SU886096A1 - Device for indicating state of safety cut-outs in three-phase network - Google Patents

Description

(54) DEVICE FOR INDICATING THE STATE OF FUSES IN A THREE-PHASE NETWORK

I

This invention relates to relay protection and can be used to indicate the status of fuses in a three-phase AC network.

A device for indicating the state of the fuses in a three-phase network, containing two three-phase voltage dividers connected to the fuses, and a threshold element connected between the zero points of the dividers 1 are known.

A disadvantage of this device is low reliability.

Closest to the present invention is a device for indicating the state of the fuses in a three-phase network, containing two three-phase voltage dividers connected to the pre-disconnectors, connected between the zero points of the dividers and a series circuit from a diode and a capacitor, parallel to which. A series circuit of a Zener diode, a resistor, a winding of a pulse transformer and a base-emitter junction of the transistor is turned on, the collector of which is connected to the common winding through the second winding of a pulse transformer.

FS4Ke compounds mentioned Zener diode and capacitor 2.

A disadvantage of the known device is the lack of reliability of operation at increased rates of change in the supply voltage (large values), when the capacitance between the windings of the pulse transformer is sufficient to pass a short pulse from the supply circuit to the output thyristor control circuit,

10 of the occurrence of false positives, as well as the lack of reliability of operation under the conditions of the magnetic field of the permanent magnet or electromagnet, which can lead to nasi magnetic circuit. The introduction of a pulseless transformer without a magnetic circuit with small capacitance values between the windings is unacceptable in connection with a significant increase in size and complication of the device.

The purpose of the invention is to increase reliability

20 work and simplify the device.

The goal is achieved by the fact that a device for indicating the state of the fuses in a three-phase network, containing two three-phase voltage dividers connected to you. A fuse on the source side of the source and load, a series-connected diode and a capacitor connected between the zero points of the dividers, a bipolar transistor, a zener diode and resistors, finally contain a second bipolar transistor, the opposite conductivity of the first, and the optical element whose light emitting element is connected in parallel to the said the capacitor through a circuit consisting of a series-connected emitter-base junction of the first transistor, a zener diode and a base-emitter junction of the second transistor, moreover, the collector of each of the transistors is connected to the base of the other transistor, and their emitter-base junctions are bridged by resistors.

The drawing shows a diagram of the proposed device.

The device contains two three-phase voltage dividers, consisting respectively of resistors 1-3 and 4-6, connected according to a star circuit. The shoulders of the three-phase dividers are connected to the fuses 7-9 on the mains and load side. Between the zero points of three-phase voltage dividers are connected a diode 10 and a capacitor 11, in parallel with which the light-emitting diode of the optocoupler 12 is connected through a series circuit consisting of an emitter base junction of a transistor 13, shunted by a resistor 14, a zener diode 15 and a base-emitter junction of a transistor 16 resistor-bridged 17, the collector of the transistor 13 is connected to the connection point of the zener diode 15 with the base i of the transistor 16. The collector of the transistor 16 is connected to the connection point of the zener diode 15 with the base of the transistor 1 3

The device works as follows. In the initial state, when the fuses 7–9 are normal and the three-phase voltages feeding the dividers 1–3 and 4–6 are the same, the voltage between the zero points of the dividers is close to zero. If, as a result of a fault in the load, a fuse blows, for example, 8, the voltage between the zero points of the dividers increases. When this happens, the capacitor I charges through diode 10. When the voltage across the capacitor exceeds the voltage unlocked by the Zener diode 15, the resistors 14 and 17 and light output will pass through it} The extending diode of the optocoupler 12 begins to flow, at a certain value of this current resistors 14 and 17 will exceed the voltage of the base-emitter junction of transistors 13 and 16, after which an avalanche-like growth of the base and collector currents of these transistors takes place, due to the closure of the positive feedback ring of current

and ending with the discharge of the capacitor 11. As a result of the discharge of the capacitor 11, a light pulse passes through the light emitting diode of the optocoupler 12, sufficient to turn on the optocoupler, through which the elements of protection, control or control are included. To limit the amount of current through the light emitting diode, a resistor may be connected in series with it.

Similarly, the device operates when two or all three fuses are burned. The capacitance between the light emitting diode i and the output of the optocoupler 12 does not exceed 3 pF, therefore there is a separation between

phases of the mains supply and the actuating element of the optocoupler and reliable operation of the device at elevated rates of voltage variation in the mains supply, such as those occurring during operation of thyristor regulating, stabilizing or transforming devices. All elements of the device practically do not change their parameters when exposed to a magnetic field, therefore reliable operation of the device under conditions of strong magnetic fields, i.e. in apparatus containing permanent magnets or electromagnets. All elements, devices, except for three-phase voltage dividers and diode 10, operate at low. a voltage level not exceeding a few volts, which also makes it possible to increase the reliability of the device, as well as to reduce its mass and dimensions.

By virtue of the composition and functional relationships between the elements, the reliability of the device is improved and simplified.

Claims (2)

1. Author's certificate of the USSR W 559298, cl. H 01 H 85/30, 1975. 2. USSR author's certificate for malicious code N 2546914 / 24-07, cl. H 01 H 85/39, 1977 (prototype).