DE443084C - Serpentine field magnet winding for electrical machines with tubular field magnet ring and inwardly protruding, removable poles - Google Patents

Description

Serpentine field magnet winding for electrical machines with tubular field magnet ring and inwardly protruding, removable poles. T here are known field windings for electric 'machines, where a hot zvlindrischer or tubular Fcldniagnetring is applied to your in the poles are attached. In machines of this type, it is advantageous to reduce the area occupied by the field winding as far as possible or to fully utilize the available areas. This is particularly the case with electric motors which are used as starting machines for internal combustion engines.

It is also known in such electrical machines that a serpentine-shaped split winding made of insulating (em 1) i-zilit zti use.

If such a winding is used in the usual way, then a small part of the insulation is taken up by the insulation and a further part remains unused . It is also known to use strips on the metal sheet as incorrect winding. These strips, however, were used in horin by helical windings that lifted the individual pole pieces, so either a folding de; Sheet metal strip or bending the strip over the raised edge was necessary.

According to the present invention, on the other hand, the winding is made up of a serhentine metal strip provided with finite, alternately arranged recesses. This strip is wound up in the longitudinal direction to form a multilayered cylinder in such a way that the lines in the different layers coincide, uni legs coaxial insertion of the @ treifcit @ y @ indcrs with the hcl @ ln magnetic ring to leave free space for the poles. The poles are unlfaßt th of the Alhnehniungen on three sides in this way. The recesses of two or more strips can now be offset from one another in such a way that each pole is encompassed on all sides.

The invention is shown on (leg drawing, for example, and although: Fig. i shows a serpentine-like stripe, which is all-broken in the middle is.

A 1h. 2 is a scliaul) ildliclie view of the inside the cylindrical Form of rolled strip of Fig. I.

A1111.3 is a rolled up strip, the finite part of your @ z'icklungteil the Alb. 2 is used together, so (measure suffering together a. Complete winding form.

Ahl). d. is the front view of a Feldinaglietrahinens an: electric motor finite the two @VICklungen shown in <1e11 Fig. 2 and 3.

Fig. 5 is the all-winding of the Fcldniaglietrahmens Fig. D. from Seen inside in a smaller scale finite the pole pieces in section.

The illustrated in the drawings, the field winding is composed of two strips of thin sheet copper or another overall suitable -metal, (las is punched out or cut, that the serpentine shape i shown in Fig. Arises. There are formed in this way lateral Ausnehnitingen which have a width which is slightly larger than the width of the poles. Each end .: the strip is provided with a finite terminal, - the terminal 8 consists of a piece of finite strip, while the terminal is specially attached, uni metal to save.

The insulation between the turns of the winding can consist of one or more layers of lacquer (never applied to the sheet metal. The strip of metal is then rolled lengthways so that a generally cylindrical shape is created, as illustrated in Fig. 2) A second strip is then worked in a similar manner, so that a loop as shown in Fig. 3. The heath-fit parts of the loop formed in this way differ only insofar as one part is from one another, it is a little smaller in order to be able to be inserted into (the other part, while the last-mentioned part is again Fig. 4 shows a completely assembled field magnet. The field niapietring io is provided with four poles ii, which are held in the usual way by screws 12. Each Pol is isolated by a layer 13. The two clamps 8 become a11 the clamp connector 1d. connected which widen inside to at 15. To accommodate this Klenini socket, the edges of the ring are slotted at 16, as shown. The small nozzles are isolated from the field diagnostics in the usual way. The -leiden windings are pushed into the field clamp so that their terminals are offset by 90 ° to each other. The poles are attached to this.

From C) bigein it can be seen that those existing between the poles ]? Bridles are completely filled with finite conductive material with the exception of the ; -ring spaces for isolation. Loni space for the heads of the Kleinnipfosten to yell, the parts 17 of the windings are slightly narrower than the parts 18, such as it in the. 1b. 5 is illustrated. The terminals g can with the brushes of the Machine to be connected. The brushes, the anchor and the other parts of the machilic : find, cla generally known, not shown.

The field winding according to the irfllidting is in its production extremely simple and achievable (lay efficiency of the machine. The difficult work processes; ingc to bend, horinen ti. The like with heavy ladders are omitted according to the earthing system.

Claims (2)

PATRNT CLAIMS: i. Serpentine Feldill.1g1let \ VieIC-lung for electrical machines finit tubular field rivet ring and inwardly protruding, Ahnehniharen Poles, that is why they are made of a metal strip with alternating recesses intended to accommodate the poles (never winding the strip into a multilayer cylinder in all layers cover and thus leave the space free for the poles, which you insert after (learn I? of the cylinder in the magnetic ring on three sides. Is ennzeiclmet, class two "metal strips at their vo.rge.:ehen and recesses against each other are comparable, each pole class fully cler winding on all four sides comprising: 2. Fcldniagnetwicklung according to claim i, characterized gcl.