RU2007102073A - ELECTRONIC METER BLOCK AND METHOD FOR DETECTING RESIDUAL MATTER IN A FLOW METER - Google Patents

Claims (24)

1. The electronic unit (20) of the meter, capable of detecting residual matter in the flow meter device (10), moreover, the electronic block (20) of the meter contains a processing system (22) capable of instructing the flow meter (5) to inform the flow meter device (10) of oscillating motion and receive the vibrational response (31) from the flow meter device (10), and the storage system (24) capable of storing the parameters and data of the flow meter, moreover, the electronic unit (20) of the flow meter is further characterized in that the processing system (22) is able to compare the vibrational response (31) with a predetermined threshold (30) of the residual substance to detect the residual substance. 2. The electronic unit of the meter (20) according to claim 1, in which a predetermined threshold (30) of the residual substance is set by the user. 3. The electronic unit (20) of the meter according to claim 1, in which the processing system (22) is additionally able to estimate the mass value of the residual substance (36). 4. The meter electronic unit (20) according to claim 1, wherein the processing system (22) is additionally capable of generating a warning state (34) if the vibrational response (31) exceeds a predetermined threshold (30) of the residual substance. 5. The electronic unit (20) of the meter according to claim 1, in which the processing system (22) is additionally able to determine an empty state (33) in the flow meter device (10) if the vibrational response (31) does not exceed a predetermined threshold (30) of the residual substances. 6. The electronic unit (20) of the meter according to claim 1, in which the processing system (22), in addition, is able to further compare the excitation amplitude (37) and the excitation gain (38) and detect residual matter if the vibrational response (31) exceeds a predetermined threshold (30) of the residual substance, and if the excitation gain (38) exceeds the excitation amplitude (37) by the amplification threshold (39). 7. The electronic unit (20) of the meter according to claim 1, in which the flow meter (5) contains a Coriolis flow meter. 8. The electronic unit (20) of the meter according to claim 1, in which the processing system (22) is additionally able to initially save the main oscillation frequency of the flow meter device (10) and determine a predetermined threshold (30) of the residual substance from the main oscillation frequency, a predetermined the threshold (30) of the residual substance contains a predetermined frequency shift (41) relative to the fundamental oscillation frequency. 9. The electronic unit (20) of the meter according to claim 1, in which the processing system (22) is additionally capable determine the compensated frequency (42) from the vibrational response (31), calculate the frequency difference (43) between the compensated frequency (42) and the fundamental oscillation frequency of the flow meter device (10) and multiply the difference (43) of the frequencies by the coefficient of the ratio of mass and frequency (44) to obtain the value (36) of the mass of the residual substance for the flow meter device (10), moreover, the comparison contains a comparison of the value (36) of the mass of the residual substance with a predetermined threshold (30) of the residual substance. 10. The meter electronic unit (20) according to claim 1, wherein the predetermined threshold (30) of the residual substance contains a calibration density value for the flow meter device (10), and the processing system (22) is further capable compensate for the vibrational response (31) to obtain a compensated density value (61), moreover, the comparison contains a comparison of the compensated density value (61) with the calibration density value, and wherein the detection comprises detecting a residual substance if the compensated density value (61) substantially matches the calibration density value. 11. The electronic unit (20) of the meter according to claim 1, in which the processing system (22) is additionally capable compensate for the vibrational response (31) to obtain a compensated density value (61) and multiply the compensated density value (61) by the volume (62) of the flow tube, by the coupling coefficient (63), which sets the viscosity characteristic of the bond for the fluid, and by the orientation coefficient (64) to obtain the mass value (36) of the residual substance, moreover, a predetermined residual threshold (30) contains a predetermined threshold of the residual mass, and moreover, the comparison contains a comparison of the value (36) of the mass of the residual substance with a predetermined threshold (30) of the residual substance. 12. The electronic unit (20) of the meter according to claim 11, in which the compensation further comprises compensating for the vibrational response (31) to the external temperature and external pressure. 13. A method for detecting residual material in a flowmeter device, comprising the steps of: reporting the flowmeter device vibrating motion and measuring the vibrational response of the flowmeter device, the method further characterized in that comparing the vibrational response with a predetermined threshold of the residual substance to detect the residual substance. 14. The method according to item 13, in which a predetermined threshold of the residual substance is set by the user. 15. The method according to item 13, in which the detection further comprises essentially determining the mass value of the residual substance. 16. The method according to item 13, further comprising the stage of generating a warning state if the vibrational response exceeds a predetermined threshold of the residual substance. 17. The method according to item 13, further comprising determining an empty state in the flow meter device if the vibrational response does not exceed a predetermined threshold of the residual substance. 18. The method according to item 13, further comprising comparing the amplitude of the excitation and the gain of the excitation, and the detection contains the detection of the residual substance if the vibrational response exceeds a predetermined threshold of the residual substance, and if the gain of the excitation exceeds the amplitude of the excitation threshold gain . 19. The method according to item 13, in which the flow meter contains a Coriolis flow meter. 20. The method according to item 13, further containing a stage at which the main oscillation frequency of the flowmeter device is initially stored, the determination comprising determining a predetermined threshold of the residual substance from the fundamental oscillation frequency, and the predetermined threshold of the residual substance contains a predetermined frequency shift with respect to the fundamental frequency fluctuations. 21. The method according to item 13, in which the comparison further comprises the steps of determine the compensated frequency from the vibrational response, calculating a frequency difference between the compensated frequency and the fundamental oscillation frequency of the flow meter device, and multiplying the frequency difference by the coefficient of the ratio of mass and frequency to obtain the mass value of the residual substance for the flow meter device, in which the comparison contains a comparison of the mass of the residual substance with a predetermined threshold of the residual substance. 22. The method according to item 13, in which a predetermined threshold of the residual substance contains a calibration density value for the flow meter device, and further comprising a stage on which compensate for the vibrational response to obtain a compensated density value, wherein the comparison comprises comparing the compensated density value with a calibration density value, and wherein the detection comprises detecting a residual substance if the compensated density value substantially matches the calibration density value, and in which the comparison contains a comparison of the mass of the residual substance with a predetermined threshold of the residual substance. 23. The method according to item 13, in which the comparison further comprises the steps of compensate for the vibrational response to obtain a compensated density value, and multiplying the compensated density value by the volume of the flow tube, the coupling coefficient, which sets the viscosity characteristic of the fluid, and the orientation coefficient, which is associated with the installation orientation of the flow meter to obtain the mass of the residual substance, moreover, a predetermined residual threshold contains a predetermined threshold of the residual mass, and moreover, the comparison contains a comparison of the mass of the residual substance with a predetermined threshold of the residual substance. 24. The method according to item 23, in which the compensation further comprises compensating for the vibrational response to external temperature and external pressure.