SU1684942A1 - Method of automatic control over electric mode of three-phase ore-reduction electric furnace - Google Patents

Abstract

This invention relates to electrochemistry. The purpose of the invention is to improve the quality of control of the electric mode of the furnace. During operation, the electrode current of each phase is measured with a reference value, a signal is formed that is proportional to the current deviation of each phase from the reference value, the electrode with the largest current deviation from the reference value is determined, and the actuator moves the electrode and switches the voltage of the furnace transformer. A new method is to compare the largest current deviation of the electrode with the current deviations of other electrodes, determine the electrode with the smallest current deviation mismatch with the largest current deviation, and select the voltage step switch of that phase, the secondary windings of which are connected to the specified electrode current. 2 Il. sl C

Description

The invention relates to electrothermals, and more specifically to methods for controlling the electrical mode of ore-reducing electric furnaces.

The purpose of the invention is to improve the quality of control of the electric mode of the furnace.

Figure 1 shows a setup diagram for implementing the method; figure 2 - block diagram of the electrode selection.

The device contains a power transformer 1 connected to the electrodes of the electric furnace 2, switches 3, 4 and 5 voltage levels, current sensors 6, 7 and 8, elements 9, 10 and 11 of comparison, unit 12 of comparison and selection, block 13 of electrode selection , logical elements 2I-OR 14, 15 and 16.

The current sensors 6, 7 and 8 are connected by their information outputs to the input of the corresponding element 9, 10 and 11 of the comparison, in each of which the signal proportional to the electrode current is compared with the set value of the current 1s1,1s2 and 1ez. The algebraic sum of the signals from the output of the reference element 9, 10 and 11, proportional to the magnitude of the current deviation A li, A 12 and A 1h from the specified value, is fed to the first, second and third inputs of the comparison and selection unit 12 and the electrode selection unit 13, respectively.

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Comparison and selection unit 12 compares the deviation signals DI, D 1g between themselves and from a given value and when one signal exceeds another, as well as a given deadband, the corresponding output produces a high logic level that goes to one of the three combined inputs of logic elements 2 -2И-2ИЛИ 14, 15, 16 and to one of the three control inputs of the electrode selection unit 13.

The electrode selection unit 13 is designed to select an electrode whose current deviation from a predetermined value has the smallest mismatch with the greatest current deviation of the electrode, and contains comparison elements 17-22, electronic switches 23, 24 and 25, maximum signal selection elements 26-28.

In elements 17-19 of the comparison, the signals proportional to the deviations of the current of the electrodes are compared with each other. From the output of this element, the signals are proportional to the magnitude of the mismatch of the deviations of the currents of the electrodes d I | D I - D S. 6 2 Д 12 - Л 131. 6 з ИД11 - Д з I, are fed to the inputs of electronic switches 23, 24 and 25, to the second input of which a logical signal is applied that controls the operation of the valve. A high logic level prohibits the passage to the valve output of a signal arriving at the first input. Comparison elements 20-22 compare the values proportional to the mismatch of the deviations of the electrode currents with the greatest deviation of the electrode current, and a high logic level is output to the corresponding output at the inputs of the logic elements 2-2И-2ИЛИ 14, 15 and 16. From the output of the last logical signals are supplied to the input of the relay logic elements 29, 30 and 31 of the drive control of the voltage level switches.

The method is carried out as follows.

In the nominal mode, the deviations of the currents Ali, D12 and D1z do not exceed the specified deadband. Therefore, on all three outputs of block 12 of comparison and selection, there are signals corresponding to a low logic level. This determines the appearance of low logic levels at the outputs of logic gates 2-2I-2ILI, 14, 15, and 16, and thus the switching of voltage levels is not performed.

Suppose that at some point in time between the currents of the electrodes, the relationship I 1 3 1 3 and the amount of deflection of the current of the first electrode exceeds the specified deadband. In this case, the first output of the comparison and selection unit 12 appears a high logic level, which is fed to the combined first inputs of logic elements 2-2-2-2IL 14 and 16, at the same time as this

(5h | ДИ - ДЫ 51з 1ДМ - ДЫ, a signal with a high logic level appears on the second output of the electrode selection block 13, which, respectively, goes to the second and fourth inputs

logic elements 2-2IL-2ILI 14 and 15. A signal with a high logic level from the output of logic logic element 2-2IL-2ILI 14 is fed to the input of the relay element 31 for controlling the drive of the voltage level switch, causing switching of the voltage levels. A decrease in the low voltage of the corresponding phase occurs, which determines a decrease in the currents of the first and second

electrodes. The current of the third electrode varies slightly. The switching of the voltage steps of the selected phase is carried out until the current deviation value D li exceeds the set deadband value.

The use of the proposed method of automatic control of the electric mode of a three-phase ore-reducing electric furnace provides, in comparison with existing methods, a reduction in the oscillation of the electric mode, uniform heating of the entire charge, which significantly affects the increase in furnace performance and also due to a decrease in the oscillation mode, improving the quality of control of the electric mode.

Claims (1)

Invention Formula Automatic control method the electric mode of a three-phase ore-reduction electric furnace, the electrodes of which are connected to the secondary windings of a furnace transformer connected in a triangle, at which the current of each electrode is changed, compared to the reference value, generates a signal proportional to the current deviation of each electrode from the reference value, the electrode with the greatest current deviation from the reference value is determined and affects the drive of the electrode movement and the switch of the voltage level of the furnace transformer, characterized in that, in order to improve the quality of the electric mode control, the largest deviation of the electrode current is compared with the current deviations of other electrodes, the electrode having the smallest current deviation mismatch with the largest current deviation is determined and the voltage step switch of the secondary phase is affected the windings of which are connected to the specified electrode and the electrode with the greatest current deviation. .432 4th J / zh ЈHЈL SPT, figure 1 FIG. Z 13