SU139219A1 - Electric induction displacement sensor - Google Patents

Description

Electrical induction displacement sensors are known, consisting of a rectilinear core with an excitation winding and a movable magnetic element moving along the core and connected to the body, the displacement of which is measured. However, such sensors are complex in design.

In the described sensor, to simplify the design, the core is provided with a measuring winding composed of a series of sections arranged along the core and connected in opposite directions with the adjacent sections. The field winding is located across the core and the magnetic flux closes through the air gap. The magnetic element is C-shaped, and its ends, facing the side faces of the core, are located along its axis a distance equal to the length of the measuring winding section.

FIG. 1 shows a sensor; in fig. 2 - view along arrow A.

An electric induction displacement sensor consists of a straight core 1, an excitation winding 2 located across the core and covering its side 3, 4 and end 5, 6 sides, a measuring winding 7 composed of a series of sections 8 of the perpendicular excitation winding 2, and a magnetic element 9 C-shaped. The ends W and //, facing facets 12 and 13 of the core 1, are separated by a distance equal to the length of section 8 of the winding 7. The magnetic element 9 closes the working magnetic flux so that the length of the magnetic field lines along the core 1 remains unchanged for any the position of the element 9. Due to this, the constant magnetic resistance for the working magnetic flux remains unchanged both in absolute value and in phase.

Ed with. in the measuring winding 7, the flux is scattered in the region where the working magnetic flux does not pass, is equal to zero, since the angle

No. 139219-2 between the magnetic power lines of the scattered fluxes and the plane of the measuring winding 7 is equal to zero, and in the region of the magnetic element 9 has a certain value and varies along a sawtooth curve. At the same time, between the maximum and minimum values of this ed. with. varies almost linearly and has a standing phase.

Thus, when moving the magnetic element 9 together with the body with respect to which the measurements are carried out, it is possible to make both a continuous reading of the measuring device connected to the measuring winding 7 and a discrete reading of the minimum and maximum values using a pulse counter.

The sensor described allows an increase in the accuracy of the reference regardless of its absolute value. It has a permanent magnetic circuit, has good sensitivity and can be used in automation systems with counting devices.

Subject invention

An electric induction displacement sensor, consisting of a rectilinear core with an excitation winding and a movable magnetic element moving along the core and connected to the body, the displacement of which is measured, characterized in that, in order to simplify the sensor device, the core is equipped with winding composed of a series of sections arranged along the core and connected opposite to each other, the excitation winding is located across the core and creates a magnetic flux closing through the air, and the magnetic element is C-shaped, and its ends facing the side faces of the core are located along its axis a distance equal to the length of the measuring winding section.