SU1277240A1 - Hybrid a.c.circuit breaker - Google Patents

Abstract

This invention relates to the field of electrical engineering, in particular, to high-speed hybrid AC circuit breakers. The aim of the invention is to increase the reliability of operation through the use of a forced composition unit (MIC). In each pole of the hybrid switch is connected in series the power contacts (SC) 1,2, shunted by diodes 3,4. The middle point of a series-connected SC is connected to the diode poles of the same name. MIC is connected in parallel to the serial circuit SC. The reliability of operation is enhanced as a result of the sustainable restoration of the locking properties of the diode. 2 hp ff, 2 ill. go «yu 4

Description

1 The invention relates to electric low-voltage apparatus, namely, ic high-speed power supplies to alternating current sharpeners. The aim of the invention is to increase reliability. Figure 1 is a diagram of a hybrid switch; Figure 2 is the same as the embodiment. The hybrid switch (figure 1) contains the power contacts 1 and 2, shunted by the corresponding diodes 3 and 4, and the forced switching unit, made on the basis of the precharged capacitor 5 and the thyristor bridge 6 - 9.. The selective switching is applied to this switch in which the thyristor control algorithm in the forced switching unit depends on the polarity of the precommutation load current. In the circuit breaker, whose circuit is shown in Fig. 2, nonselective switching is used, in which the control algorithm in the forced switching unit does not depend on the polarity of the pre-switching load current. Unlike the schematic: in FIG. 1 unit of forced comm: 7cation contains a series-connected key, formed from anti-parallel-connected thyristors 10 and 11, previously for a fixed capacitor 5 and coil 12 of inductance. Hybrid switch alternating current (figure 1) works as follows. When the load current is disconnected, for example, with polarity at the time of switching, indicated by an arrow in the drawing, the drive of synchronized opening of power contacts 1 and 2 (not shown) is activated at the initial moment. Since the contacts 1 are shunted by diode 3, the polarity of the circuit connection of which coincides with the polarity of the switched current switch, and the voltage drop across the diode is much less than the arcing voltage, in this case, the arcing of the contacts 1 is avoided. Contacts 2 are bridged by diode 4, field The circuitry of which circuit does not coincide with the polarity of the switched 401 current switch, therefore in this case the opening of the contacts 2 is carried out with arcing. After deionization and restoration of the electrical strength of the contact gap in contacts 1 in the circuit, control pulses are synchronously fed to the thyristors 6 and 7. In this case, a parallel circuit formed from series-connected diode 3 and open contacts 2, between which the electric arc is lit, is pre-charged capacitor 5. The latter leads to the forced closing of diode 3 and extinguishing of the electric arc between contacts 2, During the time of recharging capacitor 5 to zero voltage when the diode 3 is locked, deionization and restoration of the electrical strength of the contact gap in contacts 2 occurs. The thyristors 6 and 7 are turned off after the load current, which is limited in magnitude by a capacitor 5, drops to zero. Similarly, the AC switch disconnects Rucks of opposite polarity in the pre-commutation period. The difference in the operation of the circuit in this case is that thyristors 8 and 9 are synchronously connected to ensure arcless switching of contacts 1. The principle of the switch (Fig. 2) depends on the ratios of the polarity of the pre-switching load current and the voltage of the paper-to-paper capacitor 5 in moment of switching. If these polarities coincide (the polarity of the current is indicated by an arrow, and the polarity of the voltage is indicated by plus and minus signs without circles), the principle of operation of the switch, which is shown in figure 2, is similar to the one considered. At the initial moment of switching, here, as in the scheme of Fig. 1, an accelerated synchronous opening of contacts 1 and 2 (not shown) is activated, thus providing arc-free switching of contacts 1 and opening with arcing of contacts 2. After deionization and restoration of electrical the strength of the intercontact gap, i.e. with a given time delay t with respect to the commissioning of the contact opening drive, the control pulses simultaneously arrive at thyristors 10 and 11 (and not selectively, as in the circuit of Fig. 1). In this case, the capacitor 5 is connected in parallel to the diode 3, and the polarity of the voltage on the capacitor 5 is blocked for diode 3, with the result that, as in the switch in figure 1, the arc is extinguished by extinguishing the contacts 2.

In the case of the mismatch of the polarity of the pre-switching current of the load of the switch and the polarity of the pre-charge voltage of the capacitor 5 (the case of polarity of the current indicated by a dotted arrow and the polarity of the voltage on the capacitor marked by plus and minus without circles) is considered different from the previously discussed. So, when the contact opening actuator is activated, arc-free opening of contacts 2 is provided, since the polarities of the switched current and the circuit connection of diode 4 coincide, and the contacts of 1 are opened with arcing, since the polarities of the switched current and circuit connection of Diode 3 do not match. After supplying control pulses to thyristors 10 and 11 with a time delay t 3 relative to the moment of the start of switching at the first stage of switching, capacitor 5 is recharged through inductor 12, diode 4, ionized intercontact gap and thyristor 10. At the end of the oscillatory recharge stage of the capacitor field The capacitor voltage becomes opposite (indicated by plus and minus signs in circles) and blocking for diode 4. At the second switching stage, diode 4 is locked and recharging is performed load current flowing through the thyristor 11 during the time of deionization and restoration of the electric strength

contact gap, i.e. Similarly, the circuit of Fig. 1 when the current is disconnected, the polarity of which coincides with the polarity of the circuit connection of diode 4.

Claims (3)

Invention Formula I. Hybrid AC switch, containing in each pole the first and second series-connected power contacts, common drive, diodes, common drive output connected to power contacts, the first and second diodes, respectively, parallel to each of which, the diodes are connected to the midpoint between the contacts connected by electrodes of the same name, about tl and h and ngsch and so that, in order to increase reliability, a forced switching block containing previously adjoint capacitor, said first forced commutation output unit is connected to the anode of the first diode and the second output of said unit is connected to the anode of the second diode. I 2. The switch according to claim 1, about T and the fact that the forced switching unit is made in the form of a thyristor bridge, the first diagonal of which includes the specified precharged capacitor, and the second diagonal of the specified bridge is connected to the leads of the forced switching unit. 3. The switch according to claim 1, characterized in that the forced switching unit is made in the form of the first and second thyristors of said precharged capacitor and inductance coil, the first and second thyristors being switched on in opposite directions and forming a series circuit with said precharged capacitor and an inductance coil, with the outputs of the specified series circuit connected to the outputs of the forced switching unit.