SU1372462A1 - Power distribution arrangement - Google Patents

Abstract

This invention relates to the field of electrical engineering. The purpose of the invention is to increase the reliability of power supply to loads. When one of the switching devices is disconnected, for example, a fusible insert in the fuse 1 on the side of phase 1 A phase 1, through a rectifier 2, resistor 3 and diode 5, which are installed on the terminal side of phase A, B, C., and through resistor ispolitelnogo organ 4 current pulses flow. The executive body is triggered and signals a violation of electrical transmission. 2 Il. i SL

Description

The invention relates to electrical engineering, in particular, to low-voltage electrical apparatus, and can be used to distribute electricity between parallel-connected loads powered from a common three-phase alternating voltage source, and to transmit information about device operability to the control room.

The aim of the invention is to improve the reliability of power supply loads.

Figure 1 shows a functional electrical circuit diagram of a power distribution device; Fig. 2 illustrates an exemplary embodiment of an electric circuit of an executive body with a relay response and release characteristic used in the proposed device.

The power distribution device (FIG. 1) contains power terminals at the input for connection to the corresponding phases A, B and C of a three-phase power source and at high voltage wires, for example, two that are dedicated to connecting the loads to the phases A, B, C, And Al, B, C ,, In each of the poles of the power supply and load circuits, switching electrical devices are installed, for example, fuses 1, and the device’s power terminals are connected to the inputs of the corresponding three-phase diode rectifiers 2, for example, nnyh by Larionov-phase bridge circuit, wherein the outputs of rectifiers 2 set by the load, ie, from the phase terminals A, B ,, C. and A., B, C, resistors 3 are connected. The outputs of all rectifiers 2, having polarity + output voltage, are directly connected to each other and connected to the input of the actuator 4, which has a relay response and release characteristic, and other rectifier outputs 2, installed on the side of loads, having polarity - output voltage, are connected to the input b of the executive body 4 through diodes 5, and the output of the rectifier 2, installed on the side of the power supply, having polarity - output voltage, is connected to 4, Outputs a) and e,

Complementary body 4 is intended for communication with the control room, from which remote monitoring of the state of fuses 1 in the device is carried out.

The actuator 4 (FIG. 2) contains a resistor 6 at the input, in parallel with which is connected a peak detector 7 consisting of a diode 8, a capacitor 9 and a resistor 1U. The output of the peak detector 7 is connected to the input of a semiconductor relay 11 made on the base of transistor 12 and electromechanical relays 13. Diodes 14 and 15 are designed respectively for the backs of transistor 12 from KOST mutational overvoltages created by electromechanical relay 13, and for reliably locking transistor 12 in the initial state. Zener diode 16 is designed to limit the voltage on the transistor 12. Resistors 17 and 18 are used respectively to increase the noise immunity of the relay 11 and to limit the current in the circuit of the electromechanical relay 13.

The operation of the power distribution device is characterized by the following two modes: the operating mode, when phase voltages are applied to terminals A, B and C, and loads to the terminals of phase A

one

AT. . C. and A.

AT". WITH,

connected and

 i 1 2 7

fuses 1 are in good condition; emergency mode, which differs from the operating mode by the fact that in some kind of fuse (or in the fuse group) the insert fuses,

In the operating mode, the outputs of the rectifier 2 contain straightened voltages of the same form and amplitude. As a result, the diodes 5 turn out to be locked, current does not flow through the resistor 6 of the executive body 4, the transistor 12 is turned off, the winding of the electromechanical relay 13 is de-energized and the contacts of the electromechanical relay 13 are open, which signals the normal operation of the device.

When the fuse link blows, for example, in fuse 1, installed on the side of the terminal of phase A ,, voltage at the outputs of the rectifier 2, installed on the side of the power supply, and at the outputs of the rectifier 2,

installed in the load channel from the side of the terminals A, B, and C, remain the same in shape and amplitude, and the voltage at the outputs of the rectifiers 2 installed in the load channel from the terminal side of the phases A, B and Cj differs (the average value of the voltage here is less) from the voltages acting on the outputs of the remaining rectifiers 2. This leads to the flow of the error current through the resistor 3 to the diode 3, which are installed on the terminal side of the A, B and C phases, and through the resistor 6 of the executive body 4, formed at the same time on the resistor 6 imp The voltage pulses are converted by a peak detector 7 into a constant voltage, under the action of which the transistor 12 opens, current flows through the winding of the electromechanical relay 13 and the contacts of the electromechanical relay 13 are closed, signaling to the control room that the load has been disrupted.

After elimination of the accident in the load, which led to the combustion of the fuse-link fuse 1, and the subsequent replacement of the faulty fuses with a working one, the device automatically returns to the initial state corresponding to the operating mode of its operation.

The device works in a similar way when burning fusible inserts in any other fuses.

Thanks to the alarm (without time delay) at the control room for the combustion of fuses

the time from the moment of occurrence of an accident in loads to the moment of its elimination, i.e. reliability of power supply is increased

Claims (1)

Invention Formula A three-phase AC power distribution device between parallel-connected loads, containing input terminals intended for connecting the device to a three-phase AC voltage source, and output terminals KneMt-bi for connecting loads, as well as switching devices installed at the input and output device, characterized in that., in order to increase the reliability of the power supply to the loads, the device is equipped with three-phase diode rectifiers, resistors, a relay with a tripping characteristic of tripping and release and diodes, the input and output are connected to the inputs of the corresponding three-phase diode rectifiers connected to each other by the first output, and resistors connected to the outputs of the rectifier installed at the outputs of the device, having a relay response and release characteristic, is connected to the second output of the rectifier installed at the device input, the second input of the actuator is connected via diodes the outlets of the rectifiers installed at the outputs of the device, and the third input of the executive body is connected to the first outputs of the rectifiers. FIG. g