FR3079978A1 - ROTOR CROWN FOR ROTOR OF ELECTRIC MACHINE AND ROTOR COMPRISING SUCH A CROWN - Google Patents

Abstract

Rotor ring for a rotor (10) of a synchronous electric machine comprising a plurality of windings (22) comprising head guides (22a) and associated coils (22b), said ring (26) having a shape configured to come radially to surround the head guides (22a) of the winding (22), without extending axially beyond said coils (22b).   

Description

Rotor ring for the rotor of an electric machine and rotor comprising such a ring

The present invention relates to the field of rotary electrical machines, in particular of the synchronous type.

More particularly rotors, the present invention relates to rotors used in such an electric machine.

A rotary electrical machine mainly comprises a stator, a rotor, without physical connection to the stator, and a torque transmission shaft secured to the rotor. Said rotor comprises a plurality of coils supplied with direct current and creating a magnetic field of the rotor.

Rotors are currently known, an example of which is illustrated in FIG. 1, comprising two rotor rings, of annular shape, fixed respectively to one side of the winding.

As illustrated in FIG. 1, the rotor 10 comprises a plurality of coils (not referenced) each mounted radially on a pole of the rotor, around a drive shaft 14. Each coil comprises a coil head guide and a coil 12.

The rotor 10 further comprises two identical rings 16 of annular shape and intended to come into axial contact with the coils

12. Each of the rings 16 is fixed axially to shims 18 disposed respectively between each winding by fixing means 19 of the screw-type.

Such crowns axially exceed the size of the winding and considerably increase the weight of the rotor.

The object of the invention is to optimize the weight of a rotor, and in particular rotor crowns.

The invention also aims to simplify the manufacture and assembly operations of such a rotor ring with a rotor.

The present invention relates to a rotor crown for a rotor with salient poles of a synchronous electric machine comprising a plurality of windings comprising coil head guides and associated coils.

Said ring has a shape configured to radially surround the coil head guides of the winding, without extending axially beyond said coils.

Advantageously, the rotor crown comprises substantially rounded portions respectively in shape agreement with an associated head guide and connected together by a radial projection extending radially towards the center of the rotor.

Thus, the rotor crown follows the shape of the winding and does not extend axially beyond said winding, which makes it possible to reduce their size and their weight.

For example, the rounded portions and the radial projections are arranged alternately on a circumference of 360 °.

The number of rounded portions and radial projections is advantageously equal to the number of windings.

The crown can be fixed, by its axial projections axially to shims disposed respectively between two adjacent windings, for example by fastening means of the screws and bolts type.

The crown is, for example, made of metallic material, for example aluminum.

According to a second aspect, the invention relates to a rotor with salient poles for a synchronous machine comprising a plurality of windings each mounted radially around a pole of the rotor, and together angularly around a drive shaft and comprising head guides coil and associated coils.

Said rotor comprises at least one rotor crown, as described above, arranged on a lateral side of the rotor.

For example, each rounded portion bears radially on a shoulder outside the rotor of each coil head guide.

The rounded portions are advantageously arranged radially between on the one hand the shoulders external to the rotor of each coil head guide and on the other hand the radial ends of the pole heads of the rotor. The radial ends of the rotor pole heads thus extend radially beyond the rounded portions.

Thus, the radial projections do not project radially from the outer radial ends of the shims and therefore do not project either radially from the winding of the rotor.

According to one embodiment, the rotor comprises two rings which are identical to each other and disposed respectively on each lateral side of the rotor.

According to a third aspect, the invention relates to an electric machine comprising a stator and a rotor as described above.

Other objects, characteristics and advantages of the invention will appear on reading the following description, given solely by way of non-limiting example, and made with reference to the appended drawings in which:

Figure 1 shows, in perspective, a rotor comprising two rotor rings according to the state of the art;

Figure 2 shows, in perspective, a rotor comprising two rotor rings according to the present invention; and FIG. 3 represents, in perspective, a rotor crown according to FIG. 2.

As illustrated in FIG. 2, a rotor 20 with salient poles for an electrical machine of the synchronous type, comprises a plurality of windings 22 each mounted radially around a salient pole of the rotor and angularly assembled around a shaft of drive 24. Each coil 22 includes a coil head guide 22a and a coil 22b.

Each coil head guide 22a is arranged axially on a protruding pole so as to facilitate winding around this pole. It is for example part of a guide device as described in patent FR2984034.

The rotor 20 further comprises two identical rings 26 of shape configured to radially surround the coil head guides 22a of the winding 22. The rings 26 are disposed respectively on each lateral side of the rotor.

Each of the crowns 26, visible in detail in FIG. 3, for this purpose comprises substantially rounded portions 26a respectively in shape agreement with an associated head guide 22a and connected to each other by a radial projection 26b extending radially towards the rotor drive shaft 24. More precisely, each rounded portion 26a presses radially on the shoulder most external to the rotor of each coil head guide 22a.

The rounded portions 26a and the radial projections 26b are arranged alternately on a circumference of 360 °.

Thus, the rotor rings 26 follow the shape of the winding 22 and do not extend axially beyond said winding.

Preferably, each shoulder furthest from the rotor of each coil head guide 22a does not entirely cover the head 30 of the associated pole, its radial dimensions being smaller than those of the pole head 30, so that a space is available radially between the pole head 30 and the shoulder of the coil head guide 22a. The rounded portions 26a are arranged in this space and thus do not extend radially from the winding of the rotor.

In other words, the rounded portions 26a are disposed radially between on the one hand the shoulders external to the rotor of each coil head guide 22a and on the other hand the radial ends of the pole heads of the rotor 30. The radial ends pole heads of the rotor 30 thus extend radially beyond the rounded portions 26a.

The radial projections 26b do not protrude radially from the outer radial ends of the wedges 28 and therefore do not protrude radially from the winding of the rotor either.

Each ring 26 is fixed, by its radial projections 26b axially to shims 28 disposed respectively between two adjacent windings 22 by fixing means 29 of the screws and bolts type. As a variant, the crowns 26 are fixed to each other by through screws passing through the wedges 28, and tightening the crowns on these wedges.

Such crowns reduce the size of the winding, as well as the weight of the rotor, and are simple to manufacture and assemble.

Indeed, the mass of crowns is greatly reduced compared to the crowns of the state of the art. The balancing of each ring 26 is carried out for example by adding material radially to the rounded portions 26a, or to the radial projections 26b.

The crowns 26 are, for example, made of metallic material, such as, for example aluminum. They are for example produced by molding, machining, forging or 3D printing.

In the example illustrated in Figures 2 and 3, each ring 26 comprises eight rounded portions 26a each associated with a coil 22 and eight radial projections each extending radially between two adjacent coils.

Alternatively, a different number of rounded portions and radial projections could be provided. In general, the number of rounded portions and radial projections is equal to the number of windings.

Such crowns reduce the size of the winding, as well as the weight of the rotor.

Indeed, the mass of crowns is greatly reduced compared to the crowns of the state of the art.

Claims (11)

1. rotor crown for a rotor (10) with salient poles of a synchronous electric machine comprising a plurality of windings (22) comprising coil head guides (22a) and associated coils (22b), said crown (26) having a shape configured to radially surround the coil head guides (22a) of the winding (22), without extending axially beyond said coils (22b). 2. rotor crown according to claim 1, comprising portions (26a) substantially rounded respectively in shape agreement with an associated head guide (22a) and connected together by a radial projection (26b) extending radially towards the center of the rotor (10). 3. Rotor ring according to claim 2, wherein the rounded portions (26a) and the radial projections (26b) are arranged alternately on a circumference of 360 °. 4. rotor crown according to claim 2 or 3, wherein the number of rounded portions (26a) and radial projections (26b) is equal to the number of windings (22). 5. rotor crown according to any one of claims 2 to 4, wherein the crown (26) is fixed, by its radial projections (26b) axially to shims (28) disposed respectively between two adjacent windings (22). 6. Rotor crown according to any one of the preceding claims, in which the crown is made of metallic material. 7. Rotor (10) with salient poles for a synchronous machine comprising a plurality of windings (22) each mounted radially around a pole of the rotor and angularly assembled around a drive shaft (24) and comprising head guides coil (22a) and associated coils (22b), said rotor comprising at least one rotor ring (26) according to any one of the preceding claims, arranged on a lateral side of the rotor. 8. Rotor (10) according to claim 7 and claim 2, wherein each rounded portion (26a) is radially supported on a 5 shoulder outside the rotor of each coil head guide (22a). 9. Rotor (10) according to claim 8, in which the rounded portions (26a) are arranged radially between on the one hand the shoulders external to the rotor of each coil head guide (22a) and on the other hand the radial ends rotor pole heads 10 (30). 10. Rotor (10) according to any one of claims 7 to 9, comprising two rings (26) identical to each other and disposed respectively on each lateral side of the rotor. 11. Electric machine comprising a stator and a rotor according to any one of claims 7 to 10.