SU868607A1 - Device for registering network voltage loss duration - Google Patents

Description

one

The invention relates to electrical engineering and is intended to control and record the duration of the disappearance of the network voltage in order to impose a ban on the actions of various automatic devices if the duration of the disappearance of the network voltage exceeds the allowable one.

A time relay is known which contains a two-winding relay, capacitors,

diode, thyristor.

However, this electronic time relay cannot monitor the duration of the disappearance of the mains voltage in order to simultaneously block the automation devices, since it does not provide a countdown of time delays after the disappearance of power due to the loss of power by itself.

It is also known a device that contains an electromagnetic two-winding relay, the winding of which through a resistor-shunted capacitor is connected to the dynistor cathode, an additional diode and a capacitor, and the anode of the distor through the diode connected in the direction of the network, is connected

with one of the terminals for connection to the network, and through an additional capacitor with a different output for connecting the G23 network.

The disadvantage of this device is that in it, in the initial, state, considerable mobility is consumed, since the relay controlling the presence of the mains voltage is constantly under current, while consuming electrical energy. In addition, in the process of operation of the device, mechanical contacts are also involved, which, as is well known,

15 are subject to failures. The reliability of their work depends on the nature of the load, on the size of the switched voltage, on the cleanliness of the contacts and on other factors.

20

The purpose of the invention is to reduce power consumption and increase reliability.

The goal is achieved by the fact that in the device for fixing

25 of the duration of the disappearance of the mains voltage, exceeding the preset value, containing a two-winding electromagnetic relay with latching which includes the coil through a diode connected to one of the network terminals.

An optocoupler, a transistor switch and a thyristor are inserted through a capacitor to another output of the network and to one of the transient return coils, the photodiode anode and the optocoupler diode anode of the transistor switch and the thyristor cathode whose collector is connected to the control electrode of the thyristor, and its anode is connected to the switching winding of the relay, the anode of the optocoupler LED is connected to one output of the resistor, the second output of which is connected through a capacitor to the return winding and through the diode to another output of the network.

The drawing shows a circuit diagram of the proposed device.

The device contains capacitors 1 and 2, a two-winding relay 3 with latching and return windings 4 and turning on 5, cutting diodes 6 and 7, resistors 8 and 9, optocoupler 10, a key on transistor 11 and a thyristor 12.

A device for fixing the duration of the disappearance of a network voltage exceeding a predetermined one, works as follows.

When the voltage is initially applied (turned on), the capacitor 1 starts to charge along the circuit: power bus, diode 6, capacitor 1, return winding 4, relay 3. Under the influence of the charging current in the return winding 4, relay 3 returns to its original state. After the capacitor 1 is charged, the current in its circuit is terminated. At the same time, capacitor 2 is also charging. On the circuit: diode b, resistor 8 and the optocoupler 10 LED passes current. The light flux of the LED affects the photodiode of the optocoupler 10 connected to the base circuit of the transistor 11, which is open and in a saturated state.

In the control circuit of the thyristor 12, no current flows, and the thyristor 12 is in the closed state.

In such an initial state, the device can be very long, consuming little power, since the currents flow only through the resistor B and 9, which have nominal values. are great.

As soon as the voltage disappears in the network, the capacitor 1 Ha4HteT discharges along the circuit: resistor Is ,. LED of optocoupler 10, power supply bus, return winding 4, relay 3 and the second capacitor plate 1. If, when the power is turned on, the charge current of capacitor 1 is equal to the response current of relay 3, then the discharge current is significantly less than the response current of relay 3, therefore the discharge of capacitor 1 is much longer than the charging time. The discharge current of capacitor 1 after the disappearance or voltage of the network continues to maintain the glow of the LED of the optocoupler 10, which in turn affects the photodiode of the optocoupler 10, and the transistor 11 continues to be in an open state, which will remain capacitor 1 is not discharged. The discharge time of capacitor 1 is determined by its capacitance, resistance of resistors 8 and return winding 4 of relay 3. It follows that with constant supply voltage, selecting values of resistor 8 and capacitor 1, respectively, adavat different values permissible duration absence of voltage in the network, after which still can work automation devices. As soon as the discharge of the capacitor 1 stops, the LED of the optocoupler 10 goes out, the photodiode of the optocoupler stops its operation and the transistor 11 closes. Through a resistor 9 from the capacitor 2 will flow a current equal to the control current of the thyristor 12, the latter will open. The capacitor 2 is discharged through the turn-on winding 5 of the relay 3 and the open thyristor 12, causing the relay 3 to trip, which by its contacts (not shown) prohibits (blocks) the activation of the automation devices and the proposed device.

Thus, when initially turned on, the capacitor 1, charging, provides the initial state of the relay 3, and when the supply voltage disappears, it is discharged through the resistor 8 and the LED of the optocoupler 10 and the winding 4, provides the necessary time delay, since the device can work only when the light of the light and the optocoupler 10 cease. This circumstance allows you to remove the electromagnetic relay with its contacts.

Claims (2)

1. USSR author's certificate No. 374546, cl. G 01 R 19/16, 14.09.70. . 2. USSR author's certificate №580515, cl. G 01 R 19/06, 29.05.75 (prototype).