SU920384A1 - Device for measuring mass consumption of media - Google Patents

Description

(5) DEVICE FOR MEASURING MASS FLOW MEDIUM

The invention relates to a measuring technique, namely, vibration-frequency converters, designed for continuous measurement of the mass flow rate of media. A device is known that comprises a tube oscillating in a damped oscillation mode with a flow flowing through it and a circuit that excites tube oscillations and measures the frequency of relaxation oscillations 1}. Closest to the proposed invention in its technical essence and the achieved result is the device. Containing two articulated tubes, blocks for picking up and vibrating, an oscillating booster sensor and a detector for relative displacements of pipe sections, located at the junction of pipes 2. The disadvantage of this device is that the presence of liquid draining in the transducer cavity limits the scope of application of the device and does not allows to measure the flow rate directly in the pipeline. The purpose of the invention is to improve the accuracy and simplify the design. This goal is achieved by the fact that the pipes are rigidly interconnected and form a horseshoe-shaped pipe, the device is equipped with a chamber divided by a partition into two cavities equipped with inlet and outlet nozzles, the ends of the horseshoe-shaped pipe are placed respectively in the cavity of the chamber, the oscillation unit is located between the ends of the tubes, and the device for picking up vibrations at the top of the horseshoe tube . The drawing shows the design of the proposed device. A device for measuring the mass flow rate of various media consists of two pipes 1 and 2 rigidly connected to each other and forming a horseshoe-shaped pipe. Pipe ends are elastic

clamped in the chamber 3, divided by a blank wall k into two cavities. In each of the cavities there are nozzles 5 and b for the entry and exit of the medium, the flow rate of which is determined. Between the pipes 1 and 2, an oscillation pickup device 7 and an oscillation excitation electromagnet 8 are placed, which together with the amplifier 9 form a self-oscillating system.

Pipes 1 and 2 oscillate in the same plane. These vibrations are provided by an electromagnet 8., which simultaneously attracts or repels them,

At the top of the horseshoe-shaped tube there is a ferromagnetic plate 10. interacting with the electromagnet 11 connected to the amplifier 12.

Plate 10, electromagnet P.I. amplifier 12 form a detector of relative displacements of pipe sections.

The device works as follows.

In the absence of fluid flow, the oscillations of the pipe are symmetrical, and at the apex of the horseshoe-shaped pipe there is an oscillation node.

In the presence of flow, the fluid entering the left part of chamber 3 passes through the oscillating pipe 1 into the oscillating pipe 2 of the right part of chamber 3. The effect of interaction of the fluid flow with the oscillating pipe appears as follows: the vibration damping of the pipe 1 decreases, and the vibration damping of the pipe 2 increases. The amplitude of oscillation of the pipe 1 increases, the pipe 2 decreases, and the ferromagnetic plate 10 performs transverse oscillations fixed by the electromagnet 11. The oscillation amplitude of the ferromagnetic plate 10 depends on the mass flow rate of the liquid flowing through the horseshoe tube.

The rigid connection of two tubes, forming a horseshoe-shaped tube, improves the quality of the vibrator and eliminates the effect of the movable joint on the vibration parameters.

Claims (2)

1. USSR author's certificate number 243860, cl. G 01 F 3/12, 19b7. 2.Katys G.P. Systems of automatic control of speed and expense fields, M ,, Nauka, 19b5, p. 2122C (PROTOTYPE) .. /