FAN-COOLED ELECTRIC MACHINE

Abstract

Electric machine including a rotor cooled by a simple disc base fan including blades, preferably of one piece with the disc, and a booster attached to the simple disc fan, the booster preferably including a disc positioned facing that of the base fan.

Claims

1-12. (canceled)

13. An electric machine including a rotor cooled by a single-plate base ventilator including blades, and a booster attached to the single-plate ventilator, the booster including a plate positioned opposite that of the base ventilator, wherein the booster includes blade extensions positioned radially as a continuation of the blades of the base ventilator.

14. The machine as claimed in claim 13, the blade extensions consisting of a single piece with the plate of the booster.

15. The machine as claimed in claim 13, the base ventilator being made of metal.

16. The machine as claimed in claim 13, the booster being made of plastic.

17. The machine as claimed in claim 13, the blade extensions being organized to be mechanically hooked to the blades.

18. The machine as claimed in claim 13, the blades each including a notch and the blade extensions each including a corresponding hook.

19. The machine as claimed in claim 13, the blade extensions covering the end parts of the blades over the majority of the height of the blades.

20. The machine as claimed in claim 13, the blade extensions having indentations and the blades being positioned in the thickness of these indentations.

21. The machine as claimed in claim 13, the blade extensions each extending towards the center by a rib, the height of which decreases as it approaches the center.

22. The machine as claimed in claim 13, the blades consisting of a single piece with the plate.

23. A method for increasing the cooling power of a base ventilator, of an electric machine, including the step of fixing, on the ventilator, a booster including a plate positioned opposite that of the base ventilator in order to form an electric machine as claimed in claim 13.

24. An electric machine provided with a base ventilator suitable for mounting a booster thereon in order to form an electric machine as claimed in claim 13, including means for mechanically hooking the booster at the front and/or at the back, in the form of notches on the back edge of the blades.

25. A booster intended to be mounted on a base ventilator of an electric machine in order to form an electric machine as claimed in claim 13, including blade extensions and a front plate.

Description

[0044] The invention can be better understood on reading the following detailed description, of a non-limiting example for implementing the invention, and on examining the appended drawing, in which:

[0045] FIG. 1 shows in isolation, in perspective, an example of a cooling fan, made up of a base ventilator and of a booster, according to the invention,

[0046] FIG. 2 shows, in isolation, the booster of the fan of FIG. 1,

[0047] FIGS. 3 and 4 are two axial section views of the fan of FIG. 1, and

[0048] FIG. 5 illustrates the assembly of the booster on the base ventilator.

[0049] FIG. 1 shows a fan 10 according to the invention, used for cooling an electric machine.

[0050] The fan 10 includes a base ventilator 20 on which a booster 30, which is shown in isolation in FIG. 2, is fixed.

[0051] This fan 10 is rotated about an axis X by the rotor of the machine, which has not been shown for the sake of clarity of the drawing.

[0052] The electric machine is, for example, a motor or an alternator.

[0053] The rotor may be of any type, optionally with permanent magnets.

[0054] In the case of an alternator, the rotor may include a main machine inductor and an exciter armature.

[0055] The rotor may rotate a single cooling fan as illustrated in FIG. 1, or several fans, for example each arranged at an end of the rotor.

[0056] As may be seen in particular in FIGS. 3-5, the base ventilator 20 includes a hub 21, which allows the base ventilator 20 to be fixed on the rotor shaft, and a plurality of blades 22 which extend towards the outer periphery of the base ventilator from the hub 21. The blades 22 are connected to each other by a backplate 23, of generally annular shape.

[0057] The hub 21 is extended at the front end thereof, opposite the backplate 23, by a front disk 25 which connects the blades 22 in the region thereof adjacent to the hub 21.

[0058] It is seen more particularly in FIG. 4 that the blades 22 may have a height which increases over the region thereof connected to the front disk 25. The blades 22 reach a maximum height substantially at an annular rib 26 of the plate 23, which projects towards the back on the ventilator 20, on the side opposite the front disk 25. The height of the blades 22 then slightly decreases up to a second annular rib 27 of the plate 23, concentric with the first and radially more external.

[0059] The booster 30 includes blade extensions 31 which are arranged thereon in such a manner as to each be placed in the continuation, radially outwardly, of a corresponding blade 22 of the ventilator 20.

[0060] The extensions 31 are connected to a front plate 33, which, on the face thereof opposite the extensions 31, includes two series 34, 35 of stiffening ribs, each extending radially. The ribs 34 are interconnected by a first annular rib 36 and the ribs 35 by a second annular rib 37, concentric with the first. The height of the ribs 34, 35 increases as they approach the center and the annular rib to which they are connected.

[0061] The front plate 33 also includes openings 38 which allow the passage of mold elements necessary for making the booster 30 from a single piece by molding thermoplastic material, in particular polyamide.

[0062] The front plate 33 also bears studs 39 which are penetrated by screw through-holes 50 used for fixing the booster 30 on the base ventilator 20. These screws 50 are fixed in corresponding internal threads 51 of the disk 25, provided on studs 59.

[0063] In the example illustrated, the base ventilator 20 is made monolithically of metal, in particular aluminum or an aluminum alloy, by molding and/or machining.

[0064] Preferably, as illustrated, the blades 22 and the extensions 31 are made in such a manner as to cooperate mechanically and increase the mechanical hooking between the base ventilator 20 and the booster 30. More particularly, the blades 22 may be made with, on an end portion 28 extending radially beyond the plate 23, a notch 29, open on the back edge opposite the front disk 25.

[0065] The extensions 31 are each made with a recess 55 which has a shape substantially complementary to the end portion 28 provided with the notch 29, such as to achieve the desired mechanical hooking. For example, as illustrated, the extensions 31 are each made with a hook 56 which engages the notch 29, when the booster 30 is assembled on the base ventilator 20, as illustrated in FIG. 1. The recess 55 defines an indentation 69 opposite which the end edge 70 of a blade 22 is positioned.

[0066] The diameter of the annular rib 37 is slightly less than that of the front disk 25, and the latter may be made with, at the periphery, an annular rib 58 adjacent the studs 59 for receiving the screws 50.

[0067] The extensions 31 are extended towards the center of the booster by radial ribs 75, the height of which decreases towards the center.

[0068] These ribs 75 each overlap a corresponding blade 22, as can be seen in particular in FIG. 4.

[0069] To assemble the booster 30 on the base ventilator 20, the operator may initially, as illustrated in FIG. 5, axially bring the booster 30 closer to the base ventilator 20, the base ventilator having the front disc 25 thereof directed towards the booster 30 and the latter having the extensions 31 directed towards the base ventilator 20.

[0070] The extensions 31 are brought level with the end regions 28 of the blades 22, then the booster 30 is rotated about the axis X relative to the base ventilator 20, in the anti-clockwise direction in the example in question, such as to engage the hooks 56 in the notches 29 and obtain the assembly illustrated in FIG. 1.

[0071] The screws 50 may then be inserted through the studs 39 and screwed into the internal threads 51 to permanently fix the booster 30 on the base ventilator 20.

[0072] The invention makes it possible to optionally provide, depending on the cooling needs, already furnished electric machines with the base ventilator 20.

[0073] Thus, depending on the cooling needs of a range of machines all provided with the same base ventilator 20, boosters 30 may be assembled on only some of the base ventilators 20 of these machines, such as to provide an additional cooling power.

[0074] Of course, the invention is not limited to the example which has just been described.

[0075] It is possible, for example, to modify the shape of the base ventilator 20, and in particular the shape and the orientation of the blades 22 and the shape of the backplate 23 or of the front disk 25.

[0076] Similarly, it is possible to modify the shape of the blade extensions 31 and the shape of the front plate 33 to which they are connected, depending on, in particular, the desired air flow.

[0077] The mechanical hooking of the extensions 31 on the blades 22 may take place other than with a hook-and-notch-type cooperation such as illustrated, for example via a snap-fastening or clamping assembly.

[0078] Thus, there may be a multitude of blade shapes, in particular straight, inclined or curved, of locking or snap-fastening systems at the back of the blades of the base ventilator and at fixing level on the front face.

[0079] The expression “including one” is to be understood as being synonymous with “including at least one”, unless otherwise specified.