CS201329B1 - High-voltage winding for the electromagnetic non-rotating machines - Google Patents

Description

The invention relates to a high-voltage winding for non-rotating electromagnetic machines, in particular embedded in a curable resin. The winding consists of single coils wound from aluminum foil, where an insulating foil with double-sided overlapping over the edges of the aluminum foil is used as inter-thread insulation, or the aluminum foil is insulated by a coating of insulating material. The axial distance between the coils is defined between the coils for the stripping of the coils and for the passage of the conductor of the serial coil connection.

Currently, the definition of the axial distance between the coils is accomplished by a system of relatively narrow inserts, evenly spaced around the circumference of the coils. At the point where the narrow inserts rest on the mono-coils, the overhanging ends of the inter-threaded insulation are completely bent due to the considerable specific pressure during the winding tightening before embedding. Said solution of defining the axial distance between the coils has a number of disadvantages, which consist mainly in the fact that in the winding of the coils sporadically in some windings the edges of the foil overlap with other threads and when the edges of the foil are folded together with the edges of the inter-threaded. Similarly, there is a great risk of inter-threaded short-circuits, even in the foil insulated by a coating of insulating material. In addition, when printing with narrow inserts, a relatively large overhang of the edges of the insulating film is also required, which increases the dimensions of the winding and, at the same time, the consumption of sheet metal for the magnetic circuit.

These disadvantages of the currently used axial distance delimitation are substantially eliminated by the present invention. It is an object of the invention that the axial distance between the single coils is defined by a pair of annulus-shaped insulating inserts comprising alternately formed recesses on the side of the inner and outer circumferences that overlap the center of the width of the insulating inserts.

The solution according to the invention achieves uniform printing on the overlapping insulating foil during winding contraction. In such a squeezed single coil, the protruding end of the aluminum foil cannot be pushed onto the next thread, eliminating the possibility of threaded shorts, since it is possible to shorten the overlapping of the insulating foil against the aluminum foil, thereby avoiding complete sagging insulating foil. By shortening the overlap of the insulating foil against the aluminum foil, the winding height is reduced, which results in a shortening of the magnetic circuit poles, thus saving on the transformer plate and reducing the electrical losses in the open circuit. The alternating recesses, which extend over the center of the width of the insulating inserts, ensure that the casting mass enters each slot between adjacent overlapping ends of the insulating film, which considerably increases the winding quality in mechanical and electrical terms.

An example of an embodiment of the winding according to the invention is shown in the attached figures. In FIG. 1 is a plan view of an insulating insert. In FIG. 2 is a partial cross-sectional view of a high-voltage winding assembled from five single coils for embedding in a curable resin. In FIG. 3 is a cross-sectional detail of a series-to-series connection of two single coils, indicated on the single coils of the foil threads and the inter-threaded insulating film.

The high-voltage winding consists of single coils 1 wound from aluminum foil 2, where an insulating foil 3 is used as inter-thread insulation, which protrudes on both sides over the edges 4 of aluminum foil 2. The axial distance between the single coils 1 is defined by a pair of insulating inserts 5. The insulating inserts 5 have recesses 8 on the side of the inner circumference 6 and the outer circumference 7, which protrude over the center of the width of the insulating inserts 5. The conductors 9 of the serial connections of the single coils 1 pass between the pairs of insulating inserts 5,

Claims (3)

High-voltage winding for electromagnetic machines, non-rotating, in particular encapsulated in a curable resin, consisting of single-coils wound from aluminum foil, an insulating foil with both sides overlapping over the edges of the aluminum foil or an aluminum foil insulated with an insulating material coating in that the axial distance between the coils (1) is defined by a pair of annular-shaped insulating inserts (5) having alternately formed recesses (8) on the side of the inner periphery (6) and the outer periphery (7), which overlap the center of the width of the insulating inserts 5). High-voltage winding according to claim 1, characterized in that the conductors (9) of the serial connections of the single coils (1) pass between the pairs of insulating inserts (5).