SU527033A1 - Method "foscar" automatic control of electric arc furnace - Google Patents

Description

the current control loop enters the conversion blocks 4, task 5, comparison 6, gain 7 and the executive unit of the electrode transfer 8. The voltage switch circuit consists of a sensor of the number of the stage 9, a set of the number of the stage of 10, the block of the error of the stages of 11, the sensor of the disturbing factor 12, a unit for switching stages according to a predetermined program 13, a unit 14 for protecting the furnace transformer against unloading, units for amplifying the error signal 15 and 16, and an executive body for switching voltage levels 17. Units 11, 14, 15, 16 provide discrete signals that “can be received on relay elements. The relay in block 11 is triggered if the actual voltage level of the transformer 1 is less than the specified one, the relay in block 15 is activated when the electrode current exceeds the first zone of the current deviation from the reference value, and the relay 16 operates when the current exceeds the second zone of current deviation from the reference value.

In the initial state, the signals at the output of blocks 11 and 16 are absent. Automatic control of the electric mode of the furnace takes place in the usual way: by moving the electrodes at a constant voltage level, and the switching of voltage levels is carried out in accordance with a predetermined program and the appearance of disturbing factors.

In those cases when the current of the electrode for any reason exceeds the first zone of current deviation from the reference value, the output of blocks 16 and 14 shows signals that "will reset the voltage steps and a corresponding decrease in electrode current. The switching of the steps will occur until the mismatch between the real and reference current value enters the second zone. Thus, due to the rapid discharge of voltage, the overload of the furnace transform of the torus will be reduced and its current protection will not work.

In the subsequent period of Time, the current circuit with a corresponding rise of the electrodes will reduce the current to a value corresponding to the first zone. After that, the relay in the block

15 is de-energized and unit 14 provides a xipl to return the voltage to a reference value. The voltage will increase and the electrode current will increase. At that moment, when its value enters the second zone, the voltage rise will stop until the current loop again reduces the current to the value corresponding to the first zone, which will lead to a further voltage rise and

etc., until the actual step number stays equal to the given one. The device will come to its initial state at this moment. Thus, the maximum possible operation time of the furnace is ensured at a given optimal electrical p-mode, with no overload of the furnace transformer.

The values of the controllable zones of the electrode current deviation from the reference value are selected in accordance with the dead zone of the current part of the controller and the settings of the relay protection of the furnace transformer.

Formula 3 and 3

The method of automatic control of an electric arc furnace, during which one zone of current deviation from the OPERATING value is controlled and at the same time the electrode is moved at a constant voltage level of the furnace transformer, characterized in that, in order to increase the furnace performance by reducing the overloads of the furnace transformer, additionally control the second zone of the electrode current deviation and when the electrode current exceeds this zone, reduce the current by switching the transformer stage to the side

decreasing the voltage, and when the current reaches the range of the first zone, they return the voltage level to the initial value.

Sources of information taken into account During the examination:

1. US patent No. 3493664, CL. 13-12, 1970.

2. Auth. St. No. 238030, class F 27 D 11/00, 1969 (prototype).