STATOR WITH CLOSED SLOTS WITH CONTINUOUS WINDING FOR AN ELECTRIC MACHINE AND PROCESS FOR MAKING SUCH STATOR

Abstract

A stator with closed slots with continuous winding is described, comprising a first internal stator part (25) which comprises a plurality of longitudinal teeth (26), spaced by a space (27) configured to form the lower part of the closed slots (14) of the stator, a second external annular stator part (35), comprising a plurality of seats (36) complementary to the teeth (26) of the first stator part (25) and configured to fit together with the teeth (26) so as to form the closed slots (14) and the stator (15), a continuous winding comprising at least one strap (11, 21, 31) configured to be wound on the first internal stator part (25) in the spaces (27) between the teeth (26) in which at least one slot (14) is asymmetrical; a process for manufacturing the stator (15) and an electric machine comprising the stator (15) are also described.

Claims

1.-11. (canceled)

12. A stator with closed slots with continuous winding comprising: a first internal stator part which comprises a plurality of longitudinal teeth, spaced by a space configured to form a lower part of the closed slots of the stator; a second external annular stator part, comprising a plurality of seats complementary to the teeth of the first stator part and configured to fit together with the teeth so as to form the closed slots and the stator; a continuous winding comprising at least one strip configured to be wound on the first internal stator part in the spaces comprised between the teeth, wherein at least one slot is asymmetrical.

13. The stator of claim 12, wherein the at least one slot has an asymmetrical conformation with respect to a plane passing through the longitudinal axis of the stator and through a centreline of the slot in correspondence with the internal wall.

14. The stator of claim 12, wherein the at least one slot comprises asymmetrical side walls.

15. The stator of claim 14, wherein the side walls are curved or concave.

16. The stator of claim 15, wherein the side walls have the concavity facing along a specific direction with respect to a preferred direction of rotation of the rotor.

17. The stator of claim 12, comprising a plurality of closed slots arranged along an internal wall of the stator configured to house a rotor, each slot comprising a bottom wall arranged in the direction of the longitudinal axis of the stator, in proximity to the inner wall.

18. The stator of claim 17, wherein the slots and/or the side walls have an asymmetrical conformation with respect to a plane passing through the longitudinal axis of the stator and through a centreline of the bottom wall.

19. The stator of claim 12, comprising at least one strip comprising a plurality of first sectors connected together by a plurality of second sectors alternating with them, the at least one strap being configured to be wound on the first part of the internal stator by positioning the first sectors in the spaces between the teeth.

20. The stator of claim 12, wherein the second external annular stator part is composed of interlocked sectors.

21. A process for manufacturing the stator of claim 12, the process comprising the following steps: a step of folding on a plane of at least one strip to make at least one strip in a single piece, the strip comprising a plurality of first sectors configured to be inserted inside closed slots of a stator and connected to each other by a plurality of second bending sectors configured to remain outside the closed slots of the stator; a step of preparing the stator, the stator comprising a first internal stator part comprising a plurality of longitudinal teeth, spaced apart by a space configured to form the lower part of the closed slots of the stator, and a second external annular stator part, comprising a plurality of seats complementary to the teeth of the first stator part and configured to fit together with the first stator part so as to form the closed slots and the stator; a step of making the winding on the first internal stator part of the at least one strip, positioning the first sectors of the strip in the spaces included between the teeth; a step of connecting two free ends of each strip.

22. An electric machine comprising the stator of claim 12.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The present invention will be better described by some preferred embodiments thereof, provided as a non-limiting example, with reference to the attached drawings, in which:

[0016] FIG. 1 shows a perspective view of an internal part of a stator of an electric machine according to the invention;

[0017] FIG. 2 shows a perspective view of an external part of a stator of an electric machine according to the invention;

[0018] FIG. 3 shows a perspective view of a stator of an electric machine according to the invention;

[0019] FIG. 4 shows a view of a continuous winding for a stator of an electric machine according to the invention;

[0020] FIG. 5 shows a view of a plurality of continuous windings for a stator of an electric machine according to the invention;

[0021] FIG. 6 shows a schematic front view of an internal part of a stator according to the invention;

[0022] FIG. 7 shows a perspective view of an internal part of a stator with a continuous winding according to the invention;

[0023] FIG. 8 shows a perspective view of a stator of an electric machine with a continuous winding according to the invention; and

[0024] FIG. 9 shows a perspective view of a rotor and a stator of an electric machine with a continuous winding according to the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0025] With reference to the figures, the stator 15 with closed slots with continuous winding will be described below for an electric machine according to the invention, which comprises a first internal stator part 25 comprising a plurality of longitudinal teeth 26, spaced apart by a configured space 27 to make the lower part of the closed slots 14 of the stator, and a second external stator part 35, comprising a plurality of seats 36 annular complementary to the teeth 26 of the first stator part 25 and configured to fit together with the first stator part 25, in order to form the closed slots 14 and the stator 15; in particular, the seats 36 obtained in the second stator part 35 are configured to fit together with the teeth 26 of the first stator part 25, in order to form a plurality of closed slots 14 of the stator, by means of a reciprocal sliding movement of the first internal stator part 25 and of the second external part 35, for example along the direction of the longitudinal Y axis of the stator 15, realizing a coupling, for example dovetail-type or other known type of coupling.

[0026] The closed slots 14 are arranged, preferably equidistant from each other, along a cylindrical internal wall 32 of the stator 15 configured to house a rotor 5, and each slot 14 comprises a bottom wall 38 arranged in the direction of the longitudinal Y axis of the stator 15, in proximity of the inner wall 32 at a distance E from the inner wall 32.

[0027] The slots 14 are arranged along the direction of the longitudinal Y axis of the stator 15 and have an asymmetrical conformation with respect to a plane R passing through the longitudinal Y axis of the stator 15 and for a centreline P of the slot 14 in correspondence with the internal wall. 32; preferably, the slots 14 have an asymmetrical conformation with respect to a plane R passing through the longitudinal Y axis of the stator 15 and through a centreline P of the bottom wall 38.

[0028] Each closed slot 14 of the stator 15 is formed by two side walls 42 of two adjacent teeth 26 made in the first internal stator part 25, by the bottom wall 38 connecting the two adjacent teeth 26 and by an upper wall 40 formed by a wall for connecting two adjacent seats 36 made in the second external stator part 35; for example, the bottom wall 38 has a semi-circular or arched shape.

[0029] In a preferred embodiment of the invention, the side walls 42 of a slot 14 are asymmetrical, in particular with respect to the plane R; preferably, the side walls 42 of the groove are curved or concave, and more preferably have the concavity made in such a way as to optimize the efficiency or operation of the electric machine in a desired operating direction; for example, the concavity faces in a specific direction with respect to a preferred rotation direction Z of the rotor 5.

[0030] The stator 15 with closed slots of the invention comprises a continuous winding comprising at least one strip 11, 21, 31, which in turn comprises a plurality of first sectors 12 connected to each other by a plurality of second sectors 13 alternating with them, the at least one strip 11, 21, 31 being configured to be wound on the first internal stator part 25, positioning the first sectors 12 of the strip 11, 21, 31 in the spaces 27 between the teeth 26. Preferably, the first sectors 12 are parallel, each first sector 12 being connected with at least one end thereof to a second sector 13, and the winding comprises three strips 11, 21, 31 alternating with each other.

[0031] In a preferred embodiment of the stator 15 with closed slots according to the invention, the second external annular stator part 35 is composed of sectors interlocked, for example by providing a guide that allows the sectors to be assembled by making them slide in the direction of longitudinal Y axis of the stator 15.

[0032] The process for making a closed-slot stator with continuous winding according to the invention includes the following steps: [0033] a step of bending, on a plane, at least one strip to make at least one strip 11, 21, 31 in a single piece, typically a strip 11, 21, 31 for each electric phase, for example three strips 11, 21, 31 in case of a three-phase current, each strip 11, 21, 31 comprising a plurality of first sectors 12, preferably equal in shape and size and parallel to each other, preferably substantially straight, configured to be inserted inside closed slots 14 of one stator 15 and connected to each other by a plurality of second bending sectors 13, preferably identical to each other in shape and size, and configured to remain outside the closed slots 14 of the stator 15; in particular, the first sectors 12 and the second sectors 13 are alternated with each other, each first sector 12 being connected with at least one end thereof to a second sector 13, preferably the two ends of each first sector 12 being connected to two different second sectors 13. Preferably, the section of each strip 11, 21, 31 has the shape of the section of the closed slots 14 of the stator 15 so that, once inserted into the closed slots 14, the strip 11, 21, 31 maximizes its filling; [0034] a step for preparing the stator 15, the stator 15 comprising a first internal stator part 25 comprising a plurality of longitudinal teeth 26, spaced apart by a space 27 configured to form the lower part of the closed slots 14 of the stator, and a second part 35 of an external annular stator, comprising a plurality of seats 36 complementary to the teeth 26 of the first stator part 25 and configured to fit together with the first stator part 25 so as to form the closed slots 14 and the stator 15; in particular, the seats 36 obtained in the second stator part 35 are configured to fit together with the teeth 26 of the first stator part 25 so as to form the closed slots 14 of the stator, by means of a reciprocal sliding movement of the first internal stator part 25 and of the second external part 35, for example in the direction of the axis of the stator 15, realizing a coupling, for example a dovetail-type or other known type of coupling; [0035] a step of carrying out the winding on the first internal stator part 25 of the at least one strip 11, 21, 31, preferably of the three strips 11, 21, 31 alternating with each other, positioning the first sectors 12 of strip 11, 21, 31 in the spaces 27 between the teeth 26; in particular, the strip 11, 21, 31 is wound on the first stator part 25 so as to mesh it between the teeth 26 of the first internal stator part 25 similarly to how a chain is engaged on the teeth of a gear, by means of a relative rotation of the first internal stator part 25 with respect to the strip 11, 21, 31; in particular, the number of rotations is equal to the number of turns of a slot; during this rotation the curved or concave shape of the side walls 42 of the teeth 26 facilitates the insertion of the strap 11, 21, 31 in the closed slots 14, in order to fill them optimally; [0036] a step of connecting step, preferably by welding, the two free ends 11a and 11b, 21a and 21b, 31a and 31b of each strip 11, 21, 31; [0037] a step of isolating the welds in a known way, for example by means of epoxy deposited by dripping; [0038] a step of positioning the second external stator part 35 on the first internal stator part 25 so that the seats 36 obtained in the second external stator part 35, by engaging with the teeth 26 of the first internal stator part 25, form the slots 14 closed of the stator 15; [0039] a phase of verifying the absence of connection errors, welding or short circuit problems between the different electric phases; [0040] a resin phase, by immersion of the ends of the strips 11, 21, 31 that protrude from the closed slots 14 and of the heads of the stator 15 into a resin configured to make the stator 15 and the strips 11, 21, 31 integral with each other avoiding future damages due to vibrations.

[0041] Advantageously, the stator with closed slots with continuous winding for an electric machine and the process for making this stator according to the invention allow making windings with lower costs, better filling of the slots by the winding, also simplifying the production process.

[0042] In addition, the closed-slot stator with continuous winding for an electric machine of the invention allows optimizing the efficiency or operation of an electric machine in a desired operating direction.