SU316040A1 - DEVICE FOR TESTING SWITCHES TO SWITCHING ABILITY - Google Patents

Description

Devices for testing breaking switches are known for reproducing short-circuit conditions on tires powered both directly from the generators and from generators separated from the buses by one or several transmission lines, ranging in length from a few tens to hundreds of kilometers. In this case, during synthetic tests, it is envisaged to short-circuit the switch-off current circuit to improve test equivalence. However, such a shunting leads to a decrease in the test power, since, in this case, the recoverable voltage decreases by the amount of the disconnecting circuit voltage.

The purpose of the invention is to reproduce when testing short circuit conditions on substation buses powered only from generators separated from the buses by one or several transmission lines, i.e. in the absence of local power sources. This is achieved by the fact that the inductance of the high voltage circuit is made in the form of a chained circuit, and the capacitance connected in parallel with the switchable current circuit is chosen so that after extinguishing the arc in the disconnecting device, the inductance of the switchable current circuit in combination with this capacitance circuits, the remaining links of which are elements of a high-voltage circuit circuit of a synthetic circuit.

In cases where the tires, along with lines of limited length, also leave lines so long that the effects of reflected waves on the arc extinguishing processes are not considered, the test switch is shunted with an active resistance equal in magnitude to that of the wave resistance. these lines.

For the purpose of damping distorting non-sinusoidal high-frequency current, which finally occurs after closing the circuit of a high voltage circuit, as well as after extinguishing the arc in the disconnecting device, additional resistance is connected to the high voltage circuit and the circuit of the disconnected current is shunted with a second additional resistance . These two resistances, connected in series, in combination with the resistance that shunts the test switch, must be equal in magnitude to the equivalent characteristic resistance of the long lines running from the tires. applied voltage, b - conditional network for obtaining this curve. The curve of the restoring nanowire has an aperiodic character with a linear build-up voltage up to its value of 0.77- / 2f / B03p and a fixed value of the voltage f / return. The standardized shape of the curve of the restoring voltage is obtained in the conventional network (see FIG. 26), i.e., when the short-circuit point is energized (the IW switch under test) only from the stations distant by distance / s, and from the buses to which the line with the IH switch is connected, another number of lines with the length Iz taken equal to infinity. The inductance of the high voltage circuit (see Fig. 1) is performed in the form of a valuable LI circuit - Ln-i, Ci -. Capacitance C, connected in parallel to the circuit of the disconnected current, is chosen such that after extinguishing the arc in the disconnecting device of the OS, the inductance Ln of the circuit of the disconnected current in combination with the capacitance C is the last link of the chain circuit, the other links of the high circuit circuit synthetic scheme. In cases where the tires, along with lines of limited length, also leave lines so long that the effects of reflected waves on arc extinguishing can be ignored, the switch being tested is bypassed with an active resistance R equal to resistance of these lines. In this case, it is possible to reproduce the conditional network (see Fig. 2, b) and obtain a regulated restoring voltage curve, if the characteristic impedance of the chained circuit is equal to Wi, Wz, W,., Otkotkl where / OTK.I - nominal switch off current, ka . After the operation of the discharge P (see Fig. 1) in the high-voltage circuit, in addition to the sinusoidal current-increased frequency, the non-sinusoidal high-frequency current detected by the parameters of the circuit circuit also rises. This additional current in the case of small losses in the chain-circuit reactors and in the vessel C can attenuate relatively slowly and continue to flow in the test circuit even after the arc is extinguished in the OS device. Therefore, the current flowing through the switch YV is distorted, i.e., the speed of its approach to zero may differ significantly from the required one. At the same time, for the same reason, the conditions for extinguishing the arc are deteriorated In an op-amp device, which can lead to non-extinguishing - the bow in the switch. vary the resistance R connected in parallel with the inductance of the L: chain circuit, and with opposite resistance R connected in parallel with the switchable current circuit. In this case, the resistance R dampens the process both before and during arc extinction in the OU device, and the resistance R only after the arc is extinguished. The resistance values are chosen based on the ratio 1 + a + + n-1. In addition, the joint action of the resistances R, R and jR should be the same as the equivalent characteristic impedance Wz of long lines departing from the tires, i.e. ( R + R) R () + R The tests on the proposed device are carried out as follows. Battery C is initially charged up to voltage U ,. After that, when the contacts of the device OU and the switch of the ignition device are closed, the closing current circuit closes the disconnected current and the disconnected current starts to flow through the device of the control device and the switch of the ignitor, the contacts of which are soon opened The arrester P, as in conventional dual-frequency synthetic circuits, is triggered at the same time point in order to ensure that the current device passes current through zero for several hundred microseconds before the current passes through zero in the breaker switch. In this case, after arc quenching, one successive source of emf sources is formed in the OS device. (Vl and Vz) and a chain circuit of inductances LI-L ,,, and capacitances Ci-C, i.e., the test conditions are the same as when the short-circuit current is disconnected from the dodo station that does not have local power sources. Ta: In a way, equivalent test conditions are created both immediately before the current passes in the I / O switch, and during the voltage recovery process on it. The subject matter of the invention 1. A device for testing switches for breaking capacity according to a synthetic dual-frequency circuit with a capacitance connected in parallel with a tripping current circuit, characterized in that, for the purpose of reproducing during testing, short circuit conditions at the node of the station that is powered only from generators separated from buses one or several transmission lines, the high voltage circuit injectivity is made in the form of a chained circuit, and the capacitance connected in parallel with the value of the switched off current is selected values, so that after extinguishing the arc in the disconnecting device, the inductance of the value of the disconnected current in combination with this capacitance is the last

which are the elements of a high-voltage circuit circuit of a synthetic circuit.

2. Device 1P. 1, characterized in that, in order to produce test conditions in cases where, along with limited length lines, tires also go so long that the effects of reflected waves on arc extinguishing processes can be ignored, the subject the circuit breaker is shunted with an active resistance equal in magnitude to the equivalent wave resistance of these lines.

3. The device according to claim 2, characterized in that, for the purpose of damping the distorting

nonsypusondal high-frequency current, additionally arises, after closing the circuit of the high voltage loop circuit, as well as after extinguishing the arc in the disconnecting device, additional resistance is connected in parallel to the high voltage circuit circuit, and the disconnected circuit is shunted by a second additional resistance CO-resistances connected in series, in combination with the resistance that shunts the test switch, must be equal to the equivalent Resistance to the new long lines, extending from the tire.

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