SU1029330A2 - Remote control device with zero protection - Google Patents

Abstract

1. DEVICE REMOTE CONTROL WITH ZERO PROTECTION by author. St. No. 915170, characterized in that, in order to expand the functionality of the device and increase its reliability, it is equipped with three additional diodes and a capacitor, which is connected to the anodes of the first and second additional diodes and the cathode of the light emitting diode of the first optocoupler and the second output to the cathode of the first additional diode and to the anode of the photothyristor of the second optocoupler, the cathode of which is connected to the anodes of the third additional and fifth main diodes, the cathode of which is connected to the first output at the main capacitor and through the second closing contact of the relay - to the anode of the sixth main diode connected by its cathode through the photothyristor of the third opto-switch to the cathode of the first additional diode, the cathode of the third additional diode is connected to the cathode of the second additional diode and the anode of the LED of the first optocoupler, and the relay coil. is connected by its outputs respectively to the anode and cathode of the photothyristor of the first optocoupler, shunted by a circuit from a series (L directly connected resistor and the second output winding of the transistor) formators .. 2. A device according to claim 1, characterized in that in it the main capacitor is connected in a non-switchable shunt circuit.

Description

The invention relates to a remote control and can be used in the mining, chemical and other areas to control two- and three-component systems in an intrinsically safe circuit with zero protection in remote-control chains with a small section and quantity.

According to the main author. St. No. 915170 is known a device for remote control with zero protection, containing a stabilized transformer, in which the secondary circuit through the remote control wires includes the Start and Stop buttons, a diode, a resistor and a direct current relay, which is not sensitive to alternating current and is equipped with a block contacts , four optocouplers, five additional diodes and a capacitor, while the Start button is made with switching contacts, and the transformer is made with two additional secondary windings, middle point the first of which is connected to the extreme leads through the relay coil and the outputs of the first and second optocouplers, the first block contacts of the relay are connected in series with the output of the second optocoupler, the second additional transformer winding is connected to the inputs of the third and fourth optocouplers through the first and second diodes, and The second block contacts of the relay are connected to the input of the fourth optocoupler, the outputs of the third and fourth optocouplers are connected in two successive circuits with the third and fourth additional diodes and the inputs of the first and second optocouplers connected oppositely in parallel to each other and through a resistor - parallel to the capacitor connected to the main secondary winding of the transformer in series through the remote control wires and the Stop and Start buttons, in series with the contacts of the latter and opposite in parallel with each other the main and fifth additional diodes With the drawbacks of this device are the low reliability and limited functionality due to the spread parameters of optocouplers.

The purpose of the invention is to expand the functionality and increase the reliability of the device by reducing the influence of the scatter of the parameters of the optocouplers.

The goal is achieved by the fact that the remote control device with zero protection

equipped with additional three diodes and a capacitor, which is connected by the first output to the anodes of the first and second additional diodes and the cathode of the light emitting diode of the first optocoupler and the second output to the cathode of the first additional diode and to the anode of the second optocoupler of the second optocoupler, whose cathode is connected to the anodes of the third additional and the fifth main diode, the cathode of which is connected to the first output of the main capacitor and through the second closing contact of the relay to the anode of the sixth main diode connected by its own The third optocoupler via the photodiode to the cathode of the first additional diode, the third to additional cathode, the diode is connected to the cathode of the second additional diode and the anode of the first optocoupler LED, and the relay winding is connected to the anode and cathode of the first optocoupler of the first optocoupler, shunted by a chain of series connected, respectively. and the second output winding of the transformer.

Moreover, the main capacitor is turned on according to the non-switchable shunt circuit.

The drawing shows a circuit diagram of a device for remote control with zero protection.

The device contains a transformer 1 with one input 2 and three output windings 3 - 5, a DC relay 6 with closing contacts 7 and 8, buttons 9 Stop 10 main capacitor 11, resistor 12, remote control lines 13 and 14, optocouplers 15 - 17 diodes 18 - 26 to an additional capacitor 27,

The device works as follows.

In the initial state when applying voltage, to the winding 2 of the transformer 1, the capacitor 11 is charged along the circuit: winding 3, wire 14 of the remote control, diode 19 of the button 10 and 9, wire 13 of the remote control. The capacitor 11 is charged not in the first start-up, but in the second half period, since the closing contact of the button 10 is open, the optocoupler 16 is open in the second half-period, the optocouplers 15 and 17 are closed. Relay 6 is de-energized, as the alternating current flows through its “winding.

When the button 10 is pressed, its contacts are switched, and the current of the first half-current flows through the capacitor 11 along the circuit: winding 3, capacitor 11, wire 13, button 9, button 10, diode 18, wire 1

Through the output of the optocoupler 16 and the input of the optocoupler 15, the current does not flow, since the optocoupler 16 is closed in the first half period. In the second half-period, the optocoupler 16 opens, and the capacitor 11 discharges along the circuit: the input of the optocoupler 15, diode 24, the output of the ohthron 16, diode 22, and the optocoupler 15 is opened during the half-period, and a current flows through the resistor 12 and its output circuit. In the next first half-cycle, current through the relay coil 6 flows through the circuit: transformer 5 winding, relay 6 winding, resistor 12, transformer winding transformer 5. Relay 6 trips, closes contacts 7 and 8 and turns on the controlled system. With the closure of contact 7 in the first half-periods, the optocoupler 17 opens

(And from 3ah4biKaHHeM of contact 8, the discharge circuit of the main capacitor 11 is prepared for operation

At the end of the start-up, the contacts of the button 10 return to their initial state. In this case, the main capacitor 11 is recharged and will be recharged during the second half-periods, and discharged in the first half-periods along the circuit: relay 8, diode 23, output of the optocoupler 17, capacitor 27, diode 26. In the first half-periods, the capacitor 27 is recharged, and during the second half cycles, the output of the optocoupler 16, diode 25, and the input of the optocoupler 15 is discharged. The optocoupler 15 continues to open in the second half periods, and the relay 6 is flowed around and remains in the on state.

When the button 9 is pressed, the charge circuit of the main capacitor 11 is broken. This causes the optocoupler 15 to close, the relay 6 to turn off, and the circuit returns to its original state. In emergency modes, when the remote control circuits open, the disconnection of relay 6 occurs in the same way. When the circuits 13 and 14 of the remote control are closed, alternating current flows through the capacitor, and discharges it through

0 the input circuit of the optocoupler 15 does not occur and the relay 6 will not turn on automatically, and if the relay is turned on, it will turn off.

The use of the proposed device provides increased reliability by simplifying the circuit and extending the functionality by reducing the influence of the spread of the parameters of the optocouplers.

Claims (2)

(54) (57) 1. DEVICE FOR 'REMOTE CONTROL WITH ZERO PROTECTION ’by ed. St. No. 915170, characterized in that, in order to expand the functionality of the device and increase its reliability, it is equipped with additional three diodes and a capacitor, which is connected by the first output to the anodes of the first and second additional diodes and the cathode of the light-emitting diode of the first optocoupler and the second output - to the cathode of the first additional diode and to the anode of the thyristor of the second optocoupler, the cathode of which is connected to the anodes of the third additional and fifth main diodes, the cathode of which is connected to the first output capacitor and through the second closing contact of the relay - to the anode of the sixth main diode, connected by its cathode through the photo thyristor of the third optocoupler to the cathode of the first additional diode, the cathode of the third additional diode is connected to the cathode of the second additional diode and the anode of the LED of the first optocoupler, and the relay winding is connected by its the findings, respectively, to the anode and cathode of the thyristor of the first optocoupler, shunted by a circuit from a series-connected resistor and a second output winding of the transformer. 2. The device according to π. 1, characterized in that the main capacitor is switched on in it by means of a non-disconnectable shunt.