SU113672A1 - Relay device - Google Patents

Description

In automatic control systems, relay devices are used consisting of an electromagnetic relay, a magnetic amplifier, and an active-capacitive circuit connected to the control winding of the amplifier.

The proposed device differs from the known ones in that the active capacitor circuit is connected to the control winding of the magnetic amplifier through a bridge of varicone capacitors.

With this design of the relay device, it acquires properties characteristic of electronic controllers (low weight, low inertia, wide range of setpoint variation, ease of changing it, etc.), but it differs from them in its stability and durability.

FIG. Figures 1 and 2 depict the electrical circuit of the proposed device in two versions.

The Executive element of the device is made in the form of an electromagnetic relay / connected to the output of the relay magnetic amplifier 2.

Solid rectifiers 3 provide DC power to the relay coil and a positive feedback amplifier 2, which dramatically increases its gain. To increase the clarity of the triggering of the pelie, magnetic amplifier 2 operates in relay mode. With an increase in the current in the control winding 4 of the amplifier over a certain value, the current in the winding of relay 1 changes abruptly, which ensures the device high accuracy of operation.

The control winding 4 is fed through a rectifier formed by four valves 5 and a bridge 6 connected in series with it, made up of varicode capacitors.

The inclusion of varicose capacitors in the bridge circuit avoids the mutual influence of alternating and direct current circuits and makes it possible to change the capacitive resistance of the varindodes in the non-alternating current circuit by changing the control DC voltage.

No. 113672

and thereby changing the current of the control winding 4 of the magnetic amplifier.

The control voltage to bridge 6 is supplied from a discharge circuit (Fig. 1) made up of active resistance 7 and capacitance 8. Capacity 8 is charged through contact 9 from a constant voltage source, which uses a bridge from solid rectifiers 10 with a voltage divider // and a smoothing capacitance 12.

The proposed device operates as follows.

Contact 9 closes charging capacity 8 of the discharge circuit to a voltage determined by the position of the voltage divider //. The same voltage is applied to the bridge 6 of the varicode capacitors, as a result of which the capacitance of this bridge decreases sharply, the control winding 4 of the magnetic amplifier 2 increases sharply and the relay / turns on.

After the opening of the contact 9, the voltage on the tank 8 begins to decrease exponentially. At the same time, the capacitance of the varixed capacitors increases, and after a certain time, the relay amplifier 2 with a push decreases the current in the relay coil, and as a result, it turns off. The time elapsed from the moment of opening of contact 9 until the moment when the relay 7 is turned off is a time delay of the relay (Building.

The set time in the proposed device can be remotely controlled by varying the voltage of the DC source by moving the movable contact of the voltage divider U /, changing the resistance 7 of the discharge circuit and changing the capacitance 8.

The proposed relay device can be used for pulse counting (Fig. 2). In this case, the control voltage is supplied to the varixed bridge 6 from the capacitor 8, which is charged from the second capacitor 13. The latter is connected via a switch 14 to the power source 10 from which it is charged, or — when counting the next pulse — to the capacitor 5 In the course of these switching operations, the voltage on the capacitor 8 rises stepwise and after a predetermined number of pulses, it reaches the value at which the relay operates.

Subject invention

Claims (2)

1. A relay device consisting of an electromagnetic relay, a magnetic amplifier and a circuit composed of a capacitor and a resistance and connected to the control winding of the amplifier, characterized in that, in order to obtain an open-circuit delay, the specified circuit is connected to the magnetic control winding amplifier through a bridge of varicone capacitors. 2. A relay device according to claim 1, characterized in that, in order to effect the operation of a relay after a predetermined number of pulses, an auxiliary capacitor is applied, charged through a pulse sensor and discharged to a capacitor of the circuit.