RU2320966C2 - Method and device for correcting output information from flow meter - Google Patents

Abstract

FIELD: measuring technique.

SUBSTANCE: method comprises correcting information on the flow rate generated for low and zero flows with a correction unit by means of rejecting false signals on the flow at the flow meter.

EFFECT: enhanced precision.

14 cl, 17 dwg

Description

The text of the description is given in facsimile form.

Claims (14)

1. An electronic meter (120) for a flow measuring device having a flow correction unit for correcting flow information generated by said flow measuring device; made with the possibility sampling a signal displaying flow information generated by said flow measuring device during a zero flow mode of said flow measuring device to determine a plurality of data points displaying said signal; setting deviation limits for at least one of the data points; determining whether each sampled data point is within the aforementioned deviation limits; sampling a data point within said deviation limits to determine false flow information for said zero flow mode; sampling a data point outside said deviation limits to determine information displaying the true flow rate of the substance by said flow meter; continuing to sample said data points until said sampled data points are within said deviation limits; preventing said false flow information from reaching the output of said flow measuring device during sampling of data points within a deviation; determining that the most recent sampled data point is outside said deviation limits and thereby displays information about the true flow rate of the substance in said flow measuring device; and generating an output signal displaying the aforementioned information about the true flow rate of the substance displayed by the last-mentioned sample data point. 2. An electronic meter (120) according to claim 1, characterized in that the said flow measuring device is a Coriolis flowmeter. 3. An electronic meter (120) according to claim 1 or 2, characterized in that said flow rate correction unit is configured to setting the cutoff limit of low flow rate, which displays the level of flow of the substance, below which the mentioned flow meter will not generate an output signal that displays the true flow rate of the substance; monitoring information on the flow rate of the substance displayed by said output signal; determining that said controlled flow rate information corresponds to a lower flow rate than a flow rate displayed by the indicated low flow cutoff limit; completion of said output signal; and resuming the sampling of said data points for said zero flow mode in said flow meter. 4. The electronic meter (120) according to claim 3, characterized in that said flow rate correction unit is configured to determining that the updated sample data point displays a flow rate of a substance that is outside the aforementioned deviation limits; and generating an output signal for the true flow rate of the substance displayed by said updated sample data point. 5. An electronic meter (120) according to claim 1, characterized in that said flow rate correction unit is configured to establishing said deviation limits by the step of establishing an upper limit and a lower deviation limit associated with each sample data point; sampling said data points until the false flow rate information displayed by said data point is between said upper deviation limit and said lower deviation limit; determining that the updated sample data point is outside said limits; determining that information about the true consumption of a substance is displayed by said sample data point; and generating an output signal displaying said specific flow information. 6. The electronic meter (120) according to claim 1, characterized in that said flow rate correction unit is configured to determining the average value of p, for costs at N pre-sampled data points; establishing said standard deviation limits of the preceding N data points by multiplying the product of the standard deviation r by user-defined numbers of standard deviations A that are far from said deviation average; and adding and subtracting the product rA with respect to μ. 7. An electronic meter (120) according to claim 1 or 2, characterized in that said flow rate correction unit is configured to deriving an expression for determining data points characterizing time delay parameters Δt and input power of said flow measuring device during a low flow mode of said flow measuring device; deriving an expression for determining data points characterizing the Δt parameters and the input power of said flow measuring device during a zero flow mode of said flow measuring device; and subtracting said specific expression for said zero flow rate mode from said expression for said low flow rate mode to obtain an output signal of said flow measuring device that does not have false errors occurring in said device during said zero flow rate mode. 8. The electronic meter (120) according to claim 3, characterized in that said flow rate correction unit is configured to using the relationship between the time delay Δt and the input power of said flow measuring device to output an expression displaying a plurality of said data points characterizing the generation of flow information by said flow measuring device during said zero flow mode. 9. An electronic meter (120) according to claim 8, characterized in that said flow rate correction unit is configured to determining a discrepancy between successively sampled data points and said expression; and using said discrepancy determination to detect the end of said zero flow rate mode. 10. An electronic meter (120) according to claim 8, characterized in that said flow rate correction unit is configured to deriving said expression by sampling said data points; and using “n” from said data points in a curve fitting operation to derive said expression. 11. The electronic meter (120) according to claim 10, characterized in that said flow correction unit is configured for samples of the remaining "m" from said sample data points; determining a discrepancy between each of the "m" sampled data points and said expression; and using said discrepancy determination to determine an operating mode of said flow meter. 12. The electronic meter (120) according to claim 9, characterized in that said flow rate correction unit is configured to outputting a plurality of said expressions for said zero flow rate mode; storing said set of derived expressions in a memory unit; determining compatibility of information; comparing the newly derived expression with said stored expressions; determining whether said newly derived expression is compatible with said stored expressions; the use of said newly defined expression, if it is defined as compatible with said stored expressions; preventing the use of said newly defined expression if it is determined to be incompatible with said stored expressions. 13. An electronic meter (120) for a flow measuring device having a flow correction unit for correcting flow information generated by said flow measuring device; made with the possibility deriving an expression for determining data points of a signal characterizing the time delay parameters Δt and the input power of said flow measuring device during a zero flow mode of said flow measuring device; deriving an expression for determining data points characterizing the Δt parameters and the input power of said flow measuring device during a low flow mode of said flow measuring device; subtracting said expression for the zero flow mode of said flow measuring device from said expression for said low flow regime to obtain an output signal that does not have false errors occurring in said device during said zero flow mode. 14. A method of operating a flow measuring device for correcting flow information generated by said flow measuring device, said method comprising the following steps: sampling a signal displaying the flow information generated by said flow measuring device during a zero flow mode of said flow measuring device to determine a plurality of data points displaying said signal; setting deviation limits for at least some of the data points; determining whether each sampled data point is within the aforementioned deviation limits; sampling a data point within said deviation limits to determine false flow information for said zero flow mode; sampling a data point outside said deviation limits to determine information displaying the true flow rate of the substance by said flow meter; continuing said sampling of said data points until said sampled data points are within said deviation limits; preventing said false flow information from reaching the output of said flow measuring device during sampling of data points within a deviation; determining that the most recent sampled data point is outside said deviation limits and thereby displays information about the true flow rate of the substance in said flow measuring device; and generating an output signal displaying the aforementioned information about the true flow rate of the substance displayed by the last-mentioned sample data point.

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