SU156254A1 - - Google Patents

Description

METHOD OF MANAGING THE MODE OF ORE-THERMAL

It was filed on May 31, 1962, for L 780898 / 24-7 to the Committee for Inventions and Discoveries at the Council of Ministers of the USSR

Published in the Bulletin of inventions and trademarks L 15 for 1963.

In aiBT. St. 137972 Saisan is a method of controlling the thermal regime of a ore-smelting electric furnace, based on a change in the charge load as a function of deviation of the derivative from the conductivity of the melt as the electrodes move.

The value of this derivative, under certain conditions, characterizes the temperature of the melt, and its stabilization makes it possible to regulate the thermal regime without directly changing the temperature of the melt. However, this method does not provide a strictly defined distribution of the energy input through the furnace bath. It allows you to maintain a constant temperature in the near-electrode zone, but allows the energy to be shifted from a given temperature along the furnace height, which leads to a deviation of the heat and process mode of the furnace from the optimum, corresponding to the most complete use of the input energy with a minimum of heat loss through the walls, lining and furnace arch.

The optimum mode of operation of the electric thermal furnace with a deep slag bath is achieved by immersing the electrodes in the melt, on average, half the height of the slag bath. At the same time, the loss of useful metal smelting products in the form of sublimations MIU-UI is minimal.

When the electrode moves along the furnace height, the near-electrode region with the temperature optimal for a given process is shifted and the temperature distribution along the furnace height also changes the ELECTRIC FURNACE

No. 156254-2 -

with . Therefore, when controlling the mode of the ore-thermal electric furnace, it is very important, in addition to maintaining the desired temperature in the near-electrode zone, to ensure a strictly defined temperature position along the height of the furnace, which is necessary for maintaining the process at an optimum. It is also important to maintain a well-defined temperature distribution across the furnace bath.

In accordance with the invention, it is proposed to control the ore-smelting electric furnace under continuous process conditions by adjusting the voltage in the furnace as a function of the integral of the deviations of the electrode position, i.e. according to the ratio;

U (t) f. D /

Here, V, where f / e is the base voltage on the furnace;

AL is the voltage deviation from the voltage U (, AND (t) is the change in voltage in a function of time in relative units; L.i is the deviation from the specified electrode depth into the slag determined by

value-, where h is the depth of the electrode and I is the height of the bath

ovens.

The proposed method, along with voltage regulation, presupposes the presence of a load controller acting on it in the function dG / -.

Ipp- where G is the conductivity of the melt, on the amount loaded dp.

material, and power regulator, which provides stabilization of the input power.

The need to influence the voltage change of a furnace transformer occurs when the composition of the initial charge changes, when due to a significant deviation of the melt conductivity at and const and a given electric power introduced into the furnace, the depth of the electrodes and the melt change significantly. This task arises in the integrated automation of ore-smelting electric furnaces.

The voltage change in accordance with the above relationship is accomplished by switching the voltage levels of the furnace transformer under load. Such systems are widely used in electrical applications. Measuring the magnitude of the deviation D |, 1 n the calculation of the integral also does not cause difficulties. The magnitude of the AI can be determined by attaching to the actuator a displacement electrode of rheostatic or inductive sensors, or by means of integrating the rate of transposition of the electrodes. Experience of using such devices on ore-thermal electric furnaces is available. The integral is computed using the simplest integrators.

The drawing shows the principle circuit of one of the variants of the voltage regulator that implements the proposed method. Rheostat sensors RS and characterize the position of the main electrode of the furnace and, accordingly, the change in the length of the electrode due to its burning.

When the electrode is bypassed, the engines of these sensors are simultaneously (in opposite directions) mechanically connected — one with the main electrode E and the other with a short-circuit device that automatically compensates for the burning of the electrode. Consistently with sensors and included additional resistance RC). The rheostat serves to set the voltage regulator setpoint. Then, using the C-chain, a signal is formed that characterizes the above integral, and a pulse is fed to the input of the electronic regulator ER. At the output of the ER, pulses appear, the duration of which corresponds to the deviation of the controlled parameter, and the repetition time is constant, is chosen to be somewhat longer than the switching time of the PPT switch for the voltage levels of the furnace transformer by one step. This is important for the correct operation of the device during automatic switching of the transformer under load.

The circuit of the PMPT drive mechanism for switching the voltage of a furnace transformer is standard.

The ER regulator has an adjustment unit for adjusting the IRM, assembled on the tiratron T and Pb relay, and a control unit for forming pulses proportional to the deviation of the controlled parameter, assembled on the VFR and the RZ relay, RZRei PI operates with the specified the constant frequency determined by the parameters of the circuit consists of resistors and capacitor C

If the error signal is absent, the potentials of both grids of the lamp are equal. The relays Pa and RZ when closed are triggered simultaneously, and the control pulse is not applied. Depending on the sign and magnitude of the deviation of the controlled parameter, it triggers with a predetermined duration of the relay of the relay or the relay of the relay and switches on the DIP of the actuator of the PPT switch — the voltage of the non-fixed transformer and the value is changed.

If the resulting error is not eliminated, after the next PI relay is turned on, the transformer switches to the next stage. The parameters of the controller and all elements of the scheme, respectively, are chosen so as to ensure the specified quality of the transition process.

Subject invention

A method of controlling the mode of a mining electric furnace equipped with electric regulators; Discharges, charge load controllers, working on impulse from rasilav conductivity when moving electrodes, are required ni and ii so that, in order to ensure the correct distribution of the input energy, it is optimally; and the technologist ;; cic mode; voltage regulation in a circuit is performed as a function of and; 1 test from the deviations of the electrode positions.

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