SU1320249A1 - Device for automatic measurement of gas permiability of sintering charge - Google Patents

Abstract

The invention relates to the field of automatic control of technological parameters in ferrous and nonferrous metallurgy and can be used in devices for monitoring and regulating the gas permeability of bulk materials. The purpose of the invention, the increase in measurement accuracy, is achieved by using two measuring tubes immersed in the material layer to the same depth. The measuring tubes are powered by two separate compressed air sources with different flow rates. The gas permeability index is calculated from measurements of the pressure drop and the velocity of the compressed air in the measuring tubes. 1 il. I (L with KS p to 4 WITH

Description

The invention relates to the automatic control of technological parameters in the ferrous and nonferrous metallurgy, in particular to the measurement of the gas permeability of the sintering mixture,

The aim of the invention is to improve measurement accuracy.

The drawing shows a block diagram of a device for automatically controlling the gas permeability of the sintering mixture.

The device contains measuring tubes 1 and 2, data 3 and 4 of the pressure drop of compressed air in measuring tubes 1 and 2, respectively, sensors 5 and 6 of the velocity of compressed air, multiplication blocks 7-10, comparison blocks 11 and 12, dividing unit 13 and block 14 control, and the input of control unit 14 is connected to the output of dividing unit 13, the inputs of which are connected to the outputs of comparison units 11 and 12, the first inputs of which are connected to the outputs of multiplication blocks 7 and 10, respectively, and the second inputs to outputs of multiplication blocks 8 and 9, respectively the first inputs of blocks 7 and 9 multiplications are connected to the outputs of the compressed air speed sensor 6, the first inputs of multipliers 8 and 10 are connected to the output of compressed air sensor 5, the second input of multiplication unit 10 is connected to the input of multiplication unit 8, the second input of which is connected to the differential sensor 4 output the pressure of the compressed air in the measuring tube 2, the second input of the multiplication unit 9 is connected to the output of the multiplication unit 7. The second input of which is connected to the output of the sensor 3 of the differential pressure of the compressed air in the measuring tube 1.

The device works as follows.

The measuring tubes and 2 are immersed in the charge at the same depth and have different gas flow rates. According to the measurement of the differential pressure of compressed air DP, and uPj in measuring tubes 1 and 2 using sensors 3 and 4 and compressed air velocities W, and ω using the sensors 5 and 6, the device calculates the gas permeability index of the sintering mixture using the formula

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 - u P, col The invention makes it possible to increase the measurement accuracy, since fluctuations of the charge level do not affect the operation of the device.

Claims (1)

Apparatus of the Invention A device for automatically measuring the gas permeability of an agglomeration mixture, comprising a first source of compressed air, a first measuring tube immersed in a charge and connected to a first source of compressed air, first sensors of speed and pressure drop of compressed air in the first measuring tube, and a control unit characterized by that, in order to improve the measurement accuracy, it is equipped with a second source of compressed air, a second measuring tube immersed in the charge and connected to the second a source of compressed air, second velocity sensors and a differential pressure of compressed air in the second measuring tube, four multiplication units, two comparison units and a dividing unit, the control unit input connected to the output of the Dividing unit, the inputs of which are connected to the outputs of the first and second comparison units, the first the inputs of which are connected to the outputs of the first and second multiplication units, respectively, and the second inputs to the outputs of the third and fourth multiplication units, respectively, the first inputs of the first and third b The multipliers are connected to the output of the first compressed air velocity sensor, the first inputs of the second and fourth multiplication units are connected to the output of the second compressed air velocity sensor, the second input of the second multiplication unit is connected to the output of the fourth multiplication unit, the second input of which is connected to the output of the first pressure differential sensor of compressed air in the first measuring tube, the second input of the third multiplication unit is connected to the output of the first multiplication unit, the second input of which is connected to the output of the second transducer pressure drop of compressed air in the second measuring tube. Editor - I.Rybchenko Compiled by A.Sergeev Tehred A.Kravchuk Order 2614/24 Circulation 604 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader S. Shekmar