SU1383209A1 - Measuring mechanism of electromagnetic ratiometer - Google Patents

Abstract

The invention can be used in small-panel shield-type logos of an electromagnetic system with a significant angle of the scale solution. The measuring mechanism (IM) of an electromagnetic logometer contains a magnetic conductor in the form of a hollow cylinder 1, flat bases, horseshoe-shaped semicircular coils with monotonically increasing cross-section, having frames 4 , 5c, measure by windings, a ferromagnetic element in the form of a plate in the shape of a semicircle. Axis 11 is centrally located in core supports. MI is distinguished by its small size, compactness, high sensitivity and a significant angle of the scale solution. 2 Il.

Description

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The invention relates to a measurement technique and can be used in small-sized shield-type logos of an electromagnetic system with a significant scale resolution angle, as well as in panel-mounted instruments using a current ratio: ohmmeters, phase meters, faradometers and asthometers.

The purpose of the invention is to reduce the size of the device and increase the angle of the scale solution due to the use of a symmetric closed magnetic conductor and the location of the axis in its center.

FIG. 1 shows schematically the measuring mechanism, top view; in fig. 2 - the same, front view with a central section (the right coil is not cut).

The measuring mechanism of the electromagnetic logometer contains a closed magnetic circuit, made in the form of a hollow cylinder 1 and flat bases 2

and 3, two coils consisting of a cage would depend on the angle

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with their ends of the windings 6 and 7 and the upper base 3 of the magnetic circuit and are closed through the base 3, the hollow cylinder 1 and the lower base 2 to the lower ends of the coils. The ferromagnetic element 8 tends to occupy a position at which the maximum number of magnetic flux lines is closed through it. The equilibrium position of the element 8, when the currents in the measuring windings of the coils are equal, is the position when it is turned 90 counterclockwise (Fig. 1), i.e. symmetrically overlaps both coils in their wide part. If the current in the winding 7 is greater, then the element 8 begins to rotate clockwise, retracting into the w; Thus, the right coil, in this case creates a torque, and the left - the opposing moment. For the operation of the logometer it is necessary that

owls 4 and 5 with measuring windings 6 and 7 arranged on them, made in such a way that in any parallel ends and plane of turns of winding 6 or 7 of cross section they have the shape of a tapered horseshoe with an arc angle and symmetrically opposite each other, the image between the other ends and the upper base 3 of the magnetic core is a slotted gap, in which a movable ferromagnetic element 8 in the form of a plate made in the shape of a semicircle and fixed is placed parallel to the ends of the windings 6 and 7 eccentrically, perpendicular to its plane on axis 11 installed in core supports 9 and 10, on which there is also an arrow pointer 12g Measuring windings 6 and 7 of each of the coils are wound on the side surfaces of frames 4 and 5, the name cix is a horseshoe-shaped profile, and winding is performed parallel to the ends of the coils and parallel to the base of m 2 and 3 magnetic conductors.

The measuring mechanism of the electromagnetic logometer works as follows.

When fed to the measuring windings of 6 and 7 currents, the magnetic fluxes of each of the coils pass from the ends of the coils in the gap gap between the top

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rotation, here both moments depend on the angle.

If, on the contrary, the current in the left coil is larger, element 8 is turned counterclockwise (Fig. 1). The angle of the scale solution between the extreme right and left positions of the element 8 is 180 °,

The design is extremely simple; it has a compact disk shape and a flat configuration with a diameter of about 60 mm and a height of 25 mm. Winding the winding onto the profiled side surface of the coils is easy.

Thus, the proposed measuring mechanism is distinguished by its small size, compactness, high sensitivity and a significant angle of the scale solution.

F o r mula inventions

The measuring mechanism of an electromagnetic logometer, containing two coils with measuring windings, a magnetic core and a movable ferromagnetic element, eccentrically located on an axis, which is placed in the core supports perpendicular to the plane of the ferromagnetic element, and fixed on an axis with a scale, characterized in that In order to reduce overall dimensions and increase the sensitivity of the mechanism, the coils are made by horseshoe-shaped, semicircular, with a monotonously increasing cross section, a ferromagnetic element The NT is made as a semicircle, the magnetic core is in the form of a hollow cylinder with flat bases, in the center of which there are holes for the axis and one ends of the coils are located on one base of the magnetic circuit symmetrically about the axis, and the ferromagnetic element is placed between the other base of the magnetic circuit and the other the ends of the coils.

FIG. 2

Claims (1)

Claim The measuring mechanism of the electromagnetic logometer, containing two coils with measuring windings, a magnetic circuit and a movable ferromagnetic element, eccentrically located on the axis, which is placed in core supports perpendicular to the plane of the ferromagnetic element, and a pointer fixed on the axis with a scale, characterized in that, in order to reduce the size and increasing the sensitivity of the mechanism, the coils are horseshoe-shaped, semicircular, with a monotonously increasing cross section, the ferromagnetic element is filled in the form of a semicircle, the magnetic circuit is in the form of a hollow cylinder with flat bases, in the center of which are made from a hole under the axis <while one end of the coils are located on one base of the magnetic circuit symmetrically about the axis, and a ferromagnetic element is placed between the other base of the magnetic circuit and other ends of the coils . Fi g. 2