KR101030980B1 - Multi-parameter Instrument using Sensor of Digital Serial BUS Link - Google Patents

Abstract

The present invention simultaneously measures the quality of water such as temperature, pH, turbidity, electrical conductivity, residual chlorine concentration, etc. in water purification related facilities and facilities for supplying constant water, and stores the data on its own and transmits it to higher-level equipment through online communication. The present invention relates to a water quality multi-item measuring device incorporating a sensor of a digital serial communication bus.

To this end, the present invention draws the water to be measured into the meter to measure the items of the water quality such as temperature, pH, turbidity, residual chlorine concentration and electrical conductivity in the water treatment plant and the reservoir of the water purification plant can be measured by each measuring sensor. When the measured sample numbers are supplied to the measuring sensor through the sample number collecting unit, the measuring sensor unit including the digital sensor converting unit converts the detected water quality measurement data into digital signal data and generates a unique calibration factor for each sensor. After converting the measurement data for each sensor and transmitting the measurement signal to the main control unit through the digital serial communication bus, the data measured by the measurement sensor unit is stored in the internal memory for a predetermined time and the measured data Is transmitted to the data acquisition server through the serial communication line. And a main control unit.

Water quality multi-item measuring device, digital serial communication bus, main control unit, digital sensor conversion unit, TFT LCD display unit

Description

Multi-parameter Instrument using Sensor of Digital Serial BUS Link}

The present invention relates to a water quality multi-item measurement device incorporating a sensor of a digital serial communication bus, and more particularly, to temperature, pH, turbidity, electrical conductivity, residual chlorine concentration, etc., in water purification facilities and facilities for supplying constant water. The present invention relates to a water quality multi-item measuring device that combines a sensor of a digital serial communication bus type to simultaneously and simultaneously measure the same water quality, to store data on its own, and transmit the data to an upper device through online communication.

In order to measure water quality in conventional water purification facilities and facilities, temperature, pH meter, turbidity meter, residual chlorine concentration, and conductivity meter are measured through each sensor and transducer, and analog signals are converted into digital signals from main controllers such as computers. It converts and transfers it to the upper computer via a communication line.

Figure 1 shows a block diagram of a conventional water quality multi-item measuring device of water purification equipment, the signal detected from a plurality of sensors (S1 ~ S5) for measuring temperature, pH, turbidity, residual chlorine concentration and electrical conductivity, respectively Is transferred to the main control unit 7 through the sensor transducers 1 to 5 and the analog signal lines 6, and the AD conversion unit inside the main control unit 7 transmits the analog signal inputted through the analog signal lines 6; (8) converts the signal into a digital signal and processes the signal in the main control unit 7 to make digital data, and the main control unit 7 displays these data via the LCD display unit 9 and simultaneously communicates with RS-232C. It transmits water quality data to higher level computers by sending it through In FIG. 1, reference numeral 10 denotes an input and output unit, and 11 denotes a DC power supply.

However, the water quality multi-item measuring device of the conventional water purification equipment cannot collect the sensors for the temperature, pH, turbidity, electrical conductivity, and residual chlorine concentration for measuring the water quality in a certain space, thereby improving the efficiency of water quality measurement. And the efficiency of mutual correction are reduced, and also the signal sensed for each sensor is transmitted to the main control unit through each sensor converter and analog signal line, and the analog signal input again is converted into a digital signal from the internal AD converter. Therefore, there is a problem that the overall degree and reliability of the device is degraded by transmitting to the main control unit and that the entire system must be calibrated even when any one sensor is replaced.

Therefore, the present invention has been proposed to solve the above problems of the prior art, an object of the present invention is to improve the water quality such as temperature, pH, turbidity, electrical conductivity, residual chlorine concentration, etc. in water purification related facilities and equipment for supplying constant water Simultaneously measure simultaneously and each of the water quality sensors are completely independent of the main control, so even in the case of replacement or calibration of a single measuring sensor, only the individual sensors to be calibrated, without calibration of the entire measuring system, are calibrated with the transducer The data is stored and reflected in the sensor converter so that it does not affect the main controller, and each sensor operates independently by transmitting the digitally measured measurement signal from each sensor's digital converter to the main controller through the sensor interface. It is designed to be able to measure with sensors There the water quality measuring device that combines the items the sensors of the digital serial communication bus system for exchanging the emitter to provide.

In order to achieve the above object, the present invention includes a measurement sensor unit for measuring the water quality items such as temperature, pH, turbidity, residual chlorine concentration and electrical conductivity in the water purification plant and the water reservoir of the water purification plant; A digital sensor converter configured to store a calibration factor for each sensor of the analog signal sensed by the measurement sensor unit; And a main controller configured to store the data measured by the digital sensor converter and the measurement sensor in an internal memory for a predetermined period of time, and to transmit the measured data to a data collection server through a serial communication line. It is characterized by managing the water quality in Esso online.

The measurement sensor unit may include a plurality of sensors, the digital sensor converter may include a plurality of digital sensor converters, and the main controller may include a sensor interface unit, a flash memory, and a TFT LCD display unit having a touch screen. It is done.

In addition, the main controller is characterized in that it controls to communicate with the user or display the corresponding data in the field through the TFT LCD display unit with the touch screen.

In addition, the main control unit stores measurement data and environmental information for various measurements in a flash memory, and also sets a set measurement period (real time, 10 seconds, 30 seconds, 1 minute, 10 minutes, 30 minutes, 1 hour, and an arbitrary setting interval). The measured data is stored in the flash memory. The flash memory has a function of storing the measured data for at least one year.

In addition, the main control unit can measure in addition to a plurality of sensors in addition to the measurement items for the purified water quality such as temperature, pH, turbidity, residual chlorine concentration and electrical conductivity, and also receives and measures the measurement data from the pressure or flow meter It is characterized in that the ability to transmit can be added.

According to the water quality multi-item measurement device incorporating the sensor of the digital serial communication bus system according to the present invention, such as temperature, pH, turbidity, electrical conductivity and residual chlorine concentration for measuring the water quality is set in a certain space By improving the efficiency of water quality measurement and the efficiency of mutual correction, each sensor is equipped with a digital sensor conversion unit, and converts the signals to digital to transmit the signal, each sensor in the digital sensor conversion factor (Factor) And the like, and by converting each sensor into a digital signal, it is possible to improve the accuracy and reliability of the overall apparatus and the management efficiency of the hearing aid.

EXAMPLES

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

Figure 2 shows the overall block diagram of the water quality multi-item measuring device 20 according to the present invention, as shown in Figure 2 temperature, pH, turbidity, residual chlorine concentration and electrical conductivity in the water treatment plant and the reservoir of the water purification plant In order to measure the items of water quality, such as the measured number of samples to be supplied to each sensor, measuring sensor unit 21 for measuring each water quality items and each signal measured by the measuring sensor unit and the respective sensors and The digital sensor converts the digital data into digital data using the calibration factor stored for each sensor and transmits the signal to the main control unit 23 via the sensor interbase unit. The water quality data measured by the sensor conversion unit 22 and the measurement sensor unit 21 and the digital sensor conversion unit 22 is stored in the internal memory for a predetermined period of time. At the same time, it comprises a main control unit 23 for transmitting the measured data to the data collection server (not shown) side via the serial communication line 24 to manage the water quality in the water purification plant and the reservoir through online or the like. will be.

In FIG. 2, reference numeral 25 denotes a DC power supply unit supplying a DC power DC to each circuit unit.

Figure 3 shows a detailed block diagram of the water quality multi-item measurement apparatus 20 according to the present invention, as shown in Figure 3 the measurement sensor unit 21 is composed of a plurality of sensors (S1 ~ S5), The digital sensor converter 22 is composed of a plurality of digital sensor converters 221, 222, ... 22n, and the main controller 23 is a sensor interface 231, a flash memory 232 and a touch. It consists of a TFT LCD display unit 234 with a built-in screen.

Referring to Figures 2 and 3 attached to the operation of the water quality multi-item measuring device according to the present invention configured as described above are as follows.

First, the water quality multi-item measuring device according to the present invention includes a measurement sensor unit 21 including a plurality of sensors for measuring temperature, pH, turbidity, electrical conductivity, residual chlorine concentration, and the like, as shown in FIG. It is divided into a digital sensor converter 22 composed of a digital sensor converter and a main controller 23 which processes the signals from the digital sensor converter 22 and the measurement sensor 21 collectively.

The main control unit 23 converts the analog signal from each sensor of the measurement sensor unit 21 directly into the digital signal through the digital sensor converter 22 and transmits the digital control unit 23 through the digital serial communication bus DS. In order to reduce the real-time processing load, the water quality multi-item measuring device is improved.

Under this background, the present invention senses purified water quality such as temperature, pH, turbidity, residual chlorine concentration and electrical conductivity as the respective sensors S1 to S5 as shown in FIG.

Each of the digital sensor converters 221 to 22n converts each analog signal AS detected from each of the sensors S1 to S5 into a digital signal and transmits a digital serial communication signal. DS) to the sensor interbase unit 231.

That is, each of the sensors S1 to S5 has independent digital sensor converters 221 to 22n, and the digital serial communication bus DS uses a serial bus to transmit data from the digital sensor converters 221 to 22n as digital signals. It is configured to send.

The sensor interbase unit 231 receives the sensor detection signal from each of the digital sensor converters 221 to 22n through the digital serial communication bus DS, and transmits the signal to the main controller 23 through RS-232C. Interface I / O, Analog I / O, and Relay Output to the outside.

The main control unit 23 controls the user to communicate with the user or display the corresponding data in the field through the TFT LCD display unit 234 with a touch screen, and store the measurement data and environmental information for various measurements in the flash memory 232. And also store the measured data for a set measurement period (real time, 10 seconds, 30 seconds, 1 minute, 10 minutes, 30 minutes, 1 hour and an arbitrary set interval), the flash memory 232 being able to store these measurements It is desirable to have the ability to store data for at least one year.

In addition to the measurement items related to purified water quality such as temperature, pH, turbidity, residual chlorine concentration, and electrical conductivity, the main controller 23 can additionally measure a plurality of sensors (50 or more), It is also possible to add the function to receive and measure the measurement data and the like.

As described above, the present invention prevents data loss and error due to noise by converting a signal into a digital serial signal by converting the signal from each of the sensors S1 to S5 and the digital sensor converters 221 to 22n. By connecting external digital data such as an external communication channel of the main control unit 23, it is possible to connect to each sensor S1 to S5 or the digital sensor converters 221 to 22n and to confirm data. It is possible to improve the reliability for S5).

In addition, the present invention is a failure in each sensor (S1 ~ S5) and digital sensor conversion unit (221 ~ 22n) by exchanging serial digital information with each sensor (S1 ~ S5) and digital sensor converter (221 ~ 22n) In addition, by storing the information such as malfunction, calibration and repair of the sensor separately in the form of a log file through the flash memory 232 built into the main control unit 23, the reliability and accurate maintenance of the entire device is possible.

In addition, the present invention stores the measurement data through the flash memory 232 built in the main control unit 23 in the measurement period set for a predetermined period or more, the measurement stored through the serial communication output line 24 connected to the main control unit 23 You can use the data conveniently through a notebook PC.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims and their equivalents.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a water quality multi-item measuring apparatus of a related art water purification facility.

Figure 2 is a block diagram of the overall water quality multi-item measuring device according to the present invention.

Figure 3 is a detailed block diagram of a water quality multi-item measuring device according to the present invention.

      * Description of the symbols for the main parts of the drawings *

20: water quality multi-item measuring device 21: measuring sensor

22: digital sensor conversion unit 23: main control unit

24: serial communication line 221-22n: digital sensor converter

231: sensor interface unit 232: flash memory

234: TFT LCD display S1 to S5: sensor

DS: digital serial communication bus AS: analog sensor signal

Claims (5)

A measurement sensor unit 21 for measuring water quality items including temperature, pH, turbidity, residual chlorine concentration, and electrical conductivity in the water purification plant and the water reservoir of the water purification plant;  A digital sensor conversion unit 22 for storing a calibration factor for each sensor of the analog signal sensed by the measurement sensor unit 21;  The main sensor stores the data measured by the digital sensor conversion unit 22 and the measurement sensor unit 21 in the internal memory for a predetermined time and transmits the measured data to the data collection server through the serial communication line 24. A water quality multi-item measuring device including a digital serial communication bus type sensor comprising a control unit (23) configured to manage the quality of water in a water treatment plant and a reservoir online. The method of claim 1, The measurement sensor unit 21 is composed of a plurality of sensors (S1 ~ S5), the digital sensor converter 22 is composed of a plurality of digital sensor transducers (221, 222, ... 22n), the main Water quality multi-item measurement device incorporating a sensor of the digital serial communication bus method, characterized in that the control unit 23 is composed of a sensor interface unit 231, a flash memory 232 and a TFT LCD display unit 234 with a built-in touch screen. The method of claim 2, The main control unit 23 combines a sensor of a digital serial communication bus type, characterized in that the touch screen has a built-in TFT LCD display unit 234 having a built-in touch screen to control conversation with a user or display corresponding data in the field. Item measuring device. The method of claim 1, The main control unit 23 stores the measurement data in the flash memory 232 and also measures for a set measurement period (real time, 10 seconds, 30 seconds, 1 minute, 10 minutes, 30 minutes, 1 hour and an arbitrary set interval). And storing the measured data, wherein the flash memory (232) has a function of storing these measured data for at least one year. The method of claim 1, The main control unit 23 may additionally measure a plurality of sensors in addition to measurement items related to purified water quality including temperature, pH, turbidity, residual chlorine concentration, and electrical conductivity, and also measure data from a pressure or a flow meter. Water quality multi-item measuring device incorporating a sensor of a digital serial communication bus method, characterized in that the ability to receive, measure and transmit.

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