SU1394172A1 - Method and apparatus for testing transformers for strength in case of short circuit - Google Patents

Abstract

The invention relates to electrical testing techniques and dp tests of transformers for short-circuit stability can be used. The invention expands the field of application of the proposed method and device for its implementation, which is achieved by obtaining higher test voltages, and the reliability of the device is improved by simplifying it. The device contains a test voltage source 1, a transformer under test 2 with windings 3 and 4, a switch 5 including apparatus 6, intermediate transformers 7 and 8, primary 9 and 11 and secondary 10, 12 windings of the first and second intermediate transformers, respectively, connection points 13 and 14, disconnectors 15 and 16, terminals 17 for connection to the test object, output terminals 18, inverter 19. The essence of the proposed method is that the test voltage simultaneously and in antiphase serves the windings about transformer. 2 sec. and 3 z. p. f-ly, 3 ill. o Iw to with 4 N5

Description

The invention relates to a technique: electrical testing and can be used to test transformers for short circuit resistance.

The aim of the invention is to expand the field of application by obtaining higher test voltages and increasing reliability by simplifying the device.

FIG. 1 shows a diagram of a device implementing the proposed method} in FIG. 2 and 3 are diagrams of the device with various execution of the inverter of the test voltage.

The device for the implementation of the proposed method (Figures 1-3) contains the source 1 of the test voltage of the test transformer 2 with windings 3 and 4 ,, switch 5, turning on the device 6, the first 7 and the second 8 intermediate transformers, primary 9 and the secondary 10 windings of the first intermediate transformer, the primary 11 and secondary 12 windings of the second intermediate transformer, the first 13 and second 14 connection points, the first 15 and second 16 disconnectors, terminals 17 for connection to the test object, output terminals 18, test inverter 19 voltage

In this case (Figures 1-3), the beginning of the primary winding 9 is connected to the first output of the switching-on apparatus 6, the second output of which is connected to the first output of the switch 5, the second output of which is connected to the first output of source 1, the second one. which is connected to the end of the winding 9 of the transformer 7, the winding 10 of which is connected to the input terminals of the connection point 13, the input of the inverter 19 is connected in parallel to the winding 9 of the transformer 7 ..

The input of the inverter 19 (Fig. 1) is connected to the winding 11 of the transformer 8, the winding .12 of which is connected to the input terminals of the connection point 14, the output terminals 18 are connected to the output of the inverter 19.

The input of the inverter 19 (figure 2) is connected to the winding 11 of the transformer 8 and to the input terminals of point 14 of the connection, the output terminals 18 are connected to the output of the inverter 19, the intermediate output of which is connected to the secondary ones

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windings of intermediate transformers 7 and 8.

The input of the inverter 19 (FIG. 3) is connected to the winding 11 of the transformer 8, the winding 12 of which is connected to the intermediate output of the inverter 19 and the input terminals of the connection point 14, the output terminals 18 are connected to the output of the inverter 19.

The device works as follows.

The disconnectors 15 and 16 of the connection points 13 and 14 and the switch 5 are turned on. Then, at a predetermined time, the device 6 is turned on and from the source 1 to the windings 3 and 4 of the test transformer 2, alternating voltages opposite in phase are simultaneously supplied and the short test is performed. closures. After the required time lag, the test 1 transformer 2 is disconnected from the supply voltage with the help of disconnectors 15 and 16.

Formula inventions

one

1. Test method of power transformers for short-circuit resistance, which means that a test voltage is applied to one of the windings of the test transformer and test results are evaluated after the test voltage has been removed, characterized in that at higher voltages, the anti-phase test voltage is applied simultaneously and. on the other winding of the transformer under test.

2. A device for testing power transformers for short-circuit resistance, containing a test voltage source, a switch, a switching apparatus, an intermediate transformer and a connection point, the beginning of the primary winding of the intermediate transformer connected to the first output of the switching apparatus, the second output of which is connected to the first output circuit breaker, the second output of which is connected with the first output of the test voltage source, the second output of which is connected to the end of the primary winding between weft transformer whose secondary winding is connected

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Claims (5)

Form ul inventions ή 1. The method of testing power transformers for resistance to short circuit, which consists in the fact that one of the windings of the transformer under test is supplied with a test voltage and evaluate the test results after removing the test voltage, characterized in that, in order to expand the scope by testing at higher voltages, the test voltage in antiphase serves simultaneously and. to another winding of the transformer under test. 2. A device for testing power transformers for resistance to short circuit, containing a source of test voltage, a switch that includes an apparatus, an intermediate transformer and a connection point, the beginning of the primary winding of an intermediate transformer is connected to the first terminal of the switching device, the second terminal of which is connected to the first terminal of the switch, the second terminal of which is connected to the first terminal of the test voltage source, the second terminal of which is connected to the end of the primary winding full-time transformer, the secondary winding of which is connected to the input terminals of the connection point, characterized in that, in order to increase reliability by simplifying the device, a test voltage inverter is introduced into it, the power of which is supplied from the windings of the intermediate transformer. 3. Device pop.2, characterized in that the test voltage inverter comprises an intermediate transformer and a connection point, wherein the input of the test voltage inverter is connected to the primary winding of the intermediate transformer, the secondary winding of which is connected to the input terminals of the connection point, the output terminals of which are connected to output terminals of the inverter test voltage. ₍ 4. The device according to claim 2, characterized in that the test voltage inverter comprises an intermediate transformer and a connection point, wherein the input of the test voltage inverter is connected to the primary winding of the intermediate ₅ transformer and the input terminals of the connection point, the output terminals of which are connected to. the inverter output of the test voltage, the intermediate output of which is connected to the secondary windings of the intermediate transformers. 5. The device according to claim 2, wherein the test voltage inverter comprises 15 an intermediate transformer and a connection point, wherein the input of the test voltage inverter is connected to the primary winding of the intermediate transformer, the secondary winding 20 of which is connected to the intermediate output of the test voltage inverter and input terminals of the connection point, the output terminals of which are connected to the output of the inverter 25 of the test voltage. FIG. 2. FIG. 3