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

Abstract

A permanent magnet for use in an electric machine is provided. The permanent magnet is formed as a one-piece hollow cylinder, in particular a hollow circular cylinder. The permanent magnet includes one or more grooves dividing the permanent magnet in at least two sections that are interconnected.

Claims

1-12. (canceled)

13. A permanent magnet for use in an electric machine, being a one-piece hollow cylinder, in particular a hollow circular cylinder, wherein the permanent magnet comprises one or more grooves dividing the permanent magnet in at least two sections that are interconnected.

14. The permanent magnet according to claim 13, wherein the one or more grooves are helixes.

15. The permanent magnet according to claim 13, comprising exactly two grooves.

16. The permanent magnet according to claim 13, comprising two or more grooves, wherein the grooves do not touch or cross each other.

17. The permanent magnet according to claim 13, wherein the one or more grooves wind with a gradient greater than or equal to zero around the mantle of the cylinder, in particular with a constant gradient or with a varying gradient.

18. The permanent magnet according to claim 13, wherein the hollow cylinder form comprises a bottom base and a top base, wherein the one or more grooves abut the bottom base in a 90° angle, and/or, the one or more grooves do not abut the top base.

19. The permanent magnet according to claim 13, wherein the one or more grooves are arranged axially symmetrically with the cylinder axis as the symmetry axis.

20. The permanent magnet according to claim 13, wherein each one of the one or more grooves comprise at least two reversals of direction.

21. The permanent magnet according to claim 13, wherein the one or more grooves are filled with insulation material, in particular a polymer plastic, and in particular an acrylic plastic.

22. The permanent magnet according to claim 13, 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. The permanent magnet according to claim 13, wherein the one or more grooves have a depth d which is equal to the depth of the hollow cylinder wall.

24. A method for manufacturing a permanent magnet according to claim 13, wherein the permanent magnet comprises exactly two grooves, wherein the two grooves are cut simultaneously, in particular by wire cutting.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] 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:

[0024] FIG. 1a to 1e show a first exemplary embodiment of a permanent magnet with two grooves in different views; and

[0025] FIGS. 2a to 2e show a second exemplary embodiment of a permanent magnet with two grooves in different views.

MODES FOR CARRYING OUT THE INVENTION

[0026] The FIGS. 1a to 1e show a first exemplary embodiment of a permanent magnet. FIG. 1a shows a perspective view with the top base 1a and the coordinate system x, z, φ. FIG. 1b shows a perspective view with the bottom base 1b, FIG. 1c shows a side view, FIG. 1d shows a bottom view and FIG. 1e shows a top view. The FIGS. 2a to 2e show the same views for a second embodiment.

[0027] Both embodiments show a permanent magnet 1 with a form of a hollow circular cylinder. The hollow circular cylinder has a bottom base and a top base formed as congruent circles with a thickness d and a height h.

[0028] The permanent magnet 1 has two grooves 2 and 3. It can be seen that the grooves 2 and 3 cut right through the permanent magnet 1 in x-direction. In other words, the grooves extend completely through the wall thickness d of the permanent magnet 1.

[0029] The grooves 2 and 3 start at the bottom base 1b in the vertical z-direction, i.e. with an angle of 90° relative to the bottom base 1b. After a short vertical section 2a and 3a the grooves 2 and 3 have a helical course, i.e. the grooves 2 and 3 wind around the mantle of the hollow circular cylinder with a constant gradient of the angle α. The gradient of both grooves 2 and 3 are identical and constant until the ends 2b and 3b of the grooves 2 and 3. The grooves 2 and 3 do not abut the top base 1a. The two grooves 2 and 3 are arranged symmetrically with respect to the cylinder axis 5.

[0030] The grooves 2 and 3 run between each other and enclose several sections 4a to 4e which are interconnected. The permanent magnet is one piece.

[0031] The width of the groove 2 and 3 lies preferably in a range of 0.05 millimeters to several 0.1 millimeters. The width can be in particular 0.14 millimeters or 0.25 millimeters as preferred examples. Preferably, the width of the grooves 2 and 3 are as small as possible.

[0032] The depth d of the permanent magnet 1 lies for example in the range of 1.5 to 3 millimeters but can be more or less. The full diameter of the cylinder lies for example in the range of 5 to 50 mm and the height h lies for example in a range until 150 mm.

[0033] The material of the permanent magnet may comprise or consist of an alloy of neodymium, iron and boron, and it may thus be a so called NdFeB permanent magnet. Or the material of the permanent magnet may comprise or consist of an alloy of samarium and cobalt and it may thus be a so called SmCo permanent magnet. Of course, other materials may be employed. The use of such magnets is known to the skilled person and such magnets may in particular be used for an electric machine, which may, for example, be a permanent magnet machine or a synchronous machine. The permanent magnet may be arranged on the rotor or on the stator of the electric machine. The electric machine may be used as motor, e.g. as servomotor, and/or as generator. The electric machine may in particular be used as hybrid motor, especially as starter-generator for example in vehicles.

[0034] In the shown embodiment, the grooves 2 and 3 are filled with an isolating material, for example a glue or a polymer plastic, and in particular an acrylic plastic. In particular so called impregnating or trickle resins may be used.

[0035] The gradient with the angle α can be constant or can vary and the angle α can be chosen arbitrarily, in particular dependent on the induced eddy currents.

[0036] A preferred method of manufacture of a permanent magnet according to the invention is described in the following:

[0037] A blank is pressed in a magnetic field from pulverulent material from which the permanent magnet 1 shall be made, for example the materials mentioned above. The magnetic field serves in a known manner to provide a preferred magnetic orientation to the blank. The blank is pressed and then sintered as known to the skilled person.

[0038] In a further step, the blank is cut and ground until it reaches the desired cylindrical form. A drill bit creates a hole along the cylindrical axis such that a hollow cylinder is created.

[0039] By a cutting step, performed with known machinery, for example erosion wire cutting machines, the hollow circular cylinder is provided with two grooves 2 and 3 as described above. Since the grooves 2 and 3 are axially symmetrically arranged with respect to the central cylinder axis, the grooves 2 and 3 can be cut simultaneously with one single erosion wire.

[0040] After arriving at the end of the grooves 2 and 3, the erosion wire is cut off. The grooves can be filled with insulation material and surface treatments are possible.

[0041] The FIGS. 2a to 2e show a second exemplary embodiment. The reference numbers are the same as used in the FIGS. 1a to 1e. The difference between the first exemplary embodiment and the second exemplary embodiment lies in the course of the grooves 2 and 3. In the second exemplary embodiment, the grooves generally run in horizontal direction wherein the directions change several times by 180°. The reversals of direction are marked by the reference numbers 2c and 3c. The grooves 2 and 3 are arranged symmetrically with respect to the cylinder axis 5.

[0042] 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.