SU786004A1 - Optronic change-over switch - Google Patents

Description

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The invention relates to a pulse technique and can be used in devices for automation, control and in relay switching circuits.

A switching device is known that contains a voltage relay whose inputs are connected to one diagonal of a bridge circuit, and stabilizers and resistors are connected to the opposite shoulders of the bridge circuit, respectively.

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A disadvantage of this device is the low switching reliability with a significant decrease or complete disappearance of the supply voltage.

The closest technical solution to the invention is a switching device containing a voltage relay, the inputs of which are connected to one diagonal of a bridge circuit, on the opposite shoulders of which zener diodes and resistors are connected, respectively, to the apyi diagonal of the bridge circuit 1 on the chain

From a capacitor and one winding of a two-position relay, behind a shunt diode, and the voltage relay inputs through another winding of a two-position relay are connected to a second capacitor, to which the power supply busbars f27 are connected.

The disadvantage of this device is its complexity, due to the large number of elements in the relay, for example, 10 ki, which significantly reduces its reliability.

The aim of the invention is to increase the reliability of the switch.

The goal is achieved by

15 that an optoelectronic switch containing the windings of a two-point relay, a bridge circuit, on the opposite shoulders of which are included, respectively, zener diodes and resistors, and

20 one of its diagonals is connected in series with the first capacitor and the first winding of a two-turn-switch turnip, a diode-shunted

than the nougat diagonal is connected to the power supply buses and to the second capacitor, a photo thyristor optocoupler is inserted, the power of which is connected to another diagonal of the bridge circuit, and the fogristor is connected via the second winding relay with a second capacitor and through a separation diode to the power supply bus.

The drawing shows a schematic diagram of an optoelectronic switch.

Zener diodes 1 and 2 and resistors 3 and 4 are connected to the opposite shoulders of the bridge circuit, respectively, and a series-connected capacitor 5 and the first winding of the two-position relay 6, shunted by a diode 7, are connected to its diagonal, —why. the diagonal is connected to the power supply buses 8 and 9 and to the second capacitor 10, the LED 11 of the photo thyristor optocoupler 12 is connected to a different diagonal of the bridge circuit, and the photo thyristor 13 is connected via the second winding of the on-off relay 14 to the second capacitor 1O and through a separation diode 15 with a bus 9, the power supply, the same bus, is connected via a semiconductor diode 16 to a bridge circuit.

The device works as follows.

When voltage is applied to the power supply buses 8 and 9, the first capacitor 5 and the second capacitor 1O begin to charge, and the charge circuit of the capacitor 5 passes from the power source through the semiconductor diode 16 and the first winding of the two-pole relay 6. This turns on the device to its initial position .

In the steady state mode, the first and second capacitors 5 and 10 are charged to the magnitude of the input voltage.

In the steady-state mode, the voltage from the bridge circuit goes to LED 11 and locks it. If the input voltage decreases or becomes zero, the first capacitor 5 will begin to discharge through the bridge circuit and diode 7.

When the voltage drops to the value of the reference zener diode 1 and 2 of the bridge circuit, it becomes non-conducting, and a voltage of opposite polarity arises on the LED 11. In this connection, the photo thyristor 13 is biased. The second capacitor 10 will be discharged through the photo thyristor 13 and the second winding of the two-posi- tion relay 14, and the latter with its contacts (not shown) performs the appropriate switches.

Due to the presence of the isolation diode 15 in standby mode, the discharge of the second or fourth capacitor 10 through the power source, the bridge circuit and the LED 11 will be insignificant, and all the energy stored on this capacitor passes through the second winding of the on-off relay 14.

Claims (2)

1. The patent of Germany No. 1911851, cl. N OZ K 17 / OO, 24.O9.197O. 2. USSR author's certificate number 593313, cl. H 03 K 17/60, 07/03/74 (prototype).