DE3126965C2 - - Google Patents

Description

The invention relates to a device for measuring the Flow of a medium flowing through a pipe after the Preamble of claim 1.

According to DE-OS 26 19 971 it is known in such Device to free the useful signal from interference signals. For this purpose there is a first voltage in an evaluation circuit scanning memory controlled so that it is one in each period a voltage in the voltage applied to the electrode Near an upper peak of this voltage and saved and a second voltage sample cher is controlled so that it is in each period of tension a value near the lower peak of this Takes up tension and keeps it stored, and it becomes the Output signals of both voltage sensing memories a dif renz amplifier supplied, the output of which means value generator is connected to a measuring device.

Goes with a device according to the preamble of the An saying 1 the contact between the medium and the little least one electrode lost, for example due to the absence of the Medium or due to contamination of the electrode the measurement of the flow of the medium is incorrect or under remains.

The object of the invention is a device according to the The preamble of claim 1 indicate the knowledge thereof gives whether between the medium and the at least one There is sufficient contact with the electrode or not.

The solution to this problem is the hallmark of the claim 1 specified.

By the features of the characterizing part of claim 1 when the capacity drops below one by experience  value to be set indicates that the medium is the electrode not touched or touched insufficiently.  

Advantageous embodiments of the invention are in the Subclaims specified.

The invention is based on an embodiment explained with reference to the accompanying drawing.

The drawing shows schematically a metallic tube 2 through which the at least slightly electrically conductive medium is to flow, the current of which is to be measured. A two coils 4 and 6 flowing electrical current, it generates a magnetic field that penetrates the tube. In the tube there are two electrodes 8 , 10 , the connecting line of which is essentially perpendicular to that of the magnetic field and which are normally touched by the medium flowing through the tube 2 . The two electrodes 8 and 10 are connected via lines 12 and 14 in a manner known per se to a transducer 16 , the output signal to be picked up via a line 18 is a measure of the flow of the medium flowing through the tube 2 .

Lines 20 and 22 are discharged from lines 12 and 14 to an oscillator 24 , in whose frequency-determining circuit the capacitances of electrodes 8 , 10 lie opposite tube 2 . To the oscillator 24 , a frequency and voltage converter 26 is connected, to this a comparator 28 and to this a switching unit 30th If the capacitance between the electrodes 8 or 10 and the tube 2 is above a predetermined value, the switching unit 30 acts on the transmitter 16 in the sense that it supplies the output signal on line 18 which corresponds to the current of the tube 2 flowing medium corresponds. If the capacitance falls below a pre-given value, the switching unit 30 blocks the output of the transmitter 16 or identifies its output signal via the line 18 .

Claims (3)

1. Device for measuring the current of an at least slightly electrically conductive medium flowing through a tube ( 2 ) according to the induction principle using at least one electrode ( 8 , 10 ) which is normally in contact with the medium and is next to an electrically conductive wall part of the tube ( 2 ). , characterized by a circuit arrangement for monitoring the capacitance between the at least one electrode ( 8 , 10 ) and the associated electrical wall part of the tube ( 2 ), which emits a signal depending on whether there is sufficient capacity or not. 2. Apparatus according to claim 1, characterized in that the circuit arrangement has a switching unit responding to the capacitance ( 30 ) which, when the capacitance drops below a predetermined value, breaks the output signal of a transmitter ( 16 ) for the flow of the medium or indicates. 3. Apparatus according to claim 1 or 2, characterized in that the circuit arrangement includes an oscillator ( 24 ) ent, in whose frequency-determining circuit is the capacitance and that this oscillator ( 24 ) in series with a frequency-voltage converter Fre ( 26 ), a voltage comparator ( 28 ) and the switching unit ( 30 ) are connected.