KR20010065083A - Transformer Sudden Pressure Relay Tester Circuit - Google Patents

Abstract

PURPOSE: A testing device for an impact pressure relay of a large-capacity transformer is provided to control a degree of rising pressure per a unit time period and measure an operation time period of the impact pressure relay at a pressure rising coefficient for comparing with a characteristics curve of the relay. CONSTITUTION: A testing device for an impact pressure relay(21) of a large-capacity transformer includes a power supply part for generating AC power of 110V and DC voltage of 24V from commercial AC power to supply, a manipulation switch part(11) for a user to set the testing device into a preparation mode, a testing mode, a stop mode or a reset mode, a solenoid valve(14) to be applied with an air pressure as opened in the preparation mode and maintaining a secondary part pressure as closed in the stop mode, a digital pressure gauge for displaying a pressure applied to the impact pressure relay, a plurality of lamps(16) for displaying the respective modes according to the switching operation of the manipulation switch part and the operation state of the impact pressure relay, and a plurality of valves for supplying the air pressure applied to the solenoid valve to the impact pressure relay or exhaust the air pressure of the impact pressure relay.

Description

Testing device for shock pressure relay of large-capacity transformer {Transformer Sudden Pressure Relay Tester Circuit}

The present invention relates to a test apparatus for a shock pressure relay of a large-capacity transformer, which will be described in more detail. The pressure pressure per unit time is adjusted in the impact pressure relay, and the operating time of the relay at the pressure rise coefficient is measured and compared with the relay characteristic curve. The present invention relates to a test apparatus for an impact pressure relay of a large capacity transformer to be analyzed.

There are about 8 types of shock pressure relays, which are protection devices for large-capacity transformers, installed in Korea, and about 8 types from Mitsubishi's SP3D and 5 companies, and these shock pressure relays play an important role as transformer mechanical protection devices. As such, shock pressure relays are manufactured by foreign companies, and domestic transformer producers install them on transformers without checking the quality guarantees of the companies and not performing accurate tests. In other words, most of the test plugs are opened and only the degree of operation and non-operation is checked. As the hard coal deteriorates, relay characteristics are not changed and health is not checked.

These shock pressure relays have been able to operate faster than BH relays in detecting faults in transformer accidents, and thus have a decisive role in suppressing accident propagation. However, many malfunctions occur due to oil pump operation or non-vibration during normal operation. do.

Although it is an important facility that directly affects the oscillation stop accident, there is no test equipment that can diagnose the abnormality due to the characteristics of the relay. That is, to test, open the test plug after applying a certain pressure or increase the internal pressure of the conservator to check the operation status, and it is installed without any test in the field even when replacing the relay. It is a situation that can not filter the defects for defects.

Because of these problems, the invention has been invented a universal test equipment that can be applied to various types of shock pressure relay, and a test equipment that can quickly and conveniently diagnose the presence or absence of abnormality in the characteristics of the relay is required.

The present invention has been made to solve the above problems of the prior art, it is possible to confirm whether the entire area is satisfactory within the allowable range based on the type and characteristic curve of the various relays, small size, light weight, easy to handle in the field It is to provide a test apparatus for the impact pressure relay of a large-capacity transformer.

In addition, the present invention can be tested in the installed state or dismantled state in the transformer, and the relay operating time and return time is automatically displayed to provide a test device for a shock pressure relay of a large-capacity transformer to enable fast and accurate data acquisition It is also for.

1 is an overall circuit diagram showing an apparatus for testing a shock pressure relay of a large capacity transformer according to an embodiment of the present invention;

2 is a configuration diagram of a test apparatus for an impact pressure relay of a large capacity transformer.

※ Explanation of code about main part of drawing ※

11: operation switch unit 12: pickup timer

13: reset timer 14: solenoid valve

15: buzzer 16: lamps

21: shock pressure relay 23: digital pressure gauge

24: safety valve

In order to achieve the above object, the present invention is connected to the impact pressure relay of a large-capacity transformer in the test apparatus for testing the impact pressure relay, generating and supplying 110V AC power and 24V DC voltage from a commercial AC power supply The power supply unit, the operation switch unit that the user operates to set the test apparatus to the ready mode, the test mode, the stop mode, and the reset mode, the air pressure is applied when the valve is opened in the ready mode, and the secondary side when the valve is closed in the stop mode. A solenoid valve for maintaining a pressure, a digital pressure gauge for displaying a pressure applied to the impact pressure relay, a plurality of lamps for displaying operation modes of each mode and the impact pressure relay according to a switching operation of the operation switch unit, and the solenoid valve Provides the air pressure applied from the shock pressure relay or It characterized in that it comprises a plurality of valves used to exhaust the air pressure of the air shock pressure relay.

Hereinafter, with reference to the accompanying drawings will be described in more detail "test apparatus of the impact pressure relay of a large capacity transformer" according to an embodiment of the present invention.

1 is a circuit diagram illustrating a test apparatus for an impact pressure relay of a large capacity transformer according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of a test apparatus for an impact pressure relay of a large capacity transformer.

The test apparatus of the present invention includes the operation switch unit 11, the pickup timer 12, the reset timer 13, the S solenoid valve 14, the digital pressure gauge 23, the buzzer 15, and the lamps 16. , V1 to V4 valves, and safety valves 24. An impact pressure relay 21 is connected to this test apparatus.

The operation switch section 11 includes a ready mode switch, a test mode switch, a stop mode switch, and a reset mode switch. The ready mode switch sets the pressure rise factor to be applied to the relay and diagnoses any abnormality in the connection before the test. The test mode switch measures the relay's operating timer and return timer according to the pressure rise coefficient corrected in the ready state. The stop mode switch is used to close the solenoid valve. The reset mode switch initializes the pickup timer 12 and the reset timer 13 displayed in the test mode.

The pickup timer 12 and the reset timer 13 add the pickup time and the reset time of the relay. Terminals 2 and 7 of both timers are power supply terminals. Time is counted when power is applied to terminal 3, and stops when power is applied to terminal 1. When the power is applied to terminal 4, the displayed time value is reset to initial state. When the S solenoid valve S is on, the valve is opened to apply air pressure, and when off, the valve is closed to maintain the secondary pressure. The digital pressure gauge 23 has its own battery and displays the pressure applied to the relay. The buzzer 15 operates whenever the impact pressure relay 21 is inverted from the reset state to the pickup state and from the pickup state to the reset state. The lamps 16 display each test mode and the operating state of the relay.

The V1 valve regulates an air or gas pressure of 1-7 kg / cm ^{2 to} a pressure of 0.1-0.4 kg / cm ² . V2 valves are used for equipment leak testing. The V3 valve supplies air pressure to the relay. The V4 valve is used to exhaust the air pressure inside the equipment and the relay after the test is completed. The safety valve 24 is adjusted to pop at 0.4 to 1.0 kg / cm ² to protect the relay and equipment from misoperation. The impact pressure relay 21 is connected to the secondary side of the V3 valve.

Referring to the operation and effect of the test device of the impact pressure relay of a large-capacity transformer according to the present invention configured as described above are as follows.

In the initial state, when AC 220V power is applied to the test apparatus, the V4 valve is opened and the control air (0.4-7 kg / cm ² ) is applied to the HCV valve primary side. Connect the impact pressure relay 21 to the V3 valve secondary jack to the relay. The operation switch unit 11 is placed in the stop mode and the power switch is turned on. When the power of the digital pressure gauge is turned on, the input voltage AC 220V is divided into 110V AC through the step down and 24V DC through the rectifier and input into the control system.

Test operation can be largely divided into ready mode and test mode. In the preparation mode, the HCV is adjusted so that P1 is 0.1 to 0.3 kg / cm ² , and the valves V1, V2 and V3 are open and the valve V4 is closed.

When the ready mode switch of the operation switch unit 11 is operated, the RX1 relay is turned on and at the same time the solenoid valve is opened, the pickup timer is started, and the R lamps of the lamps 16 are turned on. Next, when the pick-up timer reaches 5 seconds to 10 seconds, the stop button is pressed, at which time the solenoid valve is closed and the pick-up timer is stopped, and the R lamp of lamps 16 is turned off. Next, look at the P2 pressure gauge to make sure there is no pressure drop for 5 minutes. If the pressure drops, it is leaking at each connection part. Check whether the connection part is defective.

Next, if the pressure drop of the P2 pressure gauge does not occur, the valve V4 is opened and exhausted. When the P2 pressure gauge is reset to zero, close the V4 valve. Next, the reset switch is operated to turn on the TX2 relay to initialize the pickup timer 12. Next, press the ready switch again to operate the stop switch again within 5 to 10 seconds of the pickup timer value. Next, the pickup timer and the P2 pressure value are recorded, and then the pressure riser per second is calculated. At this time, the pressure riser is calculated as in Equation 1.

Finally, operate the reset switch to reset the pickup timer.

In describing the test mode, the 029 terminal of the equipment is provided to the impact pressure relay 21 to check the characteristics of the pressure rise coefficient calculated in the ready state. Connect 028 terminal and 023 terminal. Next, since the impact pressure relay 21 is in a reset state, the G lamp of the lamps 16 is turned on while the TX4 relay is turned on. Next, when the test switch is operated, the TX1 relay is turned on, the solenoid valve 14 is opened, the pickup timer 12 is operated, and the O lamp of the lamps 16 is turned on.

Next, when the shock pressure relay 21 is picked up, the TX4 relay is turned off and the TX3 relay is turned on, and the following items proceed simultaneously. That is, the solenoid valve is closed, the pressure gauge P2 maintains the pressure, the G lamp is turned off, the R lamp is turned on, the pickup timer 12 is stopped, the reset timer 13 is operated, and the TX8 relay is turned on, and the buzzer ( 15) rings. After a certain time, the impact pressure relay 21 is naturally reset, the pickup lamp R lamp is turned off, the reset lamp G lamp is turned on, a buzzer is generated, and the reset timer 13 is stopped.

Next, when the stop switch is operated, the test lamp O lamp is turned off, the pickup time and the reset time are recorded, and the relay characteristic curve and the abnormality are judged. Next, operating the reset switch resets the pickup time and the reset time. Next, open the V4 valve to exhaust the air. Next, in the preparation mode, increase or decrease the HCV to check different points on the characteristic curve while varying the pressure rise coefficient.

While the invention has been described above based on preferred embodiments, these embodiments are intended to illustrate, not limit, the invention. It will be apparent to those skilled in the art that various changes, modifications, or adjustments to the above embodiments can be made without departing from the spirit of the present invention. Therefore, the protection scope of the present invention will be limited only by the appended claims and should be construed as including all such various changes, modifications or adjustments.

According to the present invention described above, it is possible to confirm the quality by comparing and analyzing the characteristic curve on the product manual and the actual operating characteristics of the relay. In addition, it is possible to have a clear inspection test on the basis of the manufacturer's test report even when replacing a new relay, and after installation, the characteristic test is possible. In addition, it is easy to carry, easy to handle, and can prevent safety accidents when used in the upper part of the transformer. In addition, it can contribute to the improvement of equipment quality and customer reliability, contributes to stable operation after maintenance, and it is possible to predict the timing of relay replacement by analyzing the change of characteristics.

Claims (1)

In the test apparatus for testing the impact pressure relay in connection with the impact pressure relay of the large-capacity transformer, A power supply unit for generating and supplying 110V AC power and 24V DC voltage from commercial AC power; An operation switch unit which the user operates to set the test apparatus to the ready mode, the test mode, the stop mode, and the reset mode; When the valve is opened in the ready mode, the air pressure is applied; when the valve is closed in the stop mode, the solenoid valve maintains the secondary pressure. Digital pressure gauge for displaying the pressure applied to the impact pressure relay, A plurality of lamps for displaying the operation state of each mode and the impact pressure relay in accordance with the switching operation of the operation switch unit; And a plurality of valves used to provide the air pressure applied from the solenoid valve to the impact pressure relay or to exhaust the air pressure of the impact pressure relay.