SU909788A2 - Device for control of thyristors with counterparallel connection of high-voltage change-over switch - Google Patents

Description

The invention relates to electrical engineering and can be used for non-contact switching of the taps of high-voltage transformers.

According to the main author St. 758462. A device for controlling thyristors with antiparallel switching on of a high voltage switch is known, comprising a thyristor unlocking unit and a transmission cable with a control pulse distribution system made on sealed magnetically controlled contacts with ferromagnetic springs (reed switch) connecting the control electrodes of antiparallel thyristors via a limiting resistor, and Reed switch excitation windings are connected by a low-voltage cable to the thyristor unlocking unit [1].

The disadvantage of this device is the dependence of the reliability of the switch on the health of the unlocking unit. If the control signals at all outputs of the control unit disappear, all the power thyristors will shut off and the voltage across them will reach the full mains voltage (35 110 kV), which will lead to their breakdown.

When control signals appear simultaneously at two or several outputs of the control unit, the thyristors of the corresponding steps will open simultaneously, which will lead to a short circuit of a part of the transformer winding.

The purpose of the invention is to increase reliability by eliminating emergency ' ^υ modes in case of damage in the unlocking unit.

This goal is achieved in that the device for controlling thyristors with antiparallel switching of the high-voltage switch is equipped with a backup power source and a protection unit made in the form of a coil with windings of 20 each number of outputs of the thyristor unlocking unit and a switching reed switch, near which a permanent magnet is located, and the coil windings are turned on between each output of the thyristor unlocking unit and the moving contact of the reed switch, the fixed contacts of which are connected between the negative outputs of the backup power supply and thyristor unlocking unit, and the positive output of the backup power supply is connected to one of the excitation windings of the control pulse distribution system.

The drawing shows a diagram of a device.

A thyristor control device with antiparallel switching of a high-voltage switch comprises a thyristor unlocking unit 1 consisting of a power supply 2 and a switching unit 3, and a control pulse distribution system 4 consisting of field windings 5, b and 7 and high-voltage reed switches 8, 9 and 10, included in the circuit of the control electrodes of the thyristors of the corresponding stage.

The device is also equipped with a backup power source 11 and a protection unit 12, made in the form of a switching reed switch 13, near which a permanent magnet 14 is located, and coils 15, the windings of which are connected between each output of the unlocking unit 1 and the moving contact of the reed switch 13, fixed contacts. which are included between the negative terminals of the backup source 11 and source 2 of the block 1 unlocking thyristors. The positive output of the backup source 11 is connected to one of the field windings, for example 7.

The device operates as follows.

If there is no damage in the control unit 1 there is a signal at one of its outputs. - In this case, a current flows through one of the windings of the coil 15. The magnetic field generated by the coil 15 is compensated by the permanent magnet field 14 and does not affect the reed switch 13. The backup power source 11 is idling, and the common plus of all field windings is connected via a reed switch 13 with the minus terminal of source 2 of block 1. When switching from one steps to another, the current disappears in one winding of the coil 15 and appears in another. Thus, during normal operation of the control unit in the coil 15 one of the windings always turns on.

In the event of a malfunction in the control unit 1, two situations are possible: a complete disappearance of the signals at the output or the simultaneous appearance of signals at several outputs. In any case, this will lead to the imbalance of the total magnetic field (forming the magnetic field of the coil 15 and the field of the magnet 14), affecting the reed switch 13 and its operation. In this case, the total plus OTt is switched off from ¹ 'minus' ^{1 of} source 2 of unit 1 and connected to ¹ 'minus''of the backup power source 11.

This leads to rupture of the power circuits of all field windings and the supply of power from a backup source to only one of the field windings, for example, to winding 7.

Thus, in case of any damage in the control unit (damage in the switching unit or power supply), one of the steps of the switch is reliably turned on, thereby eliminating the risk of emergency conditions and increasing the reliability of the device.

Claims (1)

one of the excitation windings of the control pulse distribution system F In the drawing, a diagram of the device is shown. A thyristor control device with an antiparallel vI switching on a high voltage switch contains a thyristor unlocking unit 1 consisting of a power supply 2 and a switching unit 3, and a control pulse distribution system 4 consisting of excitation windings 5fb and 7 and high-voltage reed switches 8, 9 and 10 included in the thyristor control electrode circuits of the corresponding step. The device is also equipped with a reserve. power supply 11 and a protection unit 12, made in the form of a switching reed switch 13, near which a permanent magnet J. 4 is located, and coils 15, the windings of which are connected between each output of the unlocking unit 1 and the movable. 13, fixed contacts. Which are connected between the negative leads of the backup source 11 and the source 2 of the block 1 unlocking the thyristors. The positive lead of the backup source 11 is connected to one of the field windings, for example 7. The device operates as follows. In the absence of damage in block 1 of the control there is a signal at one of its outputs. ; In this case, a current flows through one of the windings of the coil 15. The magnetic field created by the coil 15 is compensated by the field of the permanent magnet 14 and does not affect the reed switch 13, Backup power supply 11 when idling, and the common plus of all excitation windings is connected via a reed switch 13 with a minus terminal of source 2 of block 1. When switched from one stage to another, the current in one winding of coil 15 disappears and appears in another. Thus, during normal operation of the control unit, one of the coil 15 always turns on; windings. In the event of a malfunction of the control unit 1, two situations are possible: complete disappearance of the signal at the output or simultaneous reception of signals at several outputs. In any case, this will disrupt the balance of the total magnetic field (forming the coil 15 with the magnetic field and the magnet 14). reed switch 13 and its operation. In this case, the common plus is disconnected from the minus of the source 2 of unit 1 and connected to the minus of the backup power source 11. This leads to the breaking of the power supply circuits of all field windings and supplying power from the backup source to only one of the field windings, for example winding 7. Thus , in case of any damage in the control unit (damage | de1sh in the switching unit or operation; power supply), one of the switch stages is reliably activated, which eliminates the danger of emergency operation and increases by ezhnost operation. Claims An apparatus for controlling thyristors with an anti-parallel switch-on of a high-voltage switch according to the author. St. No. 758462, characterized in that, in order to increase reliability, it is equipped with a backup power source and a protection unit, made in the form of a coil with windings according to the number of outputs of the thyristor unlocking unit and switching reed switch, near which a phesto magnet is located, each output of the thyristor unlocking unit and the moving contact of the switching reed switch, the fixed contacts of which are connected between the negative terminals of the backup power source and the thyristor unlocking unit, and backup power supply terminal is connected to one of the excitation windings sistegly distribution control pulses. Sources of information taken into account in the examination of 1, USSR Copyright Certificate No. 758462 class, H 02 R.13 / 16, 1977.