SU1620813A1 - Device for measuring displacements - Google Patents

Abstract

This invention relates to a measurement technique. The goal is to improve the accuracy of the device for measuring movements. The device contains a movable ferromagnetic core and a cylindrical magnetic conductor having a large number of annular grooves on the inner surface for placing in each of them sections of the excitation winding and measuring windings having the same number of sections. Sections of the measuring winding are equipped with current leads, to which resistors are connected, having the same nominal resistance and connected by opposite leads to a common node. The voltage drop across the extreme resistor located at the end of the core displacement range linearly depends on the position of this core, the length of which should be equal to the sum of the width of two slots and two teeth of the magnetic core. since, due to this, as the core moves, the mutual inductive coupling between the excitation and measurement windings sections overlaps with them and the redistribution of currents between resistors connected into a multipath star changes linearly. 1 il. with s

Description

The invention relates to a measurement technique and can be used to measure linear movements of various objects.

The aim of the invention is to improve the accuracy of a device for measuring the movements of a transformer type by increasing its sensitivity.

The drawing shows schematically the constructive implementation of a device for measuring displacements in its longitudinal section.

The device for measuring displacements contains a ferromagnetic core 1. mounted with the possibility of linear movement along the axis of a stationary cylindrical magnetic core 2, on the inner surface of which a large number of slots are made to place in each of them one of the excitation winding 3 and the measuring winding 4. Sections of the measuring winding equipped with current collectors 5, to which resistors 6 are connected, having the same nominal resistance and connection with opposite terminals in a common node l 7. A recording device, for example, a voltmeter 8 is connected to the terminals of the extreme resistor at the end of the specified range of movement of the core 1 The length of this core is made equal to the sum of the width of two slots and two teeth of the magnetic circuit 2.

The device for measuring displacements works as follows.

When an alternating current source is connected to the excitation winding 3, a magnetic field arises around each of its sections, inducing EMF of mutual induction in the sections of the measuring winding 4 placed in common slots with them. The magnitude of this EMF depends on the position of the ferromagnetic core 1 and reaches a maximum in those sections that are placed in the slots covered by this core. As the core 1 moves, for example, from the leftmost to the rightmost position, the EMF decreases in that section of the measuring winding, which is in the slot opening from under the core, and the EMF increases in the subsequent section along the core, which is in the section overlapped by this core groove. Each position of the core 1 corresponds to a certain current distribution through the resistors 6, connected in parallel. When the core is located near the leftmost section, i.e. At the beginning of the measuring winding 4, the current is distributed between the leftmost resistor and all other resistors connected in parallel 6. As a result, the current through the rightmost resistor, and therefore the voltage at the terminals of the recording device 8, is minimal. As the core moves, for example, to the right along the measuring winding, the number of resistors to the left of the core increases. As a result, the current through the rightmost resistor increases linearly and, accordingly, the current through the leftmost resistor decreases linearly. This current reaches a maximum in the rightmost resistor when the core is near

the end of the measuring winding 4, i.e. at the end of the core 1 moving range.

At the same time, the voltage drop at the terminals of the right edge resistor 6, measured by the recording device 8, is also maximal.

Due to a closer inductive connection between the sections of the excitation winding and the measuring winding and the reduction of the dispersion fluxes, the sensitivity and, consequently, the accuracy of the device for measuring displacements is increased.

15

Claims (1)

Invention Formula A device for measuring displacements containing a movable ferromagnetic the core and the excitation winding distributed along its path and the measuring winding with current leads from its sections and with resistors connected to them having the same nominal resistance and connected opposite leads to a common node, characterized in that, in order to increase accuracy, it is equipped with a cylindrical magnetic circuit with annular grooves in its inner the surfaces, each of which has a corresponding measuring winding section, the excitation winding is divided into the same number of sections as the measuring winding, the excitation winding sections are placed in common slots with the corresponding measuring winding sections, and the ferromagnetic core is made of a length equal to the sum of the width of the two slots and two teeth of the magnetic circuit. 9999USH