of the fluid changes according to the flow rate when the pressure drop is constant or almost constant As a means, it is a flow meter manufactured so that a flow rate can be monitored and adjusted from a change of a flow path by a constant pressure loss.

In the present invention, by applying the area flow meter 336 to the front end of the turbidimeter tank of the turbidity measuring unit 333 to adjust the inflow flow rate recommended by the turbidimeter manufacturer to minimize the occurrence of measurement errors, The configuration of the turbidimeter to which the area flow meter is applied is shown in FIG. 8.

In addition, the front surface of the automatic water quality measurement panel is attached to the operation state indicator 311 and the external display 312 and the operation key 313 of the automatic water quality monitoring device 310 is processed through the water quality monitoring device 310 It is easy to check the measured values of various instruments.

As described above, in the sample tank applied to the existing water quality measurement panel, due to the dead space formed due to the rectangular structural problem, sediment deposited in the dead space is not discharged to the drain line. There are many difficulties in maintenance, and the bubbles generated by the flow rate and the flow rate of the sample (sample water) flowing into the sample tank are not stabilized, which causes the measurement error to flow into the water quality sensor. In particular, in the case of turbidity, a large measurement error occurs when bubbles (90 ° transmission scattering angle) contact the detection part due to the characteristics of the measurement method.

Accordingly, in the present invention, as shown in FIG. 8, the bottom edge of the sample tank 310 has an inclination angle of a predetermined angle in order to remove dead space caused by structural problems of the existing rectangular tank, so that the sample tank ( The sediment is prevented from being deposited at the lower edge of the 310, and the double discharge walls 311 are spaced apart from each other in the sample tank 310 so as to induce a stable streamline so that the sediment is deposited by the generation of bubbles and vortices. By increasing the turbidity measurement unit 333 to minimize the measurement error caused by flowing into the water turbidity measurement sensor (not shown).

That is, by removing dead space in the existing sample tank 310, the precipitate is not deposited, and by maintaining a certain amount of drain, the precipitated suspended matter is guided to the lower portion of the sample tank 310 along the streamline. Make it possible to remove it. At this time, the suspended solids are suspended solids that have lost their function as data for determining the normal operating conditions of the water treatment plant and cause errors in water quality measurement. In addition, by applying the double discharge wall 311 structure to stabilize the flow rate and flow rate of the sample water (sample water) flowing into the sample tank 310, by minimizing bubble generation, by preventing the re- rise of the deposits caused by vortex When measuring turbidity and residual chlorine, measurement errors due to the influx of resuspended suspended solids should be minimized.

On the other hand, the area-type flow meter 336 mounted to the tank drain line enables a constant flow rate adjustment to prevent the water level drop in the tank due to the failure of the flow rate adjustment in advance.

By installing the automatic water quality monitoring device 410 in the automatic water quality measuring device collects, stores, and converts the water quality measurement data output from the water quality measurement unit 330 made through the expensive commercial PLC of the existing water quality measurement panel can do.

That is, the automatic water quality monitoring device 410 is a variety of measuring instruments (flow meters, water meters, installed on the outside of the water quality measurement device and the water quality data transmitted from a controller (not shown) of the water quality measurement unit 330 configured in the automatic water quality measurement device) It collects data such as valves, converts the collected data into digital (RS232 or RS485), and outputs them in real time in its own storage device. The digitally converted signal is transmitted through Profibus, which is one of the fieldbuses. Transmission methods used for Profibus include RS485, IEC 1158-2, and optical communication. Depending on the situation, a suitable transmission method can be selected.

Automatic water quality monitoring device 410 is provided with a storage means for storing the data collected in real time, and the automatic water quality monitoring device 410 has a data logging function in communication with the water quality monitoring system in a remote location Even if a problem occurs, the data until the communication is restored can be stored in advance to prevent the loss of real-time measurement data.

In addition, it is equipped with an SD memory storage device inside the automatic water quality monitoring device 410 to enable real-time data storage according to the user's desired storage capacity, and separate the SD memory from the device as necessary to store the data stored in the notebook, PDA Or download directly to your PC.

In addition, the automatic water quality monitoring device 410 is a status indicator 413, power, input RX / TX to confirm the operating status of the automatic water quality measurement device as shown in (a) and (b) of FIG. , RX / TX output and display 414, which is an external display, makes it easy to check the measured values of various measuring instruments without opening the door of the automatic water quality measuring device. The status indicator 413 is composed of a light emitting diode. In addition, the outside of the display unit 414 is provided with a button unit 415 consisting of a plurality of buttons for controlling the automatic water quality monitoring device 410, the button unit 415 is a function button (F1 ~ f4) , Cancel button (ESC), alarm button (ALM), arrow button (▲ ▼ ◀ ▶), set button (SET), command input button (ENT) and the like.

As described above, the preferred embodiment according to the present invention has been described, but the present invention is not limited to the above-described embodiment, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

1 (a) and 1 (b) are block diagrams for explaining the configuration of an automatic water quality measurement panel according to the prior art.

2 (a) to 2 (c) are diagrams for explaining the structure of an automatic water quality measurement panel according to the prior art.

3 is a view showing a sample bath applied to FIG.

4 is a view for explaining the structure of the automatic water quality measurement apparatus according to the present invention.

5 is a view showing a sample water tank and an area flow meter applied to FIG. 4.

6 is a block diagram illustrating a circuit configuration of an automatic water quality measuring device according to the present invention.

** Description of the symbols for the main parts of the drawings **
100: body 110: front space
120: rear space 130: front panel
140: rear panel 200: bulkhead
300: water quality measurement device 400: water quality measurement data output device

Claims (10)

In the automatic water quality measuring device, Main body 100; A partition wall 200 separating the inside of the main body 100 into a front space 110 and a rear space 120; Is mounted on the rear panel 140 installed in the rear space 120, the sample tank 310 for temporarily storing the number of samples introduced from the outside, and connected to the sample tank 310 and the transfer pipe 320 And a water quality measuring unit 330 for receiving a sample number of the sample tank 310 to measure a water quality state, a ventilation hole 340 formed at a lower portion of a rear surface of the main body forming the rear space 120, and the The ventilation and temperature control fan 350 installed in the ventilation hole 340 and between the ventilation hole 340 and the ventilation and temperature control fan 350 or at the rear of the ventilation and temperature control fan 350 are installed in the rear space ( A filter 360 for purifying the air in the 120, a heater 370 for maintaining a constant temperature of the rear space 120, a humidity sensor 380 for measuring humidity of the rear space 120, And a temperature sensor 385 measuring an indoor temperature of the rear space 120 and an image. The humidity sensor 380 and the water quality measurement device 300 including a rear control unit 390 for driving the fan 350 and the heater 370 in accordance with the humidity, and the temperature measured by the temperature sensor 385; And It is mounted on the front panel 130 installed in the front space 110, receives the water quality status signal output from the water quality measuring device 300 is converted in real time and stored, and output on the screen, in real time A water quality measurement data output device 400 for transmitting the converted water quality measurement data to a remote water quality monitoring system; Automatic water quality measurement apparatus comprising a. delete The method of claim 1, The water quality measuring unit 330 includes a hydrogen ion concentration measuring unit 331, a water temperature measuring unit 332, a turbidity measuring unit 333, an electrical conductivity measuring unit 334, and a current chlorine measuring unit 335. , The turbidity measuring unit 333 is connected to the sample water tank 310 and the area type flow meter 336,  The area flow rate meter 336 is a water quality automatic measurement, characterized in that the turbidity measuring sensor 333 is measured by the turbidity measuring sensor 333 by changing the area in which the fluid flows when the pressure drop is constant Device. The method of claim 3, wherein Each of the measuring units (331 to 335), the water quality automatic measuring device, characterized in that consisting of a water tank and a sensor. The method of claim 1, The bottom edge of the sample tank 310 is formed to have a predetermined inclination angle, Inside the sample water tank 310, the double discharge wall 311 is installed so as to be spaced apart from each other, characterized in that the automatic water quality measurement device. The method of claim 1, The water quality data output device 400 receives and converts the water quality measurement data output from the water quality measurement unit 330 in real time, stores the converted data, and outputs the stored data on the screen. Water quality automatic monitoring device 410 and the water quality measurement data input from the automatic water quality monitoring device 410 is separated into hydrogen ion concentration measurement data, water temperature measurement data, turbidity measurement data, electrical conductivity measurement data and residual chlorine measurement data A controller 420 for transmitting to a remote water quality management system, a ventilation port 430 formed on the front surface of the main body forming the front space 110, and a ventilation and temperature control fan 440 installed in the ventilation port 430. And, between the ventilation hole 430 and the ventilation and temperature control fan 4400 or the rear of the ventilation and temperature control fan 440 is installed in the front A filter 450 for purifying the air in the liver 110, a heater 460 for maintaining a constant temperature of the front space 110, and a humidity sensor 470 for measuring humidity of the front space 110. ), A temperature sensor 480 for measuring an indoor temperature of the front space 110, and the fan 440 and the heater according to the humidity and temperature measured by the humidity sensor 470 and the temperature sensor 480. A water quality automatic measuring device comprising: a front control unit (490) for driving (460) and a surge protector (495). The method of claim 1, The door 150 of the water quality measuring device further includes a display unit 411, and further includes an automatic water quality monitoring device 410 installed to expose the display unit 411 to the outside. The water quality automatic measuring device, characterized in that the transparent case 412 is mounted on the upper end of the display unit (411). The method of claim 1, Transparent windows 131 and 201 are formed at positions corresponding to the sample tank 310 of the rear panel 120 of the front panel 130 and the partition 200, and the transparent windows 131 and 201. Water quality automatic measuring device, characterized in that to check the state of the sample tank (310) through. The method of claim 7, wherein The automatic water quality monitoring device is provided with a memory card as a means for storing the data to be converted in real time, The memory card is coupled to the automatic water quality monitoring device, characterized in that the automatic water quality measurement device. The method according to claim 7 or 9, The automatic water quality monitoring apparatus has an interface unit which can be connected to an external device, so that the real-time conversion data can be downloaded from an external device connected through the interface unit.

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