CS267421B1 - ■ Multi-wire - Google Patents

Abstract

The solution is a multi-bundle conductor usable for low-voltage windings of transformers. It consists of at least two bundles of individual wires interspersed with twists (12). Individual braids (12) are placed as many times around the circumference of the winding as there are bundles (11) in the conductor.

Description

The invention relates to a multi-bundle conductor consisting of at least two bundles of individual conductors. whose mutual position is interspersed with the help of plots.

Multi-bundle conductors are used for winding transformers. The position of the individual conductors in these bundles with respect to the winding axis must be spaced both so that the length of all the conductors in the bundle is the same and so that the magnitude of the induced current in the individual conductors is also the same. Until now, the conduction of conductors in a bundle has been carried out either by a transfer in a double bundle, where the helical position of all conductors of a double bundle is spread, or by means of a so-called false thread, where one thread of conductors is replaced by insulating material.

The disadvantages of the coupler in a double bundle are that it can only be used with a bundle conductor formed by an even number of bundles. In addition, the radial width of the winding is increased by one conductor at the location of the adapter in the double bundle. The disadvantages of a false thread are that it cannot be made in a multi-bundle helix, where the transitions are too long and therefore the winding at the location of the transitions is also not very dynamically strong. Furthermore, the false thread cannot be used with a double-bundle or multi-bundle helix where there are more than two conductors in the radial bundle. Another disadvantage of the false thread is also the higher height of the winding due to the filling at the transitions. .

These shortcomings are eliminated by a multi-bundle conductor consisting of at least two bundles of individual conductors, the mutual position of which is interspersed by means of the braids according to the invention. Its essence lies in the fact that the individual plots are placed as many times around the circumference of the winding as there are bundles in the conductor.

The advantage of the solution according to the invention lies in particular in that. that the multi-bundle conductor can consist of any number of bundles, i.e. even and odd number of bundles. Another advantage is. that the radial width of the multi-bundle conductor does not increase. The advantage is also that in the proposed solution the axial height of the winding is smaller compared to a false threaded conductor.

The invention will be further elucidated in the following by means of exemplary embodiments shown in the drawings.

Fig. 1 schematically shows a three-bundle conductor with three individual conductors in a bundle interspersed according to the invention, and Fig. 2 shows a part of a developed four-bundle winding conductor with two individual conductors in a bundle interspersed according to the invention.

The three-bundle conductor shown in FIG. 1 consists of three bundles 11 of conductors 1 to 9. Thus, a total of nine individual conductors 1 to 9 are wound in parallel. The sorting is in this case performed by three plots 12, placed twice along the height of the winding. The plots 12 are arranged three times around the circumference of the winding, i.e. along 120 ° of the circumference of the winding. The plots 12 are made as a semi-loop. The order of 13 wires 1 to 9 shows the position of the individual wires after the first twist. The order of 14 wires 1 to 9 shows the final position of the individual wires after the second twist 12. In the case of a loop,

CS 267421 Bl sorted only the end conductors among themselves.

The multi-bundle conductor shown in FIG. 2 consists of four bundles 11. Each bundle 11 has two conductors. Thus, a total of eight conductors 1 to 8 are wound in parallel. The arrangement of the conductors 1 to 8 is in this case carried out by four strings 12, spaced four times around the circumference of the winding at a distance of 90 ° each, and located in the middle of the height of the winding. At the location of the entanglement 12, fillers 18 are inserted into the winding, which are as high as the axial height of the conductor 1 to 8. If the bundle 11 has two conductors on top of each other, then the entanglement 12 also comprises two conductors. The wire 12 is interchanged between the wires. The order of the conductors before interleaving is shown by a partial section 15 of the four-bundle conductor. During one turn, the order of conductors 1 to 8 in bundle 11 changes gradually.

The multi-bundle conductor according to the invention can be used in transformers where the low-voltage winding is composed of several parallel conductors.

Claims (1)

A multi-bundle conductor, consisting of at least two bundles of individual conductors, interspersed with each other by means of braids, characterized in that the number of individual braids (12) around the circumference of the winding is the same as the number of bundles (11) in the conductor.