NL1008529C1 - Flowmeter with Force Sensing Resistor as sensor - Google Patents

Abstract

The medium being measured flows onto a vane (3). The force exerted on the vane is coupled to the Forced Sensing Resistor (1) via an intermediate block. The current through the resistor varies linearly in proportion to the force, and hence the flow rate. The output signal from the sensor can be fed to a data processing system or used to drive a meter or other indicator device (4).

Description

Flow meter, based on the application of a "Force Sensing Resistor" (FSR).

The invention relates to a flow meter (Flow 5 Sensor) for measuring flow rates of liquids or gases in conduits intended for this purpose.

Flowmeters are known in the prior art in many forms, for example, devices are known based on moving various shapes of rotors by liquid / gas, after which the rotational speed thereof is measured. Devices are known in which (sound) signals injected in liquid / gas are used to determine the speed of the medium to be measured by means of a doppler effect. Devices are also known which use generated coriolis forces in the medium to determine the flow velocity of the medium.

The disadvantage of rotator-based devices is that relatively complex constructions are used here, which can be maintenance-sensitive in particular in the case of contaminated and / or aggressive substances to be measured.

A drawback of doppler-based or coriolis-based devices is that the techniques used are relatively expensive and that such measuring methods are not applicable under all circumstances.

The object of the invention is to realize a measuring device that is relatively easy to construct, which yields measurement results for many applications that are reliable enough for the relevant application.

1008529 1

The invention consists of an FSR (Force Sensing Resistor) 35 (1) mounted on a solid surface. The characteristic of such a pressure-dependent resistance is that its resistance 2 decreases as a substantially linear function of the pressure exerted on the sensitive surface.

40 A vane (3) arranged in the flow of the medium to be measured experiences forces which are a function of the flow velocity of the medium, the absolute magnitude of these forces also being dependent on the density of the medium to be measured.

45

An actuator (2) transfers the forces experienced by the vane as evenly as possible to the sensitive surface of the FSR, after which the measured resistance after calibration represents the flow velocity of the medium.

. 50

The actuator / vane combination can be mounted directly on the FSR to measure the forces experienced (Figure 1).

. It is also possible to apply the vane by means of a lever construction (5)

forces experienced on the pressure-sensitive surface of the FSR

, 55 (Figure 2).

vormen Depending on the medium to be measured and the desired sensitivity to flow rates, other shapes can be selected.

= 60

The changing resistance value of the applied FSR is read by a measuring device (4) as representative of the measured flow rate of the medium to be measured, or can be utilized by an underlying circuit for further processing of this data.

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Claims (1)

Flow sensor, characterized in that a pressure-dependent resistor (Force Sensing Resistor) 5 is applied to convert the forces experienced by a vane placed in the flow to be measured into a usable for a measuring device or control circuit electrical signal. Characterized in that the forces found by the vane under-10 can be transmitted directly or via a lever mechanism to the Force Sensing resistor. Characterized in that an actuator is placed between the vane mechanism and the Force Sensing Resistor, which distributes the applied force as evenly as possible over the sensitive surface of the Force Sensing Resistor. ï 0 0 Q 6 2 § · *