SU603849A1 - Electromagnetic rate-of-flow meter - Google Patents

Description

(54) ELECTROMAGNETIC FLOW METER

This invention relates to measuring the consumption of liquid metals by an induction method. Electromagnetic flowmeter sensors are known for measuring flow rates. a liquid metal containing a pipeline with a controlled medium, a magnetic system, and two electrodes made in the form of cylindrical rods welded to the outer surface of the pipeline ij. A disadvantage of the known sensors is their low measurement accuracy due to the small area of contact between the electrode and the controlled medium, which means that the contact resistance at the liquid metal – wall interface is unstable, which reduces the accuracy of the measurement. An electromagnetic flow meter is also known, the measurement accuracy of which is not affected by the contact resistance T27. The flow meter contains a pipe section. water, a magnetic system, a node of measuring electrodes, representing with both tubes of electrically insulating material, filled with liquid metal, representing a shunting element. The disadvantage of this flow meter is low measurement accuracy, due to the fact that the amplitude value of the current flowing through the fluid in the pipe, and hence the emf induced in the measuring coil located on the outer side of the tube, is proportional to the electrical conductivity of the medium being measured. ktroprovodnosti environment will create an additional error. The purpose of the invention is to improve the accuracy and efficiency of flow measurement. In the proposed device, the shunt element is made in the form of a chamber coaxially mounted on the pipeline, the outer surface of which is the inner surface of the chamber, and the pipeline has through holes, c01: the bottom of the inner cavity of the coarse line of the chamber electrodes.

1.- the drawing shows the described cracker, general view.

The device comprises a pipeline 1 through which a stream 2 of the intended metal flows. A chamber 3 coaxially installed with the pipeline, current collecting electrodes 4 and a magnetic system 5.

When a liquid metal moves through the pipeline, an emf is induced in the liquid metal by the location y in the magnetic field created by the magnetic system. The emf through the liquid metal layer 6 located in the chamber 3 coaxially mounted on the pipeline 1 is removed from the electrodes 4.

The inner cavity of the coaxial chambers, filled with liquid metal and communicating through the opening 7 with the main metal flow, creates a stagnant zone where the metal is stationary and the inner surface of the chamber increases the contact area of the electrode with the measured medium. This stabilizes the contact resistance at the interface of the liquid metal - pipeline wall.

 In addition, the fixed metal layer in the chamber, as well as the chamber walls, to cover the main pipeline, are shunts that stabilize the output signal of the flow meter when the electrical conductivity of the measured fluid flow changes.

metal, because when the temperature of the metal flow changes, leading to a change in electrical conductivity, the resistance of shunts of the fixed metal layer 6 and the walls of the coaxial chamber also changes.

Claims (2)

1. Korsunsky L. Vlzpekgromagnitnyb hydrometric instruments. 1964. 2. Authors certificate of the USSR Mo 444060, cl. Q 01 F 5 / GO 13DO.72.