SU1288779A1 - Relay device - Google Patents

Abstract

The invention relates to the field of automation and is intended in combination with various sensors, such as current, voltage, temperature, light, etc. for control and two-point control of the corresponding quantities. The aim of the invention is to increase the reliability of operation and reduce energy consumption. The comparison of the monitored value with the reference voltage is carried out by a comparator, which uses the operational amplifier 6. The power of the operational amplifier is supplied by the voltage arising on the zener diode 5, in series with which the actuator winding is connected. If the voltage on the capacitor 25 is less than the voltage taken from the divider formed by resistors 12 and 19, the voltage at the output of the operational amplifier 6 is low, transistors 7 and 8 are closed, the executive relay 4 is turned on. As the voltage on the capacitor 25 rises above the threshold value, the voltage at the output of the operational amplifier will increase. When this happens, transistors 7 and 8 open. Transistor 8 bypasses the relay coil 4 and it turns off. Positive feedback is carried out by a resistor 20, which regulates the return factor of the device. A diode 24 serves to eliminate the effect of adjusting the rate of return to the trigger threshold. 1 Il. i СЛ п ГчЭ 00 00 со

Description

The invention relates to automation and is intended in combination with various sensors, such as current, voltage, temperature, light, etc., for monitoring and on-off control of the respective values.

The purpose of the invention is to increase the reliability of work and reduce the energy consumed.

The drawing shows a diagram of the device in case it is used to control alternating current.

The device contains a power source, formed by a ballast capacitor 1, a rectifying bridge 2 and a smoothing capacitor 3, an electromagnetic relay 4, a zener diode 5, an operational amplifier 6, transistors 7 and 8, a current sensor formed by a current transformer 9 and a rectifying bridge 10, constant 11-18 and variable resistors 19-22, diodes 23 and 24, capacitor 25. Terminals 26 and 27 are connected to an AC power supply, and terminals 28 and 29 are connected in series to a controlled current circuit.

The device works as follows.

The alternating current of the mains supply passes through the capacitor 1, is rectified by bridge 2, smoothed by the capacitor 3 and is fed through a resistor 11 to the series-connected winding of relay 4 and zener diode 5, relay 4 is turned on. The voltage arising on the Zener diode 5 is powered by the operational amplifier 6 and the voltage divider on the resistors 12 and 19. The current controlled by the device, the passage through the primary winding of the transformer 9, causes a proportional voltage in the secondary winding, which is rectified by a bridge 10 and through the resistors 22 and 18 is applied to the capacitor 25. If the voltage on the capacitor 25 is less than the voltage between the slider of the resistor 19 and the connection point of the resistors 12 and 19, the output of the operational amplifier 6 is relative to the minus line source s iitani small, transistors 7 and 8 are off, and switch 4 remains enabled. If the current monitored by the device increases, the voltage on the capacitor 25 increases, and when it becomes sick, as the voltage between the resistor slider 19 and the connection point of resistors 12 and 19, the output voltage of the operational amplifier 6 increases, the tractors 7 and 8 turn on . The transistor 8, by this, bypasses the winding of the relay 4, and it turns off. The positive feedback to the input of the operational amplifier is performed by a variable resistor 20, which is controlled by the return coefficient of the device. To eliminate the effect of adjusting the return rate

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A diode 24 serves as a trigger threshold. Diode 23 protects the input of the amplifier against overload with significant magnitude adjustment throws. A variable resistor 19 sets a device response threshold. The variable resistor 22 adjusts the charging time constant of the capacitor 25, thereby achieving a detuning from random short-term surges of the controlled current. Resistor 21 adjusts sensitivity. Resistor 11 reduces the surge current when turning on the transistor 8.

Connecting the relay coil in series to the zener diode allows the current through the zener diode to be used to power the winding, which reduces the capacitance of the ballast capacitor and reduces the size and weight of the device as a whole. Connecting a transistor in parallel with the winding allows the relay to switch without breaking the power supply circuit, and about a constant current through the zener diode is reached when the relay is turned on and off and the power dissipated by it is reduced.

Connecting the collector of transistor 7 through a diode 24 and a resistor 20 to a resistive voltage divider creates the required differential between the turn-on and turn-off currents of the relay, which increases the reliability of the device by reducing the number of switches of the executive relay and its contacts.

Claims (1)

Invention Formula A relay device containing a current sensor, a threshold element, which is used as an operational amplifier, transistor, filling electromagnetic relay, Zener diode, resistive voltage divider, diode, three resistors and terminals for connecting a rectified voltage source, and the emitter of the transistor and the Zener diode anode connected to the output to connect the negative pole of the rectified voltage source, the base of the transistor through the first resistor is connected to the output of the operational amplifier, one of c. one of which is connected to the current sensor, and the other to the midpoint of a resistive voltage divider connected in parallel to the zener diode, one of the terminals of the winding of the executive electromagnetic relay is connected to the output to connect the positive pole of the rectified voltage source, which is reliability of the device and reducing energy consumption, a second transistor is inserted in it, the specified transistor being connected in parallel to the winding performer 1288779 3 An electromagnetic relay, its base is connected via a resistor to another input; the operational resistor is connected to a collector amplifier, another terminal of the winding of the first transistor, which is connected via a subsequent electromagnetic relay and connected to a Zener diode cathode.