SU892648A2 - Device for control of high-voltage change-over switch - Google Patents

Description

(W) DEVICE FOR CONTROLLING THE THIRISTORS OF A HIGH-VOLTAGE SWITCH

Claims (2)

The invention relates to electrical engineering and can be used in devices for controlling thyristors of a high-voltage tap changer of a power transformer. According to the main author. St. No 75VA62, a thyristor control device with an anti-parallel connection of a high-voltage switch is known, which contains a thyristor unlocking unit that transmits a cable with a control pulse distribution system, and the control pulse control system is made on sealed magnetically controlled coils with ferromagnetic springs (reed switches) containing between each other, equalizing electrodes of anti-parallel-connected thyristors through a limiting resistor, and the excitation windings of the reed switches are connected nym enes Low-voltage cable to the unit thyristors unlocking p. However, the known device has limited application, since it allows controlling thyristors only discretely. The purpose of the invention is to expand the field of application by changing the conductivity of the thyristors within the switching stage. This goal is achieved by the fact that the known device is equipped with additional resistors and reed switches located in the zone of magnetic influence of the excitation winding in such a way that each subsequent reed switch is removed from the core of the excitation winding a distance greater than the previous one, and the contacts of all reed switches are connected in series with resistors and included in parallel circuits between control electrodes of anti-parallel connected thyristors of a given degree. Such a device design allows, by changing the voltage on the 3 excitation winding, to change the number of simultaneously switched on reed switches, and consequently, the value of resistance in the target of the control electric; thyristors, thereby changing their conductivity within this stage. The drawing shows a cell of parallel-connected thyristors controlled by reed switches. The device comprises a dielectric case 1 in which an excitation winding 2 with a ferromagnetic core is placed, separated by an insulation layer 3, and reed switches located in the zone of magnetic influence of the excitation winding 2. Consistently with each reed switch, resistors-8-11 are connected between the control electrodes of thyristor 12, control unit 13 contains a voltage control unit 14, a source 15 and, a varying voltage, and selective contacts 16-18, the device operates. As follows. When the contact 17 is open, the voltage to the excitation winding 2 does not arrive and the reed switches 4-7 are open and the thyristors 12 are locked. This stage is disabled. The voltage monitoring body 14 continuously monitors the voltage level at the load and accordingly changes the voltage at the output of source 15. When a command is received to turn on this stage, contact 17 is closed and the voltage of source 15 is applied to excitation winding 15. Depending on the magnitude of this voltage, a certain value of the magnetic field created by the winding is established. 2. In this case, one or several (depending on the magnitude of the field) reed switches are triggered and a certain resistance is inserted into the thyristor control circuit that provides the required voltage value at the load. If it is necessary to increase the voltage on the load, the voltage automatically increases at the output of the source 15. At the same time, the magnetic field of the winding 2 is amplified and the reed switches 6 or 6 and 7 that are farther from the winding (depending on the size of the field) are activated and the resultant the resistance in the control circuit of thyristors 12 decreases, and the voltage across the load increases accordingly. If it is necessary to reduce the voltage at the load, the process proceeds in the reverse order and the reed switches begin to open (starting from the most remote), increasing the resulting resistance in the thyristor control circuit 12. Thus, a change in the thyristor conductivity occurs within the switching stage, which allows finer control of the voltage in the load and thereby expand the scope. devices. Claims An apparatus for controlling thyristors of a high-voltage switch according to the author. St. No. 758462, characterized in that, in order to expand the field of application, it is provided with additional resistors and additional reed switches located in the zone of magnetic influence of the excitation winding so that each subsequent reed switch is removed from the core of the excitation winding by a distance greater than the previous one, and the contacts of all reed switches are connected in series with resistors and connected in parallel circuits between control electrodes of anti-parallel connected thyristors of this stage. Sources of information taken into account during the examination 1. USSR author's certificate. No. 758462, class, N 02 P 13/16, 1977.