SU617476A1 - Device for controlling blasting conditions in converter - Google Patents

Description

From the exit of the heater and from the pipeline 5 of the cold blow, the pipelines G and 7 of the heated blow and blow from the ambient temperature through the corresponding regulating bodies and mechanisms 8 and 9 are connected to the lance. A thermocouple 10 is mounted at the outlet of the heater to measure the temperature of the heated blast, and for the current temperature values of the heated heated blast in the tuyere, a thermocouple 11 is mounted at its root.

The device equipped with the blowing mode also includes digital blocks (nodes) 12, 13 which are driven by the position of the tuyere and the flow rate blowing with the ambient temperature, the digital unit (node) 14 for controlling the flow rate of the heated blowing, the output of which is connected to the regulating and additional organ, and the inputs to the mixed thermocouple heated air in the tuyere and to the output of the digital block 15 correction. The input and the latter is connected to a thermocouple heated by blowing in the heater. To the inputs of the lance control unit of the tuyere, the flow rate of the cold heated blast, the outputs of the task set 16 and initial conditions are connected.

From the moment of the start of smelting, a lance 2 is lowered into the converter 1, through which a controlled amount of blowing with the ambient temperature is supplied from the pipeline 7. In this case, the blast from the common pipeline branches into the heater located in the flue duct, where it is heated to a temperature of several hundred degrees and through pipe 6 is fed into the lance for cold blast displacement. The regulation of the course of oxidative reactions and the thermal regime is carried out by changing the ratios of the costs of the heated and cold blowing with the help of the regulating actuators 8 and 9.

The digital blocks 12, 13, 14 control, respectively, the position of the tuyere, the flow rates of the cold and heated blow in accordance with the programmed values of the carbon content in the metal and its temperature. During the purge process, when the temperature changes, blowing in the heater unit 15 generates correction signals to the input of control unit 14. For interconnected control of the smelting process, the input of the block 14 is supplied with corrective signals on the temperature of the heated in the heater to blow and on the temperature of the mixed preheated in the tuyere. Block 12 fulfills the position of the tuyere given by the Nrogram in block 16. In accordance with the initial conditions introduced, block 16 supplies, at the beginning and in the course of setting, blocks 12, 13, 14 of the programmed values of the position of the tuyere, the carbon content in the metal and its temperature.

The use of the proposed mode control unit in the converter gives a significant economic effect.

due to the intensification of the smelting process by blowing a blown preheated to a certain temperature.

Claims (2)

1. USSR author's certificate number 419916, cl. G 06G 7/48, 1971. 2. USSR author's certificate N ° 450834, cl. C 2IC 5/30, 1974.  five