SU734828A1 - Device for monitoring the status of three-phase load cut-outs - Google Patents

Description

(54) DEVICE TO CONTROL

THREE-PHASE LOADING FUSES The invention is intended for use in automation equipment and power supply of electrical radio devices. Devices for monitoring the state of three-phase load fuses are known, which contain indicator lights connected in parallel to each fuse 1. The closest in technical essence to the present invention is a device that contains a turn-on element connected between the middle points of two three-phase voltage dividers connected to fuses from the mains, and load | 2. A disadvantage of this device is the control of the state of the fuses with a threshold element in the form of an electromagnetic relay having the desired isolation between the input and the output (actuating contact groups), are large dimensions and power dissipated in three-phase dividers, and low reliability of operation when protecting circuits of three-phase electric motors , in view of the small value of the output voltage (on the threshold device) during the combustion of one fuse. The latter is explained by the fact that the voltage on the "de-energized phase winding of the electric motor decreases relatively little, especially with a small load on the motor shaft. The aim of the invention is to reduce power consumption, dimensions and increase the reliability of operation of the device for monitoring the state of three-phase load fuses. The goal is achieved in that in the device for monitoring the state of three-phase load fuses, the threshold element is made of a series-connected diode and a storage capacitor, in parallel with which is connected a series circuit of a zener diode, a resistor, a transformer winding and a base-emitter junction of the transistor, whose collector is through the second winding a pulse transformer is connected to a common point of connection between the zener diode and the capacitor. The drawing shows a diagram of a device for monitoring the state of three-phase load fuses.

3

The fuse condition monitoring device contains two three-phase voltage dividers consisting of resistors 1–3 and resistors 4–6, respectively, connected in a star circuit. The threshold unit 7 is included between the zero points of 5 stars. The shoulders of three-phase dividers, formed by resistors 1-b, are connected to fuses 8-10, included in each phase of the three-phase mains, and the arms, formed by resistors 1, 2 and 4, are connected to fuses from the mains side, and the shoulders formed by resistors 3, 5 and 6 are connected to the fuses on the load side. Between the zero points of the three-phase voltage dividers are included the elements of the threshold unit 7, the diode 11 and the capacitor 12, in parallel with which is connected a series circuit of Zener diode 13, resistor 14, windings of pulse transformer 15 and base-emitter junction of transistor 16, the collector zo through which the second the winding of the pulse transformer is connected to the common point of connection of the Zener diode 13 and the capacitor 12. In parallel with the third winding of the pulse transformer 15, a control switch input is connected via a diode 17 (thyristor) 18. Third winding of the transformer is shunted by resistor 19.

In the initial state, all three fuses 8–10 are intact, therefore the three-phase M voltage supplying resistors 1–6 are the same, as a result of which the voltage between the zero points of the star is close to zero. If a fuse blows, for example, 8, as a result of a fault in the load, the voltage at the junction of resistors 4-6 will increase, and charge of the capacitor 12 through diode 11 occurs. When the voltage across the capacitor exceeds the voltage of the zener diode 13 through the resistor 14, the winding of the transformer 4 in the matrix 15 and the base-emitter circuit of the transistor 16 passes a current causing an increase in the current in the winding of the pulse transformer connected to the collector circuit of the transistor. The presence of positive feedback between the windings in the collector circuit and the base of the transistor leads to an avalanche increase, and then decreases

the collector current of the transistor, which forms a current pulse, de-energizes the capacitor 12. The generated positive-voltage pulse from the third winding of the pulse transformer flows through the diode 17 to the control electrode of the thyristor 18, which goes into the open state, including , control, protection or control elements.

Similarly, the device operates when two or three fuses are burning. The resistor 19 shunts the winding of the transformer 15, excluding the occurrence of oscillatory processes and the false positives of the device when exposed to impulse noise.

Due to this combination of elements, a significant decrease in power consumption, dimensions of the device and an increase in the reliability of its operation is ensured while protecting the fuses of three-phase electric motors.

Claims (2)

1. USSR author's certificate number 550698, cl. H 01 H 85/30, 1971. 2. USSR author's certificate number 559298, cl. H 01 H 85/30, 1974.