SU855380A1 - Linear displacement pickup - Google Patents

Description

(54) LINEAR MOVEMENT CONVERTER

I

The invention relates to instrumentation engineering and can be used, in particular, to measure linear displacements of moving parts and assemblies of mechanisms.

Known inductive differential linear displacement transducer, containing two magnetic systems formed by two ferromagnetic cores in the form of glasses, with windings, and movable measles placed between them in an air gap. The change in the parameters of the electrical output signal is determined by the change in the working gaps of the magnetic circuit I.

The disadvantage of such a converter is the small range of controlled displacements.

The closest in terms of technical essence to the proposed one is a linear displacement transducer containing annual measles connected to the object in the process of measurement, and two coaxially mounted stationary ferromagnetic cores with dimensions 1) measuring in them, comp);) nig) mm windings 2 |.

The disadvantage of this converter is its insignificant interference from the effects of external electromagnetic fields at large working gaps between the open end of a ferromagnetic core with a measuring winding and a moving crust.

The purpose of the invention is to improve the noise immunity of the converter from the effects of external electromagnetic fields.

Intact: It is achieved in that the converter is provided with a ferromagnetic body and metal plates with radial grooves adjacent to the ends of one of the cores.

FIG. I shows a schematic image of a linear displacement transducer; in fig. 2 is a view A of FIG. I.

The converter contains ferromagnetic cores I and 2 mounted coaxially. In the core 1, the measuring winding 3 is exchanged, and in the core 2 - the compensation winding 4. In the cores 1. and 2 there are sections of the excitation winding 5 interconnected in series

counter Between the bottom of the core 1 and the open end of the core 2 there is installed a dielectric gasket 6, the thickness of which is determined by the constant gap So of the compensation element of the converter.

. From the side of the open end of the core 1 there is a movable bore 7, which is connected to the object during the measurement. The movable measles 7 forms a variable (working) air gap with the open end of the core 1.

The cores 1, 2 with measuring 3 and compensating 4 windings are installed in a ferromagnetic body 8, the end plate 9 of which, facing the variable air gap 5, is made with radial grooves 10, the width and number of which are determined based on the required sensitivity of the converter. a gasket 6 and the bottom of the core 1 accommodate a metal plate 11 having the same grooves as the plate 9 to ensure the identity of the measuring and compensation parts of the converter.

The compensation part of the converter serves to compensate for temperature changes as well as changes in the supply voltage and frequency.

The Converter operates as follows.

In the sections of the excitation winding 5 connected to an alternating current source (not shown), magnetic fluxes are excited through the corresponding magnetoprodes and through the air gaps and do. When the moving cortex 7 moves in the directions (shown by arrows), the controlled movement changes the size of the gap /, and the gap Jo remains unchanged. Moving the core 7 from the balance position leads to the appearance at the output of the converter a variable voltage difference, the value of which is proportional. the magnitude of the displacement of the core and the phase correspond to the direction of this displacement. A change in the ambient temperature, as well as a change in the value of the supply voltage, likewise affect the magnetic and electrical properties of both the measuring and compensation parts of the converter, which makes it possible to exclude an error signal from destabilizing factors from the resulting value output signal.

The presence of an additional external closed magnetic conductor (housing 8, plates 9 and 11) makes it possible for the parasitic magnetic flux of external magnetic fields to create a closed magnetic conductive circuit and thereby eliminate the influence of external magnetic fields on the output signal of the converter.

Claims (2)

1. USSR author's certificate number 191380, cl. G 08 C 9/04, 1962. 2. USSR author's certificate No. 591695, cl. G O D 5/20; G 08 C 9/04, 1978 prototype). V II Ji 0 Riga.1 did