DE1514153A1 - Round core magnet for alternating current - Google Patents

Description

Round core magnet for alternating current It is known that for the function of the short outer ring in alternating current magnets, which is attached to the magnet in the closed state in order to avoid the brilliance of the magnet in the tall of the pole face that is not surrounded by the outer ring, a sufficiently higher magnetic resistance must be present, so that the, Magnetic flux is not for the most part displaced from the short-circuit ring luld not result in a very uneven holding force of the magnet. For this purpose it is usual to generate this magnetic resistance by bringing the non-enclosed part of the pole face into saturation. It is then necessary that this part is considerably smaller than the Toll enclosed by the short-circuit ring. There are also made suggestions wordeng by air gaps in the non-enclosed by Xurzschlußring part of the 'pole face or in the part of Magneteiaens just below the pole face is not enclosed usual to achieve magnetiochen resistance.

With circular magnets, it is now difficult to mount a concentric Kurzachlußeing so that the free - not enclosed by the short-circuit ring surface - small j # a - nig wirdg that they are brought into the saturation This reads the fact that the pole face is proportional to the square of the Radius is and that therefore the unenclosed part of the pole face which is located at the edge of the round core, with only a very small width, already makes up an area as large as an egg.

In derlerwendung of air gaps as magnetic resistance in the magnetic polo not umschlossonen Toll on the other hand the result that Vortellp dle umachlossene not face the magnetic poles can be selected to be much larger, because in this Fa-11 no iron are brought into saturation P.Uh.

The proposed versions for the attachment of air gaps are either not applicable to round cores or have other serious disadvantages, such as a short service life. For example, grinding back the pole part, which is outside the short-circuit rings, against the enclosed part would, in addition to manufacturing difficulties, also not bring a very long service life to the magnet.

In the manufacture of round magnets with a concentric short-circuit ring arrangement Is it associated with greater effort in terms of production, the required concentric Groove for the short-circuit ring in the magnet to etechAn.

The arrangement of a non-concentric short-circuit ring, as it is also common in many cases, leads to simpler manufacturing processes, but requires a larger space for the short-circuit ring, which would have a very unfavorable effect on the dimensions of the coil inner space, especially in the case of Tatie anchor magnets, because it would result in the necessary Wichülraum , and thus the consumption of copper for the excitation winding would be increased. According to the invention, the arrangement is made that the round core consists of a stepped, stepped, rotated core, on which the short-circuit ring and a ferromagnetic ring are placed in such a way that the air gap or tightness between the yern and the fe 'r'romagnetisellen ring lies. The round magnet is made with two rings, a short-circuit ring made of highly conductive material and an outer ring made of ferromagnetic material and the actual core. It is thereby achieved in a simple manner that, despite the inclusion of air gaps in the magnet core, the round magnet has a flat pole face. In the drawing, an embodiment of the invention is shown schematically. The od-gantliche core 1 contains step-shaped paragraphs f which can easily be produced t -.- af rotary machines. The. Ring 2 put on. The Ilurzaetilut3ring is inserted into the remaining recess, the attached ring and your core. Between the attached ferromagnetic ring 2 and the core 1 there is the air gap required to achieve the magnetic resistance in the area of the flux in part. The front side forms the core, as is the case with the reference. character 4 is indicated, a plane, pole face. The air gap results, as indicated by strong lines in the drawing #, by the support of the RJ.D, C # le13 2. The air gap can be ensured, for example, by specifying an appropriately marked position. The fastening of the rings the core can z; .D. done by gluing "In addition, it is possible to produce the required mechanical resistance by means of a tight resistance eo that the ferromagnetic ring is shrunk on, or that the short-circuit ring is used by soldering, for example under protective gas to attach the outer ferromagnetic ring or alich that a The invention therefore results in the following favorable properties: By dividing the pole surface in a ratio of, for example, 1: 1 , a practically feasible wall thickness of the attached forromabmetic ring is possible. The use of the air gap in the area of the river in the free part of the pole face avoids the high power otherwise required to achieve saturation Excitation coil smaller.

Claims (2)

P atentan ap r ühe round candle magnet for alternating current with short-circuit ring and an air gap or magnetic tight resistance In the part of the pole face which is nicely enclosed by the short-circuit ring, characterized in that the round core consists of a stepped shape. set # rotated core, on which the short-circuit ring and a ferromagnetic Hing on, -, e8ptzt are such # that-the air gap or resistance between the core and the ferromagnetic ring is. 2) Round core magnet according to claim 19, characterized in that the short-circuit ring is fixed by the ferromagnetic ring, optionally by the attachment of the ring on the core. 3) Round core magnet according to claim 1 and 29 gekannzeichg that the forromagnetic ring is only attached to the core by gluing, soldering, shrinking. 4) Round magnet according to claim 1 and 2, characterized in that the required air gap between the core and the attached ring results from compliance with a standardized specification of fit.