SU591695A1 - Inductive linear displacement transducer - Google Patents

Description

in one cup, in one of which a measuring winding is installed, and in the other compensatory winding, and the open ends of which form respectively a variable air gap with a movable core and a constant gap with a fixed frame (a theme provided, for example, with a diaper gasket, both cores shouting opposite to each other are closed with C and tors that are in contact with each other, the Dive converter is the most close to the invention according to its technical essence and the achieved result of 1. t. A single piece used as a fixed core reduces the conversion rate due to the presence of a convertible transducer in the junction box, complicates the jointed surfaces, complicates the design and increases the size of the transducer. The aim of the invention is to improve the accuracy of the conversion. with a compensation winding is installed with its open end facing the closed end of the core with a gauge, nai winding, the bottom of which is used in the Ka-iecTBe fixed box. The drawing shows a structural diagram of the described Converter. Measuring winding 1 and compensating for MLAP-2 are installed respectively in ferromagnetic core 3, the open end A of which interacts with your trunk 4 through Variable air backfill (and, b) ferromagnetic core 5, made like core 3 in the form of a glass. The bottom 6 of the core 3 is used as a stationary core. There is provided between the closed end B of core 3 and the open end B of core 5, by which it is installed opposite to B, P, there is a gap 8, provided by a dielectric strip 7, the thickness of which is is determined from the conditions for providing the necessary sensitivity and linearity of the conversion. The compensation winding of the converter serves to compile temperature changes as well as changes in the supply voltage and frequency. The windings 1 2 are included in an electrical measuring circuit that is powered by an alternating current source. Measuring device that registers the difference between the currents in these windings.

The converter works as follows.

Claims (3)

The windings 1 and 2 connected to the AC source excite the magnetic flux passing through the corresponding. magnet lines and air pockets aa-i and Sg, Under the influence of KOHIW. rolling unbiased, mobile 4 is displaced in the directions indicated by arrows in the drawing. The length of the gap S changes accordingly, the gap iS remains unchanged. (Thanks to this, the inductance and complex apectional 20 L5 resistance of winding 1 change. Accordingly, the difference in currents in the winding X; 1 and 2, which is close to zero, with equal gaps - OQ (change 6ajiaHca) changes. causes & the emergence of an alternating voltage converter at the output, the amplitude of which is proportional to the displacement kf, and (j corresponds to the direction of this displacement. Transition of the core through the balance position changes the phase of the supply voltage 180, use in a converter as a fixed siKopH core bottom with a measuring winding and a modified mutual arrangement: the cores eliminate a separate part serving as a fixed wheel. This improves the conversion accuracy by reducing the mating surfaces in the size converter circuit, and also simplifies the design and reduces dimensions of the transducer. The formula was invented by an inductive linear displacement transducer, containing two ferromagnetic cores in the form of glasses, in one of the first is installed measuring winding, and in the other - compensation, and the open ends of which form, respectively, a variable-air gap with a moving camera and a constant gap with a fixed frame, provided, for example, by a center plate, which differs from In order to improve the accuracy of the conversion, the core with compensation winding is installed, with its open end facing the closed end of the core. by measuring winding, the bottom of which is designed as a fixed box "Sources of information taken during examination: five . . , 6 iJUmtepMaB L, I, Korasqp. Induction 2. Copyright certificate SSKHR Split converters for automation No. 191380, class G- 08 C 9/05, 1965, motion control. M., Mechanical Engineering, 3. Accepted for UK 1966, p .8 .N 1261393, cl. About 1 K, 1972.  . , .. five 591695