SU905649A1 - Device for automatic measuring of damping factor and natural frequency of flow rate and flow density vibration frequency converters - Google Patents

Description

(5) DEVICE FOR AUTOMATIC MEASUREMENT

Claims (3)

The attenuation coefficient and eigenfrequency VIERATSIONNO-FREQUENCY TRANSDUCERS FLOW The invention relates to means for monitoring and controlling a Ponoy Strongly vibration-frequency of transducers leu flow, density, and other parameters of controlled environments and Mauger be used in the management of those technologically processes in the petroleum gas and chemical industry known devices for automatic measurement of the frequency and attenuation coefficient of vibration-frequency converters, made on the basis of electron unit having an input ggadk1Sh) chen to output vibration-frequency converter, and the output unit connected with the input transducer and {2}. A disadvantage of the known devices is the low accuracy of measurements on pulsating multiphase flows. The device closest to the invention in its technical essence and the achieved effect is a device for automatically measuring the flux density of the flux of the attenuation coefficient and the natural frequency of the vibration-frequency transducers of the flow rate and flux density containing a primary converter, an output which is connected to an amplifier and an amplitude detector, a block for recording the frequency and attenuation coefficient, a multiplier and Lok comparing {3} disadvantage of this device is the presence of dynamic errors during operation at unsteady flow caused by flow disturbances in E, the amplitude of oscillation varied yui1imi e ementa vibratsionnochastotnogo sensitive transducer. The goal of rooting is to increase the measurement accuracy on non-stationary flows. This goal is achieved in that the primary converter output is connected to the frequency and attenuation coefficient recording unit and the first multiplier input, the second 39 input of which is connected to the output of the amplitude detector, the multiplier and amplifier outputs are connected to the comparison unit inputs, the output of which is connected to the primary converter input. The drawing shows a block diagram of the device. The device consists of a primary transducer 1, an amplitude detector 2, a multiplier 3 of a frequency and attenuation coefficient recording unit, an amplifier 5 and a comparison unit 6. The device works as follows, at once. The oscillations of the sensitive element of the primary converter 1 are converted by means of an electromagnetic removal system into an electrically sinusoidal signal fed to an amplitude detector 2, multiplier 3, amplifier 5. Multiplier 3 multiplies the amplitudes. The signal taken from the outputs of the resident 3 and amplifier 5 is fed to the inputs of comparison unit 6, the output of which removes a signal proportional to the difference of the input signals, the output to the electromotive excitation system of the primary converter i. Due to the coverage of the primary converter with a positive feedback circuit through blocks 2.3 and 5, continuous oscillations are excited in it, described by the second-order equation. The controlled medium interacts with the sensitive element of the primary transducer 1 and causes a change in the damping coefficient j3 and the natural oscillation frequency fe when the flow rate and flux density change. The magnitude of the voltage at the output of the electromagnetic removal system of the primary converter, t Ugy, is determined by the expression and - Kggde VP, - the calibration factors of the converter. The output of the primary converter is fed to the frequency and attenuation coefficient recorder. The proposed device provides, in comparison with the existing ones, a wider range of variation of disturbances of oscillations of a sensitive element by a flow of a controlled medium. The economic effect is achieved by increasing the measurement accuracy on multiphase unsteady flows and the speed of process control. Apparatus of the Invention A device for automatically measuring the attenuation coefficient and the natural frequency of vibration-frequency transducers and flux density, comprising a primary transducer whose output is connected to an amplifier and an amplitude detector, a frequency and attenuation coefficient recording unit, a multiplier and a comparison unit, which is different in that the purpose of improving the measurement accuracy in non-stationary flows, the output of the primary converter is connected to a frequency and cost registration unit The second input of the multiplier, the second input of which is connected to the output of the amplitude detector, the outputs of the multiplier and amplifier are connected to the inputs of the comparison unit, the output of which is connected to the input of the primary converter. Sources of information taken into account in the examination 1. UK Patent No. P75664, cl. H D, 1971. 2. USSR author's certificate №, cl. G 01 F 1/00, 1975. 3. US patent number 3715920, class. 73 / T9 In 1973 (prototype). 2 e-