RU2400905C1 - Power supply loss protection device - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprises unit of power direction control, start-up unit of minimum frequency, logical unit, the first - third timers, the first and second logical elements OR, the first and second actuating units and unit of minimum voltage control. The first actuating unit is outlet of the first stage of power supply loss protection and disconnects breaker of de-energised distributing device bus bar section of 6(10) kV and suppresses field of synchronous electric motors. The second actuating unit is outlet of the second protection device and disconnects synchronous electric motors on section of bus bars that lost supply.

EFFECT: improved stability of technological systems due to accelerated action of protection reduced down time of technological sets and increased efficiency of de-energised motors disconnection.

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Description

The invention relates to electrical engineering, in particular to a relay protection technique.

Known two-stage protection of the minimum voltage, comprising: starting blocks (voltage relay), time relay and output (intermediate) relay. The first stage with the time delay of the first stage acts either to turn off non-responsible electric motors, or to turn off the input of the busbar section of the switchgear that has lost power and to suppress the field of synchronous electric motors. The second stage acts to turn off the electric motors of the bus section that has lost power and then turn on the electric motors of the backup technological units and is designed to maintain the technological mode during a long interruption in power supply / Chernobrov NN, Semenov V.A. "Relay protection of energy systems", 1998, p. 715, fig. 19.12 /.

A device for protection against power loss, which contains:

power direction control unit, minimum frequency start-up block, logic block, minimum voltage control block, first timer, first actuator block, second timer, second actuator block / M. Shabad “Relay protection at power substations supplying synchronous electric motors”, Electrician’s library, issue 566 L .: Energoatomizdat, 1984, pp. 53-54 Fig. 19 /.

The disadvantage of these devices is the limited shutdown speed of electric motors that have lost power, which increases the downtime of technological units and can lead to significant technological damage to responsible consumers.

This disadvantage is due to the following. In case of loss of power from one of the external sources, protection of the minimum frequency from power loss with control of the direction of active power acts on the disconnection of the input switch of the bus section that has lost power. However, the voltage on the busbar section that has lost power is maintained for a long time due to the transition of synchronous motors to the generator mode. When synchronous motors switch to the generator mode, the undervoltage protection action can increase so much that a long idle time of the technological units that have lost power will lead to a loss of stability and a breakdown of the consumer’s technological regime as a whole.

Closest to the proposed technical solution is a device for protection against power loss, which contains: power direction control unit; minimum frequency unit; undervoltage control unit; logical block; timers; logical element OR; executive blocks / Patent No. 2342755. Device for protection against power loss / Shabanov V.A., Alekseev V.Yu. BI, December 27, 2008. - No. 38 /.

The inputs of the power direction control unit are connected to the input current of the busbar section of the switchgear and the voltage of the busbar section of the switchgear, the inputs of the minimum frequency trigger unit and the minimum voltage control unit, the output of which is connected to the first timer, the outputs of the power direction and start control unit are also connected to the above voltage minimum frequency blocks are connected to the inputs of the logical block, which gives a signal to the second and third timers, a logical element OR, connected It is connected to the outputs of the first and third timers and sends a signal to the first executive unit, the second executive unit is connected to the output of the second timer.

The disadvantage of this device is the limited shutdown speed of electric motors that have lost power, which increases the downtime of technological units and can lead to significant technological damage to responsible consumers.

This disadvantage is due to the following. The time delay of the first and third timers ZPP-2 is taken for a few seconds. According to the regulatory documents of Transneft, JSC, it is accepted from 5 s to 7 s. During this time, the speed of rotation of the LED or the current in the field winding can decrease so much that the residual EMF of the LED and, as a result, the residual voltage on the busbar sections of the switchgear will not be enough to keep the frequency relay in operation. Under conditions of reduced voltage, frequency relays may fail. So the frequency relay type IVCh-3 fails at U <0.6 · U _nom , the relay type RF-1 - at U <0.2 · U _nom . / A.V. Belyaev "Emergency control in load nodes with synchronous electric motors of high power." - M.: NTF "Energoprogress", 2004, p.16 /.

This may cause the frequency relay and the third timer to reset. In this case, the disconnection of the motor switches will occur from the first timer, the input of which is connected to the output of the undervoltage control unit. Since the undervoltage monitoring unit is triggered later than the underfrequency unit, the protection effect may increase so much that prolonged downtime of power-hung process units will lead to loss of stability and disruption of the consumer’s technological regime as a whole.

The objective of the invention is to increase the speed of shutdown of electric motors that have lost power.

The problem is solved in that the device including the power direction control unit, the inputs of which are connected to the input current of the busbar section of the switchgear and the voltage of the busbar section of the switchgear, also connects the inputs of the minimum frequency start-up unit and the minimum voltage control unit, the output of which is connected to to the first timer, the outputs of the power direction control unit and the minimum frequency start-up unit are connected to the inputs of the logic unit that issues a signal to the second timer, according to the invention, the logic unit also outputs a signal to the first OR gate, which is also connected to the output of the undervoltage control unit and supplies a signal to the third timer, the second OR gate connected to the outputs of the first and third timers, sends a signal to the first executive block, the second executive unit is connected to the output of the second timer.

The drawing shows a block diagram of the proposed device. The device contains: 1 - power direction control unit; 2 - block minimum frequency; 3 - control unit of the minimum voltage; 4 - logical block; 5, 6, 8 - timers with time delays t2, t1, t3, respectively; 7, 9 - logical elements OR; 10, 11 - the second and first execution units.

The inputs of the power direction control unit 1 are connected to the voltage of the busbar section of the switchgear and the input current of the busbar section of the switchgear, the input of the minimum frequency unit 2 is connected to the voltage of the busbar section of the switchgear, the input of the minimum voltage control unit 3 is connected to the voltage of the busbar section of the switchgear.

The device operates as follows.

In case of loss of power from an external source of power supply, synchronous motors go into generator mode. In this case, the frequency and voltage decrease on the bus sections begins and the direction of active power changes, which is controlled by block 1. When the frequency setting is reached, the minimum frequency block 2 is activated. Logic block 4, connected to the outputs of blocks 1 and 2, gives a signal to timer 5 and logic element OR 7, which sends a signal to timer 8.

The countdown of time t ₂ and t ₃ begins. With the passage of time t _{2, the} actuating unit 10 acts to turn off the input switch of the bus section and to damp the field of synchronous motors. If the LED field (synchronous motor) is successfully extinguished, the voltage on the bus sections decreases, the undervoltage control unit starts up and issues a signal to timer 6 with a time delay t ₁ . The OR gate 9, connected to the outputs of the timers 6 and 8, sends a signal to the Executive unit 11, which acts to disable the working LEDs. Upon the fact that the LED is turned off, the automation circuit starts and turns on the electric motor of the backup technological unit.

During the time from the moment of operation of the minimum frequency unit 2 to the timer 8 with the time delay t _{3, the} speed of the LED rotation or the current in the field winding can decrease so much that the residual EMF of the LED and, as a result, the residual voltage on the busbar sections of the switchgear will not be enough to hold unit of minimum frequency 2 in the activated state. In this case, the motor circuit breaker will be disconnected from timer 6, the input of which is connected to the output of the undervoltage control unit 3. Since the undervoltage control unit 3 is triggered later than the undervoltage unit 2, timer 6 starts later than timer 8, and the protection action may increase so much that a long downtime of power-hung technological units will lead to a loss of stability and a breakdown of the technological regime of the consumer as a whole.

In the proposed device, in the event of a decrease in voltage on the busbar sections, the undervoltage block 3 will operate and through a logical element OR 7 will send a signal to the input of the first timer 8, preventing it from returning to its original state, the input of which is connected to the output of the logical element OR 7. With a time delay t ₃ timer 8 through the logical block OR 9 sends a signal to the Executive block 11, which acts on the shutdown of power-off LEDs. Upon the fact that the LED is turned off, the automation circuit starts and turns on the electric motor of the backup technological unit. The process is being restored.

Thus, in comparison with the prototype, the proposed device, in case of returning to the initial state of the minimum frequency unit, allows you to keep the timer connected to the minimum frequency unit in operation and to turn off the electric motors that lost power with a time delay of this timer, selected according to the condition of maintaining the technological mode. In the known device, when the minimum frequency unit is returned to its initial state, the motors are turned off for a longer time equal to the sum of the time for voltage reduction before the minimum voltage unit is activated and the timer is connected to the minimum voltage unit. At the same time, the protection effect can increase so much that a long idle time of technological units that have lost power will lead to a loss of stability and a breakdown in the technological regime of the consumer as a whole.

Thus, in comparison with the prototype, the proposed device improves the shutdown speed of electric motors that have lost power, which reduces the downtime of technological units and technological damage from responsible consumers.

This invention improves the stability of technological systems and can find wide application in the technology of relay protection and automation.

Claims (1)

A power loss protection device, including a power direction control unit, the inputs of which are connected to the input current of the busbar section of the switchgear and the voltage of the busbar section of the switchgear, the inputs of the minimum frequency trigger unit and the minimum voltage control unit, the output of which is connected to the first to the timer, the outputs of the power direction control unit and the minimum frequency start-up unit are connected to the inputs of the logic unit that gives the signal a second timer, characterized in that the logic unit also outputs a signal to the first OR gate, which is also connected to the output of the undervoltage control unit and supplies a signal to the third timer, the second OR gate connected to the outputs of the first and third timers sends a signal to the first Executive unit, the second Executive unit is connected to the output of the second timer.