SU427365A1 - INDUCTION POSITION POSITION - Google Patents

Description

one

The invention relates to measurement technology and can be used in automatic control systems of various technological processes for determining the position of objects.

A position sensor is known that contains a non-magnetic base, two magnetic cores mounted on it, one of which is U-shaped, an excitation winding and a measuring winding.

In the known sensor, the excitation winding is placed on the rod of the U-shaped magnetic circuit, and measuring on the other magnetic circuit.

The purpose of the invention is to increase the sensitivity of the sensor.

For this, the proposed sensor is equipped with a second measuring winding, located on a rod U-shaped magnetic core remote from another magnetic conductor, the excitation winding is placed on another rod of the U-shaped magnetic conductor, and both measuring windings are connected in series and counter.

Pa figs. 1 shows the proposed sensor; in fig. 2 is an electrical circuit for connecting the sensor: ka.

The sensor contains a non-magnetic base 1, a magnetic core 2 mounted on it with a measuring winding 5 placed on the beam and

U-shaped magnetic circuit 4 with excitation winding 5 and a second measuring winding 6 located on the rod of the U-shaped magnetic circuit 4, remote from another magnetic circuit.

The sensor works as follows. In the initial state, in the absence of a ferromagnetic body in the zone of action of the induction sensor, the alternating magnetic flux created by the excitation winding 5 closes along the circuit of the U-shaped magnetic conductor 4, e. d. in measuring winding 6 and in magnetic circuit 2 in measuring winding 3. The voltage from measuring windings 3 n 6 is rectified by bridges B, and BZ is compensated by load potentiometers RI and / 2 When the induction sensor is shunted by a ferromagnetic body, the magnetic flux penetrates the measuring winding 6 is increased, and the magnetic flux penetrating the measuring winding 3 is reduced due to the redistribution of magnetic flux penetrating the measuring winding.

The resistance of the magnetic circuit of the flow of the measuring winding 6 decreases to a greater extent than the resistance of the magnetic circuit of the flow of the measuring winding 3, as it remains in the lower part of the lower part

magnetic circuit and U-shaped magnetic circuit.

When this occurs, the redistribution of magnetic fluxes. The main magnetic flux is closed along the circuit of the U-shaped magnetic circuit 4 and the shunt, and only the dissipation flow of the circuit of the magnetic circuit 2 closes. Therefore, eh. D.S. in measurement winding 6 increases, and e. d. in measurement winding 3, decreases as compared to the initial state.

Since the voltages from the measuring windings are connected in series and counter to each other, the output voltage increases when the induction sensor is bridged by the ferromagnetic body.

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Subject invention

An induction position sensor containing a non-magnetic base mounted on it two magnetic conductors, one of which is U-shaped, an excitation winding and a measuring winding, characterized in that, in order to increase the sensitivity of the sensor, it is equipped with a second measuring winding located at a distance from another magnetic core of the U-shaped magnetic circuit, the excitation winding is placed on the other of the U-shaped magnetic core and both measuring windings are connected in series and oppositely.

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