SU917093A1 - Measuring mechanism of an electromeasuring instrumennt - Google Patents

Description

(5) MEASURING MECHANISM OF ELECTRIC MEASURING DEVICE

one

The invention relates to electrical measurements, in particular, to devices for measuring mechanisms of electrical measuring instruments of a magnetoelectric system.

The mechanism of the electrical measuring device is known, which contains two axially magnetized magnets connected by a magnetic circuit to a series magnetic circuit, and a frame with a current, the axis of rotation of which passes through the center of the magnetic circuit and the center of the gap in magnetic circuit 1.

The mechanism has a small percentage of the useful use of permanent magnets, a field in the region of the frame with a current, sensitivity in measuring weak signals, and a large mass and dimensions of the device.

The purpose of the invention is to reduce the weight and size of the device.

The goal is achieved by the fact that in the measuring mechanism of an electrical measuring device containing two axially magnetized magnets connected by a magnetic circuit and a frame with a current whose axis of rotation passes through the center of the magnetic circuit, the magnets and magnetic circuit are made in the form of discs, the magnets are magnetized equally reversibly - one half of the magnet meets the other, and the magnets and the magnetic cores inside the frame are aligned with each other

10 and the frame axis.

The drawing shows the measuring mechanism, axial section.

The Measuring Mechanism of an electrical measuring device contains a magnet system of disk magnet 1, magnetic circuit 2, second disk magnet 3, and frame C.

The magnets 1 and 3 are of equal size, and magnetized axially and reversibly — one half of each bridge toward the other half. The poles of the magnets are conventionally indicated in the drawing by pluses and minuses. The magnetic core 2 is made in the form of a disk made of a soft steel magnet and covers the entire one of the ends of the magnet 1 and is rigidly connected to both it and the opposite end of the disk magnet 3. A strong diametrically reversible magnetic field is created on the outer flat pole sides of the magnetic system. . The direction of the main magnetic fluxes is shown in the drawing by arrows.

The device works as follows.

In the magnetic field of the system, a current enveloping the magnetic system of the frame 4, which is rigidly connected to the axis 5, moves to it. The axis 5 is coaxial to the disk magnet 1, magnetic conductor 2, the second disk magnet 3. On axis 5, the arrow 6 is fixed, with the help of which the readings are made, Kotopbie has a graded electrical measuring scale gt |

The need for magnetic prod- uct 2 is due to the high brittleness of the best properties of the magnets, the difficulty of working with which during their installation is aggravated by the small thickness of parts that are useful for the use of magnetics.

In addition, with the help of the magnetic circuit 2, it is possible to achieve an equality of magnetic fluxes emerging from each external pole of the magnets I and 3, Magnetpipe 2 smoothes the local variations of the fields of the magnets. Variations of magnetic fields are associated with inevitable heterogeneities in matites and. There are magnetic properties of the magnets from sample to sample. Magnetic conduit 2 increases the magnetic conductivity in the paradise & ne neutrals of the magnetic system, where the magnetic fluxes are maximum. This makes it possible to improve the useful use of magnets. The magnetic field passage 2 makes it possible to sum up the magnetic potentials created by each of the oppositely magnetized half of the magnet. The disk is the technological form itself for the magnets t and 3, providing them with high properties. Reversible

axial magnetization of the magnets one half towards the other half of the disk - ensures the achievement of the maximum possible angle of the solution of the scale of the electrical measuring instrument. Installing the magnets -1 and 3 with the magnetic core 2 inside the frame t allows to achieve the greatest compactness of the measuring mechanism.

The invention will not change if in the measuring mechanism shown in the drawing, instead of disk or ring magnets 1 and 3, Magnets 2 are applied with magnets in the form of a surface layer or a thick film of magnetically hard material.

The proposed mechanism of an electrical measuring device is simpler and cheaper than the Magnetpipe of the magnetic system, and also the losses for magnetic flux dissipation from one magnet to another, from magnets to magnetic conductor, increased magnetic flux conductivity in the magnetic neutral of the system, thereby reducing the mass and size of magnets and devices in general.

Claims (1)

1. Petin Yu.M. Calculation of electrical components of measuring devices M., Maiinostroenie, 1965, p. E, fig. eleven. S. five