KR100543517B1 - Telemeter system of water process apparatus - Google Patents

Abstract

The present invention relates to a remote power measurement system of a water treatment plant that can measure various operating information such as the amount of power used in a plurality of facilities scattered in a wide area, such as a steel treatment plant, at a long distance. A power supply panel 100 for controlling supply of power to a pump or fan of the facility; An instrument panel 200 comprising a concentrated display device 240 for detecting and displaying voltage and current, and a communication concentrated device 250 for connecting the concentrated display device 240 and an upper system; A control room 300 comprising a signal controller for inputting and controlling a power pulse and a state signal contact point, and a separate PC 330 for processing a communication input; And an cab 400 provided with an HMI 410 for monitoring and managing the amount of power received by the driver from the lower level.

Water treatment facility, power measurement, communication concentration device, centralized display device, remote measurement

Description

Telemeter system of water process apparatus

1 is a schematic view for explaining a method for measuring the amount of power of a conventional water treatment facility.

Figure 2 is a block diagram showing the main part of the power measurement system according to the present invention.

3 is a block diagram showing a concentrated display device of the power measurement system according to the present invention.

Figure 4 is a block diagram showing a communication concentration device of the power measurement system according to the present invention.

5 is a block diagram showing a power measurement system according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: power supply panel 200: instrument panel

240: concentrated display device 241: display window

242: unit display LED 243: load display LED

244: measurement value shift key 250: communication concentration device

251: display window 252: error display LED

253: Reset LED 254: First Communication LED

255: Second communication LED 256: Measurement value moving key

300: control room 330: PC

400: Cab 410: HMI

The present invention relates to a remote power measurement system of a water treatment facility, and more particularly, a water treatment facility that can measure various operating information such as the amount of power used in a plurality of facilities scattered in a wide range of regions, such as a steel treatment facility, in a long distance. Relates to a remote power measurement system.

In general, steel mills use a large amount of water for each process, and thus water treatment facilities are installed in each process. Such a water treatment facility has a structure in which an integrated power meter capable of reading a power amount is installed in a power supply panel for supplying power to a pump and a fan.

Alternatively, an integrated power meter may be installed in each process, but the integrated power meter is not for measuring the amount of power for each load, but for measuring the total amount of power input to the process, and any means for accurately measuring the amount of power of the water treatment facility. Was not also taken.

In the related art, in order to measure the amount of power of a water treatment facility, the driver has to measure a voltmeter 12 installed in a power supply unit 11 installed in a power supply panel 10 and an EOCR installed in a water treatment power supply unit 13, as shown in FIG. (Electronic Over Current Relay) 14 has been visually checked, recorded by hand, calculated and registered in the system.

Since the conventional problem is visual inspection by the driver, an error is generated, and data different from the concept of computerized power amount that needs to be measured in time unit power is derived by deriving and managing the integrated power amount by the driver. Not only couldn't be secured, but the driver had to check while visiting sites scattered over long distances, which led to a problem that the driver's work was aggravated.

Alternatively, a pulse synthesizer may be used to input power of scattered loads up to 4 channels and sum them up and output them as pulses again.However, such pulse synthesizers have a plurality of pulse synthesizers to be applied to water treatment facilities due to the limitation of input points. Since it is necessary to install an excessive cost and the output pulse width is limited to within 100 ~ 300ms, there was a problem that it is not suitable to connect to a higher-level system such as a distribution controller (DCS) having a scan time of 1 ~ 2sec.

The present invention has been invented to solve the above problems, the purpose of which is to configure the automatic power amount and operation information for the water treatment facilities scattered throughout the factory to be automatically measured and managed by the upper system of each plant to ensure the reliability of the data and the driver To provide a remote power measurement system for water treatment facilities that can minimize the work of the.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The remote power measurement system of the water treatment facility of the present invention is connected to the water treatment facility to remotely measure the power amount and display a digital display of the measured value and the unit display LED to display the measured unit, and displays the power load in a bar form A concentrated display device comprising a load display LED and a measured value moving key for setting and selecting a measured value; And a display window connected between the centralized display device and the upper system to display measured values, an error display LED for outputting a self-diagnosis result, a reset LED indicating whether to operate normally or reset, and communication with a subsystem. The communication centralized device consists of a first communication LED indicating whether RS485 communication is available for up to 4 channels, a second communication LED indicating communication with a higher system, and a measurement value moving key for setting and selecting measurement values. It was included.

Referring to the present invention having such characteristics in detail as follows.

Figure 2 is a block diagram showing the main part of the power measurement system according to the present invention, Figure 3 is a block diagram showing a centralized display device of the power measurement system according to the present invention, Figure 4 is a communication of the power measurement system according to the present invention Fig. 5 is a block diagram showing a concentrator, and Fig. 5 is a block diagram showing a power measurement system according to the present invention.

As referred to herein, the present invention is largely composed of a power supply panel 100, an instrument panel 200, a control room 300, and an cab 400.

The power supply panel (MCC Panel: Moter Control Center Panel, 100) is a device for controlling the motor by supplying power to a pump or fan (driven by a motor) of the water treatment facility to calculate the power supplied to measure the amount of power of the water treatment facility can do. The power supply panel 100 is provided with a water treatment power supply unit (MCC Unit) 110 that substantially controls the power supply and the power measurement.

The instrument panel 200 has a three-phase input bus 210 to draw power from the power supply unit 110 for water treatment, a PT (instrument transformer) 220 to detect a voltage, and a CT (instrument for detecting a current). Current transformer) 230, a digital centralized display device 240 for measuring the amount of power of each water treatment load, and a communication centralized device 250 that receives power from a maximum of 32 digital centralized display control devices and outputs the pulsed power or communication to an upper system. Is installed.

The centralized display device 240 includes a display window 241 for digitally displaying the measured power value of the water treatment facility, a unit display LED 242 for displaying the unit to be measured, and a load display LED for displaying the power load in a bar shape. A control unit for receiving a measurement value moving key 244 for setting and selecting a measurement value and a power amount data value of each water treatment load and outputting a digital signal for display on the display window 241 and the LEDs 242 and 244; Not shown).

The communication concentrator 250 includes a display window 251 for displaying a measured value, an error display LED 252 for outputting a self-diagnosis result, a reset LED 253 for indicating normal operation or reset, and a subsystem. First communication LED 254 for RS485 communication and up to 4 channels for communication with up to 4 channels, second communication LED 255 for communication with the host system, and setting and measurement value selection. And a control unit (not shown) for receiving the measured value moving key 256 and the measured amount of power and outputting the measured amount of power to the host system through pulse or communication.

Meanwhile, the first communication method may be RS485, and the second communication method may use either RS485 or RS232.

The control room 300 has a digital input card (DI: 310) for inputting a power pulse and a state signal contact point, a signal controller (PLC: Programmable Logic Center) or a distribution controller (DCS) dedicated to control thereof. Systerm) 320, and a separate PC (330) for processing the RS485 & RS422 communication input. Wherein the digital input card is a device for inputting the amount of power and status signals of the water treatment equipment as a digital signal, the signal controller and distribution controller is a controller for controlling the signal transmitted from the digital input card.

The cab 400 is provided with a Human Machine Interface (HMI) 410 for monitoring and managing the amount of power received by the driver from the lower level.

Hereinafter, the present invention will be described in detail.

First, the amount of power of each load for water treatment facilities scattered in a number of places is to measure the amount of power of each water treatment facility in the water treatment power supply unit 110 of the power supply panel 100.

In addition, the instrument panel 200 installed adjacent to the power supply panel 100 includes a PT 220 and a CT 230 for voltage detection through the three-phase input bus 210 from the power supply unit 110 for water treatment. After the voltage and the current are detected through the concentrated display device 240.

The digital centralized display device 240 is a device that displays the amount of power collected from each water treatment load and transmits it to the communication centralized device 250 through RS485 via a communication cable. The digital centralized display device 240 has the following functions and features.

The measurement value display window 241 includes 18 types (3-phase voltage current, reactive power, reactive power, power factor, frequency, instantaneous maximum power, demand current power, maximum demand current power, monthly maximum demand power, monthly cumulative current amount, and monthly average). Measures and displays the electric power of power factor, reverse power, and reverse power), and applies measurement standard IEC687 Class1.0 standard and high brightness 7-segment.

The unit display LED 242 selects and displays phase voltage V1, line voltage V1-2, current A1, apparent power KVA, maximum active power Peak KW, power factor PF, frequency Hz, and the like.

The load display LED 243 indicates by Bar-Graph LED that the operating power amount is operating at what percentage of the rating.

The setting and measured value moving keys 244 can be freely set by placing four keys.

And communication function can use any one of three kinds of RS485 MODBUS, DNP3.0, Lon Works.

User interface provides maintenance optical port (IRDA Port) and application software.

Provides 4 channels of DIO (Digital Input) and 2 channels of AI (Analog Input) for supervisory control.

Pulse output function includes active power and reactive power.

The communication concentrator 250 sums up the amount of power collected by up to 32 digital intensive display devices 240 and outputs the amount of power to the self-display and the host system as a pulse, and outputs the status signal contact output or communication of the self-diagnosis result of the communication concentrator. It is a device to output through means (RS485 & RS422) and has the following functions and features.

Measured value display window 251 employs a 20X4 Character LCD and has a built-in backlight function, so that the measured value display window 251 is well visible in a dark place, and displays the amount of power used and the total of each digital centralized display control device sequentially.

An error LED 252 for displaying a self-diagnosis result and a reset LED 254 for displaying a normal operation status and a reset are provided on the front surface.

All four RS485 communication channels are supported for the interface with the sub-system such as the digital centralized display device 240, and the MODBUS protocol is adopted for the RS485 communication line.

Ethernet, RS422, RS232C, Pulse, etc. are adopted for communication with the host system.

Four setting and measurement value moving keys 256 are provided for easy viewing and modification.

Meanwhile, the contents of the communication items are shown in Table 1 below.

Item Contents Subsystem I / F RS485 4 channel Host system I / F Ethernet, RS422 Modem I / F RS232C (both high and low) Pulse output Active power amount, reactive power amount Contact output (DI) System diagnostic information contact output Communication protocol DNP3.0, MODBUS

The control room 300 is a place where a signal controller or a distribution controller 320 and a PC 330 for operation and monitoring are located, and the output of the power amount pulse output from the communication concentrator 250 and the status signal contact point are the digital input card 310. Is input to the signal controller or distribution controller 320, and the RS485 & RS422 output is input to the PC 330.

The power amount pulse output function of the communication concentrator 250 outputs a C contact (contact A + B) at a pulse of 1 kWh per 1 kWh measured by communication. In this case, the C contact (Change-over Contact) refers to the contact that is converted into the A contact (Arbeit Contact) and B contact (Break Contact), the output contact selection may vary depending on the design method. In consideration of the scan time of the signal controller or distribution controller 320, it is preferable to set the unit in units of 100 ms within a range of 300 ms to 2 sec.

The cab 400 operates and monitors all the facilities of each factory. The HMI 410 has a sum of integrated power amounts and communication concentrations for the water treatment facilities provided by the signal controller or the distribution controller 320 of the control room 300. Provides information to comprehensively monitor and manage the operation state information of the device 250, and the like.

As described above, the present invention can remotely measure and manage the accumulated power without visiting the water treatment facility, thereby enabling real-time management of accurate data.

Claims (4)

A power supply panel 100 for controlling the supply of power to the pump or fan of the water treatment plant; An instrument panel 200 comprising a concentrated display device 240 for detecting and displaying voltage and current, and a communication concentrated device 250 for connecting the concentrated display device 240 and an upper system; A control room 300 comprising a signal controller for inputting and controlling a power pulse and a state signal contact point, and a separate PC 330 for processing a communication input; And a cab (400) equipped with an HMI (410) for monitoring and managing the amount of electric power received by the driver from the lower part. The unit display LED 242 of claim 1, wherein the centralized display device 240 is connected to a water treatment facility to remotely measure the amount of power and to display the measured value digitally, and the unit display LED 242 to display the measured unit. And a load display LED (243) for displaying the amount of power load in a bar shape, and a measurement value moving key (244) for setting and selecting a measurement value. The display device of claim 1, wherein the communication concentrator 250 includes a display window 251 connected between the centralized display device 240 and an upper system and displaying measured values, and an error display LED for outputting a self-diagnosis result. 252, a reset LED 253 indicating normal operation or reset, a first communication LED 254 indicating whether RS485 communication can be supported up to four channels in communication with a lower system, and a higher level system. A remote power measurement system of a water treatment plant, characterized in that the configuration consisting of a second communication LED (255) for indicating whether the communication and the measurement value moving key (256) for setting and selection of the measurement value. The system of claim 3, wherein the first communication method is RS485 and the second communication method is any one of RS485 or RS232.

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