DE3044219A1 - Fluid flow vol. measuring appts. - has measured value generator with elastically deformable measuring member with elongation measuring strip(s) - Google Patents

Abstract

The device measuring volumetric flow in channels and pipes has a measured value generator in the pipe, as well as an evaluation device, possibly with an indicator display. The generator has a measuring member (6), elastically deformable under flow conditions. In its deformation zone (7) the member carries one or more tension measuring strips (9). The strip resistance changes, independence on flow velocity or volume, serve as a measuring signal for the evaluation device (11). In addition to its deformation zone, the measuring member pref. has an impact zone (8) exposed to the flow. Both zones may match in their dimensions and arrangement the pipe or channel geometry and the expected flow volume.

Description

Device for measuring the flow rates of gases or

Liquids in channels The invention relates to a device for measuring flow rates of gases or liquids in channels, in particular in pipes, with a measuring transducer to be arranged in the duct and an evaluation and, if applicable, display device.

Devices for measuring the flow rates of gases or liquids are known according to different principles.

For example, orifices are installed in pipelines.

The pressure is measured in front of and behind the measuring point.

In connection with the occurring pressure difference, the flowing through volume are closed. Also the use of venturi tubes for Targeted constriction of a liquid or gas flow is known for this purpose. The facilities themselves are very complex and only allow a measurement in relatively small volume fluctuations.

It is also known the flow rates of gases or liquids to measure in canals with the help of floats that float freely compared to a Scale with appropriate calibration then show the amount. No electric falls here Signal on so that the application is limited accordingly.

There are also measuring devices known that are turbine-based Have rotating parts. Such devices are complex and expensive. Your contribution in channels requires a corresponding channel design.

Finally it is known about a heating of the medium to infer the flow rate. This is done by a heatable Element a corresponding amount of heat to the medium to measure its flow is transferred. From the temperature difference between the beginning and the end of the The flow rate can be deduced from the measuring section.

The invention is based on the object of a device of the initially to show the type described, which is characterized by little effort, but on the other hand allows a high measurement accuracy. In particular, it is about the measuring device with regard to its required resp.

simply adapt the desired accuracy to the measurement conditions can.

According to the invention, this is achieved in that the transducer has a having elastically deformable measuring body under flow conditions, which in its Deformation zone one or more strain gauges carry their changes in resistance as a measurement signal for the evaluation device as a function of the flow rate or volume to serve. The invention makes clever use of what is known per se Use strain gauges to measure flow rates Use that has at least a partial area, namely a deformation zone, within which it is designed to be elastically deformable. This deformation is shown in a bending deformation exist, since the measuring body is somehow stationary on the channel wall be arranged- will.- -The bend can be in a compression or in a Express elongation, depending on which side of the deformation zone is being viewed, either the one facing the current or the one facing away from the current. Accordingly It is also quite possible to use the strain gauges on one side or the other Side of the measuring body to be arranged in the deformation zone b The measuring body In addition to its deformation zone, it has an impact zone exposed to the flow. In this impact zone an attempt is made to find the most representative influencing factors of the flow to detect and with her to the measuring body or - to transfer its deformation zone. The impact zone and the deformation zone of the measuring body can in their dimensions and in their arrangement on the geometry of the channel and the expected flow rate be coordinated. If the flow rate is large, the impact zone must be made relatively smaller than with low flow rates. The type of medium to be measured also has an effect out here. In the shaping of the impact zone and the deformation zone, too in their relative relationship to one another, there are many different available to the person skilled in the art Options available. Depending on the given measurement problem, there is an adjustment here possible.

In order to avoid vibrations, it is advisable to use the bite body or at least to design its impact zone in a flow-favorable manner.

The strain gauge or strain gauges are in the area of maximum bending deformation see at the deformation zone of the measuring body in front, so that a possible large measurement signal is removable. The strain gauge (s) can be used as quarter, Half or full bridge can be arranged. Such bridge circuits are for strain gauges known per se. You can use baskets here too.

The invention relates to the use of strain gauges for the measurement of flow rates of gases or liquids in channels in connection with a measuring body with impact zone and deformation zone.

Embodiments of the invention are shown in the drawings and described below. 1 shows a longitudinal section through a channel with the essential parts of the device, Fig. 2 shows a cross section through the Channel according to FIG. 1, FIG. 3 shows a cross section similar to FIG. 2 of a modified one Embodiment, FIG. 4 shows a further cross section in another embodiment, FIG. 5 shows another possible embodiment and FIG. 6 shows another possible embodiment.

In Fig. 1, a piece of a channel 1 is shown, which according to the A gas or a liquid 4 flows through arrows 2 and 3. In the Wall 5 of the channel 1, a measuring body 6 is fixedly arranged in such a way that it is elastically deformable as a result of the flow of gas or liquid 4, as indicated by dashed lines.

The measuring body 6 has a deformation zone 7 and an impact zone 8. The deformation zone 7 can be inside or outside the essential cross section of the channel 1, while the baffle zone 8 so within the flow is arranged that it is subject to the representative influencing variables. The measuring body 6 has one or more strain gauges 9 in its deformation zone, which either on the one facing the current or on the one facing away from the current Side of the deformation zone are attached. Via an electrical line connection 10 the changes in resistance are obtained as a measurement signal and an evaluation device 11 fed, which a display device 12 can be connected downstream. The evaluation the measured value signals can be carried out in various ways, as is known.

As shown in FIGS. 2 to 6, the measuring device can be attached to the channel cross-section be adapted. According to FIG. 2, a rectangular channel cross section is provided. In such a case, the measuring body 6 also expediently has a rectangular cross-section have, the deformation zone 7 facing the clamping point of the measuring body 6 is arranged.

One or more strain gauges 9 are located there.

The embodiment according to FIG. 3 is for tubular channel 1 and large amounts of flow, especially in the case of liquids, are provided. The measuring body 6 is designed as a measuring tongue and has approximately the same cross section. Of course the measuring body 6 is in its material to the type of flow medium to be measured 4 adapted.

The embodiment according to FIG. 4 is useful for medium-sized flow rates. The impact zone 8 is specially designed here, while the deformation zone 7 is relatively is made small in order to increase the deflection at this point.

Fig. 5 is particularly suitable for low flow rates.

By using four strain gauges 9 in a full bridge circuit a high level of accuracy is achieved.

The embodiment according to FIG. 6 has a special feature in this respect when the Pall zones 8 are particularly large and the deformation zone 7th is particularly small and is also largely arranged outside of the flow. The strain gauge 9 is also located outside the deformation zone 7.

The advantages of the measuring device are particularly economical Measuring method with little effort with high accuracy and reproducibility. It large measurement areas can be recorded with one and the same device.

The device is equally suitable for gases and liquids. There are large and diverse customization options and variations for different measuring tasks and accuracy requirements.

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Claims (7)

Device for measuring flow rates of gases or liquids in channels Patent claims: Device for measuring flow rates of gases or liquids in channels, in particular in pipes, with a to be arranged in the channel Measuring transducer and an evaluation and possibly display device, characterized in that that the transducer has a measuring body that is elastically deformable under flow conditions (6) has one or more strain gauges in its deformation zone (7) (9) whose resistance changes as a function of the flow velocity or amount serve as a measuring signal for the evaluation device (11). 2. Device according to claim 1, characterized in that the measuring body (6) next to its deformation zone (7) an impact zone (8) exposed to the flow having. 3. Device according to claim 1 and 2, characterized in that the dimensions of the impact zone (8) and the deformation zone (7) of the measuring body (6) and in their arrangement on the geometry of the channel (1) and the expected flow rate are matched. 4. Device according to claim 1 to 3, characterized in that the measuring body (6) or at least its impact zone (8) in order to avoid vibrations Is designed to be streamlined. 5. Device according to claim 1, characterized in that the or the strain gauges (9) in the area of maximum bending deformation at the deformation zone (7) of the measuring body (6) are provided. 6. Device according to claim 1 or 5, characterized in that the strain gauge or strain gauges (9) arranged as a quarter, half or full bridge are. 7. Use of strain gauges to measure flow rates of gases or liquids in channels in connection with a measuring body with impact zone and deformation zone.