WO2018054482A1 - Method for producing the coils of an electrical machine, winding head carrier, and use of a winding head carrier - Google Patents

Abstract

To obtain an electrical machine which is more powerful thanks to improved cooling, it is proposed that the winding head carriers for the electrical machine be manufactured additively with at least one material which can be selectively removed subsequently at a later point in time, and the selectively removable material of the winding head carriers be removed at a point in time after the coil has been wound onto the winding head carriers. A winding head carrier is also proposed, the material of which is at least one material which can be manufactured additively and can be selectively removed subsequently at a later point in time. Finally, it is proposed that a winding head carrier according to the invention be used to produce the advantageous electrical machine.

Description

description

Method for producing the winding spools of an electric machine, winding head carrier and use of a winding head carrier

The invention relates to a method for producing the winding spools of an electric machine according to the preamble of claim 1. The invention further relates to a winding head according to the preamble of claim 4. The invention finally relates to a use of a winding head ^¬ carrier.

When manufacturing the winding spools of an electrical machine, the ends of the spools are required

Blechpakten end pieces, so-called winding head, mounted. These are used for the correct positioning of the reel spools, usually wire windings around the respective laminated core. After winding the winding bobbins, the winding head carriers are embedded and remain between the respective laminated core and the respective winding bobbin. The winding head carriers are usually made of plastic. Such a plastic conducts the heat only badly. A resulting heat can therefore not be easily dissipated to the laminated cores, for example in a so-called jacket cooling. In air or oil cooled machines available for heat dissipation surface of a reel spool is low because of Wi ^¬ ckelkopfträger. The winding spool rests on one side on the winding head carrier. Therefore, so-called hotspots arise directly on the winding head carrier.

Often, this condition is accepted and the currents in the reel spool designed so that the heat at the hotspot sites is not too large. It is possible, in complex process steps, first to wind a reel spool onto a mold, then to take it from the mold and then insert the reel spool onto a so-called tooth, as a laminated core is also called. The disadvantage here is in that the tooth has to be shaped or split accordingly and put together. Elaborate solutions with cooling ^¬ lines through the winding heads are also possible. The object of the present invention is to specify a simple method for producing the winding coils of an improved powerful electric machine. Object of the present invention is further to provide a winding head carrier with which an improved powerful electric machine can be produced. Finally, it is an object of the present invention to provide an advantageous use of a winding head carrier.

The first object is achieved on the basis of a method of the type mentioned in an inventive manner with method steps, which are specified in the characterizing part of claim 1. The second object is achieved ^¬ starting from a winding head carrier of the type mentioned in an inventive manner with a winding head, which has the feature in the characterizing part of claim 4 ^¬ . The latter object is achieved by a Verwen ^¬ tion of a winding head carrier, which corresponds to the features of claim 7. According to the method, the winding heads are additively made of at least one material which is subsequently selectively removable at a later time, and the selectively removable material of the winding heads is selectively removed at a time after the winding bobbin is wound on the winding heads.

The winding head carrier according to the invention consists of a material Mate ^¬ at least one additivfertilizable material that is subsequently selectively selectively removable at a later date.

According to the inventive use of the winding head carrier of the invention winding carrier is used for producing an advantageous electric machine.

According to the method of the invention, the winding head carriers are produced according to a so-called additive manufacturing method.

Process, that is, with the help of a simple 3D printing, made of materials that can be subsequently selectively removed again. All that remains is the winding bobbins themselves. Between the winding bobbin and the laminated core, empty spaces are created. Thus, the winding coils in the winding heads can be completely surrounded by a cooling medium and also the laminated cores can be cooled from the side. Overall, more efficient electric machines can thus be produced in a simple manner compared with known electrical machines.

Inventive winding head carrier consist of a material which is at least one additive producible material, which subsequently at a later date selective

is removable.

According to the present invention using a winding head carrier of the invention, the inventive winding head ^¬ carrier is shown in an advantageous manner for producing a electrical machine used.

Advantageous embodiments of the invention are the subject of dependent claims. Thereafter, the winding carriers are additionally produced in combination with support structures made of stable additive materials. The advantage of additive manufacturing is that it combines selectively removable, but also selectively non-removable, that is, stable materials. Can be. This makes it possible to integrate remaining support structures in the winding head, which are retained later. Furthermore, there is the advantage of optimizing the support structures topologically, so that maximum mechanical rigidity is achieved with a minimum of material. In another advantageous embodiment of the invention are used for the selectively removable materials with water or alkali soluble acrylic compounds. In this way, the selectively removable materials can be removed in a particularly simple manner. At the same time, for example, support structures that provide stability of the reel spool and therefore should remain stationary remain in a particularly simple manner.

For example, a water-soluble material in the winding head ^¬ head carrier after the complete manufacture and assembly of a stator of an electric machine with many winding coils ^¬ on many such winding head carriers could be removed with water again. Only the winding coils themselves remain. Between coil winding, ie between copper Wick ^¬ development and laminated core arising empty spaces or remain only support structures back and additional gaps. Even a complete removal of the winding heads is conceivable. Thus, as already mentioned, the wire windings in the region of the winding head carrier can be completely surrounded by the cooling medium and also the laminated cores can be cooled from the side. Furthermore, it is possible to optimize remaining support structures topologically, for example, so that maximum mechanical rigidity is achieved with a minimum of material.

An advantage of the inventive method is that the Wi ^¬ ckelkopfträger be used for the production or bending of the reel spool, but these are removed after the manufacture of the stator again. The winding support can be removed completely or partially so ent ^¬ removed that only partly still remain support structures.

The advantage is that the winding coils no longer bear an ^¬ other. Thus, in air-cooled or oil-cooled electric machines, the cooling medium can move the winding bobbin in the rich completely wrap around the winding head. The reel spool is cooled better at this point. Even the laminated cores themselves are better flowed around by the cooling medium. Thus, the heat can be dissipated better from the metal sheets.

Due to the better cooling now larger currents in the electric machine are possible. Thus, with the same size and the same weight, a larger torque and greater power can be generated with the machine.

Until now, the plastic of the winding carrier heads limits the maximum permissible temperature. Now the copper relationship ^¬ the insulation of the winding wire itself is limiting. Increasing the permissible maximum temperature also makes it possible to increase the current density and thus increase the power density and torque density.

The weight of the machine can be reduced, albeit only slightly, because the winding carriers are missing.

An embodiment of the invention will be explained in more detail with reference to a drawing. Show:

1 shows a partial section of a stator of an electric machine with two winding bobbins according to the invention in a schematic three-dimensional representation,

 Figure 2A shows a so-called stator tooth with winding head without a winding coil mounted thereon, Figure 2B is a so-called stator tooth with winding head and a winding coil mounted thereon, and

Figure 3 shows an exemplary winding head support according to the invention for use in the invention in egg ^¬ ner electric machine according to FIG. 1

The following description of an embodiment of the invention is to be understood across figures. 1 shows a partial section of a stator of an unspecified electrical machine with two winding coils 1. When producing such winding coils 1 are on the ends of laminated cores 2, which are required for the winding coils 1, optionally individually adapted end pieces, so ^¬ winding end 3 ( Figures 2 and 3), mounted. The ^¬ se are used for correct positioning of the winding coils 1, which are usually wire windings around the respective laminated core 2. The laminated cores 2, as shown by way of example in FIGS. 2A and 2B, each form a so-called stator tooth. FIG. 2A shows such a stator tooth with winding head carrier 3 without a winding reel 1 mounted thereon, and FIG. 2B shows such a stator tooth with winding head carrier 3 and a winding reel 1 mounted thereon.

Noted at this point is that the designs of the winding coils shown in Figures 1, laminated cores 2 and winding carrier 3 are merely funktionsprinzipiell to look at and not necessarily for a single in the background ste ^¬ Hendes overall picture each other perfectly tuned Realisie ^¬ insurance form must follow.

As FIG. 2B in particular shows with respect to FIG. 2A, after the winding bobbins 1 have been wound, the winding head carriers 3 are wrapped and remain, at least initially, between the respective laminated core 2 and the respective winding bobbin 1.

In FIGS. 1 and 2B, the winding bobbins 1 are protected with an exemplary textile tape 4. In the Figure 2B, this protection is carried out according to a prior art, while in the Figure 1, this protection is carried out according to the invention, that is, there are exemplified the winding ^¬ coil ends freed from this protection, so that cooling media inlet least this Make things cool more effectively. For the sake of completeness it should be mentioned at this point that in FIG. 1 this textile protection is additionally treated with a lacquer layer 5. The winding head carrier 3 are usually made of plastic. Such plastic only conducts the heat

bad. A resulting heat can not be easily dissipated to the laminated cores 2, for example, in a so-called jacket ^¬ cooling. In air-cooled or oil-cooled machines, the surface of a winding bobbin 1 available for heat removal is low because of the winding head carrier 3. The reel spool rests on one side on the winding head ^carrier 3. Therefore, so-called hotspots arise directly on the winding head carrier 3.

In the figure 3, an exemplary winding head carrier 3 is shown according to the invention, for example for an inventive Ver ^¬ application in an electrical machine, for example, according to FIG. 1 This winding head carrier 3 consists of a material which is at least one additive verfertigbares material so that it is subsequently se ^¬ tively removable at a later time. In this material could be an additional additive verfertigbares material, for example a stable additive material that is not selectively removable and, for example, support purposes fulfilled be additive is processing ^¬ tet.

According to the embodiment in Figure 3 the winding ^¬ head carrier 3 is integrally manufactured from a single material gefer-.

As the material for the winding head carrier 3 according to the invention, for example, water-soluble or alkali-soluble acrylic compounds can be used.

According to the exemplary embodiment according to FIG. 1, winding end carriers 3 according to FIG. 3 are first mounted on the ends of the laminated cores 2 for ^producing the winding coils 1 at a later time selectively, for example by rinsing with water away. At the positions 6, free spaces (hatched area) have therefore been created and left behind, which are now flooded with cooling media, so that the winding bobbins 1 can be cooled in an improved manner.

According to the embodiment according to FIG. 1, no additional support structures were incorporated in the winding head carriers 3, so that according to the exemplary embodiment according to FIG. 1, no such support structures are left behind.

Claims

claims

1. A method for producing the winding bobbins of an electric machine see, being mounted on ends of laminated cores for the winding bobbins winding head, characterized in that

 the winding head carriers are produced additively, at least from a material which is subsequently selectively removable at a later time, and

 - The selectively removable material of the winding head carrier is selectively removed at a time after the winding of the winding bobbin on the winding head carrier.

2. The method according to claim 1, characterized in that

 - The winding head carrier in addition combined with support structures made of stable additive materials.

3. The method according to claim 1 or 2, characterized in that for the selectively removable materials with water or alkali soluble acrylic compounds used ^¬ the.

4. winding head, consisting of a material, characterized in that the material is at least one additivfertilizable material, which is subsequently selectively selectively removable at a later date.

5. winding carrier according to claim 4, characterized in that the material is additionally a stable additivfertilizable material.

6. winding head according to claim 4 or 5, characterized in that the at least additively producible, subsequently selectively selectively removable material is a water or alkali-soluble acrylic compound.

7. Use of a winding head carrier according to one of claims 4 to 6 for the manufacture of an electrical machine.