KR101376205B1 - Ignitor spark test data logger equipment - Google Patents

Abstract

A device for acquiring ignition test data capable of automating a starting ignition test of a generation facility according to the present invention includes: a status measuring device which measures the operation status of an ignitor in real time and generates a status signal; a status signal processing device which processes the status signal and stores the processing result data; and a computer which analyzes the processing result data, stores operation status variables indicating the operation status of the ignitor in a database, and outputs the variables on a monitor or through a printer. The status measuring device comprises a high voltage detector and a current detector for detecting the status of the ignitor. The status signal processing device comprises: an AD/DC signal processing unit for processing detection signals from the high voltage detector and the current detector; and a USB data acquisition unit for acquiring and storing the processing result data from the signal processing unit. [Reference numerals] (11) Ignitor; (13) Current detector; (21) AD/DC signal processing unit; (22) USB data acquisition unit; (30) Computer; (40) Monitor or Printer; (50) Database; (60) Monitoring and analysis program; (70) Digital meter, alert, graph

Description

Ignition test data acquisition device {IGNITOR SPARK TEST DATA LOGGER EQUIPMENT}

The present invention relates to a performance test of a combined cycle power plant, and more particularly to an apparatus for monitoring and measuring a starting ignition test.

In power plants, there are many reasons why the starting ignition of a power plant often fails. Then, the person in charge checks the condition of the igniter visually and checks for any abnormality. However, the reliability of the visual inspection depends on the individual's individual ability, and therefore cannot guarantee scientific objectivity. As a result, since the state of the igniter is judged differently according to the person in charge, the stable operation of the power plant becomes impossible.

U.S. Patent 6,556,939

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SUMMARY OF THE INVENTION An object of the present invention is to provide an ignition test data acquisition device that provides the result data of automatic measurement of a starting ignition test of a power generation facility without depending on the human eye.

It is another object of the present invention to provide an ignition test data acquisition device that enables preliminary predictive maintenance with respect to power generation facility startup and contributes to stable power supply.

It is still another object of the present invention to provide an ignition test data acquisition device for automatically measuring and processing the magnitude and voltage of the voltage and current generated during the ignition test and storing the resultant data.

An ignition test data acquisition device for automatically starting a ignition test of a power plant according to the present invention is a state measuring device that generates a state signal by measuring the operating state of an igniter in real time, processes a state signal, and stores the processing result data. And a computer which stores operating state variables indicating an operating state of the igniter in a database and analyzes the resultant data and outputs them to a monitor or a printer.

Preferably, the state measuring device comprises a high voltage detector and a current detector for detecting the state of the igniter. The state signal processing apparatus includes an AC / DC signal processing unit for processing the detection signals of the high voltage detector and the current detector, and a USB data acquisition unit for acquiring and storing the processing result data of the signal processing unit. The operating state variables are pulse period, maximum current, minimum current, discharge energy, and spark voltage.

In addition, the present invention is a state measuring device for generating a state signal by measuring the operating state of the igniter in real time in order to automatically start the ignition test of the power generation equipment, the state signal processing to process the state signal and to store the processing result data Ignition test data to measure the operating state of the igniter by operating state variables by configuring the device and the computer that stores the operating state variables indicating the operating state of the igniter by analyzing the processing result data in a database and outputs them to a monitor or a printer. Acquiring the ignition test data acquisition method comprising the step of collecting the status signal of the igniter, UI processing the status signal to generate the result data, and analyzes and stores the result data and outputs it to the monitor. To provide.

It acquires the data of automatic measurement result without various visual ignition test without the person's eyes, and enables the preliminary predictive maintenance regarding the start-up of the power plant, contributing to stable power supply. Therefore, it is possible to prevent the power supply disruption due to the delay in starting the power generation equipment in advance to ensure the safety of the installation.

1 is an ignition test data acquisition device according to the present invention for automatically igniter ignition test data of a power generation facility.
2 is a diagram illustrating each software module for programming a USB data acquisition unit for analyzing, storing, and outputting processing result data generated by UI processing of a state signal of an igniter.
3 is a diagram showing a process of processing a status signal in accordance with the software module of FIG.
4 is a diagram showing returning to main processing after reading and analyzing data collected and analyzed by the ignition test data acquisition device according to the present invention and outputting the analysis result data.
5 is a view showing a notice screen when running the operating program of the ignition test data acquisition apparatus according to the present invention.
6 is a graph showing that the current signal collected when the measurement button of the ignition test data acquisition device according to the present invention and the calculation results are displayed graphically on the screen.
7 is a diagram showing a method of inquiring data stored in the ignition test data acquisition apparatus according to the present invention.
FIG. 8 is a diagram showing a result of querying data and a result of reading selected data as shown in FIG.

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

Referring to Figure 1, the ignition test data acquisition device for automatically starting the ignition test of the power generation equipment according to the present invention is a state measuring device 10, the state measuring the operating state of the igniter in real time to generate a state signal A state signal processing apparatus 20 for processing a signal and storing the processing result data, and operating state variables for analyzing the processing result data and indicating an operating state of the igniter in the database 50 and monitoring or printer 40 It consists of the computer 30 which outputs to

The state measuring device 10 includes a high voltage detector 12 and a current detector 13 which detect a state of the igniter 11. The state signal processing apparatus 20 includes an AC / DC signal processor 21 for processing the detection signals of the high voltage detector and the current detector, and a USB data acquisition unit 22 for acquiring and storing the processing result data of the signal processor. do.

When an abnormality occurs in operation due to a spark failure of the igniter 11, the values of the operating state variables such as pulse period, voltage, current, discharge energy, and spark voltage change. In FIG. 1, the operating state variables of the igniter become the voltage detection signal detected by the high voltage detector 12 with respect to the igniter and the current detection signal detected by the current detector 13.

The voltage detection signal and the current detection signal output from the state measurement window 10 are processed by the AC / DC signal processing unit 21 of the state signal processing apparatus 20, and the processing result signal is sent to the USB data acquisition unit 22. Goes.

Referring to FIG. 2, the USB data acquisition unit 22 analyzes and stores the processing result data generated by the UI processing of the AC / DC signal processing unit 21 and outputs it to the computer 30. . In other words, as shown in FIG. 3, the USB data acquisition unit 22 collects, analyzes, and stores the analyzed result data of the AC / DC signal processing unit 21 and displays it on the monitor.

4 shows the return to the main process after reading and analyzing the collected and analyzed data as shown in FIG. 3 and outputting the analysis result data.

The operation method of the ignition test data acquisition device according to the present invention will be described in more detail with reference to FIGS. 5, 6, 7, and 8 as follows.

When the operating program of the device is executed, a notice screen is displayed as shown in FIG. Then, select the device name in the test condition input window, enter the tester name and click OK to run the main program. When the measurement button is pressed, the current signal and the calculation result collected by the state measuring device 10 are output and displayed in a graph as shown in FIG. The four graphs at the top of the graph tab on the screen show the input signal of each channel. The graph at the bottom of the graph tab shows the result of calculating RMS value of input current voltage. If the data save button is pressed during measurement, the raw data is stored in the set path, and the analysis data and the path information of the raw data are stored in the database.

A method of querying stored data will be described with reference to FIG. 7. Enter the search conditions (test date start, test date end, device name, etc.) in the data search condition input window and click the search button to search for data matching the search condition.

8 shows the results of reading the data inquiry and the selection data. On the left side of the drawing, a list of data meeting search conditions is displayed. If the data to be loaded is selected with the mouse, the data is displayed on the graph tab as shown in FIG. 6 and the analysis data is output. On the right side of FIG. 8, the analysis data is displayed in the order of pulse period, maximum current, minimum current, discharge energy, and spark voltage.

Finally, the acquired data is stored in the database 50, while the monitoring analysis program 60 analyzes the igniter in accordance with the result value as indicated by the sign 70 to the digital meter, alarm, graph, etc. Indicates.

Automatically measure / analyze the magnitude and spark time of voltage and current generated during igniter testing of power generation facilities, and predict and maintain the igniter's working condition in advance, contributing to stable power supply.

10: Status measurement window
11: lighter
12: high voltage detector
13: current detector
20: status signal processing device
21: AC / DC signal processor
22: USB data acquisition unit
30: computer
40: monitor or printer
50: Database

Claims (5)

In order to make the start-up ignition test of power generation equipment automatic,
A state measurement device for measuring a state of operation of the igniter in real time and collecting a voltage detection signal and a current detection signal as state signals;
A state signal processing device which processes the state signal and stores the processing result data; And
A computer which analyzes the processing result data and stores pulse periods, voltages, currents, discharge energy, and spark voltages, which are operating state variables indicating the operating state of the igniter, in a database;
The computer receives the data retrieval condition and outputs the voltage, current, and RMS calculation result collected by the state measuring device to the monitor or printer as a graph as data corresponding to the retrieval condition, and to the database. Acquiring ignition test data, characterized by outputting the analysis data of the stored pulse state, pulse period, voltage, current, discharge energy, spark voltage, to a monitor or printer and measuring the action state of the igniter by the action state variables. Device. The ignition test data acquisition device according to claim 1, wherein the state measuring device comprises a high voltage detector and a current detector for detecting a state of an igniter. The apparatus of claim 2, wherein the state signal processing device comprises an AC / DC signal processing unit for processing detection signals of the high voltage detector and the current detector, and a USB data acquisition unit for acquiring and storing processing result data of the signal processing unit. Ignition test data acquisition device. delete In order to make the start-up ignition test of power generation equipment automatic,
Measuring a working state of the igniter by a state measuring device in real time to collect a voltage detection signal and a current detection signal which are state signals;
Processing the status signal by a status signal processing apparatus and storing the processing result data;
Analyzing, by the computer, the processing result data and storing, in a database, pulse periods, voltages, currents, discharge energy, and spark voltages, which are operating state variables indicating an operating state of an igniter; And
The computer receives the data retrieval condition and outputs the voltage, current, and RMS calculation result collected by the state measuring device to the monitor or printer as a graph as data corresponding to the retrieval condition, and to the database. And outputting analysis data of the stored pulse state, pulse period, voltage, current, discharge energy, and spark voltage, to a monitor or a printer.

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