SU558234A1 - Magnetic induction sensor - Google Patents

Description

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The invention relates to magnetic measurements and can be used to control the magnetic field of a DC force in an electrical circuit.

Measuring devices are known that contain RC circuits, the elements of which depend on the measured parameter, included in the generator circuit and the frequency meter connected to the generator output.

However, the known devices also have a low sensitivity to the parameter being measured and, due to the influence of the linearity of the system, have low accuracy.

The closest in technical terms to this data. The invention is a magnetic field induction sensor, comprising a vessel filled with a fluid sensitive to a magnetic field, and a measuring rod placed in a housing.

For reference, readings on the rod are divided. The vessel and measuring rod are made of non-magnetic materials. When the vessel is introduced into the magnetic field, the fluid density filling the vessel increases proportionally to the magnetic field strength. The measuring rod is pushed out of the magnetic fluid to a height that is proportional to the increase in the pseudo-density of the magnetic fluid.

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However, the control of the magnitude of the magnetic field is carried out vzuzalno, which may not be acceptable in cases where changes in the magnetic field (or current) may exceed the tolerable limits, when security is not ensured in a vzualnogo observation (for example, due to the presence of strong magnetic fields, high stress, etc.). In addition, the accuracy of the visual reference is insufficient, since the non-meetings of the measuring rod limit the possibilities of applying the required number of divisions to it.

In order to improve the accuracy, the vessel of the sensor .vioro of the sensor in the upper part is equipped with an induction coil, inside of which the input end of the measuring rod protruding above the liquid, made of a diamagnetic material, such as brass.

The drawing shows the proposed device for measuring a magnetic zero.

The device comprises a vessel 1 filled with a liquid, sensitive to the effects of a magnetic zero, and a measuring rod 2 placed in said liquid. On the upper part of the vessel 1 there is a winding rod 3. The protruding end of the liquid is measured from a rod made of a diamagnetic material, such as brass, and enters inside the inductance coil,

When measuring, the device is placed in a magnetic field that occurs near a conductor with a current or in the gap of the magnetic circuit. Under the influence of a magnetic field, the pseudo-density of the liquid a changes, which, in turn, leads to a change in the position of the measuring rod 2 as a whole and to a change in the position of its upper end in the inductor 3 in particular. The movement of the rod end in the coil is accompanied by a change in the oscillation frequency of the generator. For reading indications, the frequency of the oscillations generated can be proportionally expressed in terms of the measured parameters.

Thus, the proposed device provides increased reliability and accuracy of controlling the magnitude of the magnetic zero and the strength of the current; the ability to remotely control the magnitude of the magnetic field in automatic mode and visually.

Formula is invented and

A magnetic field induction sensor containing a vessel filled with a fluid sensitive to a magnetic field and a measuring rod placed in a liquid, characterized in that, in order to improve accuracy, in the upper part the vessel is equipped with an inductor in which the protruding above the liquid enters. the end of the measuring rod, made of a diamagnetic material, for example, brass.