SU1398050A1 - Thyristor switching device - Google Patents

Description

(21) 4151310 / 24-07

(22) 11/24/86

(46) 05.23.88. Bul 19 (75) A.E.Aksenov

(53) 621.314.2 (088.8)

(56) USSR Author's Certificate No. 881997, cl. H 02 M 5/22, 1980.

USSR Author's Certificate No. 760329, cl. H 02 M 5/22, 1979.

(54) THYRISTOR SWITCH

(57) The invention relates to electrical engineering. The purpose of the invention is to simplify, expand the scope and increase reliability. Terminals for mains connection are connected to output terminals through photo thyristors of optocouplers 4-6. The photo thyristors are turned on by starting circuits from LEDs. Optopar 4-6, resistors 10, 12, 15, and powering diodes 9, 11, 14. The photo thyristors turn on by briefly pressing the Start button 8 and remain on. and their correct alternation. The photo thyristors are turned off by pressing the button 13 Stop and are turned off when one of the phases of the mains supply is disconnected or when the phases of the mains supply phase alternate. 1 il.

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ABOUT

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The invention relates to electrical engineering and can be applied for: connecting a load of various x-ray to a three-phase AC network, in particular, in an electrical installation where it is necessary to continuously monitor the state of a three-phase network and also monitor the order of phase alternation supply network.

The purpose of the invention is to simplify, expand the scope and increase reliability.

The drawing shows a schematic diagram of the device,

; The switchboard contains counter-parallel diodes | 1-3 and photo-thyristors 4-6 optocouplers connected in parallel between the input and output pins of each phase of the phase. The protective diode 7 is connected in series with the photo thyristor 4 optocouplers, which is bridged with the Start button 8 with normally open contacts, the LED 5 of the optocoupler is connected through the output diode 9 to the output phase hopping A, and through the resistor 10 to the input phase C. The LED of the optocoupler 6 is connected via the decoupling diode 11 to the output terminal of phase B, and through a resistor 12 and the Stop 13 button with normally closed concactants to the input terminal of phase A. The LED of the optocoupler 4 is connected to output phase C and black The resistor 15 is the input terminal of phase B. The device operates as follows

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 In the initial position in the presence of mains voltage and With the right alternation of the phases of the mains supply, the photo thyristors 4-6 optocouplers are locked and the load is de-energized. Switch on

short press the Start button. torus and switch.

8. At the same time, the positive half-period of phase A through the decoupling diode 9 and the resistor 10 unlocks the photo thyristor 5 optocoupler, the positive half-phase B through the photo thyristor 3, the decoupling diode 11, the resistor 12 and the stop button 13 unlocks the optocoupler 6, and the positive After a half phase C, the photothyristor 6, the decoupling diode 14, and the resistor 15 open the photo thyristor 4 optocouplers. Thus, a circular control of the thyristors arises, with all the thyristors unlocked 50

55

Schly and with the fact that the expansion and increase of the reliably valves are made in LEDs and the switch is in Start with normal bars and Stop with molded contacts, the center of the thyristor is connected to the topara, disconnecting the torus and is connected between the previous phase

It is red and the switch remains on when the Start button is released.

When the voltage of one of the mains supply phases disappears or when the phases of the mains supply alternate, the thyristor circular control is cut off, the photo thyristors 4-6 of the optocouplers are closed and the voltage is disconnected from the load. The device can be turned on again only after the normal supply voltage has been restored by pressing the Start button 8 again.

Thus, the device is turned on and held in the on state only when all the phases of the mains supply are present. During the right phase rotation of the mains supply, it is turned off when one of the phases of the mains supply is reached or when the phases of the mains supply alternate. The control of the health of the power supply network is carried out continuously and the device does not spontaneously turn on after the restoration of the normal power supply voltage does not occur, which ensures zero protection,

The device is disconnected by pressing the Stop button 13. In this case, the circular control of the Thyristors is terminated and the device is disconnected as if one of the phases of the power network is interrupted.

Claims (1)

Invention Formula A thyristor switch containing keys connected between the input and output pins of each phase in the form of an anti-parallel-connected diode and controlled valve, as well as the starting circuits of the controlled gates containing a diverging diode and differing from five Sch and with the fact that, in order to simplify, expand the scope and increase reliability, controlled valves are made in the form of optocouplers containing an LED and a photothyristor, and the switch - in the form of two Start buttons with normally open contacts and Stop with normally closed contacts , the start circuit of each photo thyristor is made in the form of a series-connected opto-diode LED, an isolating diode and a resistor and is connected between the output terminal of the previous phase and the output terminal. the house of the subsequent phase, entered by the Start button, was shunted, and the shield diode button was switched on in series. The Stop is connected to the start circuit with one of the photo thyristors, which is one of the photo thyristors.