SU432200A1 - THE DEVICE OF CONTROL AND AUTOMATIC CONTROL OF THE MOVEMENT IN THE CONVERTER - Google Patents

Description

The invention relates to the field of ferrous metallurgy and can be used for the cantrol and automatic control of the smelting of steel in the converter.

A device for controlling and automating the melting progress in the converter is known, which comprises a Gaseous Intensity Sensor and lance position, oxygen consumption and flow metering units connected to a computer unit. The well-known device has low accuracy and reliability of control of the llaek course.

The proposed device is devoid of these disadvantages, since it is equipped with multiplication blocks, integrators and a frequency generator, the inputs of the blocks of intelligence are connected to the frequency generator and the outputs of the multipliers through the integrators to the computing unit.

The drawing shows a block diagram of the proposed device, which consists of blocks of multiplication 1 II 2, with the inputs of the blocks connected to generator m 5 of standard frequency and through the secondary device 4 from the bell bell of dfmanmetrome.m 5 installed on the flue 6, and the outputs through integrators 7 and 8 with the input of the counting unit 9.

The output of the calculating unit is connected to the indicator 10 and connected through the integrator 11 to the metering device 12 having the hopper 13 for feeding the slag-forming agents to the converter 14, and through the regulator 15 to the mechanism 16 controlling the 1st position of the tuyere 17, which in turn. Cher: 5 sensors (K 18 position of the tuyere compedia with oxygen consumption regulator 19. In addition, the oxygen consumption regulator is connected to the oxygen consumption sensor 20 and to the regulating valve, Yum 21. The output of the tuyere sensor 18 is connected to the input the controller 15, the mechanism for controlling the position of the tuyere, and the integrator // metering device 12 is connected to the indicator 22.

In the purge process, oxygen enters through the lance 17 into the converter 14. The exhaust converter gases enter the gas duct 6, from which the gassing intensity is measured using a bell differential pressure gauge 5) secondary 4. Further, the signal from the secondary device is sent to multiplication blocks 1 and 2, for example, PEF titanium converters, where this signal is multiplied by the signal of the standard frequency of the periodic component of generator 3, and in the multiplication unit / multiplied by sin sho /, and multiply 2 by coscon /. After that, the signals post3

go to Integrator 7 and 5 and in the calculating block 9.

From the output of the counting unit 9, a signal is removed that is proportional to the periodic component Yushi, which is fed to the indicator 10 and the regulator 15, issuing a command to change the lid to the lance control mechanism 16. The signal from the lance position sensor is and pulse to the oxygen consumption regulator J9.

At the same time, the signal from block 9 is fed to the integrator, where the magnitude, lrol order of the flax, is calculated, to the current basicity value of the switch. The signal of this value is sent to the india 8cator 22 and the dosing device 12, which respectively determine the necessary quantity

otzes

slag-forming materials and buncher 13.

Present Invention

Device control and automatic,

at the turn of the plazhi in the converter, containing a sensor for the intensity of the gas section, as well as nodes for adjusting the position of the tuyere, oxygen consumption and dosing

connected with a computing unit, characterized in that, with the aim of increasing the accuracy and reliability of controlling the formation mode, it is equipped with multiplication units, integrators and a frequency generator, -p. and multiplications inputs are connected to the gas release intensity sensor and the frequency generator, and the outputs of multiplication units are via integrators to the computing unit.

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