SU678667A1 - Contact-free three-phase network switching device - Google Patents

Description

The invention relates to electrical engineering, in particular to devices used to turn on and off electrical installations powered by alternating current. Thyristors are widely used as the executive body of contactless switches. Control devices are known that do not have galvanic coupling with thyristor control electrodes, in which sharp-pointed pulses with a frequency greater than the switching voltage l are used to control the thyristors. The disadvantage of this circuit is that they do not always match the control pulse with the beginning of the half-cycle of the switched voltage (the thyristors can operate with a cut-off), and an additional power source is required for the pulse generator. The closest in technical terms to the proposed invention is a switch containing an executive organ consisting of a symmetrical thyristor, two transformers and a control unit on oppositely connected diodes and a transistor 2. The disadvantage of this device is that the windings of the transformers shunt thyristor. This leads to the fact that the no-load current of the transformers flows through the load and therefore the voltage is not completely removed from the load, i.e. switching reliability is reduced. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that in the contactless switch of three phase circuits, containing an actuator, two transformers, a control unit on oppositely connected diodes and a transistor and diode-resiotor circuits, the actuator is made on counter-parallel-connected thyristors and diodes, the transformers are three-phase, with primary winding

The ki of one three-phase transformer are connected in a triangle and connected to the input of the switchboard, the secondary windings are connected in a star and connected to the terminals of the primary windings of another three-phase transformer, the ends of which are connected to the common points of the oppositely connected diodes of the control unit, the end of the secondary phase A winding of the second the three-phase transformer is connected via a diode resistor circuit to the control electrode of the thyristor of phase C of the actuator, similarly the end of the secondary winding of phase B is connected the control electrode of a thyristor phase A, the end of the secondary winding phase C is connected to the control electrode of the thyristor of phase B, and the beginning of the winding connected to the output switch.

The drawing shows the electrical circuit of the switch.

The switch consists of an actuator on thyristors 1, 2, behind diodes 4, 5, 6, two transformers 7 and 8, a control unit on a transistor 9, diodes 10-15, and resistors 16, 17.

The switch works as follows.

The switched three-phase voltage is applied to the input of the switch and simultaneously supplied to the primary windings of the three-phase transformer 7 included in the triangle. The secondary windings of the transformer 7 are connected in a star. With the secondary windings of the transformer

7, the voltage is applied to the primary windings of the three-phase transformer 8, which can be connected to the star through the diodes and the transistor 9, if it is open,

With the secondary windings of the transformer

8, the voltage through the diodes 18-2O and the resistors 21-23 is supplied to the control electrodes of the thyristors 1, 2, 3.

Thus, the thyristors are controlled by a positive half-wave sinusoid, which is ahead of the linear voltage on the thyristor by 60 el. degrees, which provides the voltage supply to the switch load without cutoff. The source of thyristor control voltage is a three-phase voltage that is supplied to the switch input. The control circuit can be triggered by a low-power surge current or by a low-power seamy scan.

The switch can be isiolag in three-phase high-power and low-impedance ones with any load switching circuit. The present invention differs vigidly from known devices with good performance and reliability, does not require an additional power source, allows the use of a low-power control signal, does not have a galvanic connection of a control circuit with a switched circuit.

Claims (1)

1. The patent of Germany No. 1230848, cl. 21 d 36/18, 1964, 2, Dziubin I, I. Thyristors in electrical circuits, M., Energie, 1972, p. 4O, rice, 24,