SU20724A1 - Transformer - Google Patents

Description

The present invention relates to a transformer device, in which, for the purpose of continuous overlapping alternating sectional primary and secondary windings, carrying the last bakelite sleeve is provided with special cuts in the ribs and longitudinal channels in the body. These cuts and channels are designed to hold the ends of the individual sections of both transformer windings.

In FIG. Figures 1 and 2 depict transverse and longitudinal sections of the proposed transformer.

The transformer sleeve is formed of bakelite shaped halves 1, 1 (Fig. 1 and 2), glued together into one. The resulting frame consists of a cylindrical base 2, bounded by two side walls 3, 3 and carrying several internal edges 4 with cutouts S in each edge. The base 2 is provided with a neck of square cross section with truncated corners 6 (Fig. 2) for assembling the lamellar core 7 consisting of W-shaped plates. The core plates are dialed towards each other, in order to obtain resistance

frame per unit length equal to the resistance of other parts, the width of its plates is made equal to the width of the core plates.

In the body of the liner, the upper and lower longitudinal channels 8 are made, allowing to move from section to section when winding is applied, lowering the ends of the windings through channels 8 into the channels 8. In this particular case, the winding consists of three primary 9 and four secondary 10 sections, is imposed as described below.

The beginning of the primary winding section 9 is inserted into the left outer sidewall 3, and when the winding of the section is completed, its end is lowered through the lower notch S of the first inner edge 4 into the lower longitudinal channel 8. The second section 9 is a continuation of the previous winding and is located behind the third inner edge 4. Its end also descends through the lower notch 5 of the fourth inner rib 4 into the lower longitudinal channel 8. A third section overlaps the sixth inner rib 4, and its end is led out into the right outer sidewall 3.

The beginning of the first section of the secondary winding 10 is inserted from the left along the upper channel 8 by the first inner edge 4, and its end is lowered in the notch 8 of the second inner edge 4 by the second edge, where it is fed to the second section of the secondary winding. The end of the second section descends in the upper notch S of the third inner rib 4 into the upper channel. The third and fourth sections of the secondary winding 10 are stacked in the same order between the fourth and fifth, fifth and sixth internal fins, 4, and the end of the fourth section 10 is led out through the upper channel to the outside of the right side 3 of the coil.

The order of the winding should be neither; Next: the primary winding is applied without interruption, and secondary, in order to avoid complex threading of the ends so that the first and second sections are superimposed after the third and fourth sections are applied. The sleeping ends between the second and third seconds are bent into the upper notch of the third rib, and the sleeping parts of the discharge end of the fourth section into the upper notch of the fourth rib. Conductors going through the channels.

should be coated with wax or insulating mastic.

All output ends of both windings are located in the upper half of the coil, since the primary winding leads emerge from special openings — directly from the sidewalls 3, and the ends of the secondary winding from the openings of the upper channel 8. To the right and left of the coil there are bakelite pads with pressed into them clamps and lugs to which lead leads are soldered.

The proposed design of the transformer sleeve is intended to achieve ease of winding and to ensure the integrity of the enamel insulation of the turns during conveyor assembly.

The subject of the patent.

A transformer, characterized by the use of S-S cutouts in the ribs 4-4 of the carrier winding of the bakelite sleeve and the longitudinal channels in the body of the same sleeve, which are cutouts for conducting the ends of individual sections of the primary and secondary windings, in order to continuously overlay alternating sections of the windings mentioned. E to the patent of the State All-Union Electrotechnical Association "VEO No. 20724"

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