SU873476A1 - Automatic regulator of three-phase electric arc furnace power - Google Patents

Description

(54) AUTOMATIC POWER REGULATOR OF THREE-PHASE ARC POWER

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This invention relates to electrotherms.,

A power regulator for an electric arc furnace is known, which contains current and arc voltage sensors connected to the inputs of the comparison unit, the output of which is connected via an amplifier to the displacement motor of an 1J electrode.

The disadvantages of this regulator are the lack of autonomy of the regulation of the electric modes from individual phases and the change in the gain of the regulation system during the smelting process.

Also known is an automatic power regulator for a three-phase electric arc furnace, which in the control circuit of each phase contains an arc voltage detection unit connected via a key to the first input of the comparator unit, the second input of which is connected to the reference unit via a second key, the control inputs of both switches are connected to the output a unit for detecting a simultaneous break of three arcs, which is connected via a third key also to the control input of a switching unit connected by an output via a fourth key to an electric motor a, the control input of the PDQ key through the threshold element is connected to the output of the calculating unit of the first derivative of the engine speed, the input of which is connected to the engine speed sensor, and the unit for detecting the shutdown of the furnace, the input of which is connected to the output of the detecting unit for simultaneous breakage of three arcs, and output - with control input

10 third key.

The disadvantage of this regulator is a change in the gain of the control system as it melts, which causes a decrease in the quality of control.

The purpose of the invention is to improve the quality of regulation.

The goal is achieved by the fact that the output of the comparison unit is connected to the first

20 by the input of the making unit, the second input of which is connected to the first output of the block for determining the potential gradient in the arc column connected by the input to the output of the epredelein blocks eg

25 the arc, the output of the remote control location via the fifth key and the amplifier are connected to the switching unit, and even the controllers of the fifth key and the additional control signals of the VHRDA are connected by two other switches.

thirty

the outputs of the block for determining the potential gradient in the arc column.

The first terminals of the sixth and seventh keys serve as the input of the potential gradient definition block in the arc column, the second pin of the sixth key is connected to the first input of the subtractor, the second input of which is connected to the second output of the seventh key and the output to the first the input of the second dividing unit connected by the second input to the output of the second unit. The readout, the two inputs of which are connected to the electrode displacement sensor, the first through the eighth key and the second element MEMORY, and the second through the ninth key, the output of the second the dividing unit is connected to the input of the third MEMORY element, the output of which serves as the first output of the potential gradient determination unit, its two other outputs are the outputs of two time relays, the output of one of them is also connected to the control inputs of the sixth and ninth keys, and the output of the second relay to the entry control | 4 of the seventh and eighth keys.

FIG. 1 is a block diagram of an automatic power controller for a steel-smelting arc furnace; in fig. 2 is a block diagram for determining a potential gradient in an arc column.

The automatic adjustment of the electric furnace for the electric steel furnace contains a unit for detecting arc voltage 1, a comparison unit 2, a task unit 3, an amplifier 4, a motor for moving an electrode 5, an engine speed sensor 6, a unit for calculating the derivative of an engine speed 7 threshold element 8 , a block for detecting a simultaneous break of three arcs 9, a block for detecting a furnace 10 shutdown, I-14 keys, a commutation block 15, a dividing block 16, a block for determining a potential gradient in the arc column 17, a key. 18. The block for determining the potential gradient in the arc column 17 contains two time relays 19 and 20, a block 11 of memory 21-23, an electrode displacement sensor 24, subtraction blocks 25 and 26, a division block 27, keys 28-31.

Automatic power control works as follows.

A signal proportional to the voltage on the arc comes from the output of the block to determine the voltage of the arc 1 through the key 11 and the input of the comparison block 2, which is compared with the signal from task 3 through the key 12. Signal proportional to the difference of the voltage deviation on the arc, from a given value (id) comes one of the inputs of division block 16, to the second input of which a signal is received, which is proportional to the magnitude of the strength of the arc column p. The signal (D1u | comes from the output of the dividing unit 16 to the amplifier 4 and then through the key 13 to the motor moving electrode 5. That is. The CMM method, the total gain of the control system does not depend on the furnace gain factor (3, which varies in the course of melting in considerable limits,

Q The value () is calculated in the course of melting in an automatic manner. Time switch 20 is triggered after this time, opens keys 28 and 30 and closes keys 18, turns on the motor for moving electrode 5

5 by means of the switch box 15 for a nominal voltage and starts the time relay 19. At this moment the signal from the output of the displacement sensor of the electrode 24 enters the memory block 22,

0 and a signal from the output of the unit to determine the voltage on the arc enters the memory unit 21. After a certain time, time relay 19 is triggered, which causes the switching off of the switching unit 15, opening the keys 29 and 31, and starting the time relay 20. At the same time, input of subtracting unit 26, via key 29, a signal is received from the displacement sensor of electrode 24, and

The input of the subtraction unit 25 receives a signal from the unit to determine the voltage on the arc 1 through the switch 31 ..

Signals proportional to the magnitude of the displacement, the electrode (lead) and the magnitude of the voltage increment

 arc (LCD), received from the outputs of blocks 26 and 25 to the input of the division block 27 A signal proportional to the value of PSlJ comes from the output of the division block 27 to the input of the memory block 23 and

0 further to one of the inputs of the block 16.

An automatic power regulator for an arc steel-smelting furnace provides a predetermined gain factor of the control system during the smelting process. The economic effect from the introduction of the invention is 678 thousand rubles. per year by increasing the capacity of the furnace.

Claims (2)

1. Automatic power regulator of a three-phase electric arc furnace, containing in the control circuit of each phase an arc voltage detection unit connected through a key to the first input of the comparator unit, the second input of which through the second key 0 is connected to the task unit, the control inputs of both keys are connected with the output of the simultaneous interruption detection unit tpex arcs, which is also connected via a third key to the control input of the switching unit. connected by the output through the fourth key to the motor moving the electrode, the control input of the fourth key through the threshold element is connected to the output of the calculating unit of the first derivative of the engine speed, the input of which is connected to the engine speed sensor, and the unit for detecting the shutdown of the furnace whose input is connected to the output of the detecting unit simultaneous breakage of three arcs, and the output from the control input of the third key, characterized in that, in order to improve the quality of regulation, the output of the comparison unit is connected to the output input of the dividing unit, the second input of which is connected to the first output of the potential gradient definition unit in the arc column connected by the input to the output of the arc voltage determination unit, the output of the division unit through the fifth switch and amplifier is connected to the output of the switching unit, and The fifth key and additional control inputs of the switching unit are connected to two other outputs of the potential gradient determination unit in the arc column. 2. The regulator according to claim 1, characterized in that the first outputs of the sixth and seventh keys, the second outputs serve as the input of the block for determining the potential gradient in the arc column. the output of the sixth key is connected to the first input of the subtraction unit, the second input..which is connected to the second output of the seventh key through the MEMORY element, and the output is connected to the first 5 input of the second division unit connected by the second input to the output of the second subtraction unit, whose two inputs are connected with the electrode displacement sensor, the first through the eighth key and the second element MEMORY, and the second through the ninth key, the output of the second dividing unit is connected to the input of the third element MEMORY, the output of which serves as the first output of the block. How do you determine the potential of a person? 5 its two other outputs are the outputs of two time relays, the output of one of them is connected to the control inputs of the sixth and ninth keys, and the output of the second relay is connected to the control inputs 0 of the seventh and eighth keys. Sources of information taken into account in the examination 1. Sidorenko M.F., Kosyrev A.N. 5 Automation and mechanization of electric steel-smelting and ferroalloy production. Moscow, Metallurgists, 1975. p. 30-44 .. .j 2. USSR Author's Certificate in Application No. 2662306/07, cl. H 05 B 7/148, 09/26/78. one .-four J