SU157006A1 - - Google Patents

Description

Trassformat displacement sensors with distributed measuring windings and a ferromagnetic sub-core are known and characterized by simplicity of design, high reliability and sensitivity. However, when these sensors are executed with a rather large stroke of the movable part (100 mm and more), the amplitude and phase error appears. To increase the stability of the magnetic resistance of the steel and to obtain a constant signal phase, in such cases, the cross section of the magnetic core increases, which leads to an increase in the dimensions of the sensor, or increases the gap between the core and the magnetic core, which reduces sensitivity.

The proposed non-retarding sensor has a high sensitivity and at the same time provides a high degree of linearity and unchanged phase of the output emf, which is achieved by balancing its magnetic system by performing a two-turn magnetic circuit; the excitation winding is placed on the cross-section between the two, located perpendicular to the plane of the vitosis and parallel to the movable core.

The drawing shows a general view of a proposed displacement sensor.

INNER SUBSTANIATIVE magnet sensor consists of two ferromagnetic coils L connected between each other by a ferromagia and a junction 2. A bridge 2. On either side of the bridge and there are air spaces between it and the free ends of the coils. The excitation winding is located on the jumper 3. Differential measuring windings 4

No. 157006-2 -

distributed evenly on each turn of the magnetic circuit. Between the turns there is a movable ferromagnetic core 5, which can rotate around a common axis of the turns in a plane parallel to the plane of the turns. The working magnetic flux Fr created by the field winding closes along the path shown in the drawing by dashed lines. The length of the steel path for the working stream remains unchanged at any position of the movable part, thereby ensuring the constant magnetic resistance of the steel portion of the working magnetic flux circuit. Consequently, the magnitude of the magnetic flux does not change at any position of the movable part, which, in turn, ensures the constancy of the sensitivity of the sensor both in magnitude and phase.

Subject invention

A transformer-type displacement sensor containing a stationary magnetic core with differential measuring windings and an excitation winding evenly spaced on it and a moving core that closes the magnetic circuit of the magnetic conductor during movement, characterized in that, in order to expand the measurement range and increase the sensitivity, the magnetic core is made in the form of two turns, the excitation winding being placed on a jumper between the turns, perpendicular to the plane of the turns and parallel to IG Petritskaya core.