SU773435A1 - Induction flow meter - Google Patents

Description

The invention relates to devices for measuring the flow of electrically conductive media in a contactless manner. The flow meter can be used to measure the flow rate of free-flowing bulk electrically conductive materials, such as charge-or charge components of sinter plants in the metallurgical industry. Induction flow meters are known that contain a current source / sensor in the form of an annular conduit with placed magnetizing, measuring and compensation coils and secondary device 1 These flow meters measure the flow of electrically conductive media without contact. A disadvantage of the known flow meters is the heterogeneity of the radially distributed magnetic field in the pipeline cavity. This reduces the measurement accuracy in cases where the controlled medium does not completely fill the pipeline cross-section, as happens in the case of measuring the flow of free-flowing bulk materials. The purpose of the invention is to simplify the design of the flow meter and improve the measurement accuracy. This goal is achieved by the fact that, in an induction flow meter, co. holding the current source, a sensor in the form of a pipeline of non-magnetic electrically conductive material with measuring and compensation windings connected in series oppositely placed on it, and a secondary device, a longitudinal section is made on the pipeline along which the current source is connected diagonally, and the compensation winding is in the form of a rotary coil, the axis of rotation of which passes through the center of the measuring winding perpendicular to its center line. The drawing shows a block diagram of an induction flow meter. The sensor of the flow meter has a housing in the form of a pipe of -1 annular (or rectangular) section, made of an electrically conductive non-magnetic material having a longitudinal section. Measuring winding 2 is installed in the middle of pipeline 1 and a turn is fixed above it.

Claims (1)

Claim An induction flow meter containing a current source, a sensor in the form of a pipeline of non-magnetic electrically conductive material with measuring and compensation windings placed on it, connected in series, and a secondary device, characterized in that, p. In order to simplify the design and improve accuracy, a longitudinal section is made on the pipeline, a current source is connected diagonally, and the compensation winding is made in the form of a rotary coil, the axis of rotation of which passes through the center of the measuring winding perpendicular to its axial line.