SU1597610A1 - Transmitter of place of force application - Google Patents

Abstract

The invention relates to instrumentation engineering and allows determining the place of application of a given force. When energizing the excitation winding 2 from the AC source in the U-shaped magnetic core 1, a magnetic flux is created, closing through the air gaps and thin film 6 from a material with a rectangular hysteresis loop. In the film 6, holes are made in which serially connected windings 7 of the indicator winding 8 are placed. With alternate application of force (P ₁ , P ₂ ... P _K ) to the force-receiving carriages 3 due to a corresponding change in the gap between the film 6 and the magnetic core 1 The output of the indicator winding 8 appears bundles of pulses. The number of pulses in each pack depends on the place of application of the force. Magnetic winding 4 are used for the exhibition of the desired mode of operation. Measuring windings 5 are used to monitor the operation of the sensor and set the necessary bias currents. 2 Il.

Description

The invention relates to the field of instrumentation and can be used to determine the place of application of a force of known magnitude, which operates in a given plane.

The purpose of the invention is to expand the functionality by ensuring the determination of the place of application of force in a given plane while simultaneously increasing the sensitivity

Fig. 1 shows a U-shaped magnetic core with windings and a foam made of a material with a rectangular hysteresis loop; on figv2 - a sensor containing n n-shaped magnetopro-.

The force location sensor contains p (n: 1) U-shaped magnetic conductors 1, each of which has a magnetizing winding 2, a power-receiving movable carriage 3 with windings 4 bias, and measuring {5 winding 5, connected to the indicator. Between the extreme rods of the magnetic circuit 1 there is a thin ferromagnetic foam 6 of a material type with a rectangular hysteresis loop with holes, made

discretely, parallel to the side rod of the MO In the holes there are placed in series the implications 7 of the indicator winding 8 connected to a measuring device (not shown). The group of U-shaped magnetic cores 9 (FIG. 2) is parallel to the main magnetic wire 1 along the axis Y.

The sensor works as follows.

When an alternating current flows through the magnetizing winding 2 of the U-shaped magnetic circuit 1, a alternating magnetic flux is created in it that closes through the air gaps and film 6, and in the film 6 a magnetic field is created distributed along the film length and perpendicular to the plane of the coils 7 - the magnetic field H is along the entire length of the film from O to 1 more coercive force H of the film material, then at the output of the winding 8 there appear bundles of pulses, the number of which

each pack is equal to the number of turns of 7 indicator windings B If H O N only in the area, for example, from O to X, then at the output in each

the number of pulses will be equal to the number of turns, located in the section from O to X,

Thus, by exhibiting the corresponding magnitude of the bias currents in the windings 4, one can apply, by alternately applying a predetermined force P to the force-receiving carriages 3, due to a corresponding change in the gap between the film 6 and the rod. when force P is applied, only one of the turns 7 is reversal, when force P is applied, two turns and t, d, and when force P is applied, all turns 7 of the winding 8, therefore, if the pressure is adjusted to the group of magnetic cores 9, then by the winding of which of the group 9 magnetic drives receive a burst of pulses and by the number of pulses in each burst, the place of application of force is determined. The measuring windings 5 serve to accelerate the adjustment process and monitor the sensor operation. For each of the specified force values, the place of application of which must be determined, the necessary magnitude of the bias current and the corresponding magnitude of the measuring winding signal are predetermined. In addition, at a fixed place of application of a force, the sensor has the ability to measure the magnitude of this force, and the sensitivity of the sensor in this case depends on which cartridge the measured force is applied to.

Claims (1)

The formula of the image of the sensor of the place of application of a force, containing a U-shaped magnetic circuit with an excitation winding, a power-receiving carriage and a measuring winding, characterized in that, in order to enhance the functionality by providing a definition of the place of application of force in the back plane while simultaneously increasing sensitivity , n-U-shaped magnetic cores, which are parallel to the main core, are additionally introduced into it; on one of the cores of each magnetic circuit, m is installed; current, (where), with cal the sensing carriage is provided with a magnetic biasing winding and located in the plane of each of the U-shaped magnetic cores with a gap between the side rods of a film made of a material with a rectangular PET15976106 Lea hysteresis with holes made discretely parallel to i-side rods, as well as an indicator winding, series-connected windings of which are placed in the foams. Figg