SU1121629A1 - Device for correcting sequence of phase alternation in three-phase network - Google Patents

Abstract

DEVICE FOR CORRECTING phase sequence VOLTAGE three-phase network, comprising: first and second thyristors, the first and second faeosdvigayuschie capacitors in the control circuit of each thyristor, the protective diodes, of which two are connected anode to cathode and cathode to a control elektrodaim respective thyristors and the other two include in the power circuit of each thyristor from the side of the anode output, the first and second executive relays, the first and second anti-aliasing capacitors connected in parallel with relay coils, characterized in that, in order to extend the functionality, it additionally introduces a phase sequence interleaver with the first and the second switch: luchadadimi contacts, the first and second indicators and an additional diode, with the cathode output of the power circuit of the first thyristor and phase-shifting the capacitor in its control circuit is connected to the third and second phases of the supply network, respectively, and the second output of the power circuit of the second thyristor and the phase-shifting capacitor in its control circuit are Switched to the second and third phases of the power supply network respectively, the first phase of the power supply network is connected to the first terminals of the windings of the first and second relays, respectively, through the break contacts of the first and second actuators, and through an additional bottom and first and second indicators the first phase is connected to the first terminals of the first and the second thyristor, respectively, the second terminal of the winding of the first relay through the first switching contact of the setter is connected to protective diodes in the power circuit of the first and second thyristors, second The output winding of the second relay through the second switching contact of the setter is connected to protective diodes in the power circuit of the second and first thyristors, the closing contacts of the first and second executive relays are connected in series with the load so that the closed circuits of the first relay form a direct sequence of phase alternation in the load and the second is the reverse.

Description

The invention relates to electrical engineering and is intended for electric drives and electronic devices when changing the sequence of alternating phases of a voltage of a three-phase network as compared with a predetermined sequence. A device for protecting a three-phase load from alternating the phases of the supply network contains a phase-sensitive thyristor, a phase-shifting condensate in the thyristor control circuit, protective diodes, one of which is connected between the cathode and the control electrode, and the other in the power circuit of the thyristor sequentially with the actuator. relays, the switching contacts of which are connected in series with the load, the thyristor power circuit being connected to one of the phases of the supply network, and the control circuit to the previous trace NIJ phase Cl J. disadvantage of this device is that, when breakage of one of the mains phases is lost the efficiency of the control sequence of alternating phase, and that no sequencer alternating phases, which must be maintained in the load. Closest to the invention is a device for protecting the three phase loads from changing over the phase supply of the supply network containing two phase-sensitive thyristor organs, two phase-shifting capacitors in the control circuits of each of the thyristors, protective diodes, one of which is connected between the cathode control electrode of each thyristor, and others - in the power circuit of each thyristor in series with the executive relay, the contacts of which are connected in series to the load. The thyristor power circuits and the free leads of phase-shifting capacitors are connected to three phases and a zero drive of the G2 3 power supply. The disadvantages of the known device are the need to use a neutral wire, which limits the use of the device with a three-phase power supply network without a neutral; the impossibility of one-time setting of the desired sequence of phase alternation, which must be supplied to the load; the inability to maintain a given order of phase alternation. The purpose of the invention is to expand the functionality of the device by quickly setting the sequence of phases alternating required in the load, which is automatically maintained when it changes in the three-phase current supply network; The goal is achieved in that the device containing the first and second thyristors, the first and second phase-shifting capacitors in the control circuit of each thyristor, protective diodes, two of which are connected by anodes to the cathodes and cathodes to the control electrodes of the corresponding thyristors, and the other two are included in the power circuit of each thyristor on the output side (for example, an anode one), the first and second execution relays, the first and second smoothing capacitors connected in parallel with the corresponding relay windings, additionally a phase sequence sequencer with the first and second switching contacts, the first and second indicators and an additional diode are introduced, the second output of the power circuit (for example, cathode) of the first thyristor and the phase-shifting capacitor in its control circuit are connected to the third and second phases of the power supply network, respectively the same output of the power circuit of the second thyristor and the phase-shifting capacitor in its control circuit are connected respectively to the second and third phases of the power supply network; the first phase of the power supply network is the disconnecting contacts of the nepBoio and the second additional relay are connected to the first output of the windings of the first to the second relay, respectively, and through the additional diode and the first and second indicators the first phase is connected to the first terminals of the first and second thyristors, respectively;; the second output of the winding of the first relay through the first switching contact of the setting device is connected to protective diodes in the power circuit of the first and second thyristors, the second terminal of the winding of the second relay through the second switching contact of the setting device is connected to the reading Wires in the power circuit of the second and first thyristors, closing the contacts of the first and second executive relays ... are connected in series with the load in such a way that the closed contacts of the first relay form a direct sequence of phase alternation in the load, and the second is reverse, The drawing shows a diagram of the device. The device consists of thyristors 1 and 2, phase-shifting capacitors 3 and 4 in the circuits: -ix. control., protective diodes 5k b, connected between the cathode control electrode thyristors 1 and 2, respectively, protective. diodes 7 and 8, connected to the first terminals of the power circuit of thyristors 1 and 2, the second terminals of the power circuit of which and phase-shifting capacitors Z. and 4 are connected to the phases. (y and u) of the supply network, executive relays 9 and 10 One output winding of each of which is connected via disconnecting contact 11 and 12, respectively, of the other one to phase 1 of the supply mains and one output of additional diode 13, the second output of which is connected to the first terminals of the thyristor circuit 1 through indicators of the sequence of phase alternation 14-15. and 2, respectively, challenges 16 sequences of alternation of phases in the load, one switching contact 17 which is connected with the second output of the relay coil 9 and protective diodes 7 and 8, and the second switching contact 18 with the second output of the relay coil 10 and protective diodes 8 and 7, closing contacts 19 and 20 are executive relays 9 and 10, respectively, connected in series with the load, of the first and second smoothing capacitors 21 and 22. The device operates as follows. With a direct sequence of phase alternation (1; P; W) and full phase mode, a negative and positive voltage is applied to the cathode and anode of thyristor 1, and a positive voltage through the phase-shifting capacitor 3 is applied to the control electrode, resulting in The current of the thyristor 1 reaches a value sufficient to unlock it. The thyristor 1 opens, the indicator 14 signals a direct sequence of phase alternation in the supply network, and if the set phase rotation order is set on the setpoint 16, then the relay 9 is activated, the contacts are closed 19, the same voltage is applied to the load -sequence of alternating phases, as in the mains. If the phase sequence is set at setpoint 16, then relay 10 is triggered, contact 20 is closed, and the load is reversed to the load (T, (0, P) phase sequence. With reverse phase sequence (I, IM, li) and the thyristor 2 opens in full-phase power supply mode, the indicator 15 signals the reverse sequence of the phase alternation in the supply network and when installed on the setter 16 of the direct phase sequence, the relay 10 is activated, the contact is closed 20, and the load is supplied to the load sequence of alternation of phases (I, 11, E). If the reverse sequence of phases is set at setpoint 16, then it is absent in village 9, contacts 19 are closed and reverse phase sequence is applied to the load. J In the absence of at least one of the phases When the supply mains is supplied with direct or reverse phase sequence alternation, thyristors 1 and 2 will be closed, indicators 14, 15 and relay coils 9 and 10 are de-energized, contacts 19 and 20 are open and the load is completely de-energized. An additional diode 13 prevents leakage through thyristors 1 and 2 when a unlocking voltage is applied to the control electrode and a negative half-period is applied to the anode, and prevents the smoothing capacitors 21 and 22 from discharging through indicators 14 and 15. Thus, the proposed device provides automatic maintenance in the load of a predetermined sequence of alternation of phases with its possible change in a three-phase three-wire supply network, indication of a sequence of alternation of phases in a supply three-phase network, as well as automatic The load is disconnected from all three phases of the supply network in the absence of voltage at least in one of them.

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Claims (1)

DEVICE FOR CORRECTION OF THE SEQUENCE OF THREE-PHASE VOLTAGE VOLTAGE SEQUENCE, containing the first and second thyristors, the first and second phase-shifting capacitors in the control circuit of each thyristor, protective diodes, two of which are connected by anodes to the cathodes and cathodes to the control electrodes and two other thyristors the power circuit of each thyristor from the side of the anode output, the first and second actuating relays, the first and second smoothing capacitors connected in parallel with the corresponding coil Cam relay, characterized in that, in order to expand the functionality, it is additionally introduced the phase sequence sequencer with the first and second switching contacts, the first and second indicators and an additional diode, moreover, the cathode output of the power circuit of the first thyristor and the phase-shifting capacitor in the circuit its controls are connected respectively to the third and second phases of the supply network, and the second output of the power circuit of the second thyristor and the phase-shifting capacitor in its control circuit are connected respectively To the second and third phases of the supply network, the first phase of the supply network is connected through the disconnecting contacts of the first and second actuating relays to the first terminals of the windings of the first and second relays, respectively, and through an additional diode and the first and second indicators, the first phase is connected to the first terminals of the first and second thyristors, respectively, the second terminal of the winding of the first relay through the first switching contact of the master is connected to the protective diodes in the power circuit of the first and second thyristors, the second terminal of the winding of the second relay through a second switch contact is coupled to setpoint protective diodes in the power circuit of the first and second thyristors make contacts of the first and second actuators relay connected in series with the load so that the closed loops form a first relay line phase sequence in the load, and the second - reverse. SU, "1121629