SU1626166A1 - Contact less dc strong current meter - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used to measure large direct currents. Goal and surly are to increase yusmosgi and zhestmi. Contactless ICMMERNTEL BROTHER PERSONAL SOUPS All years are a flexible split mpee cable that consists of separate ferromagnetic elements 2 with axial protrusions 3, which are equipped with rotating 1iol nonnye rails 4 with magnetically adjustable ni transducers 6 connected to h source 7 power supply and emery- to the individual device 9. The ferromagnetic elements 2 are made spherical, which contributes to the preservation of the magnetic resistance of the magnetic conductor when the ferromagnetic elements 2 are mixed and thereby increases the accuracy of measurement. 2 Il. with Ј (L with

Description

The invention relates to electrical measuring equipment and is intended for the non-contact measurement of large direct currents.

The purpose of the invention is to improve the measurement accuracy by maintaining the magnetic resistance of the magnetic conductor when the ferromagnetic elements are displaced.

Fig.1 shows a contactless meter of high direct currents; on - part of a flexible detachable magnetic circuit, cut

The meter is (FIG. 1) a flexible, detachable magnetic conductor that freely engages the conductor 1, for example, of circular cross section. The detachable magnetic core consists of individual spherical ferromagnetic elements 2 (Figures 1 and 2) In the center of each ferromagnetic element 2 on both sides there are axial protrusions 3 on which rotatable T-shaped insulating strips 4 are freely put on. This is possible due to through circular holes, located at the ends of the longitudinal part of the rotary T-shaped insulating strips 4 The connecting ferromagnetic elements 2 and the rotary T-shaped insulating strips 4 using axial projections 3 allow each subsequent ferromagnetic Element 2 is free to rotate relative to the previous ferromagnetic element 2 Ferromagnetic elements 2 and rotary insulating T-rails 4 are held on axial protrusions 3 by means of stop washers 5 inserted into grooves of axial protrusions 3. On rotary T-shaped insulating rails 4 along Magnetically sensitive transducers 6 (for example, Hall transducers) connected to power supply 7 are rigidly fixed in their middle. This arrangement allows the magnetically sensitive transducers 6 to be permanently located in the center of the gap between the ferromagnetic elements 2, since the distances between any two adjacent spherical ferromagnetic elements 2 when the insulating rails 4 are rotated around the axial protrusions 3 remain the same. - by means of transducers 6 placed in a flexible case 8. A measuring device 9 is connected to the output of the magnetosensitive transducers 6 m ograzom.

After girth flexible detachable magnetic conductor 1. The measured magnetic current in the flexible detachable magnet line creates a different magnetic flux, which leads to the appearance of a signal at the output of the magnetic sense transducers 6, in proportion to the measured current. The resulting output signal is fixed.

0 by measuring instrument 9.

At the same time, the displacement of the spherical ferromagnetic elements 2 relative to each other in the planes, perpendicular to their geometrical axes, is not

5 change, due to the spherical shape of the ferromagnetic elements 2, the magnetic resistance between each pair and, consequently, the magnetic resistance as a whole in the path of the working magnetic flux at relative displacements of the ferromagnetic elements 2 in any planes remains constant, which increases measurement accuracy of large DC currents.

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Claims (1)

Invention Formula A contactless meter of large direct currents, containing a flexible detachable magnetic core made of separate ferromagnetic elements with longitudinal gaps, magnetically sensitive transducers, a power source and measuring device connected to magnetically sensitive transducers, which are placed on the transverse portions of the rotary T-shaped insulating strips, which are hingedly mounted on axial protrusions of ferromagnetic elements, characterized in that, in order to improve the accuracy of their design, the ferromagnetic elements are made of arches. Rig. 2