RU1786654C - Three-phase commutator - Google Patents

Abstract

The invention relates to a pulse technique and can be used to turn on and off a three-phase load. A three-phase switch contains in each switched phase, for example, in A 3 diodes 1,12,18,1 an additional diode 16, 1 thyristor optocoupler 4 with LED 15, 1 output bus 7, as well as 2 control buttons 17, 24, the introduction of three diodes 18, 19, 20 into the device, connected by the anode to the input terminal of the corresponding phase, and by the cathode to the cathode of the thyristor optocoupler LED of the same phase, allowed to reduce the heat loss of the input flail x ty transistor optocouplers and, therefore, increase its reliability. 1 ill.

Description

The invention relates to a pulsed technique and can be used to turn on and off a three-phase load.

A three-phase switch is known, comprising a first diode AND thyristor optocoupler included in each phase of the supply network in series with a load, in two phases the first diode is connected counter-parallel to the thyristor optocoupler; the second diode, the cathode of which is connected to the anode of the LED of the thyristor optocoupler, two control buttons, three resistors, moreover, in the third phase the first diode is connected counter-parallel to the thyristor optocoupler and through the first control button is connected to the anode of the additional Diode, the cathode of the toporo is connected to the cathode of the second the diode of this phase and the anode of the LED of the thyristor optocoupler of the subsequent phase; the first terminals of the resistors are connected to the cathode of the LED of the thyristor optocoupler of the corresponding phase, the second terminals of the resistors of two phases are connected directly to the corresponding input terminal of the next phase, and through the second control button in the third phase; the anodes of the second diodes are connected to the output terminals of subsequent phases.

Its disadvantage is the heat loss in the LEDs, since the current through them, determined by the positive half-period of the linear voltage and the resistor, flows through 180 ° el., Which reduces the reliability of the device.

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that three diodes are introduced into the three-phase switch, connected by the anode to the output terminal of the corresponding phase, and by the cathode to the cathode of the thyristor optocoupler LED of the same phase.

 The essence of the invention lies in the development of a thyristor switch with less heat loss in the input circuits of thyristor rptrons, i.e. in reducing the duration of the control current flowing through the LEDs by appropriately connecting said diodes.

The drawing shows a circuit diagram of a switch.

The switch contains in each switched phase the first diode 1 (2,3) and the side optocoupler 4 (5,6), connected counter-parallel, and connected between the phases A, B, C of the supply network and the load connected to its output terminals 7- 9; the second diodes 10 (11,12) connected by the anodes to the corresponding output terminals 7 (8.9) of the switch, and

cathodes - with the anode of LED 13 (14.15)

optocoupler thyristors 5 (6.4) subsequent

phases B (C, A) and - for diode 10 - in addition, with the cathode of an additional diode 16 connected to the anode via the first control button 17 to phase A; the third diodes 18 (19,20) connected by the anode to the output terminals of the switch, and the cathode to the cathodes of the LEDs 15 (13,14) of the optocoupler thyristors, in addition, the cathodes of the LEDs 13, 14 are connected directly through phases C and A to phases 22,22 and the cathode of the LED

15 through a resistor 23 and a second control button 24 with phase B.

The device operates as follows.

In the initial state, in the presence of the mains voltage, the optocoupler thyristors 4-6 are locked, the load terminals 7-9 are disconnected from phases A, B, C. The switch is turned on by briefly pressing the control button 17. If this happened in mo1

cot-c, then along the chain: phase

A, button 17, additional diode 16, LED 13 of the optocoupler thyristor 5, resistor 21, phase C - a current begins to flow, determined by the linear voltage between phases A and C and the value of the resistance

2

resistor 21; at time from 1

the optocoupler thyristor 5, which is in phase B, is turned on, the load current begins to flow through it; since the potential of phase A is higher than in phase B, diode 19

5 is locked. From time a) .- C, the potential of phase B becomes higher than the potential of phase A, as a result of which the third diode 19 and the optocoupler thyristor 5 are unlocked. The third diode 19, the resistor 21, flows a current determined by the linear voltage

between phases B and C and resistor 21, LED 13 from a point in time

it locks, the current through it stops. Thus, a current flows through the veto diode 13 for 120 e.

The inclusion of the remaining optocoupler thyristors is similar.

Compared with the prototype, the inventive three-phase commutator is characterized in that by connecting the thyristor of the third diode to each LED thyristor, it was possible to reduce the current flowing through the LED by about 20-23% and, accordingly, reduce it

heat loss; The economic effect of the use of the proposed switch is determined by its technical advantages.

Claims (1)

SUMMARY OF THE INVENTION A three-phase switch comprising a first diode and a thyristor optocoupler connected in series with a load in each phase of the supply network, in two phases the first diode is connected in parallel to the thyristor optocoupler. the second diode, the cathode of which is connected to the anode of the LED of the thyristor optocoupler, two control buttons, three resistors, moreover, in the third phase, the first diode is turned counter-parallel to the thyristor optocoupler, and the first diode is connected through the first control button to the anode of the additional diode, the cathode which is connected to the cathode of the second diode of this phase and the anode of the LED of the thyristor optocoupler afterbase;. phase, the first findings of resistors connected to the cathode of the LED of the thyristor optocoupler of the corresponding phase, the second terminals of the resistors of the two phases are connected directly to the corresponding input terminal of the next phase, and in the third phase, through the second control button, the anodes of the second diodes are connected to the output terminals of the subsequent phases, which is due to the fact that. in order to increase reliability, three diodes were introduced, the anodes of which are connected to the output terminal of the corresponding phase, and the cathodes, respectively, to the cathode of the LED of the thyristor optocoupler of this phase.