• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    1523918 Electro-acoustic measurement of slag level ACIERIES REUNIES DE BURBACHEICH-DUDELANGE SA 30 Oct 1975 [31 Oct 1974] 45031/75 Heading G1G [Also in Division H4] In measuring the level of frothy slag during oxygen blowing of molten steel in a crucible, the amplitude of standing acoustic waves set up in a thermostated conduit 1 is measured by circuitry, Fig. 2, including a filter 8 for compensating the non-linear frequency response of the conduitcrucible-flue ensemble. In Fig. 1 a condenser microphone 5 is coupled to one end of a copper tube 1 in an iron sheath 2 stuffed with glass wool 3 to provide mechanical support and acoustic and thermal insulation. The tube 1 is maintained at 100‹C by a heating cable 6 and thermocouple 7. In Fig. 2, the picked up signals pass through the correcting filter 8, low pass filter 9, superheterodyne 10 with adjustable local oscillator 11, band pass filter 12, amplifier 13, rectifier 14 and a variable gain amplifier 16. The acoustic waves are in the frequency range 100-250 cycles/sec. Filter 12 has a pass band of 60 cycles/sec width, which can be reduced to 5 cycles/sec width for finding the resonance frequency of the acoustic assembly. Oscillator 18 is for on site testing of the circuit.
    公开号:SU778716A3
    申请号:SU752182601
    申请日:1975-10-20
    公开日:1980-11-07
    发明作者:Бомер Жан
    申请人:Арбед С.А. (Фирма);
    IPC主号:
    专利说明:

    one
    This invention relates to technical acoustics and can be used to control the level of liquid and bulk media in large volumes at high temperatures .5
    A device for monitoring the level of a liquid phase in an oxygen converter is known, which contains a spectrum analyzer 1 noise.
    However, this device is not accurate due to low noise correlation with the fill level of the converter volume.
    The closest in technical essence to the invention is a device comprising an acoustic receiver including a microphone, an amplifier, a low-pass filter, a detector and a recorder 2.
    However, this device also does not allow to accurately determine the filling level of a metallurgical furnace with changes in the gas temperature above the interface.
    The aim of the invention is to improve the accuracy of slag level measurement.
    The goal is achieved due to the fact that a correction filter is connected to the device, connected via a two-position key to the calibration generator and low-pass filter, the modulator connected to one of its
    the inputs of the local oscillator, and the band-pass filter, the acoustic receiver, is made in the form of an acoustic tube with a microphone located at its end, placed in a heat-insulated casing equipped with a heating coil and a thermocouple; band-pass filter, the output of which is through the amplifier and the detector is connected to the recorder.
    FIG. 1 shows a block diagram of the device, FIG. 2 - acoustic receiver, cut.
    The device contains an acoustic receiver 1 connected to the input of the correction filter 2, the output of which is connected to a calibration generator 4 and a low-pass filter 5 connected to one of the inputs of modulator 6 via a two-position switch 3, and the local oscillator 7 is connected to the second input 6 through the band-pass filter 8, the amplifier 9 and the detector 10 is connected to the recorder 11.
    The acoustic receiver (Fig. 2) includes a microphone 12 mounted by connecting 13 at the end of an acoustic tube 14, which is inserted into a thermally insulated housing 15 and provided with a heating coil 16 enclosing it and a thermocouple 17.
    The device works as follows.
    During the operation of the metallurgical furnace, when boiling the metal and the formation of slag, shumy arise. The volume of the furnace, filled with the gaseous fraction, and the acoustic tube are acoustic resonators, and the resonance of the volume of the furnace depends on the level of slag in it.
    Consequently, the corresponding components are separated from the total noise spectrum, due to the resonances of the furnace. The natural frequency of the acoustic pipe itself is chosen in the frequency range of 100-250 Hz, in which the most characteristic frequencies of various furnaces are located.
    The acoustic signal received by microphone 1 is fed to the input of filter 2, which corrects the frequency response of acoustic tube 14, which due to the influence of the furnace volume for different furnaces changes. The signal is then filtered by filter 5, which attenuates the parasitic noise coming from outside, and then goes to modulator 6, which plays essentially the role of a mixer. The second input of the modulator 6 is supplied with a sinusoidal signal from the local oscillator 7, by varying the frequency of which the deviation of the resonant frequencies of the tubes outside the band of the band-pass filter 8 can be corrected. P. To check the electrical part of the device, a calibration generator 4 is used, which is connected to the input of the filter 5 with the help of a two-position key 3.
    The acoustic receiver 1 contains a thermally insulated acoustic tube 14, in
    which during the operation maintains a constant temperature using a heating coil 16, the current through which changes according to the thermocouple signal 17. Due to the temperature stabilization of the acoustic receiver and the correction of its frequency response, i.e., the selection of characteristic frequencies for each furnace, slag level in the furnace according to the change in signal level at the device output.
    权利要求:
    Claims (2)
    [1]
    1. Kalin SM, et al. Studying the schum in the oxygen converter during refining. M., - “Cherna metallurgists, 1969, No. 9, p. 60-64.
    [2]
    2. The patent of Belgium No. 682786, cl. G 21C, 1965.
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    同族专利:
    公开号 | 公开日
    GB1523918A|1978-09-06|
    JPS5167202A|1976-06-10|
    FR2289893A1|1976-05-28|
    ATA831675A|1982-04-15|
    DE2547933C2|1985-12-19|
    DE2547933A1|1976-05-06|
    FR2289893B1|1979-06-22|
    BE835019A|1976-02-16|
    US4098128A|1978-07-04|
    LU71228A1|1976-03-17|
    JPS6129441B2|1986-07-07|
    CA1070008A|1980-01-15|
    AT377362B|1985-03-11|
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    FR2150572B1|1971-07-22|1974-04-26|Commissariat Energie Atomique|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    LU71228A|LU71228A1|1974-10-31|1974-10-31|
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