SU429282A1 - INDUCTIVE LEVEL - Google Patents

Description

one

The invention relates to measuring the level of a liquid by electrical methods and can be used for remotely measuring levels of liquids.

Inductive level gauges are known whose principle of operation is to follow the level by means of a float floating in liquid with an eddy-current screen interacting with inductors installed along the float moving range in the protective tube and included in the measuring circuit of the level gauge. In this case, the screen is the inner wall of the float, by means of which the float is moved along the pipe.

A disadvantage of the known inductive level gauges is the different types of float designs, which depends on the coil pitch and, consequently, on the height of the working section of the screen, low accuracy and reliability of operation for small measuring ranges, as well as the impossibility of adjusting the position of the working part of the screen relative to the level of the liquid the float.

In the proposed device for increasing the accuracy and expanding the range of measurements, the eddy-current screen is equipped with adjustable inner bushings made of ferromagnetic material installed at both ends of the screen.

The drawing shows a discrete inductive sensor level gauge.

The inductors 1-4 are located in the pipe 5, which protects them from the effects of liquid, but at the same time is sufficiently passive to the electromagnetic field of the sensor, i.e., it has a weak shielding effect. The float 6 with the change in the level of the liquid is moved along the pipe by inductors installed inside it. The inner wall of the float is an electromagnetic screen 7, made in the form of a tube of conductive non-magnetic material.

The screen is designed to interact with inductors and has a length that is a multiple of the position of the inductors in order to obtain discrete values when switching from level to level, at which the screen ends cover the middle of the coils. The required length of the working section of the screen is provided by inserting the sleeves 8 and 9 of ferromagnetic material into the screen so that the length of the open or working part of the screen is equal to the required one. At the same time, the working part of the screen is shifted relative to the liquid level by moving sleeves 8 and 9 on

corresponding lengths to the desired side.

The device works as follows.

When the float is moved, the impedance of the coil inductance of the level sensor remains almost unchanged when the coil interacts with that part of the float screen that is covered by the sleeves. When interacting with the open part of the screen 7, the inductance coil impedance changes dramatically. Thus, this allows the float to interact with the inductor to be varied by adjusting the position of the sleeves 8 and 9.

Subject invention

An inductive level gauge containing a float with an eddy-screen, moving along a vertical measuring tube and acting on the measured level of inductors placed in it, characterized in that, in order to increase accuracy and extend the range of measurements, the screen is equipped with adjustable inner ferromagnetic bushes installed at both ends of the screen.