SU853679A1 - Three-phase three-dimensional magnetic core - Google Patents

Description

(54) THREE-PHASE SPATIAL MAGNETIC WIRE

I

The invention relates to electrical engineering, in particular, to structures of twisted spatial magnetic cores of induction apparatuses.

A three-phase spatial magnetic core is known that contains a wound triangular or annular rm, closing the magnetic core rods and located at their ends, while the magnetic core rods are L-shaped and their ends, closed by the specified rm, are assembled at the zero point, forming a star-shaped rm 1,

A significant disadvantage of this device is the presence of gaps in the magnetic target: at the zero point of the star-shaped frame, as well as between each rod and the triangular frame, as a result of which a lot of energy is lost.

Also known is a three-phase spatial magnetic core containing a chassis and rods wound from electrical steel tapes with parallel edges, having T-shaped cuts arranged to the edges along the longitudinal axis, with the target sections of the tapes forming rods, and the cut sections of the tapes are rotated in relation to the rods and form rma 2.

This device is closest to the invention in its technical essence and the achieved result.

The significant drawbacks of such a magnetic circuit are the large electrical losses in the magnetic system due to the low filling factor of the magnetic circuit and the high labor intensity in its manufacture due to the fact that the tape sections forming the rods are bent in the dihedral angle, which leads to "dissolution of the rods during winding.

The aim of the invention is to reduce electrical losses by increasing the filling factor of the magnetic circuit.

This is achieved in that in three phase

15 spatial magnetic core containing rm and rods wound from electrical steel tapes with parallel edges, having T-shaped along the longitudinal axis

20 cuts with exits to the edges, the whole sections of the tapes form the rods, and the cut sections of the tapes are rotated relative to the rods and form a frame, the cut sections of the bands forming the frame are rotated around their longitudinal axes, which allows to exclude the bend of the rods in dihedral angle. Elimination of bends in the form of a dihedral angle of a section of strips forming rods allows increasing the filling coefficient of the magnetic conductor and thereby reducing the electrical losses in it and also greatly simplifying the fabrication of the magnetic conductor. FIG. Figure 1 shows a section of tape from which a magnetic conductor is wound; in fig. 2 - one turn of the magnetic circuit; in fig. 3 - magnetic core with partial cutout of the rod section, general view. Tape 1 of transformer steel has T-shaped notches 2, which are made along the axis with outlets in a shakhmatny order to the longitudinal edges on both sides. When winding such a tape on a figured mandrel with supports under the tape in three planes located at an angle to each other, entire sections. 3 and 4 form the cores of the magnetic conductor, and the cut sections 5, 6, 7, 8, 9, 10, 11 and 12, facilitating the supporting sections of the mandrel (not shown in the drawings), occupy the positions of the rem, while the cut sections rotate around their axes relative to plane sections of the rod. To bring the rod section closer to the circumference, the magnetic core is wound from tapes of various widths, the inner and outer parts from narrower tapes 13, and the middle ones from wide tapes 14, 15, 16. 2 1 /

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Claims (2)

1 As a result, the cross section of the rod has a stepped shape, and the larger the steps, the higher the filling ratio. In the proposed construction, the magnetic flux from the rod 17 passes into sections 5, 6, 12 and 10 rem, and then, without entering the rod 18, into the rod 19. The triple frequency magnetic fluxes are directed oppositely and, therefore, compensated, which reduces the additional transformer loss during operation. Claims of the Invention Three-phase spatial magnetic circuit comprising a chassis and rods wound from electrical steel strips with parallel edges, having T-shaped cuts arranged in a staggered pattern along the longitudinal axis, with entire sections of the tapes forming rods, and cut sections of the tapes are rotated in relation to the rods and form a chassis, characterized in that, in order to reduce electrical losses by increasing the filling factor of the magnetic circuit, the cut sections of the tapes form Rhms rotated around their longitudinal axes. Sources of information taken into account in the examination 1. USSR author's certificate number 193605, cl. H 01 F 27/24, 1967. 2. The patent of Germany No. 1009292, cl. 21 d2, 48, 1957. ffgJ