KR20010039244A - Load tester for automatic voltage regulator and method for the same - Google Patents

Abstract

PURPOSE: A load testing apparatus is provided to be capable of confirming a normal operation of a rectification device and a control module by providing actual current flow of a rectifier. CONSTITUTION: A terminal connection part forms a power input/output terminal into a power part(100), a three-phase AC voltage adjuster(200), a motive transformer(MT), a rectifier(420) and a load/measurement part(320). The load/measurement part(320) consists of a wiring blocking part(321) for providing an on/off function of an input power, a digital meter(322), a load resistor(R), a shunt(323), a fuse(324) for protecting a circuit and a fan(325) for cooling heat of the load resistor(R). The digital meter(322) directs a variable output AC voltage of the three-phase AC voltage adjuster(200), an excitation output voltage and a DC output voltage of a load testing apparatus(300). The shunt(323) converts an output current of the load testing apparatus(300) to provide the converted current to a digital DC current meter(DCA).

Description

Load tester for automatic voltage regulator and method thereof {Load tester for automatic voltage regulator and method for the same}

The present invention relates to a load test apparatus and a method for acting as a rotor of a generator which is a load during a test during a preventive maintenance period of an automatic voltage regulator as a power plant characterization facility.

The power generation system consists of automatic voltage regulator, generator, system, and load centering on the generator, and automatic voltage regulator is composed of control part, rectifier part, breaker part and output part.

This automatic voltage regulator is a power plant characterization facility that maintains the terminal voltage of the generator constant, regulates reactive power, and restores stability in low frequency hunting of the system, and is a key facility to control the terminal voltage of the generator. In addition, since the automatic voltage regulator responds during generator operation, it is not easy to maintain or inspect and it is an important device to stop the generator in the event of a failure.

These automatic voltage regulators mainly perform tests and maintenance during planned preventive maintenance periods, i.e., when the generator is stopped. During planned preventive maintenance periods, buses or cables supplied to the generator rotor from the exciter output of the automatic voltage regulators are provided. Since the back is out, it is in a no-load state. However, in the no-load state, it is difficult to check the operation state of the rectifier according to the load change and the operation of the control module.

Therefore, it is necessary to check the normal operation of the stop value and the control module by giving the actual current flow of the rectifying element even during the test and maintenance of the automatic voltage regulator.

Nevertheless, no products are marketed or manufactured as a load tester until now, and most of them rely on inexpensive tests using incandescent lamps or heating wires.

However, the short-circuit test cannot flow enough current, it is difficult to check the current and voltage changes, and there is a problem in circuit protection.In addition, the incandescent lamp or heating wire used as the load equipment is exposed as it is, and the appearance is bad, and there is a risk of electric shock. there is a problem.

An object of the present invention devised to solve the above-described problems of the prior art is to provide a load test apparatus and method that acts as a rotor of a generator which is a real automatic voltage regulator load, thereby giving the actual current flow of the rectifying element and controlling the rectifier. This is to check the normal operation of the module.

1 is a schematic overall block diagram of an automatic voltage regulator test apparatus

2 is a block diagram of an automatic voltage regulator test apparatus centered on a load test apparatus according to an embodiment of the present invention;

3 is a detailed circuit diagram of FIG.

4 is a flowchart showing a method for testing an automatic voltage regulator load according to an embodiment of the present invention.

5 to 7 are waveform diagrams of minimum, middle, and maximum output voltages measured using high coders, respectively.

Explanation of symbols on the main parts of the drawings

100: power supply 200: 2-phase AC voltage regulator

300: load test device 310: terminal connection terminal

320: load / measurement unit 400: automatic voltage regulator

500: HI CODER 600: CALIBRATOR

According to the present invention for achieving the above object, the load test apparatus directs a terminal connection terminal portion which is a power input / output terminal, a circuit breaker for providing an on / off function of an input power supply, and an output variable AC voltage of a three-phase AC voltage regulator. An automatic voltage regulator load test device is provided, consisting of a load / measurement unit consisting of a digital meter, a load resistor, a sorter (SHUNT), a fuse and a fan indicating the exciter DC output voltage and indicating the DC output voltage of the load tester.

In addition, after preparing 3-phase AC voltage regulator, load test device and high coder, install the input power cable of 3-phase AC voltage regulator, check the exciter breaker open state, connect the load test device cable, and then connect 3-phase AC voltage regulator. A first step of pre-test preparation by checking the voltage control lever "0" position, a second step of turning on a no-fuse breaker (NFB) installed on the front of the load test device, and a three-phase AC voltage regulator Slowly adjust the lever upward to check the indicated voltage value of the digital three-phase AC voltage regulator output voltmeter installed on the front of the equipment and adjust it to the set value. After applying the terminal predetermined voltage (e.g. 40mV), the fourth step of setting the operating conditions in the manual mode, and using the high coder to change the rectified voltage and control angle The determined load test method of the fifth stage and the three-phase AC voltage up to the voltage regulator to adjust a sixth step of performing a fifth step repeated is provided.

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

1 is a schematic overall block diagram of an automatic voltage regulator test apparatus including a load test apparatus according to the present invention. As shown, the power supply unit 100, the three-phase AC voltage regulator 200, and the load test apparatus ( 300, an automatic voltage regulator 400, a high coder 500 and a calibrator 600.

The power supply unit 100 inputs the three-phase 220V power supplied from the generator main distribution board to the three-phase AC voltage regulator 200. The three-phase AC voltage regulator 200 outputs the three-phase 0 to 220V of the power input from the power supply unit 100 as an input voltage source of the load test apparatus 300. The load test apparatus 300 serves as a rotor of a generator that is a load during the test of the automatic voltage regulator 400 (during the planned preventive maintenance period), which will be described later.

The automatic voltage regulator 400 includes a control unit 410, a rectifying unit 420, a blocking unit 430, and an output unit 440, and the control unit 410 and the rectifying unit 420 are subject to test and maintenance.

The high coder 500 is a waveform observation device that can determine the operating characteristics of the control unit 410 and the rectifier 420 of the automatic voltage regulator 400 and check the health of the control card and power device (not shown). The calibrator 600 makes it possible to test the response of the control signal by the feedback signal.

2 is a block diagram of the automatic voltage regulator test apparatus centered on the load test apparatus according to the embodiment of the present invention, and FIG. 3 is a detailed circuit diagram thereof.

The load test apparatus 300 includes a terminal connection terminal 310 including a power supply unit 100, a three-phase AC voltage regulator 200, a synchronous transformer (MT), a rectifier 420, and a power input / output terminal to the load / measurement unit 320. ), And an output variable AC voltage of a circuit breaker 321 and a three-phase AC voltage regulator 200 which provide an on / off function of the input power of the load tester 300, and indicate an exciter DC output voltage. A classifier that converts the output current of the digital meter 322, the load resistance R, and the load tester 300, which indicates the DC output voltage of the inspection apparatus 300, and inputs the DC current to the digital DC ammeter (SHUNT: 323). ), A circuit protection fuse 324 and a load / measurement unit 320 including a fan (FAN) 325 for cooling the heat of the load resistor (R).

Although not shown, the load test apparatus 300 having the above configuration is protected by an enclosure, and a terminal connection terminal unit 310, a wire breaker 321, and a digital meter 322 are provided on the front of the enclosure, and the remaining components are It is built. It also simplifies and integrates the load tester, isolates the load from the electrical circuits inside the panel, and conducts grounding of the enclosure to promote human safety and facility safety.

In the detailed circuit diagram of FIG. 3, the power supply unit 100 is connected to a circuit breaker 321 for providing an on / off function of the input power of the load test device 300 through a three-phase input terminal provided in the terminal connection terminal unit 310. The circuit breaker 321 is connected to a fan 325 and a fan protective fuse for effectively dissipating heat of the load resistor R. The three-phase AC voltage regulator 200 is connected to the circuit breaker 421 and the synchronous transformer MT through the three-phase AC voltage regulator input / output terminal provided in the terminal connection terminal 310, and the three-phase AC voltage regulator 200. A digital AC voltmeter (ACV) indicating the output variable AC voltage of the three-phase AC voltage regulator 200 is connected to the output of the AC.

In addition, three circuit protection fuses are connected between an output terminal of the three-phase AC voltage regulator 200 and an input terminal of a synchronous transformer (MT), and the power supplied to the synchronous transformer (MT) is branched and rectified. Supplied to 420.

A circuit protection fuse and a sorter SHUNT are connected in series to the thyristor (SCR) cathode side output terminal of the rectifier 420, and a load resistance R between the classifier 323 and the anode side output terminal of the diode D of the rectifier 420. ) Is connected.

The classifier 323 is connected to a DC voltmeter (DCA) indicating the DC output current of the load test device 300, both output terminals of the rectifier 420 of the digital DC voltmeter (DCV) indicating the exciter DC output voltage That is, one side is connected between the fuse and the classifier 323 and the other side is connected between the anode of the diode D of the rectifier 420 and the load resistor (R).

When testing the automatic voltage regulator using the load test device having such a configuration, when the circuit breaker 321 is turned on, the three-phase 220V power supplied from the power supply unit 100 is a three-phase input provided in the terminal connection terminal 310. It is supplied to the three-phase AC voltage regulator 200 through the three-phase AC voltage regulator output terminal connected to the terminal internally (provided in the terminal connection terminal 310) and adjusted to an appropriate voltage to synchronize the synchronous transformer and the rectifier. 420 is applied.

Then, the output variable AC voltage of the three-phase AC voltage regulator 200 is indicated by using the digital AC voltmeter (ACV) of the digital meter 322, and the exciter DC output voltage is indicated by the digital DC voltmeter (DCV). In addition, a direct current output voltage of the load inspection apparatus 300 is instructed by using a digital direct current ammeter (DCA).

Then, the waveforms of the controller 410 and the rectifier 420 are observed using the high coder 500 to determine the operation characteristics, and the response of the control signal due to the feedback signal is tested using the calibrator 600.

An automatic voltage regulator load test method according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 4.

First, make the necessary preparations before the test (S100).

That is, after preparing the three-phase AC voltage regulator, the load test device, and the high coder before the test, the input power cable of the three-phase AC voltage regulator 200 is installed and the three-phase 220V is connected to the terminal connection terminal 310 through the power supply unit 100. After supplying to the three-phase input terminal, and after confirming the open state of the exciter breaker flow, connect the load test device 300 and the automatic voltage regulator and other devices necessary for the test with a cable, the voltage control of the three-phase AC voltage regulator 200 Check the lever "0" position.

When the necessary work for the automatic voltage regulator load test is completed, turn on the wiring breaker (NFB: No Fuse Breaker) installed on the front of the load test device, and slowly raise the lever of the three-phase AC voltage regulator 200 to load test device ( 300) While checking the indicated voltage value of the digital AC voltmeter (ACD) of the three-phase AC voltage regulator 200 installed on the front and adjusts to the set value (S200, S300)

Subsequently, the control unit 410 of the automatic voltage regulator 400 applies a voltage (for example, 40 mV) suitable for the test to the field voltage transducer (FVT) output terminal, and sets the operating conditions in the manual mode.

When all the operating conditions necessary for the test are set, the rectifier voltage and the control angle change are measured using the high coder 500, and the three-phase AC voltage regulator 200 is adjusted upward to measure the rectified voltage and the control angle change repeatedly. Perform a load test of the automatic voltage regulator (S500, S600).

5 to 7 are the minimum, middle, and maximum output voltage waveforms measured by using a high coder during the automatic voltage regulator load test.

5 is a minimum output voltage waveform, the upper portion is A phase, B phase, C phase input voltage waveform, the middle portion is A phase, B phase, C phase thyristor (SCR) gate waveform, respectively, the minimum output at the lower portion The voltage is shown. FIG. 6 shows an intermediate output voltage waveform in which the input voltages of the A, B, and C phases are conducted at 110 degrees of phase angle, respectively, and the intermediate output voltage appears at the lower portion.

FIG. 7 shows a form in which the maximum output voltage waveforms show the maximum output voltage at the lower portion of the A, B, and C phases at 60 degrees of phase angle.

As described above, the automatic voltage regulator load test apparatus and method thereof provide a load test apparatus that acts as a rotor of a generator which is an actual automatic voltage regulator load to give an actual current flow of the rectifier element, thereby providing It is effective to check the normal operation.

In addition, by providing a digital meter in the load tester, it is easy to check the change of the output AC voltage of the three-phase AC voltage regulator, the output DC voltage of the rectifier and the output DC current.

In addition, circuit protection is enhanced by the installation of circuit breakers and circuit control wire fuses on the AC input side, simplifying and integrating the load test device, isolating the load and electric circuits inside the panel, and conducting grounding of the enclosure to improve human safety and facility safety. We can plan.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but this is by way of example only and not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

Terminal connection terminal 310 consisting of a power supply unit 100, a three-phase AC voltage regulator 200, a synchronous transformer (MT), a rectifier 420 and a power input / output terminal to the load / measurement unit 320 for the automatic voltage regulator test Wow; A circuit breaker 321 for providing an on / off function of an input power source connected to a three-phase input terminal of the terminal connection terminal unit 310 and a three-phase AC voltage regulator output terminal of the terminal connection terminal unit 310. A digital AC voltmeter (ACV) indicating the output variable AC voltage of the phase AC voltage regulator 200, and a DC voltmeter indicating the DC output current of the load test apparatus connected to both output terminals of the rectifier of the terminal connection terminal unit 310 ( DCA), a digital direct current connected to a splitter 323 connected in series with the rectifier output terminal of the terminal connection terminal unit 310, a load resistor R, and the splitter 323, and indicating an exciter DC output voltage. And a load / measurement unit (320) for providing a load and a measurement means during an automatic voltage regulator load test, including a voltmeter (DCV). The method of claim 1, The load / measurement unit 320 is a fan 325 for effectively dissipating heat of the load resistor R connected to the circuit breaker 321 and a three-phase AC voltage regulator output of the terminal connection terminal unit 310. And a circuit protection fuse between the terminal and the synchronous transformer input terminal, between the automatic voltage regulator rectifier thyristor output terminal and the classifier (323), and one side of the fan (325). After preparing 3-phase AC voltage regulator, load test device and high coder, install the input power cable of 3-phase AC voltage regulator, check the open circuit of exciter breaker, connect the load test device cable, and then connect 3-phase AC voltage regulator voltage. The first step to perform pre-test preparation by checking the adjustment lever "0" position, the second step to turn on the circuit breaker installed on the front of the load test device, and slowly raise the 3-phase AC voltage regulator lever to the front of the equipment. The third step of adjusting to the set value while checking the indicated voltage value of the digital three-phase AC voltage regulator output voltmeter installed in the controller, and applying the predetermined voltage to the relay converter output terminal in the automatic voltage regulator control part, The fourth step of setting and the fifth step of measuring the rectified voltage and the control angle change using the high coder and the three-phase AC voltage regulator voltage up Automatic voltage regulator load testing method characterized in that appointed a sixth step of performing a fifth step repeated.