DE1028709B - Temperature compensation device for permanent magnet systems - Google Patents

Description

Temperature compensation device for permanent magnet systems The invention refers to magnet systems with permanent magnets made of material with high coercive force, but small remanence, especially made of ceramic permanent magnet material, for example consists of barium and iron oxides in certain chemical compounds. For temperature compensation of permanent magnets, bodies made of so-called heat alloys are used in a known manner, which are shunted to the useful field and their magnetic ones when the temperature rises Increase resistance. In the case of the permanent magnet materials mentioned above, however, there are such Body ineffective. The invention has the task of improving the effectiveness of such Increase temperature compensation device.

According to the invention, the one or those lying in the magnetic shunt Body made of the heat alloy in the area of a narrowing point of one of the permanent magnets connected, magnetically soft, the useful flux leading body arranged.

The invention is explained in more detail with reference to the drawing. According to Fig. 1 is a ceramic permanent magnet body 1 in a made of soft iron parts 2, a useful river 3 leading flow path. This river path is narrowed at 4. In the area the constriction 4 is a body 5 of a heat alloy attached, which together with a soft iron part 6 a magnetic shunt to the useful flux of the permanent magnet 1 forms.

When the temperature increases, the useful flux of the permanent magnet 1 decreases somewhat away. For this, the magnetic resistance of the body 5 takes from the heat alloy accordingly to. As a result, lines of force wander out of the magnetic shunt in the useful flow path. This compensates for the decrease in flow. The stronger effect of the body from the heat alloy comes about because it is in the area of the Constriction point 4 is arranged. There the density of lines of force is greater and has for example, the same order of magnitude as a non-tapered path of one Permanent magnet system with a permanent magnet with high remanence.

2 to 4 show in three different views and in an enlarged view Scale a practical application of the invention to counter brake magnets. The order contains four ceramic permanent magnet bodies 1, which are on the inside of an iron bracket 7 are attached with holding part 8 and after the air gap 9 tapered soft iron pole shoes 10 have. In the area of the tapered points of the pole shoes 10 there are heat alloy bodies 5 arranged. The mode of operation is the same as in the arrangement according to Fig. 1.

Claims (2)

PATENT CLAIMS: 1. Temperature compensation device for magnet systems with permanent magnets made of material with high coercive force and small remanence, in particular Made of ceramic permanent magnet material, with a magnetic shunt to the useful flux lying bodies made of a known heat alloy, characterized in that the body or bodies (5) made of the heat alloy in the area of a constriction point (4) a magnetically soft, connected to the permanent magnet (1), the useful flux (3) leading body (2) are arranged. 2. Apparatus according to claim 1, characterized characterized in that the body or bodies (5) made of the heat alloy in the area of tapering towards the poles, connected to the permanent magnet body (1) Pole shoes (10) are arranged. Publications considered: German Patent Specifications No. 443 707, 683 642, 804 694; German patent application S 673 VIIIc / 21e; Swiss U.S. Patent No. 215,006; Hennig, "Permanent Magnet Technology", 1952, p.95; »Philips Technical Rundschau ”, June 1952, pp. 361 to 396.