SU481074A1 - Method for manufacturing magnetic cores of differential flux-probes - Google Patents

Description

one

The invention relates to a technology for manufacturing ferromagnetic cores from a magnet of a soft material and can be used in instrument making.

According to a known method of manufacturing magnetic cores of differential flux probes, the cores of magnetically soft material are annealed in an electrovacuum furnace using a capillary quartz tube, after which they are either inserted into the skeleton of the fluxgate or pre-glued onto a gettax substrate. Having installed one of the cores in the ferrozoid frame, a second core with the same magnetic characteristics is selected by sequential search for the permissible unbalance voltage in the measuring winding of the ferrosonde. However, these technologies for manufacturing cores are subjected to mechanical stress and are deformed, which makes it difficult to ensure the necessary degree of parallelism of the magnetic cores, which leads to a decrease in the metrological and electrical characteristics of the fluxgate. In addition, when using a fluxgate as a direction indicator, for example, when targeting a given device along a magnetic meridian, the error in determining the direction of the magnetic meridian is 15-40.

The proposed method allows to improve the stability and identity of the magnetic characteristics of the cores of the differential ferrosonde. This is achieved by the fact that magnetic cores, made, for example, of a permeable copper wire, are set at a predetermined distance inside the quartz tube, then they are wound together.

Subject invention

A method of manufacturing magnetic cores of differential ferrosodes by annealing, for example, permalloy cores and using a capillary quartz tube, characterized in that in order to increase the stability and identity of magnetic core characteristics, the magnetic cores are installed at a given distance inside the quartz tube their joint annealing.