SU495529A1 - Flow meter - Google Patents

Description

one

The invention relates to a measuring technique and can be used, in particular, to measure the flow rate of electrically conductive liquids.

The known devices for measuring the flow rate are complex and unreliable in operation due to the presence of a non-decisive mechanical connection of the float to the transducer of its transverse to the output signal.

To improve the design and increase the reliability of the measurement in the proposed device, the measuring tube is made of a dielectric, and inside it a metal diaphragm is fixed, in the hole of which there is a tapered float, with the diaphragm and electrodes included in the bridge measuring circuit.

The drawing shows a diagram of the device described, comprising a measuring body 1 made of a dielectric, a metal diaphragm 2 mounted inside it, in the hole of which a Kochus float 3 is installed, a transducer for moving the float to an output signal made in the form of two rings 4 and 5 mounted on the ends measuring tube 1 and diaphragm 2, is its own measuring electrodes, connected current leads 6 to measuring bridge 7, supply and discharge connections 8, the ends of which 9 projecting into

inside the measuring tube 1, are the stoppers of the melting and sealing gaskets Sh.

The device works as follows. Depending on the flow rate of the solution passing through the inlet 8 to the measuring body 1, the float 3 is installed at a certain height proportional to the flow. The position of the float 3 causes the corresponding increase in electrical co-resistance between the measuring electrodes (2-4) n (2-5).

The ratio of the resistance values between the measuring electrodes (2-4) n (2-5) is measured by instrument 7, scaled in units of flow.

When you change, for example, an increase in the flow rate of the measured solution flow, the height of the float 3 increases, for example, this leads to a change, and an increase in the distance between the melt 3 and electrode 5, which definitely changes, for example, the distance between the average measuring electrode (diaphragm) 2 and electrode 4. At the same time, there is a simultaneous change (decrease) in the distance between the electro-pulses 2 and 5. The corresponding changes in the electrical resistance between the electrodes (2-4) and (2-5) change x ratio, which is measured by a bridge circuit unit 7. In this case at its readings are not affected by the change in conductivity of the solution.

Formula and 3 about b e and e and

A flow measurement device comprising a measuring tube with a float placed thereto, supplying and discharging nozzles and electrodes of the non-biasing transducer of the float B, an output signal installed at the ends of the tube, characterized in that, in order to simplify the design and increase the reliability of the measurement The measuring tube is made of dielectric, and inside it is fixed a metal diaphragm, in the opening of which a conical float is placed, with the diaphragm and electrodes included in the measuring bridge cxeMv.