DE102017214567A1 - Rotor-rotor shaft arrangement with positive connection - Google Patents

Abstract

The invention relates to a rotor-rotor shaft arrangement, in particular for an electric machine, with a rotor (10) and with a rotor shaft (20) and a method for their production and / or Montage.Auf in a simple, cost-effective and / or process-reliable manner Rotor-rotor shaft arrangement manufactured and / or mounted thereby and at high speeds, for example of about 16,000 1 / min, a secure torque transmission can be ensured by a positive connection between the rotor shaft (20) and a rotor flange (30) Fixing of the rotor (10) to the rotor shaft (20) by an external profiling (21) on a form - fitting section (22) of the rotor shaft (20) and by an internal profiling (31) corresponding to the external profiling (21) in a positive locking section (32) of the Rotor flange (30) can be formed or formed.

Description

The invention relates to a rotor-rotor shaft arrangement, in particular for an electric machine, for example for a motor vehicle, for example for an electric vehicle and / or hybrid vehicle, according to the features of the preamble of patent claim 1 and a method for their production and / or assembly according to the Features of claim 10.

There are various possibilities for transmitting torque from a rotor, in particular an electric machine, to a rotor shaft. For example, the torque transmission via a press fit with a large overlap between the rotor disk set and the rotor shaft or by a plurality, for example four or five, circumferentially distributed tongue and groove connections between the rotor disk set and the rotor shaft.

From the DE 10 2011 012 429 A1 a rotor-rotor shaft arrangement for an electric machine is known, in which the rotor shaft is formed in several parts of two side covers and a arranged between the side covers main body. In one embodiment, the side covers are connected via a press fit with the base body, wherein the rotor disk sets are fixed by an oversize connection on the base body. In another embodiment, the base body is formed by the rotor blade packs, which are connected by tie rods with the side covers.

From the DE 10 2012 011 002 A1 a rotor-rotor shaft arrangement for an electric machine is known, in which the rotor shaft is formed in several parts from two flange parts and a pipe part arranged between the flange parts. In order to achieve an axial load capacity of the rotor shaft, a snap connection is provided between the flange and the pipe part. On the lateral surface of the pipe part while Rotorlamellenpakete are arranged annularly.

However, the rotor-rotor shaft arrangements known in the prior art are not yet optimally designed. Thus, rotor-rotor shaft assemblies known in the art typically can only meet rotational speed requirements of up to 12,000 RPM (revolutions per minute), and not more than 12,000 RPM, for example, of about 16,000 RPM , In press fits or oversize joints and / or axially locking snap connections can at high speeds, for example, more than 12,000 1 / min, for example, from about 16,000 1 / min, "lift off" the outer component of the inner component and thereby reduce the torque transmission or even interrupt , To counteract this effect, the overlap would have to be increased significantly, but this would make the installation considerably more difficult or possibly even impossible. For the installation of tongue and groove joints, these must be designed with a certain amount of play, but this can lead to a reduced torque transmission and thus to performance losses and to uncomfortable acoustic influences.

The invention is therefore based on the object, the rotor rotor shaft assemblies initially mentioned, now such design and further that the rotor rotor shaft assemblies manufactured in a simple, cost-effective and / or process-reliable manner and - especially at high speeds For example, from more than 12,000 RPM, for example, from about 16,000 RPM, sufficient torque transfer can be guaranteed.

The object underlying the invention is for the rotor-rotor shaft arrangement, in particular for an electric machine, for example for a modular electrification kit (MEB), for example for a motor vehicle, for example for an electric vehicle and / or hybrid vehicle, by the features of claim 1 and for the method for producing and / or assembling such a rotor-rotor shaft assembly by the features of claim 10 solved.

In the rotor-rotor shaft arrangement, a form-fitting connection between the rotor shaft and a rotor flange for fastening the rotor to the rotor shaft can now be formed or formed by external profiling on a form-fitting section of the rotor shaft and an internal profiling corresponding to the external profiling on a form-fitting section of the rotor flange.

Due to the positive connection between the rotor shaft and the rotor flange, the rotor-rotor shaft assembly in a simple, cost-effective and / or process-reliable manner, for example on the basis of known machine elements, manufactured and assembled and - especially at high speeds, for example more than 12,000 1 / min, for example, from about 16,000 1 / min - ensure safe torque transmission. In particular, the torque can be transmitted rotationally fixed. By means of the positive connection, for example, a torque generated by the rotor can be transmitted to the rotor shaft and from the rotor shaft, for example to a transmission, for example to the transmission of a vehicle, for example an electric vehicle and / or a hybrid vehicle.

The positive connection can be formed, for example, as a toothing, in particular as a spline, or as a polygon connection or as a positive connection on the basis of differently shaped, form-fitting connectable profile shapes.

For torque transmission can - especially at high speeds - a comparatively narrow positive connection, such as a toothing, for example, with a short toothing length, be sufficient, in particular which also in a simple manner, for example by rollers, rollers and / or molds produced can be.

In one embodiment, the positive connection is formed as a toothing, in particular as a spline and / or the outer profiling as an external toothing and the inner profiling as an internal toothing. By a toothing, in particular spline, the positive connection can be formed in a particularly simple and cost-effective and space-saving manner and a speed-resistant torque transmission can be realized.

In a further refinement, an internal groove for receiving a securing ring is furthermore formed in the form-fitting section of the rotor flange. The fact that the groove is an internal groove and the retaining ring is at least partially received or mounted therein from inside, can advantageously be ensured, the retaining ring even at high speeds and the associated large centrifugal forces do not solve or can not be lost, which For example, a, recorded in an outer groove, externally mounted locking ring at high speeds, for example, 16,000 1 / min, so could not easily meet. In addition, both the retaining ring and the inner groove in a simple and cost-effective manner available or produced.

The inner groove may be formed, for example in the form of an annular groove. Thus, the inner groove can be made in a particularly simple manner and the retaining ring can then be mounted independent of angle.

The inner groove may in particular be formed adjacent to the inner profiling, in particular to the inner toothing, in the form-fitting portion of the rotor flange.

In a further embodiment, the rotor flange can be secured or secured against axial displacement by a retaining ring accommodated in the inner groove and / or the positive locking section of the rotor shaft serves, in particular on the one hand, as an axial stop for the securing ring. By such an arrangement can be realized by the retaining ring and the form-fitting portion of the rotor shaft axial securing at least in one direction.

In a further embodiment, the form-fitting portion of the rotor shaft, in particular on the other hand, serves as an axial stop for the rotor. By such an arrangement can be realized in the other directions by the retaining ring and the form-fitting portion of the rotor shaft axial securing.

For example, the positive connection section of the rotor shaft can serve on the one hand as an axial stop for the securing ring and on the other hand as an axial stop for the rotor. Such an arrangement can be realized by the retaining ring and the form-fitting portion of the rotor shaft axial securing in both directions.

The rotor flange may be formed, for example, of steel.

In a further embodiment, the rotor flange is rotationally symmetrical, in particular at least partially in the form of a disk. For example, the rotor flange may be in the form of a steel disc.

In particular, the rotor may have at least one rotor disk pack, for example at least one so-called laminated core. In this case, the at least one rotor disk pack can be fastened or fastened to the rotor flange.

In a further embodiment, a spacer disk, in particular for the magnetic decoupling of the at least one rotor disk pack from the rotor flange, is arranged between the at least one rotor disk pack and the rotor flange. Thus, the rotor flange and the rotor shaft of the rotor, in particular of the at least one rotor blade pack, are magnetically decoupled. For example, the spacer may be formed of aluminum.

In a further embodiment, the rotor further comprises a clamping and / or balance disc. In this case, the at least one rotor disk pack - and for example also the spacer disk - can be fastened or fastened to the rotor flange, for example by means of the tensioning and / or balancing disk. For example, the at least one rotor disk pack - and for example also the spacer disk - can be arranged between the rotor flange and the tensioning and / or balancing disk. In particular, the at least one Rotor disc set between the spacer and the clamping and / or balance disc be arranged, in particular wherein then the spacer between the rotor flange and the at least one rotor disc pack is arranged. By means of the tensioning and / or balancing disk, the at least one rotor disk pack - and, for example, also the spacer disk - can be fastened to the rotor flange in a simple manner. In this case, the at least one rotor disk set - and for example, the spacer - in particular between the clamping and / or balance disk and the rotor flange can be braced. In addition, the clamping and / or balance disc can serve as a balance disk for the rotor. The tensioning and / or balancing disc may for example also be made of steel.

The rotor flange, the spacer, the at least one rotor disk set and / or the tensioning and / or balancing disk can be mechanically connected or connected in particular by connecting elements.

In a further embodiment, the rotor flange and the tensioning and / or balancing disc - and for example also the at least one rotor disc pack and / or the spacer disc - can be connected or connected by screw connections, in particular tensioning screws, in particular correspondingly preassembled. In this case, the screw, in particular the clamping screws between the clamping and / or balance disc - and for example by the at least one rotor disc pack and / or through the spacer - and extend through the rotor flange. For example, the screw, in particular clamping screws, thereby at least extend through the clamping and / or balance disk or the rotor flange. Furthermore, the screw, in particular clamping screws can be screwed or screwed into threads, which are formed in the rotor flange or in the clamping and / or the balancing disk. Alternatively, the screw connections, in particular clamping screws, can also extend through the rotor flange or through the tensioning and / or balancing disk and can be fastened, for example, by threaded nuts arranged in particular on the outside of the rotor flange or on the outside of the tensioning and / or balancing disk ,

In a special embodiment, threads for the screw connections, in particular clamping screws, are formed in the rotor flange. In this case, the screw, in particular clamping screws, in particular by the clamping and / or balancing disc - and for example by the at least one rotor disc pack and / or by the spacer - extend to the rotor flange, and then be screwed or screwed into the thread formed on the rotor flange.

In a further refinement, the at least one rotor disk pack and / or the tensioning and / or balancing disk has an inner diameter which can be pushed or pushed onto an outer diameter of a rotor disk pack mounting portion of the rotor shaft. In this case, the Rotorlamellenpaketmontageabschnitt the rotor shaft in particular have a smaller outer diameter than the positive connection portion of the rotor shaft. Thus, the form-fitting portion of the rotor shaft as an axial stop for the at least one rotor blade package - and for example, thus also indirectly for the clamping and / or balance disc - serve.

Furthermore, the rotor shaft may have a circlip mounting portion. In this case, the circlip mounting portion of the rotor shaft may in particular (also) have a smaller outer diameter than the positive connection portion of the rotor shaft. Thus, the positive connection portion of the rotor shaft (also) serve as an axial stop for the locking ring.

As such, the rotor shaft can be designed, for example, both in one piece as well as in two parts or in several parts.

In the method for producing and / or assembling such a rotor-rotor shaft arrangement, in particular firstly, for example in a method step a), the rotor flange is fastened to the rotor (or vice versa).

The rotor flange with the rotor attached thereto is in particular then, for example in a method step b) pushed onto the rotor shaft, that the inner profiling, in particular the internal teeth of the rotor flange in the outer profiling, in particular the external teeth, the rotor shaft engages and forms a positive connection.

This procedure makes it possible to construct the rotor flange with the rotor separately and to assemble, for example, in a separate pre-assembly and in particular to use it preassembled in the method, in particular in method step a). Thus, the production and / or assembly can be simplified - and, for example, the costs and / or the effort reduced - and, for example, the process reliability can be increased.

By forming the positive connection, in particular in method step b), can - as already explained in connection with the rotor-rotor shaft arrangement - also at high speeds ensure safe speed transmission.

In a special embodiment, the rotor flange with the rotor attached thereto, in particular in method step b), is pushed onto the rotor shaft in such a way that the inner groove of the rotor flange is moved over the form-fitting section of the rotor shaft and the rotor flange is introduced by inserting a securing ring into the inner groove of the rotor flange is secured against axial displacement. In this case, the form-fitting portion of the rotor shaft can serve in particular as an axial stop for the securing ring. Thus, the rotor flange and the rotor can be secured in a simple manner at least in one direction against axial displacement. Due to the fact that the form-fitting section of the rotor shaft also serves as an axial stop for the rotor, for example for the at least one rotor disk set, and / or has a larger outside diameter than the rotor disk set section of the rotor shaft, the rotor flange with the rotor attached thereto can be replaced by the securing ring and the form-locking section of FIG Rotor shaft are secured in a simple manner in both directions against axial displacement. In this case, when pushing the rotor flange with the attached rotor to the rotor shaft, in particular in method step b), for example, the rotor, for example, the at least one rotor blade set, pushed against the form-fitting portion of the rotor shaft and struck at this.

For example, the rotor flange with the rotor attached thereto in a, in particular step a), upstream process step be pre-assembled that the rotor flange, the spacer, the at least one rotor blade and the clamping and / or balancing disc by connecting elements, in particular by screw, for example Clamping screws, for example, which extend between the tensioning and / or balancing disc and the rotor flange and, for example, by the at least one rotor disc pack and by the spacer, extend, in particular mechanically, are connected. For example, the screw, in particular clamping screws, by the clamping and / or balance disc - and in particular by the at least one rotor disc pack and / or by the spacer - extend to the rotor flange and are screwed into formed on the rotor flange thread or secured by nuts / be screwed.

In a further specific embodiment, the rotor flange with the rotor attached thereto is heated prior to being pushed onto the rotor shaft, in particular according to method step a) and / or before method step b). Thus, on the one hand as impossible as possible joining of the rotor flange with the attached rotor and the rotor shaft and optionally an additional interference fit between these components achieved and, for example, on the other one, for example expanding, magnetic coating can be activated.

In order to facilitate the intervention of the internal profiling, in particular the internal teeth of the rotor flange in the outer profiling, in particular the external teeth, the rotor shaft, in particular in step b), and to ensure that the profilings, such as the splines, clean, they can before Intervention by means of a gauge, for example by means of a gearing, are aligned with each other.

The aforementioned disadvantages are therefore avoided and corresponding advantages are achieved.

• 1 in einer schematischen Darstellung einen Querschnitt durch eine bevorzugte Ausführungsform einer erfindungsgemäßen Rotor-Rotorwellen-Anordnung, und
• 2 in einer schematischen, perspektivischen Darstellung die in 1 gezeigte Ausführungsform einer erfindungsgemäßen Rotor-Rotorwellen-Anordnung während der Montage.

There are now a variety of ways to design the rotor-rotor shaft assembly according to the invention and the inventive method in an advantageous manner and further. For this purpose, reference may first be made to the claims subordinate to claim 1 or to claim 10. In the following, a preferred embodiment of the rotor-rotor shaft arrangement according to the invention and the method according to the invention will be explained in more detail with reference to the drawing and the associated description. In the drawing shows:

• 1 in a schematic representation of a cross section through a preferred embodiment of a rotor-rotor shaft assembly according to the invention, and
• 2 in a schematic, perspective view of the in 1 shown embodiment of a rotor-rotor shaft assembly according to the invention during assembly.

The 1 and 2 show an embodiment of a rotor-rotor shaft arrangement according to the invention, in particular for an electric machine, for example for a motor vehicle, for example for an electric vehicle and / or for a hybrid vehicle, and also illustrate an embodiment of a method according to the invention for their manufacture and / or assembly.

1 and 2 show that the rotor-rotor shaft assembly has a rotor 10 , a rotor shaft 20 and a rotor flange 30 for fixing the rotor 10 on the rotor shaft 20 having. It is or will be between the rotor shaft 20 and the rotor flange 30 a positive connection, in particular a spline, by an external profiling 21 , in particular in the form of a External toothing, on a form-fitting section 22 the rotor shaft 20 and one to the external profiling 21 , in particular external toothing, corresponding internal profiling 31 , in particular internal toothing, on a form-fitting section 32 of the rotor flange 30 educated.

The rotor 10 has several rotor disk packs 11 and one between the rotor disc packs 11 and the rotor flange 30 arranged spacer 12 , in particular for the magnetic decoupling of the rotor disk packs 11 from the rotor flange 30 , on. The red 10 also has a clamping and / or balance disc 13 and screw connections 14 , in particular clamping screws. Here are the spacer 12 and the rotor blade packs 11 between the clamping and / or balance disc 13 and the rotor flange 30 arranged and by means of screw connections 14 , in particular the clamping screws, which are defined by the clamping and / or balance disc 13 , through the rotor disk packs 11 and through the spacer 12 extend through and in particular in thread 34 are screwed in the rotor flange, braced.

In addition, the show 1 and 2 in that in the form-fitting section 32 of the rotor flange 30 , in particular adjacent to the inner profiling 31 , in particular the internal toothing, an internal groove 33 for at least partially receiving a securing ring 40 is trained.

The 1 and 2 continue to show that the positive connection section 22 the rotor shaft 20 on the one hand as axial stop for the circlip 40 and on the other hand as an axial stop for the rotor 10 , in particular for the rotor disk packs 11 of the rotor 10 , serves.

In this case, the positive connection section 22 the rotor shaft 20 in particular, a larger outer diameter than an adjacent thereto on the one hand retaining ring mounting portion 24 the rotor shaft 20 and a rotor blade pack assembly portion adjacent thereto on the other hand 23 the rotor shaft 20 on.

The 1 and 2 illustrate that the rotor disk packs 11 and the tension and / or balance disc 13 have an inner diameter, which on the outer diameter of the rotor blade pitch section 23 the rotor shaft 20 can be pushed or pushed and, for example, in addition to the positive connection form a press fit.

1 and 2 illustrate that the rotor flange 30 through one in the inner groove 33 of the rotor flanges 30 at least partially absorbed circlip 40 and by the axial stop for the circlip 40 and as an axial stop for the rotor 10 , in particular the rotor disk packs 11 , Serving form-fitting section 22 the rotor shaft 20 is secured against axial displacement in both directions or can be secured.

2 illustrates in particular an embodiment of the method according to the invention and shows that first the rotor 10 on the rotor flange 30 or vice versa, the rotor flange 30 on the rotor 10 is attached and the rotor flange 30 with the pre-assembled and fixed rotor 10 then on the rotor shaft 20 is postponed. Before sliding onto the rotor shaft 20 can the rotor flange 30 with the attached rotor 10 be heated, for example, as powerless joining and / or training an additional interference fit between the rotor 10 and the rotor shaft 20 to effect and / or to activate, for example, expanding, magnetic coating.

From the synopsis of 1 and 2 it can be seen that the rotor flange 30 with the attached rotor 10 especially on the rotor shaft 20 is postponed that the inner groove 33 of the rotor flange 30 over the form-fitting section 22 the rotor shaft 20 is moved away and the internal profiling 31 , in particular the internal toothing of the rotor flange 30 in the external profiling 21 , in particular the external toothing, the rotor shaft 20 engages and forms a positive connection. By inserting the locking ring 40 in the inner groove 33 of the rotor flange 30 then becomes the rotor flange 30 secured against axial displacement in both directions.

LIST OF REFERENCE NUMBERS

10

rotor

11

Rotor disc pack

12

spacer

13

Clamping and / or balancing disc

14

Screw connections, in particular clamping screws

20

rotor shaft

21

External profiling, in particular external toothing, of the rotor shaft

22

Positive locking section of the rotor shaft

23

Rotor lamella packet section of the rotor shaft

24

Circlip mounting section of the rotor shaft

30

rotor flange

31

Internal profiling, in particular internal toothing, of the rotor flange

32

Positive connection section of the rotor flange

33

Inner groove for receiving a locking ring

34

Thread for screw connections, in particular clamping screws

40

circlip

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102011012429 A1 [0003]
• DE 102012011002 A1 [0004]

Claims (10)

Rotor-rotor shaft arrangement, in particular for an electric machine, with a rotor (10) and with a rotor shaft (20), characterized in that a positive connection between the rotor shaft (20) and a rotor flange (30) for fixing the rotor (10 ) on the rotor shaft (20) by an external profiling (21) on a form-fitting portion (22) of the rotor shaft (20) and by a to the external profiling (21) corresponding inner profiling (31) on a form-fitting portion (32) of the rotor flange (30) can be formed or is formed. Rotor-rotor shaft arrangement according to Claim 1 , characterized in that the positive connection is formed as a toothing, in particular as a spline, wherein the outer profiling (21) as an external toothing and the inner profiling (31) is formed as an internal toothing. Rotor-rotor shaft arrangement according to Claim 1 or 2 , characterized in that in the form-fitting portion (32) of the rotor flange (30) an inner groove (33) for at least partially receiving a locking ring (40) is formed, wherein the rotor flange (30) by a in the inner groove (33) at least partially received Circlip (40) is securable or secured against axial displacement. Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the positive connection portion (22) of the rotor shaft (20) serves on the one hand as an axial stop for the locking ring (40) and on the other hand as an axial stop for the rotor (10). Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the rotor flange (30) rotationally symmetrical, in particular at least partially in the form of a disc is formed. Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the rotor (10) has at least one rotor disk set (11), wherein between the at least one rotor disk set (11) and the rotor flange (30), a spacer (12), in particular for magnetic decoupling of the at least one rotor blade pack (11) from the rotor flange (30) is arranged. Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the rotor (10) further comprises a clamping and / or balancing disc (13), wherein the at least one rotor disc pack (11) between the rotor flange (30) and the clamping - And / or balance disk (13) is arranged. Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the rotor flange (30) and the tensioning and / or balancing disc (13) - and in particular thereby the at least one rotor disc pack (11) and / or the spacer disc (12 ) - by screw connections (14), in particular clamping screws, are connectable or connected. Rotor-rotor shaft arrangement according to one of the preceding claims, characterized in that the at least one rotor disk set (11) and the tensioning and / or balance disk (13) have an inner diameter which on an outer diameter of a Rotorlamellenpaketabschnitts (23) of the rotor shaft (20 ) is pushed or postponed. Method for producing and / or assembling a rotor-rotor shaft arrangement according to one of the preceding claims, wherein - The rotor flange (30) is attached to the rotor (10), and wherein - The rotor flange (30) and the rotor (10) is pushed onto the rotor shaft (20) such that the inner profiling (31), in particular internal toothing of the rotor flange (30) in the outer profiling (21), in particular external toothing, the rotor shaft ( 20) engages and forms a positive connection, in particular wherein the rotor flange (30) and the rotor (10) is pushed onto the rotor shaft (20) in such a way that the inner groove (33) of the rotor flange (30) is moved over the positive connection section (22) of the rotor shaft (20) and the Rotor flange (30) by inserting a locking ring (40) in the inner groove (33) of the rotor flange (30) is secured against axial displacement.

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