FR2998368A1 - Device for detecting drift or blocking of water meter, has noise measurement unit for measuring noise that is produced in meter, and noise analysis unit for estimating whether counter drift or counter blocking of meter is carried out - Google Patents

Abstract

The device (3) has a rotary mechanical part (D) movably mounted in a body of a mechanical fluid meter (1) to be set in a motion by a flow of fluid. A noise measurement unit (M) measures noise produced in the meter by the flow of fluid and the mechanical part. A noise analysis unit (5) estimates whether a counter drift or counter blocking of the meter is carried out. A microphone is placed upstream to or downstream from the meter or integrated into a non-return valve that is near to the meter. The microphone is integrated into the meter body. The rotary mechanical part is designed as a turbine, volumetric piston and counting wheel. An independent claim is also included for a mechanical fluid meter.

Description

DEVICE FOR DETECTING THE DERIVATIVE OR BLOCKING OF A MECHANICAL FLUID COUNTER, AND COUNTER EQUIPPED WITH SUCH A DEVICE.

The invention relates to a device for detecting the drift or the blockage of a mechanical fluid meter comprising a mechanical member movably mounted in a meter body to be set in motion by the flow of the fluid. The invention relates more particularly, but not exclusively, to such a detection device for water meters. The meters concerned by the invention use measuring devices in the form of rotating mechanical members, including turbines, volumetric pistons, counting wheels, in order to measure the volume or the past flow. The correlation between volume and flow can easily be achieved by counting time. From this measurement, generally resulting in a number of revolutions made by the mechanical member, a transducer provided in the counter ensures the counting of the volume and the incrementation of a totalizer. This transducer can also generate electrical pulses which will then be transmitted to a digital counting card including a teletransmission system. The invention particularly relates to hot or cold water metering systems equipped with radio transmitters ensuring the remote transmission of volume and / or flow information from the meter.

The invention also relates to fluid counting apparatus with mechanical measurement technology with electronic equipment providing totalization and can provide information on consumption. Water and fluid companies measure the distributed quantities of water and fluids to establish adequate billings.

In order to guarantee correct billing, these companies use meters whose precision is known, with precise manufacturing ratings guaranteeing this accuracy. However, such precision is guaranteed only for a new meter: the hazards of use such as the introduction of foreign bodies in the pipes, scaling, water hammers, flow rates higher than the nominal characteristics of use , to which the meter is subjected will change the counting accuracy and thus affect the measurement. These hazards can lead to a drift of the count, in particular under-counting or over-counting, which can change as the meter ages. Hazards can even cause a complete blockage of the meter, which constantly raises zero consumption, while there is actually consumption of fluid, including water. In order to overcome these hazards, the fluid distribution companies 5 have a limited number of solutions. Massive and expensive replacement campaigns are usually triggered as a result of statistical analyzes and aging analyzes. WO 2008/023105 proposes a solution to raise in a simple way, in some cases, the ambiguity between a blocked counter and a lack of consumption, and thus allow a targeted replacement of actually blocked counters. According to this document, a transducer is responsible for transforming the rotations of a rotating mobile, turbine or rotary piston into digital information. An electronic filter is used to eliminate oscillations of the mobile. It is intended to recover these oscillations which constitute indications of a counter which is not blocked. WO 2011/045725 also relates to fluid meters of mechanical technology, with turbines or rotary pistons. According to this document, two temperature measurements are made, one of the fluid in the vicinity of the meter, the other of the ambient temperature. An analysis means 20 is provided to determine the difference between these two temperatures and to compare it to a predefined threshold. If there is no flow, if the temperature difference is greater than the threshold, blocked counter information is generated. These two documents are intended to determine whether the counter 25 is blocked, but not to detect a drift counting, sub-counting or over-counting. The object of the invention is, above all, to provide a device for detecting not only the blocking of a mechanical fluid counter but also of the counting drift, under-counting or over-counting. According to the invention, the device for detecting drift or blockage of a mechanical fluid meter, in particular a water meter, comprising a mechanical member movably mounted in the body of the meter to be set in motion by the fluid flow, is characterized in that it comprises: - a means for measuring the noise produced in the meter by the flow of fluid and the mechanical organ, - and noise analysis means for estimating whether a counting drift or a blocking of the counter takes place. Advantageously, the noise analysis means comprise means for evaluating, on the basis of the noise sensed, the volume or flow rate of fluid passing through the meter, and means of comparison between this noise evaluation and the measurement given by the noise. counter. The invention makes it possible: to differentiate a counter without consumption, for example because of the absence of the consumer, of a blocked counter; - Detect counting drifts by generating an estimated measurement that is compared with the measurement provided by the meter. The invention is based on the observation of the following phenomenon: the fluid meters with mechanical measurement technology, including volumetric piston but also turbine or wheel because of their design emit a characteristic noise whose noise level increases in flow function through the meter. The invention consists in capturing this noise and then performing, by calculation as a function of the noise level, an estimate of the volume or the flow rate passing through the counter. This estimate is compared with the volume or flow rate measured by the meter and, if the difference between these two values exceeds a determined limit, counter drift information is generated, sub-counted or over-counted, the corresponding blocking information absolute under-counting.

If the counter is blocked, a certain volume or flow will be estimated by the noise measurement while the volume or flow given by the meter will be zero. The noise emitted by the meter results from the addition of the noise caused by the mechanical counting member and the noise of the fluid, in particular water, flowing in the meter and as a function of the flow rate. The analysis means preferably comprise means for generating an alarm if the difference between the evaluation by noise and the measurement given by the meter. is greater than a specified limit. Advantageously, the means for generating an alarm are provided to establish a counter alarm blocked different from the counter drift alarm. The noise measuring means may be installed against the meter, or proximate upstream, or downstream, or be integrated in the meter. This noise measuring member could be located in an element near the meter, including a non-return valve, in particular equipped with purge. The noise measuring means preferably comprises at least one microphone-type noise or vibration detection sensor. The analysis means, which perform the calculation of the volume or the flow rate from the noise, the comparison with the volume or the measured flow rate, and the generation of information or alarms, can be integrated into the counter, or constitute a separate unit. The analysis means can be programmed to perform periodic or event-specific analyzes after consumption of a certain volume (and thus passage of a minimum flow rate), and to emit the drift information of the counter (under-counting or significant over-counting) or blocked counter, after a significant number of analyzes during a defined period, for example: 5 significant drift measurements or counter blocked over a period of 24 hours. A repeated indication of a drift of the counter or a blocking of this counter makes it possible to avoid untimely alarms. The meter may be equipped with a display on which "counter blocked" and / or "counter drift" indications will be displayed when the counter is blocked or significantly dries. If the meter has electronic equipment designed to provide data transmission functions by radio (remote reading), this equipment will preferably also be designed to trace the information "counter blocked" and "drift meter", or a summary of these two pieces of information, to a central system collecting the data. The electronic equipment may possibly increase the estimated flow according to the noise. The invention also relates to a mechanical fluid meter, in particular a water meter, equipped with a device for detecting drift or blocking as defined above. The counter is advantageously equipped with a display on which mentions of the type "counter blocked" and / or "drift meter" will be displayed when the meter will be blocked or significant drift. When the meter is equipped with electronic equipment designed to provide data transmission functions by radio (remote reading), said equipment is advantageously designed to trace the information "counter blocked" and "drift meter", or a synthesis of both information, to a central system collecting the data. The electronic equipment may possibly also increase the estimated flow according to the noise. The invention consists, apart from the arrangements set out above, in a certain number of other arrangements which will be more explicitly discussed below with regard to embodiments described with reference to the accompanying drawings, but which are not in no way limiting. In these drawings: 1 is a diagram of a device for detecting the drift or the blocking of a mechanical counter of fluid, seen in plan, according to the invention.

Fig. 2 is a schematic elevational view of a mechanical fluid meter incorporating a device for detecting the drift or the blocking of the meter. Fig. 3 is a graphical representation, as a function of the time plotted on the abscissa, of the variation of the measurement of the noise carried on the ordinate along a curve situated at the top of the figure, and of the estimated variation of the flow as a function of the noise, according to a curve at the bottom, and Fig. 4 is a schematic elevational view of a mechanical fluid meter incorporating a device for detecting the drift or the blocking of the mechanical counter.

Referring to Figs. 1 and 2 of the drawings, there can be seen a mechanical water meter 1, or 1.1, comprising a rotary member D (Fig.1), turbine or rotary piston mounted in the body of the meter. This rotary member is rotated during the flow of fluid from the inlet 1a to the outlet 1b of the meter. The speed of rotation is a function of the flow rate of the fluid flowing through the meter, and the number of revolutions made is a function of the volume of fluid that has passed. The meter is equipped with a detecting device 3 drift, under-count or significant over-counting, or blocking the counter. This detection device 3 comprises a measurement means M of the noise emitted by the rotation of the mechanical measuring element and by the water flowing through the meter. This measuring means M, advantageously constituted by a microphone, is here represented in contact with the body of the meter. The measuring means M could be integrated in the body of the meter, or could be upstream or downstream thereof, or integrated with one of the elements in the immediate vicinity of the meter, in particular a non-return valve. The detection device 3 also comprises analysis means 5, forming an electronic calculation assembly, to which the measuring means M is connected by a cable 3a (FIG. 2). The analysis means 5 comprise means 5a for evaluating, based on the noise sensed, the volume or the flow rate of fluid passing through the meter, and comparison means 5b between this noise evaluation and the measurement given by the counter. The analysis means 5 also comprise means 5c for generating an alarm if the difference between the evaluation by the noise and the measurement given by the meter is greater than a determined limit. The analysis means 5 are advantageously programmed to periodically compare the volume and / or estimated flow rate from the noise with the volume and / or flow rate measured by the counter 1, provided by a transducer 4. If the difference between the two volume or flow measurements are greater than a determined value (fixed value or function of the actual or estimated flow measurement), a "counter drift" information is generated.

If a zero value of flow rate is produced by the counter 1 while the estimated value is greater than a determined value (fixed value or function of the estimated flow measurement), a "blocked counter" information is generated. The counter 1 is advantageously equipped with a display A on which mentions of the type "counter blocked" and / or "drift meter" will be displayed when the counter will be blocked or drift significant. Preferably, the "drift counter" or "blocked counter" information will only be generated after a significant number of analyzes giving the same result, in a given period, for example: 5 significant drift measurements or counter blocked over a period 24h. The drift detection device and / or blocked counter may constitute a separate unit which will be installed on a mechanical counter not equipped with an electronic part. However, if the meter already has an electronic part used for display or remote data transmission, the analysis and detection means can be integrated in this electronic part. Several noise sensors can be used to obtain a more precise measurement of the noise of the mechanical element (turbine or volumetric piston) more accurate and therefore a volume or estimated flow more accurate.

FIG. 1 presents a solution where the analysis means 5 are located outside the counter 1. FIG. 2 presents a solution where the analysis means 5 are located inside the counter 1.1: the part is used electronic 6 used here for remote reading.

Fig. 3 illustrates the measurement of the noise, which can come from one or more sensors, according to the curve C1 situated in the upper part, the measurement of the noise in dB being carried on the ordinate and the time on the abscissa. This measurement is processed in order to calculate the estimated flow, represented by the C2 curve in the lower part, the flow rate values being plotted on the ordinate. It can be seen here that the measurement has been filtered (very noisy signal on the upper part) and that, moreover, it has been eliminated some parasitic noise that may come from the network. Fig.4 is a representation of the complete measurement chain, according to a schematic sectional view of the counter 1.2. Here the noise measuring member M has been integrated in a magnetic coupling chamber 7, so as to be closer to the measuring chamber 8 without being in contact with the fluid. The measurement obtained (electrical signal) is sent to the analysis means or set of electronic computation 5. The computed information (counter drift, blocked counter, estimated flow from the noise, and measured flow rate by the counter) are sent to the control system. teletransmission of the data 9 which will trace some or all of the information to a remote central system, not shown. The device of the invention can be used with any volumetric meter, particularly in the fields of oil and / or gas.

Claims (11)

REVENDICATIONS1. Device for detecting drift or blockage of a mechanical fluid counter, in particular a water meter, comprising a mechanical member (D) mounted movably in the meter body to be set in motion by the flow of the fluid , characterized in that it comprises: - a measurement means (M) of the noise produced in the meter by the fluid flow and the mechanical member (D), and noise analysis means (5) to estimate whether a counting drift 10 or a blocking of the counter occurs. 2. Device according to claim 1, characterized in that the noise analysis means (5) comprise means (5a) for evaluating, according to the noise sensed, the volume or the flow of fluid flowing through the meter, and comparison means (5b) between this noise evaluation and the counter measurement. 3. Device according to claim 2, characterized in that the analysis means (5) comprise means (5c) for generating an alarm if the gap 20 between the evaluation by noise and the measurement given by the counter. is greater than a specified limit. 4. Device according to claim 1 or 2, characterized in that the noise measuring means (M) comprises at least one microphone-type noise or vibration detection sensor placed near the mechanical member (B). mobile counter. 5. Device according to claim 4, characterized in that the microphone is disposed upstream or downstream of the meter (1, 1.1, 1.2), or integrated in an element near the meter, including a non-return valve. 6. Device according to claim 4, characterized in that the microphone is integrated in the meter body. 35 7. Device according to claim 3, characterized in that the means (5c) for generating an alarm are provided to establish a "blocked counter" alarm different from the "drift of the counter" alarm. 8. Device according to any one of the preceding claims, characterized in that the analysis means (5) are integrated in the counter. 9. Device according to claim 8, characterized in that the analysis means (5) are programmed to perform periodic or event-specific analyzes after consumption of a certain volume, and to emit the counter drift information. , significant under-counting or over-counting or blocked counter, only after a significant number of analyzes over a defined period. 10. Mechanical fluid meter, characterized in that it comprises a device for detecting the drift or the blocking of the mechanical fluid meter according to any one of the preceding claims. 11. Counter according to claim 10, characterized in that it is equipped with a display (A) on which mentions of the type "counter blocked" and / or "drift meter" will be displayed when the meter will be blocked or drifting. significant.