PERMANENT MAGNET FOR USE IN AN ELECTRIC MACHINE WITH ONE OR MORE GROOVES

Abstract

A one-piece permanent magnet is provided for use in an electric machine. The permanent magnet comprises a groove having a depth d which is equal to the thickness of the permanent magnet. The groove has a meandering or helical course with a subsection having the form of the letter S or the letter Z.

Claims

1-13. (canceled)

14. A one-piece permanent magnet for use in an electric machine, comprising a groove having a depth d which is equal to the thickness of the permanent magnet, wherein the groove has a meandering course with a subsection having the form of the letter S or the letter Z.

15. The one-piece permanent magnet according to claim 14, wherein the meandering course comprises a series of regular meanders and wherein the subsection is part of a single meander of the series, in particular part of the first or of the last meander of the series.

16. The one-piece permanent magnet according to claim 14, wherein the length of the subsection is at least twice as small, in particular three times as small, in particular five times as small, in particular seven times as small, in particular ten times as small, as the whole length of the meander which the subsection is part of.

17. The one-piece permanent magnet according to claim 14, wherein the meanders have a comparable length, and/or the subsection breaks the regularity of the meandering course.

18. The one-piece permanent magnet according to claim 14, wherein the groove, in particular every meander, comprises a straight line with a length of at least 30 mm, in particular at least 50 mm, in particular at least 70 mm, in particular at least 100 mm.

19. The one-piece permanent magnet according to claim 14, wherein the groove comprises more than one subsection.

20. The one-piece permanent magnet according to claim 14, wherein the subsection comprises an arc having a radius of less than 6 mm, in particular of less than 3 mm, in particular of less than 2 mm, in particular of less than 1 mm, in particular of less than 0.75 mm, and/or having at least one, in particular at least two, arc angles of more than 90°, and/or having at least one, in particular at least two, direction changes of more than 90°.

21. The one-piece permanent magnet according to claim 14, wherein the groove is filled with insulation material, in particular a polymer plastic, and in particular an acrylic plastic.

22. The one-piece permanent magnet according to claim 14, wherein the permanent magnet consists of or comprises a material, in particular a sintered material, which consists of or comprises an alloy of neodymium, iron and boron or an alloy of samarium and cobalt.

23. A one-piece permanent magnet for use in an electric machine, comprising a groove having a depth d which is equal to the thickness of the permanent magnet, wherein the groove has a helical course with a subsection having the form of the letter S or the letter Z.

24. The one-piece permanent magnet according to claim 23, wherein the helical course comprises a series of regular helix turns and wherein the subsection is part of a single helix turn of the series, in particular part of the first or of the last helix turn of the series.

25. The one-piece permanent magnet according to claim 23, wherein the length of the subsection is at least twice as small, in particular three times as small, in particular five times as small, in particular seven times as small, in particular ten times as small, as the whole length of the helix turn which the subsection is part of.

26. The one-piece permanent magnet according to claim 23, wherein the helix turns have a comparable length, and/or the subsection breaks the regularity of the helical course.

27. The one-piece permanent magnet according to claim 23, wherein the groove comprises more than one subsection.

28. The one-piece permanent magnet according to claim 23, wherein the subsection comprises an arc having a radius of less than 6 mm, in particular of less than 3 mm, in particular of less than 2 mm, in particular of less than 1 mm, in particular of less than 0.75 mm, and/or having at least one, in particular at least two, arc angles of more than 90°, and/or having at least one, in particular at least two, direction changes of more than 90°.

29. The one-piece permanent magnet according to claim 23, wherein the groove is filled with insulation material, in particular a polymer plastic, and in particular an acrylic plastic.

30. The one-piece permanent magnet according to claim 23, wherein the permanent magnet consists of or comprises a material, in particular a sintered material, which consists of or comprises an alloy of neodymium, iron and boron or an alloy of samarium and cobalt.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] The invention will be better understood and objects other than those set forth above will become apparent when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings, wherein:

[0022] FIGS. 1a to 1c show a first exemplary embodiment of a one piece permanent magnet with a meandering groove;

[0023] FIGS. 2a to 2c show a second exemplary embodiment of a one piece permanent magnet with a helical groove;

[0024] FIG. 3 shows a third exemplary embodiment; and

[0025] FIG. 4 shows a fourth exemplary embodiment.

MODES FOR CARRYING OUT THE INVENTION

[0026] The FIG. 1a to 1c show a first exemplary embodiment of a one piece permanent magnet with a cuboid shape. The permanent magnet extends along a plane spanned by the coordinate axes x and y and comprises a thickness d.

[0027] The permanent magnet comprises a groove 10 which has a depth equal to the thickness d of the permanent magnet, i.e. the groove 10 extends through the whole thickness of the permanent magnet. The groove 10 has a meandering course comprising a series of three regular meanders 11, 12 and 13. The first meander 11 runs from the first end 10a to point 10b, the second meander 12 runs from point 10b to point 10c and the third meander runs from point 10c to the second end 10d. All meanders 11, 12 and 13 have a comparable length and a comparable form which gives the regularity of the meandering course. The groove has four straight lines with a length approximately of the distance L.

[0028] The third meander 13 comprises the subsection 14 having the form of the letter S. The subsection 14 breaks the regularity of the meandering course from point 15 to point 16 and is only part of one single, namely of the third, meander. The third meander is, depending on the perspective the first or the last meander of the series. The subsection 14 comprises two direction changes in opposite direction. Following the groove 1 in the direction indicated by arrow 17, the direction changes at the arc with the angle α counter clockwise, as shown by the arrow 18, and at the arc with the angle β clockwise, as shown by the arrow 19, i.e. in opposite directions. The angle α is approximately 170° and the angle β is approximately 130°, i.e. the direction changes once by 170° and once by 130°. This means that the direction changes at least once by more than 90°. Both arcs with the angles α and β have a radius of approximately 0.5 mm.

[0029] The length of the subsection 14 is much smaller as the whole length of the third meander 13 which the subsection 14 is part of. The subsection 14 is approximately eight times smaller than the whole third meander 13.

[0030] The described subsection increases the mechanical stability of the permanent magnet. A mechanical stress occurs during application of the permanent magnet in an electrical machine or during magnetization at the manufacturing process. For example, a mechanical force wants to move the foremost part of the permanent magnet, which is encircled by dashed lines in FIG. 1c, in the direction indicated by the arrows shown in FIG. 1c. This results in extreme mechanical stress at position M. But this stress can be reduced since the subsection 14 absorbs mechanical forces due to its course.

[0031] The FIGS. 2a to 2c show a second exemplary embodiment of a one piece permanent magnet with a form of a hollow cylinder. The hollow cylinder has a wall thickness d which is equal to the depth of the groove 20, i.e. the groove 20 extends through the whole thickness of the permanent magnet. The groove 20 has a helical course comprising a series of four helix turns 21, 22, 23 and 24. The first helix turn 21 runs from point 20a to point 20b, the second helix turn 22 runs from point 20b to point 20c, the third helix turn 23 runs from point 20c to point 20d and the fourth helix turn 24 runs from point 20d to point 20e. All helix turns 21, 22, 23 and 24 have a comparable length and a comparable form which gives the regularity of the helical course.

[0032] The fourth helix turn 24 comprises the subsection 25 having the form of the letter Z. The subsection 25 breaks the regularity of the helical course from point 26 to point 27 and is only part of one single, namely of the fourth, helix turn. The fourth helix turn is, depending on the perspective the first or the last helix turn of the series. Following the groove 20 in the direction indicated by arrow 28, the direction changes at the arc with the angle α clockwise, as shown by the arrow 29, and at the arc with the angle β counter clockwise, as shown by the arrow 30, i.e. in opposite directions. The angle α is approximately 60° and the angle β is approximately 160°, i.e. the direction changes once by 60° and once by 160°. This means that the direction changes at least once by more than 90°.

[0033] The length of the subsection 25 is much smaller as the whole length of the fourth helix turn 24.

[0034] The FIGS. 3 and 4 show alternative embodiments. FIG. 3 shows an embodiment with two subsections and FIG. 4 shows an embodiment where the one subsection comprises both a letter S and a letter Z directly following each other.

[0035] While there are shown and described presently preferred embodiments of the invention, it is to be distinctly understood that the invention is not limited thereto but may be otherwise variously embodied and practiced within the scope of the following claims.