DE2828016A1 - Measuring particle concn. of suspension - attaching microphone to impacted tube to detect attenuation of characteristic frequency amplitude - Google Patents

Abstract

The system measures the particle concn. of a suspension passing through a measurement tube (2). A hammer (6) controlled by electromagnet (10) strikes the tube which vibrates at its characteristic frequency. The oscillation amplitude is recorded by a microphone (12) attached to the other side of the tube. The signal is sampled at two lines using a tine base (18). A divider (16) delivers the quotient of the two amplitudes to an analyser (20). The damping characteristic thus determined reflects the suspension concn. and is independent of the suspension flow rate.

Description

Method of measuring the concentration of a suspension

The invention relates to a method for measuring the concentration of a Suspension, especially the concentration of in a substantially non-viscous Medium suspended particles - preferably the dry content of a paper floss (Substance) - in which the suspension is sent through a measuring tube.

It is known that in such a method there is an obstacle in the measuring tube provide that is pivotable and according to its pivoting on a Display instrument acts.

In this process, that is presented to the flow of the suspension Cross-section of the obstacle dependent on the angular position of the obstacle and therefore is also the measured variable of this angular position displayed by the display instrument addicted.

This in turn has the consequence that the calibration of the indicating instrument becomes extremely cumbersome. Continue to lead any pipe installations to deposits and pipe blockages.

Foreign bodies hanging on the sensor cause incorrect measurements.

There is also known a method in which the frictional effect of the Suspension is measured on a measuring transducer. However, this procedure only performs then a useful result if the flow rate of the suspension is low, a condition that does not always have to be met. If you branch from the Main flow from a partial flow that flows at a lower flow velocity, so one is not sure that the partial flow has the same concentration as that Main power.

The object of the invention is to provide a method of the type mentioned at the beginning indicate that can be achieved with simple means and without the influence of the flow rate the suspension to be practically satisfactory with a relatively simple calibration Results.

To solve this problem, the method is characterized in that that the measuring tube is excited to mechanical vibrations without built-in measuring elements is measured, the damping behavior of the measuring tube natural oscillation and from the measuring result a signal corresponding to the concentration of the suspension is derived. The mechanical Vibrations in the measuring tube practically disrupt the flow of the suspension through the measuring tube not. The measurement results obtained from the measurement of the vibration behavior of the measuring tube result in a clear measure of concentration.

A calibration can be carried out without significant difficulties.

In a preferred embodiment, the method is characterized in that the measuring tube is excited to oscillate and after the excitation the decay the vibration is measured. This takes advantage of the fact that the oscillation decays (the damping of the oscillation) of the measuring tube after the excitation largely depends on the Concentration of the suspension depends, which flows through the measuring tube.

This is a particularly simple way of carrying out this method characterized in that the amplitude of the oscillation is at least two different times measured at a predetermined time interval from the intermittent excitation and the quotient of the measured values is formed.

Depending on the prevailing circumstances, it can be advantageous to use the measurement of the decay behavior of the oscillation to stimulate the measuring tube intermittently beforehand or to stimulate a natural oscillation (in resonance).

The following are two devices for performing the method described.

Fig. 1 shows a device with mechanical shock excitation by a clapper.

Fig. 2 shows a magnetostrictive excitation device.

Through the measuring tube 2 in Fig. 1 flows in the direction of Arrows the suspension. On one side of the measuring tube 2 is pivotable about an axis 4 a clapper 6 arranged against the action of a spring anchored firmly to the apparatus 8 can be struck intermittently against the measuring tube 2 by means of a pull magnet 10. On the other hand, a microphone 12 is attached to the measuring tube 2, which over a frequency filter 14 to an amplitude measurement storage and division circuit 16 connected. At two times predetermined by a timer 18 after excitation of the measuring tube 2 through the clapper 6, the oscillation amplitudes in the circuit 16 recorded and divided by one another. The quotient is converted into a signal, which is fed to an evaluation circuit 20. This signal is a measure of that Concentration of the suspension flowing through the measuring tube 2.

The suspension flows through the measuring tube 30 in FIG. 2 in the direction of the Arrows. On one side of the measuring tube 30 is a core 32 of a magnetostrictive oscillator set to be excited by a generator 34 intermittently or continuously is. On the other side of the measuring tube 30 is a core 36 of a magnetostrictive one Set a microphone, which feeds an evaluation circuit 38 with its output signal. The evaluation can be carried out as described above using various examples became.

Claims (7)

Method for measuring the concentration of a suspension, in particular the concentration of in an essentially non-viscous medium suspended particles - preferably the dry content of a paper floss - at d-em the suspension is sent through a measuring tube, characterized in that the measuring tube is excited to mechanical vibrations, the decay behavior of the Measurement tube natural oscillation measured and the concentration of the Suspension corresponding signal is derived. 2. The method according to claim 1, characterized in that the measuring tube is excited to a vibration and after the excitation the decay of the vibration is measured. 3. The method according to claim 2, characterized in that the amplitude the oscillation to at least two different ones at a given time interval times are measured from the intermittent excitation and the quotient of the measured values is formed will. 4. The method according to claim 2 or 3, characterized in that the Measuring tube is excited intermittently. 5. The method according to claim 2 or 3, characterized in that the Measuring tube is excited to a natural oscillation. 6. Apparatus for performing the method according to claim 4, characterized through a clapper (6) for intermittent excitation of the measuring tube (2). 7. Apparatus for performing the method according to claim 4 to 6, characterized in that for measuring the decay behavior of the measuring tube (30) after the excitation of the measuring tube (30) is stopped by a magnetostrictive oscillator (32) this transducer (32) is to be switched as a microphone or a separate one for this purpose Microphone, such as a second transducer (36), is provided.