SU149900A1 - Vibration gyroscopic flow meter - Google Patents

Description

The known vibratory gyroscopic flowmeters consist of an annular conduit through which the measured fluid flows. An oscillating movement is communicated to the annular pipeline by an eccentric mounted on the shaft of the synchronous motor. When a fluid moves in an annular pipeline, a gyroscopic moment occurs, creating precessional oscillations, and the amplitude of these oscillations is strictly proportional to the weight flow in the pipeline. However, existing sensors do not allow sufficiently accurate removal of the amplitude of oscillations.

To improve the accuracy of measuring the amplitude of oscillations in the proposed vibration gyroscopic flowmeter, a compensation system was used, consisting of an oscillation sensor made in the form of a core inductance with a core, an amplifier, and a force mechanism.

The drawing shows a schematic diagram of a flow meter.

The fluid from the junction box / enters the ring pipe 2 connected to the junction box by means of bellows 5. The ring pipe is vibrated by an eccentric 4 mounted on the shaft of the synchronous motor 5, which is connected to the junction box via the input oscillation setting mechanism. The input oscillation tuning mechanism (not shown in the drawing) allows the input amplitude to be adjusted, thus changing the sensitivity threshold of the flow meter, and moving from one measurement range to another.

Precessional oscillations are sensed by an oscillation sensor 6, made in the form of a permanent magnet, in which a coil moves with a ring pipe 2. A fluctuation in the coil winding of the sensor induces a voltage, the amplitude of which is proportional to the amplitude of precessional oscillations.