SU1636922A1 - Device monitoring serviceability of relay protection for electrical apparatus - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to relay protection. The purpose of the invention is to increase the service life of the submersible electric motor in the well. If the insulation resistance of one of the phase chains 14,15,16 of the electric motor 1 decreases below a predetermined value, then a signal is sent from the output of the devices 20,21,22 to the insulation resistance monitoring - to the corresponding switches 23,24,25. As a result, the reacting authorities 26, 27,28 are rebuilt to the operation of current relay elements with improved performance. This protects the circuits of the phases 14, 15, 16 of the electric motor 1 from severe damage after breaking the insulation at another point. This is ensured by the effect of the signals from elements 31, 33, 35 through the element OR 29 and the control unit 36 on switching off the power contacts of the commutator unit 2. 1 Il. (L

Description

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The invention relates to electrical engineering and is intended to monitor the health and redundancy of blocks, modules, functional assemblies and cas-set of electrical equipment relay protection.

The purpose of the invention is to expand the functional capabilities by providing selective redundancy relay blocks for electrical equipment.

The drawing shows a structural diagram of the device.

The device contains input adders 1-3, the adder 4 of the relay protection reserve unit (RZ), designed to sum the input signals of the device and form a signal of their deviation from zero beyond the set value, the inputs of the adders are connected to the outputs of the input adders

cops OR 5 and 6, designed to separate large incoming signals. The outputs of the elements OR 5 and 6 are connected to the inputs of the rectifier -comparator 7, which is designed to rectify the incoming signals at its inputs and compare the received signal with the threshold, its output is connected to the input of the time-delay element 8, the output of the latter is connected to the switch input 9 with a control unit intended to form, by a failure signal, control signals of the selective switching units 10 and 11 and the reserve switching unit 12. The switch 9 with the control unit is made in the form of a generator of 13 rectangular pulses, the output of which is connected to the input of the distributor 14 pulses per quantity

five

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five

0

five

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, the LEDs of the optotransistor 16 of the selective switching unit 11, the LED of the optotransistor 17 of the reserve switching unit 12 and the resistor 21. Similarly, the fourth channel is formed by a chain of the optotransistor LEDs. 18 of the selective switching unit 10, the optotransistor LED 19 of the selective switching unit 11, the light diode of the optotransistor 20 of the reserve switching unit 12 and the resistor 22. Thus, the control of the cassette 1 health check channel 1-4 is controlled, the inputs blocks 11,12 selective switching are connected in parallel and connected respectively to the outputs of the input adders 5-8. Blocks 11.12 are designed to provide selectivity (sequence) for checking control cassettes 1-4 in order to determine by unit 14 faults. Each of the inputs of the blocks 11, 12 is connected to its output of the input adder.

Blocks 10 and 11 of selective switching consist of phototransistors, block 10 of selective switching provides the passage of negative polarity signals.

The outputs of blocks 10 and 11 of selective switching are connected to the inputs of the second rectifier -comparator 23, designed to rectify the signals arriving at its inputs and to compare the received signal with its threshold, and its output is connected to the input of the reserve switching unit 12.

The input of the block 12 switching reserve is connected to the collector of the optotransistor 20 of the control channel of the block 24 pe

in signals, equal to the number of controllable-45 Relay protection and with a chain

main and backup cassettes of the main protection device. Each of the outputs of the 14-pulse distributor is connected to the control channel of blocks 10 and 11 of the selective switch 50

series-connected disconnecting contacts 25 relays 26.27 relays

28 and 29 Relay 30. A chain of serially connected contacts 25,27,

29 is connected to collectors of photo-resistors designed to control the main blocks 31-33 of the relay protection, the emitters of which are connected to the coils of the relays 26,28,30, the other output of which is connected to the power supply.

tion and block 12 switching reserve. The control channel is a chain of series-connected LEDs of optotransistors 15-20, respectively, of each switch and current limiting resistor 21-22. For example, the first channel is formed by a chain of LEDs of the optotransistor 15 of the selective switching unit 10

series-connected disconnecting contacts 25 relays 26.27 relays

28 and 29 Relay 30. A chain of series-connected contacts 25,27,

29 is connected to the collectors of the phototransistors intended for controlling the main blocks 31-33 of the relay protection, the emitters of which are connected to the coils of the relay 26,28,30, the other output of which is connected to the power source.

Similarly, the emitter of the optotransistor 20 is connected to the coil of the relay 34, the other output of which is also connected

to the power source. The emitters of phototransistors are also connected via make contacts 35-38, respectively, relays 26,28,30,34 are connected to the disconnecting button 39 of the reset and then to the other pole of the power source. This chain is designed to memorize the switching on of the relay until the reset button 39 is pressed after repairing or replacing a defective cassette.

Contacts 40-43 relays 26,28,30,34 are intended as information for

an incorrect relay protection block, so 5 parators 7, causing it to fire.

and to disable the faulty one and connect the backup relay protection unit. Contacts 44-47 of the relay are device outputs.

The device works as follows.

The signals at the test points of the main and backup blocks 1-4 of the relay protection in the duty protection mode are constant in magnitude, and the input adders 1-4 are tuned so that the voltage at their outputs is zero. After that, the device is ready for operation.

In the mode of operation, with intact and correctly configured monitored relay protection blocks, the voltage at the output of all adders 1–3 remains close to zero, and the output of the accumulator 4 reserve blocks is zero, since the operation mode of the reserve block 24 does not change .

Since there is no voltage at the outputs of the adders 1–4, the signal does not arrive at the inputs of the first rectifier - comparator 7, there is no signal at its output. Consequently, the time delay element 8 and the generator of 13 rectangular pulses are not triggered. The pulses at the output of the switch 9 with the control unit are absent, the signals at the input of the second rectifier of comparator 23 are zero and there is no signal at its output. Accordingly, relays 26,28,30,34 are de-energized, and their contacts occupy the position indicated in the drawing. i

Due to temperature and other permissible changes in the parameters of the elements of both the monitored blocks 31-33 of the relay protection and the block 24 of the reserve, in the duty mode of the monitored protection, the outputs of the input adders 1–3 may appear small at its output. to the input element 8 time delay. After the expiration of the time delay of this element at its output, a signal of failure of the relay protection unit appears. This signal is fed to the input of the switch 9 with the control unit and starts the generator of 13 rectangular pulses. Frequently, 25 rectangular pulses 13 are chosen such that during the duration of a single pulse, the voltage from the output of the adder has time to pass through blocks 10 and 11 of the selective switching, rectifier-comparator 23, block 12 of switching the reserve and causing the corresponding relay to turn on, as the relay activation time is no more than 15 ms, the time of passage of the signal through the indicated blocks

ki no more than 3 ms, therefore, the generator frequency of 13 square-wave pulses should be no more than 200 Hz.

40 The pulses from the generator output 13 rectangular pulses arrive at the input of the distribution of 14 pulses to four control channels, with the frequency of the pulses in each of the channels being already 50 Hz at the frequency of the generator pulses of 200 Hz. If a pulse is applied at the input of the control channel formed by the LEDs of the opto transistors 18-20 and the resistor 22,

50 then in this case the LEDs will start to glow, which will cause the opening of the opto transistors. Since the output voltage from the adder 4 of the reserve unit is zero (an example is considered

If there is a voltage at the output of the input adder 1), then the second rectifier - comparator 23 will not trigger, its output will also be zero, the investigator 1636922

The yarns that go to the inputs of the rectifier-comparator 7, but do not trigger it, because its threshold is chosen greater than such voltages.

When damage is controlled by the unit of RZ. the voltage at the controlled point changes significantly, which leads to the appearance of voltage at the output of the input adder 1. If this voltage has a positive polarity, it through the element OR 6 enters the input of the first rectifier. the signal at the input of the element 8 time delay. After the expiration of the time delay of this element at its output, a fault signal appears in the relay protection unit. This signal is fed to the input of the switch 9 with the control unit and starts the generator of 13 rectangular pulses. The frequency of the generator 13 rectangular pulses is chosen so that during the duration of a single pulse voltage from the output of the input adder has time to pass through blocks 10 and 11 of the selective switching, rectifier-comparator 23, block 12 switching reserve and caused the inclusion of the corresponding relay, because switching on the relay is not more than 15 ms, the time of passage of the signal through these blocks

ki no more than 3 ms, therefore, the generator frequency of 13 square-wave pulses should be no more than 200 Hz.

The pulses from the generator output 13 rectangular pulses arrive at the input of the distribution of 14 pulses to four control channels, and the frequency of the pulses on each of the channels will be 50 Hz at a generator frequency of 200 Hz. If a pulse is applied at the input of the control channel formed by the LEDs of the opto transistors 18-20 and the resistor 22,

then in this case the LEDs will start to glow, which will cause the opening of the opto transistors. Since the output voltage from the adder 4 of the reserve unit is zero (an example is considered

If voltage appears at the output of the input adder 1), the second rectifier - comparator 23 will not operate, its output will also be zero, therefore, the relay 34 of the reserve switching unit 12 cannot operate.

When a pulse is generated from the output of the pulse distributor 14 corresponding to the control channel formed by the optotransistors 15-17 and the resistor 21 formed by the LEDs, the optotransistors 15, 16 and 17 of the selective switching unit 10 and the reserve switching unit 12 will open. In this case, the positive polarity from the output of the input adder 1 through the selective switching unit 11 will go to the right input of the comparator-comparator 23, which will trigger it. As a result, at its output by Wits

15 redundancy of the main blocks of relay protection of electrical equipment, additionally introduced a switch with a control unit, a second rectifier-comparator and a switching unit

the signal that arrives at the input of the reserve switching unit 12 and, passing through the 20 reserve, electoral switching blocks through the circuit contacts 25,27,29 - phototransfer, relay protection reserve unit, opistor transistor 17 - relay 26, will trigger the relay. In this case, contacts 35, 40 are closed, the main unit of the relay and the connection of the time delay element is disconnected, and the reserve unit 24 is read. The signal to the outputs of the outputs connected to the control of the course of the input adder 1 can become the inputs of the blocks of the selective commutation equal to zero. However, the contacts 35 of the relay 2b will continue to be in the on state. After the repair, the inputs of the selective switching or replacement unit of the primary relay arrival block are connected to the outputs of the input personnel, press the reset button 39 of the adders of the relay main blocks and the device returns to its original state.

the input adder of the relay protection reserve unit, while the input of the control unit of the switch is connected to you

tation and switching unit of reserve using optocouplers,

protection and reserve unit, the input of the adder of the reserve unit is connected to the control points of the reserve unit of the relay protection, and the outputs of the selective switching units are connected to the inputs of the second rectifier-comparator, the output of which is connected to the input of the reserve switching unit, the output terminal of the switch is connected to the reset button the first group of closing contacts of the switch is connected to the input of the alarm unit,

If at the time of operation the unit 24 is reserved.

If it goes out of order, the contacts of the relay 34 will give a signal that the main mechanism is turned off, thereby preventing an emergency situation due to the failure of the reserve unit 24.

The proposed device allows you to expand the range of performance (nunciations, which consist in providing protection and a reserve unit, the adder input of the reserve unit is connected to the control points of the relay protection reserve unit, and the outputs of the selective switching unit are connected to the inputs of the second comparator comparator, the output of which connected to the input of the switching unit of the reserve, the zeroing input of the switch is connected to the reset button, the first group of closing contacts of the switch is connected to the input of the alarm unit,

Trol health and reservations

since it provides operability, the second group of break contacts

main mechanism of sales when ne1- is designed to connect blocks

the health of one of the main blocks of relay protection with power supply

relay protection.

Claims (1)

Invention Formula Device for monitoring the operability of relay protection units for electrical equipment Editor A. Motyl relay protection units, the third group of closing contacts is intended to be connected to the power source of the relay protection reserve unit. Compiled by L.Voropaeva Tehred L. Oliynyk Proofreader L. Pilipenko connection, containing input adders, the inputs of which are intended to be connected to the test points of the main blocks of relay protection, the outputs are connected to the inputs of the corresponding OR elements, the outputs of which are connected to the first rectifier-comparator connected in series and a time delay element, a reset button, an alarm unit, characterized in that, in order to extend the functionality by providing selective redundancy of the main blocks of relay protection of electrical equipment, additionally introduced a switch with a control unit, a second rectifier-comparator and a switching unit The reserve, selective switching units, the relay protection reserve unit, the time delay element, and its outputs are connected to the control inputs of the selective switching unit, the selective switching units are connected to the outputs of the adders of the main relay blocks The reserve, selective switching units, the relay protection reserve unit, the time delay element, and its outputs are connected to the control inputs of the selective switching unit, the selective switching units are connected to the outputs of the adders of the main relay blocks the input adder of the relay protection unit; the input of the control unit of the switch is connected to the reserve, selective switching units, the reserve unit of relay protection by the time element, and its outputs are connected to the control inputs of the selective switching units of the selective switching units connected to the outputs of the input adders of the main blocks of the relay tation and switching unit of reserve using optocouplers, The reserve, selective switching units, the relay protection reserve unit, the time delay element, and its outputs are connected to the control inputs of the selective switching unit, the selective switching units are connected to the outputs of the adders of the main relay blocks protection and reserve unit, the input of the adder of the reserve unit is connected to the control points of the reserve unit of the relay protection, and the outputs of the selective switching units are connected to the inputs of the second rectifier-comparator, the output of which is connected to the input of the reserve switching unit, the output terminal of the switch is connected to the reset button the first group of closing contacts of the switch is connected to the input of the alarm unit,