RU2002101925A - IDENTIFICATION OF TYPE FOR CONTROL OF EXCITATION OF CORIOLIS FLOW METER - Google Patents

Claims (6)

1. The method (400) of the transmitter (20) of a Coriolis flow meter (5) having at least one flow tube (103A-103B), a pathogen (104) that causes vibrations of the at least one flow tube, and sensors (105-105 ') attached to said at least one flow tube that generate strain gauge signals representing the movement of said at least one flow tube, the method (400) comprising the following steps: supply ( 401) the initial excitation signals to the pathogen, causing vibration of said flow tube, and determining (403) the oscillation frequency of the flow tube based on strain gauge signals, characterized by the following steps: determining (404) the type of flow tube in response to strain gauge signals indicating the oscillation frequency of the flow tube, and setting (405) parameters for generating said drive signal in response to determining the type of flow tube. 2. The method (400) according to claim 1, wherein said step of determining (404) the type of flow tube includes the following steps: comparing said vibration frequency with a threshold frequency, and determining that the flow tube (103A-103B) is straight a flow tube that responds to an oscillation frequency greater than the threshold frequency. 3. The method of claim 2, wherein said step of determining (404) the type of flow tube further comprises a step of determining that the flow tube (103A-103B) is a curved flow tube that responds to an oscillation frequency lower than a threshold frequency, or equal to her. 4. The transmitter (20) of the Coriolis flowmeter having at least one flowmeter tube (103A-103B), a pathogen (104) causing vibrations of the at least one flow tube, and sensors (105-105 '), attached to said at least one flow tube that generate strain gauge signals representing the movement of said at least one flow tube and comprising a processor (301) configured to generate initial excitation signals for the pathogen to cause vibration of the flow tube, supplying excitation signals to the pathogen causing vibrations of the flow tube, and determining the frequency of the flow tube from the strain gauge signals, characterized in that the processor is configured to determine the type of flow tube in response to the strain gauge signals from the sensors indicating the frequency of the flow meter tube, and setting parameters to generate an excitation signal in response to determining the type of flow tube. 5. The transmitter (20) according to claim 4, in which the processor (301) is configured to determine the type of flow tube (103A-103B) by comparing the oscillation frequency with a threshold frequency and determining that the flow tube is a direct flow tube that responds to oscillation frequency greater than the threshold frequency. 6. The transmitter (20) according to claim 5, in which the processor (301) is configured to determine the type of flow tube (103A-103B) by determining that the flow tube is a curved flow tube that responds to an oscillation frequency lower than the threshold frequency , or equal to it.