SU1283894A1 - Device for controlling parallel operation of synchronous generators - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used to control parallel operation, for example, ship generators with quasistatic external characteristics. The purpose of the invention is to increase the stability of the load distribution. This is achieved by introducing two elements of the compressed 21, 22 and performing the block forming the queue and fixing the first place in it as a block of dynamic priority 24, three keys 25, 26, 27 and three relays 28, 29, 30, which switch the circuits with their contacts devices. This ensures detection of the master oscillator and its operation in the autonomous mode, detection of the slave generators and their operation in paral- lel mode with the master oscillator, transfer of the master oscillator functions to the first slave one, transfer of the slave oscillator from autonomous operation mode to parallel operation and back. 2 Il. about

Description

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The invention relates to electrical engineering and can be used in controlling parallel operation, for example, ship generators with quasi-static external characteristics.

The purpose of the invention is to increase the stability of load distribution between device generators operating in parallel.

FIG. 1 shows a diagram of a device for controlling the parallel operation of three generators; in fig. 2 is a block diagram of a dynamic-KoVo priority block.

The device (Fig. 1) contains synchronous generators with closing contact contacts of their linear contactors 4-6 and exciters 7-9, for the excitation of which the power switches 10-2 are connected in series with the input; pathogens 7 9 and to the outputs of amplifiers 13-15,

The device 1 also contains relay (threshold) elements 16-18, the inputs of which are connected to the bus 19 with a load 20, the elements 21 and 22 of the comparison and the block 23 forming the queue and fixing the first place in it, which includes the block 24 dynamic priority keys 25-27 and relays 28-30.

The inputs of the block 24 are connected to the terminal with voltage potential through the contact block contacts of the linear contactors 4-6, and the outputs of the block through the keys 25-27 control the operation of the relay 28-30 respectively.

The output of the first exciter 7 is connected via the first switching contact 31 of the first relay 28 with the second input of the first comparison element 21 and with the first input 1 and the first 21 and second 45 comparison elements. The output of the second exciter 8 is connected via the first switch контакт contact 32 of the third relay 30 and the second switch |; I contact 33 of the relay 28 with the first inputs of the comparison elements 21 and 22 and with the second input of the comparison element 21 and through the switching contact 32 relay 30 with the second input of the comparison element 22. The output of the third exciter 9 is connected via the second switching contact 34 of the relay 30 with the second input of the comparison element 22 and with the first inputs of the elements 21 and

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22 comparisons. Input of the first amplifier

13 is connected via a third switching contact 35-relay 28 with the output of the comparison element 21 and with the output of the first relay element 16. The switching contact 36 of the second relay 29 connects the input of the second amplifier

14 through the closing contact 37 of the relay 28 to the output of the comparison element 21

and through the closing contact 38 of the relay 30 to the input of the comparison element 22, and to the output of the second relay element 17. The input of the third amplifier 15 is connected via the third switching contact 39 of the relay 30 with the output of the comparison element 22 and with the output of the third relay element 18.

Dynamic priority block 24 (Fig. 2) contains nine AND 40-48 circuits and six NOT 49-54 circuits. Applications for queuing are received at the input of unit 24 as generators 1-3 are turned on for parallel operation. The fact of the application is identified by the arrival of the voltage potential when the corresponding contact contacts of the contactors 4 - 6 are closed.

Let us consider the operation of the dynamic priority block using the example of sequential switching on of generators 1 - 3 (formation of a queue). In the initial state of the block 24, there are no input and output signals. When the generator 1 is turned on, the blocking contact of the line contactor 4 is triggered to the bus 19 and the first input of the block 24 is signaled X ,. The signal X passes through the elements 40 and 41 to the inputs of the element 46, since at this time point, the outputs of the elements NO 49 and 50 are 1.

Element 46 is triggered. In this case, a ban is imposed on the passage of a signal through elements 43 and 44, since the outputs of elements 52 and 53 are O.

When the generator 2 is turned on via the closing contact 5, a signal X comes through the second input of the block 24 and passes through the element 42 to the input of the element 47, since the output of the element 51 is formed 1. At the same time, the prohibition of the operation of the element 45 is imposed, since the output of the element 54 O. Element 47 does not work, since at its second input, O comes from the output of element 43.

When turning on the generator 3 through the closing block contact of the linear contactor 6, the third input of the block 24 receives the signal X, which does not go anywhere, because elements 44 and 45 are closed (prohibition), and element 48 has O on the inputs

Thus, a queue has been formed, the first place of which is occupied by generator 1 (element 46 is excited), second place is taken by generator 2 (at the input of element 47, signal O, 1), third place is taken by generator 3 (at the input of element 48 is signal O, O) .

Consider the mode shift queue.

Let generator 1 be disconnected from station tires, t .... x, 0.

The output elements 40, 41 and 46

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and elements 52 and

53 - 1 is formed, which removes the prohibition on the operation of elements 43 and 44, elements 43 and 44 work, since. ,, 0. This will trigger element 47 and the appearance of a signal 1, O at the input of element 48. Now generator 2 takes first place in the queue, and generator 3 takes second place.

Third place in the queue is free.

Disable also generator 2, which corresponds. At the output of elements 42, 43 and 47, O is formed, and at the output of element 54, 1 is formed, which removes the prohibition on the triggering of element 45. Element 45 is triggered and forms an additional 1 at the input of element 48, which

Let the tires 19 are connected in series in time generators 1-3. Block 23 will form a queue and record that generator 1 takes first place in the queue by triggering relay 28. In this case, the switching contact 35 of relay 28 connects the output of threshold element 16 to the input of amplifier 13. The current voltage measured by the voltage sensor is compared with the set value . The difference signal of these voltages acts on the threshold element 16. The relay signal from the output of the element 16 is amplified by the power of the amplifier 13 and controls the operation of the power switch 10, which changes the current in the excitation winding of the exciter 7 of the generator 1 in order to stabilize the voltage on the bus 19. A signal proportional to the voltage of the driver 7 (generator inductor 1) is fed through the switching contact 31 of the relay 28 to the first inputs of the comparison elements 21 and 22. The second input of the comparison element 21 is supplied by the voltage of the exciter 8 through the switching contact 32 of relay 30 and the switching contact 33 of the relay 28. The second input of the comparison element 22 is supplied by the voltage of the exciter 9 through the switching contact 34 of the relay 30. relay signals. The relay-35 NSP signal from the output of the comparison element 21 is through the closing contact 37 of the relay 28 and the switching contact 36 of the relay 29 is fed to the input of the amplifier 14. and is amplified in power. Sigs works. Now generator 3 takes the first place in the queue, and the second from the output of amplifier 14 controls the ry and third places are free. The operation of the power switch 11, which

modifies the current in the excitation winding of the exciter 8 in order to balance the load between the master generator 1 45 and the slave generator 2. Relay

the signal from the output of the comparison element 22 through the switching contact 39 of the relay 30 is fed to the input of the amplifier 15. The signal is also amplified by the power 50

Disable generator 3 matches. At the output of elements 4, 45 and 48, O is formed, and the element.

54 - 1.

Thus, the initial state of block 24 has come, when 1 is formed at the outputs of elements HE 49-54, and the remaining elements - O. The signal from the output of block 24 (Fig. 1) through the keys 25-27 excites the correspondingly &; 28 - 30, which is fixed at the current time, the generator, which occupies the first place in the queue. In the initial state of block 24, relays 28-30 are disabled.

The device works as follows.

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and controls the operation of the switch 12, which changes the current in the excitation winding of the driver 9 to balance the load between the master generator 1 and the slave generator 2.

When disconnecting the generator 1, the relay 28 releases. At this time, block 23 energizes relay 29, which will also operate with its switching contact

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Let the tires 19 are connected in series in time generators 1-3. Block 23 will form a queue and record that generator 1 takes first place in the queue by triggering relay 28. In this case, the switching contact 35 of relay 28 connects the output of threshold element 16 to the input of amplifier 13. The current voltage measured by the voltage sensor is compared with the set value . The difference signal of these voltages acts on the threshold element 16. The relay signal from the output of the element 16 is amplified by the power of the amplifier 13 and controls the operation of the power switch 10, which changes the current in the excitation winding of the exciter 7 of the generator 1 in order to stabilize the voltage on the bus 19. A signal proportional to the voltage of the driver 7 (generator inductor 1) is fed through the switching contact 31 of the relay 28 to the first inputs of the comparison elements 21 and 22. The second input of the comparison element 21 is supplied by the voltage of the exciter 8 through the switching contact 32 of relay 30 and the switching contact 33 of the relay 28. The second input of the comparison element 22 is supplied by the voltage of the exciter 9 through the switching contact 34 of the relay 30. relay signals. The relay is 5 ns the signal from the output of the comparison element 21 through the closing contact 37 of the relay 28 and the switching contact 36 of the relay 29 is fed to the input of the amplifier 14. and is amplified in power. Sig0

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0 from the output of the amplifier 14 controls the operation of the power switch 11, which

the signal from the output of the comparison element 22 through the switching contact 39 of the relay 30 is fed to the input of the amplifier 15. The signal is also amplified by the power 0

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and controls the operation of the switch 12, which changes the current in the excitation winding of the driver 9 to balance the load between the master generator 1 and the slave generator 2.

When disconnecting the generator 1, the relay 28 releases. At this time, block 23 energizes relay 29, which will also operate with its switching contact

36 connects the output of the relay element 17 to the input of the amplifier 14. Now the generator 2 is leading, it will stabilize the voltage on the bus 19. The output of the exciter 8 through the switching contact 32 of the relay 30 and the switching contact 33 of the relay 28 is connected to the first inputs of the elements 21 and 22 compare. Comparison element 21 in this case does not participate in the work, and comparison element 22 compares signals from pathogens 8 and 9 and generates a relay signal as a function of load balancing between generators 2 and 3.

When the generator 2 is turned off, the relay 29 releases and the relay 30 operates according to the operation algorithm of the block 24. Switching (the 39 contact of the relay 30 connects the output of the relay element 18 to the input of the amplifier 15. At this time the generator 3 becomes the master and stabilizes the voltage on the bus 19. Parallel operation is not required in this case. When the generator 2 is turned on again to the bus 19, the output of the driver 8 is connected to the second input of the comparison element 22, the first input of which is connected via the switching contact 34 of the relay 30 to the driver 9. The output of the element 22 cutting the closing contact 38 of the relay 30 and the switching contact 36 of the relay 29 is connected to the input of the amplifier 14. The generator 2 becomes slave and takes second place in the queue, etc.

Thus, the proposed device (compared to limestone-O allows to obtain a flexible structure in which the leading generator is not assigned, but one that takes first place in the queue.

In the system of parallel operation of generators, failure is excluded when the master generator fails. The detection of the master oscillator occurs automatically, which eliminates the possible erroneous actions of the maintenance staff. Switching on the parallel operation of generators can go in any sequence. Additionally, the block forming the queue and fixing the first place in it

nerators. The accuracy of voltage maintenance on station tires is 1%, and the distribution of reactive power is up to 8%, which meets the requirements of the Register of the USSR.

Claims (1)

Invention Formula A device for controlling the parallel operation of synchronous generators with closing block contacts of their linear contactors and exciters, containing threshold elements according to the number of generators with input terminals for connection with the generator outputs, a queue shaping unit and fixing the first place in it, as well as amplifiers and key elements in the circuits of the exciters of each generator, and the outputs of the amplifiers are connected to one of the inputs of the corresponding key elements, the second inputs of which are intended to be connected to you In the course of its pathogens, characterized in that, in order to increase the stability of the load distribution, it is equipped with two comparison elements, the queue shaping unit and fixing the first place in it contains a dynamic priority block, three keys and three relays, where the dynamic priority block inputs through the block contacts of the generators linear contactors are connected to terminal with voltage potential,. and the outputs of the block through the keys are connected respectively to the first, second and third latching relay of the first place in turn: while the output of the first exciter is connected via the first switching contact of the first relay to the second input of the first comparison element and to the first inputs of the first and the second comparison element, the output of the second exciter is connected via the first switching contact of the third relay and the second switching contact of the first relay with the first inputs the first and second comparison elements and with the second input of the first comparison element and through the first switching contact of the third relay is connected to the second input of the first elec can keep records of the working time of the comparison unit; the output of the third power generator for the purpose of uniform wiring is connected through the second reworking of their resource. The device connects the third relay with any type of synchronization by the second input of the second comparison element and with the first inputs of the first and second comparison elements, the input of the first amplifier is connected via the third switching contact of the second relay and the closing contacts of the first and third relays, respectively, with the output of the first and the second element 38948 comparison and with the output of the second threshold element, the input of the third amplifier is connected via the third switching contact of the third relay with the output of the second comparison element and with the output of the third threshold element. fjyuS.Z