SU1659926A1 - Inductive sensor - Google Patents

Abstract

The invention relates to a measurement technique and can be used in instruments for checking the type of wire. The purpose of the invention is to increase the reliability of measurements - this is achieved by the fact that a new sensor design allows an integral assessment of the quality of the wire. An inductive sensor contains a non-magnetic frame 1 in the shape of a cylinder with a groove along winding 3 of inductance, made in the form of two crossing sections 4 and 5, electrically interconnected two parallel Line sections 6 and 7, which are located in planes perpendicular forming the frame 1, 1 C. ffl, 1il

Description

The invention relates to measuring equipment and may find application in devices for monitoring the brand of wire.

The purpose of the invention is to increase the reliability of measurements.

The drawing shows the design of the inductive sensor.

The inductive sensor contains a non-magnetic frame 1 in the form of a cylinder with a groove 2 along the generatrix. An inductance winding 3 is fixed on the outer surface of the frame 1, made in the form of two Crossing sections 4 and 5, electrically interconnected by two parallel sections 6 and 7, which are located in planes perpendicular to the generatrix of the frame 1. The figure shows one coil of the inductance winding. Winding is carried out starting from point 8. The first fixation point 9 is the beginning of the parallel section 7, the end of which is at the second fixation point 10. Next is the first of the intersecting sections 4 to the third point 11 of the fastening. A parallel section 6 is wound between the third 11 and fourth 12 fastening points, and the second crossing section 5 is wound between the fastening points 12 and 13. At the point 14 is the end of the inductance winding 3. The real winding 3 of the inductance can have not one, but N similar turns, and during their winding, the fastening points 9 and 13 are combined. '

The coil 3 of the inductive sensor may contain n parallel sections and (2n-2) intersecting sections, where n> 1. At the same time, after the point 12 of the fastenings, it doesn’t return to the starting point 9 or 13, but ... a second crossover is wound up, a waving section connecting the second and third parallel sections. If there are only three parallel sections, then after winding the third parallel section, the third crossing section is laid, connecting the third and second parallel sections. Next, the winding passes again through 5 of the second parallel section between points and 12 and finally the fourth crossing section is wound between points and 13.

The inductive sensor operates as follows.

A groove of the studied wire is introduced into groove 2, which leads to a change in the sensor inductance, which is an informative signal, which can be registered by turning on the inductive sensor, for example, in the oscillatory circuit of the oscillator. Changing the inductance of the sensor will lead to a change in the frequency of the oscillator.

By electrical parameters (inductance, quality factor), the inductive sensor does not differ from ordinary cylindrical coils, but it allows you to increase the control of the wire in rolls, coils, windings without 25 wire breaks.

Claims (1)

Claim 1. An inductive sensor comprising an inductance winding, characterized in that, in order to increase the reliability of 30 measurements, it is equipped with a non-magnetic frame in the form of a cylinder with a groove along the generatrix, while the inductance winding is made in the form of two intersecting sections electrically connected between themselves two parallel sections, mounted on the outer surface of the frame, and parallel sections of the inductance winding are located in planes perpendicular to the generatrix of the frame. 30 2. The sensor according to claim 1, with the fact that the inductance winding is made in the form of η parallel sections and (2 n-2) intersecting sections, where n> 1 ..