SU955388A1 - Electric machine functionally distributed winding manufacturing method - Google Patents

Description

The invention relates to a technology for the production of electrical machines and is intended for use in cases where it is required, for example, to winding windings of a drum or ring type, the number of turns in the grooves of the magnetic circuits of which has a functional distribution (different number of turns).

A known method of manufacturing a winding of electrical machines 1, according to which produce a sequential winding one. Wire of a given number of turns in the section on the magnetic circuit, alternately bypassing all the grooves in accordance with the winding circuit [1].

However, the performance of the known method is low.

The purpose of the invention is to increase productivity.

'The goal is achieved by the fact that the sections are wound in N parallel wires with the number βηϊκοβ in the section, N times smaller than the number or the number of turns nearest to it in the same section, then the number of turns in the sections is wound with one wire to the specified number of turns, then all the turns are connected in series according to.

In FIG. 1 is a diagram of a given · 5 functionally distributed winding, for example, a drum type with the number of turns in sections; in FIG. 2 is a diagram of a part of this winding with the number of turns in sections three times smaller than the 10th number (or the number closest to it) of turns in the same section of a given vol. skeins; in FIG. 3 is a diagram of a single-wire winding with the number of turns in sections 0 or 1; in FIG. 4 - consonant connection of the windings.

. A method of manufacturing a functionally distributed winding is as follows.

The numbers of turns in the sections of a given ed of a multipolar winding are presented in the form of two terms. One “term Ν _η χ, in which N is 2 or 3, is chosen so that it differs from the number of turns W _K in the same section of a given winding by no more than 25 units. The second term B _{k is} taken equal to 0 + 1, -1.x. Thus, in a given winding, two parts are distinguished, one of which is wound in parallel with a given winding circuit in 2 or 3 wires, but with a number of turns of 2 or 3, respectively times smaller than the term Ν _ηκ .

The second part, which is a single-turn winding, in the sections of which 0, + 1, -1 turns, is wound separately in one wire. In this case, sections having a number of turns of 0 are simply skipped during winding. If the sign in front of the unit is +, then the direction of winding a winding of a single-turn winding coincides with the direction of winding of this section in a given winding. If the sign is in front of the unit, then the direction of winding the winding of a single-turn winding should be opposite to the direction of winding of this section in a given 15 winding.

After applying these windings, all parallel turns of the winding, consisting of n _to coil sections and a single-turn winding, are connected in series, according to each other. The winding obtained in this way is exactly equivalent to the given one, but its winding is 2 or 3 times (depending on whether it is N two or three) less labor intensive and the probability of errors in the winding turns is significantly reduced.

Claims (1)

respectively, 2 or 3 times smaller than the term Nfj. . The second part, which is a single-turn single-turn winding, in sections of which are O, + 1, -1 turn, is wound separately into one wire. In this section, having a number of turns O when the winding is simply skipped. If the sign is in front of the unit +, then the winding direction of the single turn winding winding coincides with the winding direction of this section in the given winding. If the sign in front of the unit is -, then the winding direction of a single turn winding winding should be opposite to the winding direction of this section in a given winding .. After applying these windings, all parallel windings consisting of nvi winding sections and single turn winding are connected in series according to each other. . The winding obtained in this way is exactly equivalent to the specified one, but winding it 2 or 3 times (depending on whether it is equal to N two or three) is less laborious and, at the same time, the probability of errors in the windings is significantly reduced. The method of manufacturing a functionally distributed winding of electric machines, including sequentially winding a large number of turns of a section on a magnetic circuit, characterized in that, in order to increase productivity, sections are wound in N parallel wires with a number of turns in a section that is N times smaller than or close to it. the number of turns in the same section, then with one wire winding the number of turns in the sections to a predetermined number of turns, then all the turns are connected in series-according. Sources of information taken into account during the examination 1. V. Zimin. Winding of electrical machines. M., Energie, 1975, p.376. -7 gd J2} ff j .i / tfcfff NV g g - // fr§ -fff 70 - / nnmnnnn 4 5 ff 7 8 9 fff X fymTTO ifff /. Sffff7Jrff / FS / G.2 nnn n nrrf S ff 7 B 9 fff ff g j V ff // - / - / Viff / to 3 Ф & г.З LZ f1 / g.