SU1309300A1 - Optronic switch - Google Patents

Abstract

This invention relates to the field of electrical engineering. It can be used to switch active or reactive loads, such as relays, electric motors, etc. The purpose of the invention is zero load protection. The device contains a triac optocoupler 1, formed by an opto simistor 2 and a LED 12, control buttons 3, 8 and 9, a rectifier formed by a diode bridge 7 and a filter capacitor 10, a resistor 11, a zener diode 13. To achieve the set goal, the input of the rectifier is connected in series with load terminals and power leads of the optosymistor, in parallel with which the contacts of the control button are connected. The drawing also shows: power terminals 4 and 5, output terminals 14 and 15 of the device to which the load 6 is connected. The new interconnections allow zero protection of the switched load, i.e. after a brief disappearance of the mains voltage and its recurrence, the load does not automatically turn on. 1 il. so oo o soo about o 5 oJ

Description

The invention relates to electrical engineering and is intended to switch a resistive or reactive load of a non-transient current, for example, a relay, electromagnets, Hai-rewattles, actuating motors, etc., and its zero protection.

The aim of the invention is zero load protection.

The drawing shows the circuit of the electronic key.

The optoelectronic switch contains a simistor optocoupler 1, the anode of the optoshimistor 2 is connected via contacts of the first control button 3 to one power supply terminal 4, to the other terminal of the power supply 5 via contacts 6 and the diode bridge 7 of the rectifier is connected to the optoshimistor 2 parallel to the contacts. t () p:) th |; and (pki 8 unrail. To the diode input; I oro vrs-TM 7 a third control button 9 is connected. To the output of the diode 7 of the bridge 7, the filter capacitor 0 is connected, which forms a rectifier with it, and the resistor 11 is connected to the led 12 of the simstar optro by 1, and a zener diode. The load 6 is connected to the output terminals 14 and 15 of the switch.

The key works as follows ib () az {) m.

When the mains voltage is applied, the opto-simulator 2 is locked to it iipiLio - i-uMK) full 1-power supply, and iamrnzhen on load 5, capacitor I) f. Ltra and LED 12 is zero. When button 8 is closed via diode bridge 7, LED 12, resistor 1 1 and load 6, the current is applied to the current. Mains voltage across terminals 4 and 5. Under the "effect of this voltage, load 6 is activated. After opening the contacts of button 8 current through the LED 12 is counted under the action of the voltage on the capacitor 10

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the filter, the opto-simistor 2 is held in the open position, and the load in the on state. At the same time, due to the continuous discharge of the capacitor 10 to the LED 12, the opto-simistor 2 is kept open at those moments when the value of the AC mains voltage passes through zero.

The optosymistor is locked and the load is disconnected by opening the supply circuit with button 3 or by pushing the diode bridge with button 9. In the latter case, the current through the LED 12 does not flow and the optosymistor is locked. In case of a short-term disappearance of the mains voltage, the capacitor 10 is discharged to the LED 12, and in the event of the onset of a voltage in the network, the opto-stimistor 2 and load 6 samos 1 o. Lo is incl. those. ; - :, ON o6i V; K i: B; ie, I i :, iv; nv: f) p1: k; The Zener diode 13 limits the current through the LED when the current of the current is exceeded. / current value LED a.

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containing systemic power control, with druOpotoelectropp, 1Y key, mystor optrok, y; 1 (.d DJ cut contacts with the first KIU: connected; with one terminal, to the one power supply connected load, to the output of the rectifier through a resistor is connected to an optical diode with a central optocoupler, characterized in that, for the purpose of zero protection of the load, the input of the detector 1 is connected at the same time to the terminals of the load and the power terminals of the optosymistor, Gara, 1L, which includes the contacts of the second button cn: t; V. 1epi.

Claims (1)

An optoelectronic switch containing a triac optocoupler, the anode of the simulator through the contacts of the first control button is connected to one power terminal, a load is connected to the other power terminal, and the LED of the triac optocoupler is connected to the rectifier output), which differs in that. that, for the purpose of zero load protection, the input of the rectifier is connected in series with the terminals of the load and the power terminals of the optosimistor, in parallel with which the contacts of the second control button are connected.