DE3214171A1 - Heavy-current transformer or inductor coil - Google Patents

Abstract

The invention relates to a heavy-current transformer in which at least one winding column is constructed as a disc winding. Most of the disc coils of this disc winding are wound from a conductor which consists of sub-conductors (10, 11) which lie side-by-side in the radial direction with respect to the core limb. The disc coils on the axial ends of the winding column, on the other hand, are wound from a conductor which consists of sub-conductors (10', 11'), the sub-conductors, which are in each case connected to one another in series, of all the turns lying in each case in one and the same radial plane with respect to the core limb. <IMAGE>

Description

HIGH CURRENT TRANSFORMER OR THROTTLE COIL

The invention relates to a power transformer or a choke coil according to the preamble of claim 1.

It is known to reduce the additional losses by using continuously to lower transposed conductors when building transformer windings. Such Ladders consist of several lacquered partial conductors with essentially rectangular ones Shape surrounded by a common insulation, usually in the form of a Paper wrapping, and are arranged in parallel in at least two rows. In each Row can be arranged a sub-conductor so that its one broad side next to one The broadside of a sub-conductor downstream is leigt. Every painted sub-conductor can be coated with a resin that is uncured or semi-cured is, so that the sub-conductors are movable in relation to one another when a winding is built up are. The uncured or semi-cured resin will not be cured until the winding has got its final shape, usually when the Winding. Because of the many sub-conductors and the thickness of the conductor, the The conductor is difficult to wind and cannot be used for complicated windings, such as stabilized Disc windings are used, since in such windings transitions between ting a disc coil and an adjacent disc coil are required. Continually transported conductors are therefore normally only used for windings that consist of a relatively small number of turns of the conductor, the are arranged in a layer on an insulating cylinder, in particular with regular windings.

The invention is based on the object of a power transformer or to develop a choke coil according to the preamble of claim 1, at which significantly reduces the additional losses without the use of transposed ladders are reduced.

To solve this problem, a power transformer or a Choke coil proposed according to the preamble of claim 1, according to the invention has the features mentioned in the characterizing part of claim 1.

Advantageous further developments of the invention are set out in the subclaims called.

According to the invention, the conductor is made up of relatively few sub-conductors, preferably composed of only two partial conductors. These are not in any disc spool transposed, and they keep under bending or similar deformation their original position to each other essentially.

A disc winding according to the invention mainly contains disc coils, in which each turn consists of partial conductors, which in the radial direction to the core leg are arranged side by side. These disc coils are in the part of the winding column arranged in which the leakage flux is substantially parallel to the core leg. In addition, the winding column contains at least one disc coil that is attached to a axial end of the winding column is ordered and the multiple windings contains a conductor whose sub-conductors are side by side in the longitudinal direction of the core limb arranged. are. Because the leakage flux at the ends of the winding column to a large extent runs radially to the core leg, it is achieved that the leakage flux also at the / the axial end (s) of the winding column substantially parallel to those between adjacent ones Partial conductors existing insulating layers runs. This means that a subdivision of the conductor into several sub-conductors, a significant reduction in additional losses the winding causes.

The individual disc coils of the winding are connected in series, where several, for example two in the case of a two-part conductor cross-section, in Series-connected groups of sub-conductors are formed. These groups are through Connection at the ends of the winding connected in parallel with each other. A division of the conductor into several sub-conductors usually has a reduced buckling strength the transformer winding and thus a lower short-circuit strength result.

According to a further development of the invention, the sub-conductors glued together in such a way that the division of the conductor into sub-conductors the mechanical properties of the winding are not significantly impaired.

Each sub-conductor can be completely surrounded by the sub-conductor insulation be. However, there is preferably the insulation between adjacent sub-conductors only from an insulating layer arranged between the partial conductors.

Because this layer is to a greater or lesser extent by one Binder is formed, you can do the aforementioned in a winding according to the invention Achieve gluing the sub-conductors together.

The conductor insulation can be conventional and made of one spiral-shaped, with an overlap wound tape made of cellulose paper or of a Polymer film, such as a film made of polyethylene glycol terephthalate, polycarbonate, Polyimide, polyamidimide, polypropylene, Polymethylpehten or Polysulfon exist. The insulation can also consist of a wrapping with a yarn made from one of the materials mentioned.

As an example of suitable material that is brought about by heating Can be used to form the glue line, curable resins, such as epoxy resins, with Epoxy resins modified with polyamides, uretane resins, ester resins modified with isocyanates, Epoxy resins modified with uretane resin and certain types of rubber (e.g. Glue 4684 from Du Poht, USA) as well as thermoplastic resins (melt glues) such as polyethylene glycol terephthalate, Polyamide and polycarbonate are mentioned.

The material forming the glue line can preferably be used as a separate material Film can be arranged between the sub-conductors.

It is also possible to have the material in the form of a layer on at least to attach one of the two broad sides of the sub-ladder lying next to each other, by, for example, coating one sub-conductor with a solution of the material will. The glue joint is only formed when the conductor is processed into a winding has been, i.e. when the conductor has received its final shape.

The winding then becomes like this, preferably when the winding is drying heated so that the material forming the glue joint forms a joint between the partial conductors can form. Because the outer sub-conductor of the conductor during winding is stretched in relation to the inner sub-conductor, wilXkt on the insulating Layer a radial pressure, which favors the formation of a mechanically strong joint.

The spacer made of insulating material in the material that makes the glue joint has the task of ensuring that the sub-conductors are at a distance from one another be held and not come into contact with each other, especially when Glue it is important if the material for the glue line is liquid or soft. Although the Subconductors are connected to one another at the winding ends, that is the subconductor penetrating magnetic flux slightly different, so that between the partial conductors An electrical voltage occurs during operation, which is why insulation between the sub-conductors is required. Suitable material for the spacer elements are paper, felt or fabric made of fiber material, such as fibers made of cellulose, Polyethylene glycol terephthalate, polyamide, polyvinyl acetate, polyacrylonitrile, polypropylene and glass. In paper or felt, the fibers can, among other things, get through mechanically Entangling or being bonded together by melting or with an adhesive. The spacer element can be solid or provided with continuous pores and holes be, which are filled with a material forming the glue line. That used Paper, the fabric or the felt can preferably be coarse-meshed. It is also possible to use conventional powder fillers as a spacer element, such as powder made of chalk, mica, quartz or aluminum oxide. You can also use conventional ones Use fibrous fillers such as cellulose fibers, glass or the rest the aforesaid fiber material for paper, felt and fabric.

Based on the exemplary embodiments shown in the figures, the Invention will be explained in more detail. It shows Figure 1a a cross section through a Winding in the central axial section of a winding column of a transformer, FIG. 7B shows a corresponding cross section as FIG. 1a through one turn in one axial end portion of the winding column, Figure 1C in cross section an alternative Execution of the conductor shown in Figure 1B.

Figure 2 shows a transformer in side view and partially Sectional view, Figure 3, the windings of the transformer according to Figure 2 in a larger Scale, Figure 4A is a partial vertical section through the high-voltage winding in a central axial area, FIG. 4B shows a corresponding section as FIG. 4A through an axial end section of the high-voltage winding (the low-voltage winding is designed as a layer winding and the high-voltage winding as a disc winding), Figure 5 is a perspective view of a disc winding according to the invention, which is constructed essentially like the winding shown in FIG. 3, FIG. 6 a connection principle, which in a winding according to the invention a uniform Causes current distribution to the individual sub-conductors.

In Figure la, two sub-conductors are denoted by 10 and 11, respectively.

The two sub-conductors each have a broad side 10a and 11a next to one another. The narrow side of both sub-conductors is 2 mm long and the broad side 12 mm long. Between an insulating layer lies on the adjacent broad sides of the two sub-conductors 12, made of a hardenable resin and a 0.15 mm thick and 12 mm wide spacer element 13 is constructed in the form of a coarse-meshed and very fibrous felt. The felt consists of a mixture of polyvinyl acetate fibers and polyamide fibers that pass through an acrylic binder and has a basis weight of 30 g / cm '(e.g. Non-woven Storalen 670-30 from Stora Kopparbergs AB). The hardenable Resin with which the spacer is impregnated is an epoxy resin (e.g.

Araldit B from Ciba, Switzerland), which is mixed with dicyandiamide as a hardener is, with 3 parts by weight of hardener per 100 Parts by weight epoxy resin be used. The insulating layer, which is tack-free, is as a separate one Tape attached loosely between the sub-conductors, i.e. not glued to the sub-conductors. The sub-conductors 10 and 11 and the insulating layer 12 together form the conductor 8. The conductor insulation 17 consists of paper tape that is spiraled around the conductor is wrapped.

From the transformer is a high voltage bushing 41, one Low voltage bushing 42, the transformer tank 43, press flanges 44, - one insulated support 45 for the low-voltage connection 46, intermediate layers 47 made of wood, the low voltage winding 48, the high voltage winding 49, a vertical core leg 50, which is surrounded by the windings 48 and 49, intermediate layers 51 made of pressboard and insulating cylinder 53 made of pressboard.

The high-voltage winding 49 is constructed as a disc winding several disc coils stacked one on top of the other along the core limb, one of which the top two and the bottom two are denoted by 60, while the the other disc coils are denoted by 61. The disc coils 61 are shown in FIG Figure 1a and Figure 4A constructed, while the disc coils 60 according to Figure 1B and Figure 4B are constructed. Each pancake coil 61 includes a plurality in the same horizontal plane lying turns of a conductor 8, to which the two sub-conductors 10 and 11 and one arranged between these, vertically lying insulating layer 12 belong.

In an upper and a lower section of the winding 49 has stray magnetic flux passing through the winding has an essentially horizontal one Course, which is why the winding disks. 60 are wound from a conductor 8 ', the is divided into two sub-conductors 10 'and .11', which are separated from each other by means of a layer 12 ' are isolated, .that are in a Horizontal plane lies, otherwise, however is constructed in the same way as the layer 12 in FIG. Layer 12 'contains a Spacer element 13 'made of the same material as the spacer element 13. The conductor insulation 17 'of the conductor 8' is of the same type as the conductor insulation 17 of the conductor 8.

Alternatively, the disc coils 60 can be wound from a conductor be composed of two sub-conductors 10 "and 11" (Fig. 1C), of which each is surrounded by a partial conductor insulation, and preferably to each other are glued.

It can be seen from FIG. 6 that in the case of a disc winding, its end disc coils are constructed as shown in Figure 1B, i.e.

with the sub-conductor 10 'above and the sub-conductor 11' below in each Conductor at both ends of the winding column, an even current distribution the two sub-conductors of the conductor is reached, since all of the sub-conductors 10 ' Containing row group seen overall the same spatial relationship to the leakage flux occupies, such as a row group containing all sub-conductors 11 '.

The curable resin in the insulating layers 12 and 12 'is cured and forms a mechanically strong glue joint between the sub-conductors when the winding is dried for approx. 12 hours at approx. 1300C.

The transformer tank 43 is completely covered with transformer oil after drying filled.

Blank page

Claims (3)

PATENT CLAIMS: 3 power transformer or choke coil, whose made of magnetic material core has at least one leg (50) which is surrounded by a winding (49), which consists of several in the axial direction of the leg consists of disc coils (60, 61) arranged one above the other and connected to one another, each disc coil containing several turns of a conductor (8, 8 ') consisting of consists of at least two mutually insulated partial conductors, d u r c h g e it is not indicated that at least one and a plurality of disk coils (60) arranged at one axial end of the winding column Contains turns, the sub-conductors (10 ', 11 ') all lie in one and the same radial plane to the core leg, and that the remaining disc coils (61) of the winding column are wound from conductors (8) which from several sub-conductors (10, 11) lying next to one another radially to the core leg are composed. 2. Power transformer or choke coil according to claim 1, d a D e c h e k e n n e ctio n t, that the sub-conductors lying next to one another (10, 11; 10 ', 11') of the conductors (8; 8 ') are together. 3. Power transformer or choke according to claim 1, d a d u r c h g e k e n n n n z e i c h n e t that said winding column on each axial End has a disc coil (60), each of which has a specific leg direction seen one front (10 ') and a rear (11') sub-conductor, and that the front Sub-conductor (10 ') of one disc coil (60) with the front sub-conductor (10') the other disc coil (60) are connected in series.