SU1528325A3 - Method and apparatus for checking heterogeneous conversion process in turbulent flow of molten metal - Google Patents

Abstract

This invention relates to the control of heterogeneous processes in molten metal and can be used in the metallurgical industry. The purpose of the invention is to increase the reliability of the control. Using an acoustic receiving transducer, they receive acoustic and vibration signals caused by gas bubble oscillations in a turbulent flow of molten metal, analyze the spectrum of received signals using a signal processing unit, using the ratio of effective or average values of two different spectral regions as an analysis parameter. , by this ratio, the instantaneous value of the turbulent diffusion coefficient is determined, which is used as a parameter to control the heterogeneous process. sa. To increase the signal level, gas bubbles can be caused artificially by the introduction of special substances into the molten metal. The processing of the received signals can be performed using the weighting function. 2 sec. and 1 z. p. f-ly, 4 ill.

Description

The signal splitting into spectral regions (Fig. 3) is made in the form of two parallel channels, the first of which contains a high-frequency filter 6 in series and the first block 7 for determining the effective or average value, and the second is a low-frequency 4elt 8 series connected bar, the second block 9 determine the effective or average value and the adder 10, the inputs of the filters 6 and 8 high and low frequency connected to the outputs of the amplifier 2, the output of the first block 7 to determine the effective or average value attached to the second the course of the adder 10 and the input of the divider 5 ,. and the output of the adder 10 is connected to the second input of the divider 5. The spectral conversion of the signal using the weighting function (Fig 4) is made in the form of two parallel channels, each of which consists of n parallel circuits, each of which in turn contains serially connected narrowband the filter 11 and the multiplier 12, connected in series to the adder 13 and the block 14 for determining the effective or average value, the inputs of the narrow-band filters 11 are connected to the outputs of the amplifier 2, the outputs of the multipliers 1 2 each channel la are connected to respective inputs of adder 13, and determine an effective or average value of the outputs of blocks 14 are connected to the inputs of the divider 5

The essence of the method for controlling a heterogeneous transformation process in a turbulent flow of molten metal is as follows. Using an acoustic receiving transducer 1 (for example, a microphone), they receive acoustic and vibration signals caused by gas bubbles oscillating in a turbulent flow of molten metal, convert received signals into electrical signals, and analyze the parameters of spectrosignals, in particular, using the weighting function. As parameters of the spectrum of signals, the ratio of the effective or average values of two different regions of the analyzed spectrum is used, from which the relative instantaneous value of the turbulent diffusion coefficient is determined, and with its help heterogeneous

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the transformation process in a turbulent flow of molten metal. If necessary, when the magnitude of the received signal is insufficient for analysis, substances that artificially cause the appearance of artificial bubbles in the molten metal, which increase the magnitude of the acoustic and vibration signals, are introduced into the molten metal. As . Substances are used, for example, briquettes of alloying material with the addition of, for example, sodium chloride (3% of the mass of the material), a gas blown into the melt or surface-active powdered substances. In this case, the amount of these substances should be such as not to affect the quality of the metal.

The operation of the device for controlling a heterogeneous process in the production of, for example, steel is carried out as follows.

A receiving transducer I, for example a microphone with a sharp radiation pattern, amplified with amplifier 2, the signal from which is fed to signal processing unit 3 to a high-frequency filter 6 with a bandwidth of 7 kHz and a low-frequency filter 8 with a lower limit, is used to obtain a measuring signal. transmission of 100 Hz; Filter 8 provides filtering of low-frequency noise, source; -; which is a nearby current converter. The noise has a maximum amplitude at a frequency of 50 Hz. The output signals of filters 6 and 8 are directly fed to blocks 7 and 9 of the effective or average value, and then through the adder 10 to the divider 5. Thus, electrical signals are obtained that are proportional to the energy units shown in FIG. . 1 as Tj and the full spectrum of frequencies, the ratio of which gives the measuring signal., I.e. instantaneous diffusion coefficient. Otherwise, the signal processing unit 3 (FIG. 4) outputs the output signal of the amplifier 2 connected to the receiving transducer 1 to several narrowband filters 11 (FIG. 4) and through the multipliers 12 (FIG. 3) to two adders 13, and through them - to two blocks 14 for determining the effective or average value. The outputs of the latter are connected to the divider 5 of one size to another

so that the output of the signal processing unit 3 is a measurement signal representing the instantaneous values of the diffusion coefficient,

Using narrow-band filters 11, it is also possible, if necessary, to filter out noise filtering, which can be considered as spectrum conversion.

The receiver transducer 1 of the device is generally implemented in the form of a microphone or vibration sensor, which can be installed in the body of the vessel with molten metal or next to it. by him. The output signal converted by the signal processing unit 3 is supplied to the computing unit 4, which can generate the signal necessary for indicating and activating the extrasin blocks (not shown) by the entire steel production process,

Claims (1)

Invention Formula 1, A method for controlling a heterogeneous transformation process in a turbulent flow of molten metal, consisting in receiving acoustic and vibration signals due to oscillations of gas bubbles in a turbulent flow of molten metal, naturally five 0 five 0 process conversion in a turbulent flow of molten metal. 2, the method of claim 1, which is different from the fact that the received acoustic and vibration signals are subjected to spectral conversion using the weighting function, 3, A device for controlling a heterogeneous transformation process in a turbulent melt stream. metal, containing series-connected receiving transducer of acoustic and vibration signals, An amplifier, a signal processing unit and a computing unit, characterized in that, in order to increase the reliability of the control, the signal processing unit is designed as a splitter and a signal separation circuit for spectral regions or a spectral signal conversion circuit using a weighting function, wherein the signal separation circuit for regions the spectrum is made in the form of two parallel channels, the first of which contains a high-frequency filter connected in series and the first unit for determining the effective or average value, and the second d - series low-pass filter, the second unit for determining the effective or average value and adder, high and low frequency filter inputs are connected in the turbulent flow to the outputs of the amplifier, the output of the first ke, and gas bubbles, in the case of the nonblocking of the effective or average value, is connected to the second input of the adder and the input of the divider, and the output of the adder is connected to the second input of the divider, the spectral conversion made in two two parallel channels, each of which consists of n parallel circuits, each of which contains a connected narrow band filter and a multiplier, and a series connected adder and op block determining the effective or average value, the narrowband filter input is connected to the amplifier outputs, the outputs of the multipliers of each channel are connected to the inputs of the corresponding sum of the torus, and the outputs of the effective or average value determination blocks, are connected to the inputs of the divider, artificially caused by the introduction of a substance into the molten metal, the received acoustic and vibration signals are converted into electrical signals, analyze the spectrum of signals reflecting the spectrum of oscillations and, taking into account the parameters of the spectrum, monitor the heterogeneous transformation process, which is different from the fact that, to increase the reliability of the control, the ratio of the effective or average values of two different regions of the analyzed spectrum is used as the spectrum parameters received signals, the measured relative instantaneous value of the turbulent diffusion coefficient, which takes into account the heterogeneous distribution of odeam amplifier output first the effective or average value determining unit is connected to the second input of the adder and the input of the divider, and the output of the adder is connected to the second input of the divider, the spectral signal conversion circuit is made in the form of two parallel channels, each of which consists of n parallel circuits, each of which contains series-connected a narrowband filter and a multiplier, connected in series by an adder and a unit for determining the effective or average value, the input of the narrowband filters are connected to the outputs of the amplifier the power, the multiplier outputs of each channel are connected to the inputs of the corresponding adder, and the outputs of the effective or average magnitude determination blocks are connected to the inputs of the divider, Fig.E srig.Z