RU5686U1 - DEVICE FOR PROTECTING THREE PHASE LOAD AND AC ELECTRIC NETWORK - Google Patents

Abstract

1. A device for protecting a three-phase load and an alternating current electric network from abnormal operating modes, comprising a three-phase power switch with a control terminal and output terminals for connecting to a three-phase load, an emergency switch with a control terminal and input terminals for connecting to an electric network, connected its output terminals to the input terminals of the power switch, and a reacting organ connected to the output terminals of the power three-phase switch, characterized in that The organ contains two blocks of artificial midpoint formation, two threshold devices and an analyzer, while the three input terminals of the first block of artificial midpoint formation are connected to the input terminals of the power switch, and the output of this block is connected to the first input of the first threshold device, three input terminals of the second the artificial midpoint formation unit is connected to the output terminals of the power switch, and the output of this unit is connected to the second input of the first threshold device, the output of which connected to the first input of the analyzer, two input terminals of the second threshold device are connected to two output terminals of the power switch, the output of the second threshold device is connected to the second input of the analyzer, the third input of which is connected to the control terminal of the power switch, and the analyzer output is connected to the control terminal of the emergency switch. 2. The device according to claim 1, characterized in that each of the blocks for the formation of an artificial midpoint is three identical resistors connected according to the "star�

Description

DEVICE FOR PROTECTING THREE PHASE LOAD AND AC ELECTRIC NETWORK

The utility model relates to electrical engineering and can be used in relay protection schemes of three-phase loads and three-phase electrical networks

from abnormal operating modes.

A device for the protection and control of a three-phase AC voltage source, containing three fuses, the first conclusions of which are designed to connect to the corresponding terminals of the protected source, and the second conclusions are intended to connect to the corresponding terminals of the load, and a reactive organ, which contains two blocks for the formation of artificial average points connected respectively to the first and second terminals of the fuses, and a current indicator connected between the output terminals et their blocks (RF Patent No. 2020683, CL N 02 N 7/10, 1992).

This device protects the three-phase electrical network from abnormally high currents flowing through the load, due to the failure of fuses. At the same time, there is no monitoring of the presence of voltage on the load when all the fuses are broken, as well as the presence of a dangerous potential difference between the electrical circuits of the load and the supply network, and the reacting organ is used as an indicator.

Closest to the claimed device for the achieved result is known from the author. testimonial. USSR No. 1690066, class N 02 N 7/08, 1989 a device for protecting a three-phase load and an alternating current electric network from abnormal operating modes, comprising a three-phase power switch with a control N 02 N 7/00

with an output terminal and with output terminals for connecting to a three-phase load, an emergency switch with a control terminal and with input terminals for connecting to an electric line, connected with its output terminals to the input terminals of the power switch, and a reacting organ connected to the input terminals of the power three-phase switch.

However, this device requires the use of a neutral wire of the supply network.

The main technical result achieved by the implementation of the described utility model is the elimination of the use of the neutral wire of the supply network and ensuring the sensitivity of the reacting organ to the constant component that appears on the phase line of the supply network.

The specified technical result is achieved due to the fact that in the device for protecting a three-phase load and an alternating current electric network from abnormal operating modes, comprising a three-phase power switch with a control terminal and with output terminals for connecting to a three-phase load, an emergency switch with a control terminal and input conclusions for connecting to the electric network, connected by its output terminals to the input terminals of the power switch, as well as a reacting organ that is connected to the output the output of the three-phase power switch, the reacting body contains two blocks for the formation of an artificial midpoint, two threshold devices, as well as an analyzer, with three input outputs

the first artificial midpoint formation unit is connected to the input terminals of the power switch, and the output of this unit is connected to the first input of the first threshold device, the three input terminals of the second artificial midpoint formation unit are connected to the output terminals

power switch, and the output of this unit is connected to the second input of the first threshold device, the output of which is connected to the first input of the analyzer, two input terminals of the second threshold device are connected to two output terminals of the power switch, the output of the second threshold device is connected to the second input of the analyzer, the third input of which connected to the control terminal of the power switch, and the analyzer output is connected to the control terminal of the emergency switch.

Each of the blocks for the formation of an artificial midpoint can be three identical resistors included in the "star, the middle point of which is connected to the output terminal of this block. The output of the analyzer can be connected to the control output of the emergency switch through a temporary discrimination unit. Between the first and second inputs of the first threshold device, a low-pass filter may be included. The device may further comprise a unit for monitoring the presence of all phases of the supply network, the three input terminals of which are connected to the three input terminals of the emergency switch, and the output terminal is connected to the additional input of the analyzer.

The drawing shows a block diagram of the described device.

The device contains a three-phase power switch 1 connected to a three-phase load 2 and through an emergency switch 3 to a three-phase electrical network A, B, C. The reaction body 4 is used to determine all possible abnormal operating modes arising from malfunctions in the power switch 1, load 2 and in the electrical network, and for supplying control signals to the emergency switch.

The reacting body 4 contains two blocks 5, 6 for forming an artificial midpoint, two threshold devices 7.8, an analyzer 9 and a temporary discrimination unit 10 connected to the control terminal 11 of the emergency switch 3. The drawing shows a particular case of blocks 5, 6, each of which has the form of three identical resistors connected according to the star pattern, the middle point of which is connected to the output terminal of the block.

The input terminals of blocks 5, 6 are connected respectively to the input and output terminals of the power three-phase switch 1, the output terminals 12, 13 of these blocks are connected, respectively, to the first 14 and second 15 inputs of the first threshold device 7, the output of which 16 is connected to the first input 17 of the analyzer 9. Two input terminals 18, 19 of the second threshold device 8 are connected to two output terminals of the power switch I. The output terminal 20 of the second threshold device 8 is connected to the second input 21 of the analyzer 9.

The third and fourth inputs 22, 23 of the analyzer 9 are connected to the control terminals 24, 25 of the power three-phase switch 1.

The analyzer 9 is designed in such a way that in it the logical signals supplied to the inputs 22 and 23 are logically summed, then according to the logic “Exclusive OR, a signal is generated based on the received sum and the signal received at input 21, the resulting signal and the signal from input 17 are fed to two inputs of the block “OR, the output of which is connected to the output 26 of the analyzer.

A dangerous situation for the power switch and power wiring can occur when the electrical connections (for example, during breakdown of insulation) of the load circuits and supply wires of the electric network with circuits under different DC or low frequency potentials. To increase the sensitivity of the device to the presence of such a potential difference between the first 14 and second 15 inputs of the first threshold device 7, a low-pass filter 27 is included.

In order to detect a situation where “phase imbalance occurs already in the circuits of the supplying electric network of a three-phase alternating current (for example, when the supply wire breaks along one of the phases or an excessive asymmetric load) the device also contains a block 28 for monitoring the presence of all phases of the supply network, three input terminals which are connected to the three input terminals of the emergency switch 3, and the output terminal to the fifth input 29 of the analyzer 9. Block 28 contains, for example, three threshold devices for detecting the presence of a normal level of variable conjugation between input phases and a logic detection circuit tripping absence of at least one of them.

In this case, the analyzer 9 contains an additional input 29 of the OR circuit connected to the output of block 28.

The execution of the switch 1 reversible allows you to, when a signal YI is applied to its control terminal 24, to obtain a certain sequence of phases at its output terminals, for example, ABC. When signal 2 is applied to control terminal 25, two of the three phases in the indicated sequence will swap places, giving, for example, an ACB sequence at the same terminals.

The device operates as follows.

In the absence of a turn-on signal in the normal state, when all the contacts of switch 1 are open and all three phases are present at its input, the output 12 of block 5 of the formation of the artificial midpoint is a signal close to zero (artificial midpoint of a three-phase network), and the electric the output circuit 13 of the block 5 for generating the output artificial midpoint is broken, at the output 16 of the threshold device 7, i.e. at the input 17 of the analyzer 9 there is no signal, there are no signals at the other inputs 21, 22, 23 of the analyzer 9, therefore, there is no signal at its output 26 and at the output of the reacting organ 4.

When a signal Yj (or US) is applied to turn on the power three-phase switch 1 and when all its contacts operate normally, all phases are present at the input and output of switch 1, there are no signals at outputs 12 and 13 of blocks 5 and 6, but there is a signal at the output of the second threshold device 8. This signal, as well as signal YI (2), respectively, are input to inputs 21 and 22 (23) of analyzer 9, in which a signal is generated according to the logic “Exclusive OR from signals at inputs 21 and 22 (23), this the generated signal is summed with the signal received at input 17, and ultat is fed to the output of analyzer 9. In this case, the output will be logical “О, which indicates the normal mode of operation of the entire system.

If the signal to turn on Yi (or Ya) is not supplied, and at the output of the power switch 1 (due to its malfunction, for example, breakdown in three phases), all phases of the supply voltage are present, the signals at the inputs 17, 22 and 23 of the analyzer 9 will be be absent, and voltage 21 (logic 1) will be supplied to input 21 from the output 20 of the threshold device 8. In this case, the signal generated by the function “Exclusive OR from the control signals (Yi, Y2) and the signal from the output of the threshold device 8 will give an alarm signal. The analyzer 9 will give a signal at the output terminal 26, which, having passed through the temporary discrimination unit 10, will go to the control terminal 11 of the emergency switch 3, which will disconnect the entire system from the three-phase electrical network. The same result will be when applying to the control outputs 24, 25 of the power three-phase switch 1

the control signal to turn on and the absence of voltage at all output terminals of the switch 1 (due to its malfunction, for example, a break in three phases).

When the phase imbalance at the output of the power switch 1 due to a break or breakdown in one or two phases in the power circuit section between the connection points of the input terminals of the blocks 5, 6 of the formation of an artificial midpoint at the input of the threshold device 7, a voltage appears due to the different level of signals at the outputs 12 and 13 formers artificial midpoint at the input and output of the power switch 1 (blocks 5 and 6, respectively). In this case, the threshold device 7 will generate a logical 1 signal at the output, which, passing through the analyzer 9 and the temporary discrimination unit 10, will turn off the emergency switch. (The state of “phase imbalance occurs when a break or breakdown in the power switch 1 or connecting wires in this area.).

Block 10 of temporary discrimination does not pass pulse signals shorter than a specified value of duration, which prevents the emergency switch 3 from being turned on during transient control processes of the power switch and its operations, as well as when random voltage pulses appear at the output of the analyzer 9.

If there is a potential difference between the circuits of the power supply network and the load circuits before the signal Yi (or 2) is applied to turn on the power switch 1, a potential difference will appear between the outputs 12 and 13 of blocks 5 and 6 of the artificial midpoint formation, which will lead to the generation of a logical signal “1 at the output of the threshold device 7. The analyzer 9 will generate a signal to turn off the emergency switch 3. As a result, using the emergency switch 3, the three-phase network will be disconnected from the power switch 1, thereby preventing m dangerous current flowing through power wires and power switch 1.

In the presence of a dangerous “phase imbalance, which has already occurred in the circuits of the supplying electric network of a three-phase alternating current, block 28 will detect such a situation and give a signal that triggers the emergency switch 3.

Claims (5)

1. A device for protecting a three-phase load and an alternating current electric network from abnormal operating modes, comprising a three-phase power switch with a control terminal and output terminals for connecting to a three-phase load, an emergency switch with a control terminal and input terminals for connecting to an electric network, connected its output terminals to the input terminals of the power switch, and a reacting organ connected to the output terminals of the power three-phase switch, characterized in that The organ contains two blocks of artificial midpoint formation, two threshold devices and an analyzer, while the three input terminals of the first block of artificial midpoint formation are connected to the input terminals of the power switch, and the output of this block is connected to the first input of the first threshold device, three input terminals of the second the artificial midpoint formation unit is connected to the output terminals of the power switch, and the output of this unit is connected to the second input of the first threshold device, the output of which connected to the first input of the analyzer, two input terminals of the second threshold device are connected to two output terminals of the power switch, the output of the second threshold device is connected to the second input of the analyzer, the third input of which is connected to the control terminal of the power switch, and the analyzer output is connected to the control terminal of the emergency switch.  2. The device according to claim 1, characterized in that each of the blocks for the formation of an artificial midpoint is three identical resistors included in the "star" circuit, the midpoint of which is connected to the output terminal of this block.  3. The device according to claims 1 and 2, characterized in that the output of the analyzer is connected to the control output of the emergency switch through a temporary discrimination unit.  4. The device according to claims 1 to 3, characterized in that a low-pass filter is included between the first and second inputs of the first threshold device.  5. The device according to claims 1 to 4, characterized in that it further comprises a control unit for the presence of all phases of the supply network, the three input terminals of which are connected to the three input terminals of the emergency switch, and the output output to the additional input of the analyzer.