DE102017208036A1 - stator - Google Patents

Abstract

The invention relates to a stator (12) for a media splitting machine (10), in particular for a compressor (2) or a turbine (3), with an annular stator yoke (14) and with a plurality of radially inwardly from the stator yoke (14). in the direction of a longitudinal center axis of the media splitting machine (10) - extending stator teeth (15). It is provided that at least one of the stator teeth (15) is at least partially made of a powder metallurgical iron, cobalt and / or nickel-based material.

Description

The invention relates to a stator for a media splitting machine, in particular for a compressor or a turbine, with an annular stator yoke and with a plurality of stator yokes extending radially inward - in the direction of a longitudinal central axis of the media splitting machine.

The invention further relates to a media splitting machine, in particular for a compressor and / or a turbine, with a stator and a rotor mounted on a shaft rotatable about a longitudinal central axis.

Moreover, the invention relates to a compressor or a turbine, with a housing in which an impeller is arranged on a rotatably mounted shaft, and with a media splitting machine operatively connected to the shaft.

Furthermore, the invention relates to an exhaust gas turbocharger with a compressor and a turbine.

Finally, the invention relates to a method for producing a stator for a media splitting machine having an annular stator yoke and having a plurality of stator teeth extending radially inwardly from the stator yoke - in the direction of a longitudinal center axis of the media splitter.

State of the art

Stators of the type mentioned are known from the prior art. For example, the published patent application DE 10 2014 210 451 A1 a stator with an annular stator yoke and with several inwardly - in the direction of the rotor - protruding stator teeth. Such stator teeth serve to optimize the magnetic flux and the cooling of the stator. However, it is known that such stator teeth increase the flow resistance when a medium is passed through the stator, and thus lead to power losses. Thus, the efficiency of a media splitting machine, a compressor, a turbine or an exhaust gas turbocharger is reduced with such a classic stator.

From the state of the art also media splitting machines of the type mentioned are also known. Thus, the patent application discloses EP 1 995 426 A1 a media splitting machine with a stator and a rotor as well as from a stator yoke outgoing stator teeth. To guide a medium is also provided that the rotor has a maximum outer diameter, which is at most 2/3 of the inner diameter of the stator. This media can be easily passed through the media splitting machine. A disadvantage of this classic media splitting machine, however, is that the acting magnetic field between the rotor and stator is weakened due to the large air gap and therefore particularly strong magnets are necessary. Thus, the efficiency is low in such a classical media splitting machine.

Disclosure of the invention

The stator according to the invention with the features of claim 1, however, has the advantage that a medium to be guided between the stator teeth and / or between the stator and a rotor can be guided therein substantially without loss of efficiency. Furthermore, such a stator has the advantage that a magnetic field acting between stator and rotor is particularly strong due to the good magnetic, in particular ferromagnetic properties of the stator teeth. Furthermore, such a stator has the advantage that the flow resistance for a feeding in the stator medium is low and that at least the stator teeth are very hard, solid, corrosion-resistant and at the same time have good elasticity. According to the invention, it is provided for this purpose that at least one of the stator teeth is made, at least in sections, from a powder metallurgical iron, cobalt and / or nickel-based material. In contrast to conventional stator teeth, which are usually made of electrical steel, any shapes of the stator teeth can be realized by means of production from a powder metallurgical iron, cobalt and / or nickel-based material, in particular from a granulate. Also, the stator teeth are moldable in a powder metallurgical process, in particular a themoplastic molding process, in particular an injection molding process, and preferably produced in one of these processes.

Furthermore, it is preferably provided that the powder metallurgical iron, cobalt and / or nickel-based material of the stator is a metallic glass, in particular a solid metallic glass. Metallic glasses are particularly stable and corrosion resistant and thus particularly well suited for use in a stator. In addition, a metallic glass has very good magnetic properties, in particular a good saturation polarization and outstanding permeability. At the same time it has a high electrical resistance, so that eddy current losses in the stator are low.

The metallic glass provided here is designed to be particularly thin, it preferably covers the individual stator teeth or at least one of the stator teeth at least in sections. Alternatively, however, a larger portion and / or at least one of the stator teeth is completely off solid metallic glass. In this case, a solid metallic glass is to be understood as meaning, in particular, a metallic glass which, at least in sections, has a particularly high thickness. A mere coating with a metallic glass is therefore not to be understood as a solid metallic glass. In particular, solid metallic glasses have a thickness of> 1 mm. Especially in the case that at least one of the stator teeth is made entirely of metallic glass, this is to be understood as a solid metallic glass.

According to one embodiment of the invention, it is provided that at least one of the stator teeth consists of a powder metallurgical iron, cobalt and / or nickel-based material. Such a stator has the advantage that the at least one stator tooth is particularly stable and the efficiency is increased in a media splitting machine with such a stator.

Furthermore, it is preferably provided that a plurality of stator teeth, in particular all stator teeth are made of a powder metallurgical iron, cobalt and / or nickel-based material. The stability of such a stator is advantageously further increased. Also, the corrosion resistance and the wear properties are improved.

According to a preferred embodiment of the invention it is provided that the stator yoke is made of the powder metallurgical iron, cobalt and / or nickel-based material. Thus, advantageously, particularly good magnetic properties, in particular a high magnetic conductivity are created.

According to one embodiment of the invention, it is provided that the stator teeth are formed integrally with the stator yoke. As a result, the stability of the stator is further increased.

Additionally or alternatively, it is preferably provided that the respective stator tooth is designed to be flow-optimized as a distributor for a media splitting machine. Such stator teeth have the advantage that the flow resistance is low and thus the efficiency of a media splitting machine with such stator teeth is particularly high. In particular, the stator tooth is designed to be optimized for flow in an axial direction along a longitudinal central axis of the media splitting machine. Alternatively or additionally, however, it is also provided that the stator tooth has a flow-optimized shape in a radial direction.

According to a preferred embodiment of the invention, it is provided that the respective stator tooth has an ovoid, in particular an ellipsoidal shape. Thus, particularly advantageous flow properties are created and the efficiency of the media splitting machine with such a stator tooth is further increased.

An ovoid, in particular an ellipsoidal shape of the respective stator tooth is preferably formed in the radial direction to a longitudinal central axis of the media splitting machine and / or in an axial direction along the longitudinal central axis.

The media splitting machine according to the invention, in particular for a compressor and / or a turbine with a stator and a rotor mounted on a shaft rotatable about a longitudinal center axis, is characterized by the inventive design of the stator. Accordingly, the advantages already mentioned above arise.

The compressor according to the invention or the turbine with the features of claim 10 is characterized by the inventive design of the media splitting machine. It also results here already mentioned advantages.

The exhaust gas turbocharger according to the invention with the features of claim 11 is characterized by the inventive design of the compressor and / or the turbine. This results in the already mentioned advantages.

The inventive method for producing a stator having the features of claim 12 is characterized in that at least one of the stator teeth is at least partially made of a powder metallurgical iron, cobalt and / or nickel-based material.

• 1 ein Ausführungsbeispiel eines Abgasturboladers mit einem Verdichter, einer Turbine, einer Medienspaltmaschine mit einem Stator und einem Rotor in einer verinfachten Längsschnittdarstellung
• 2 ein Ausführungsbeispiel einer erfindungsgemäßen Medienspaltmaschine mit einem Stator und einem Rotor in einer Querschnittsdarstellung

In the following, the invention will be explained in more detail with reference to the drawing. Show this

• 1 An embodiment of an exhaust gas turbocharger with a compressor, a turbine, a media splitting machine with a stator and a rotor in a simplified version of the longitudinal section
• 2 An embodiment of a media splitting machine according to the invention with a stator and a rotor in a cross-sectional view

1 shows in a simplified longitudinal sectional view of an exhaust gas turbocharger 1 , the one compressor 2 as well as a turbine 3 having. The compressor 2 has a first impeller, in particular a compressor wheel 4 up, that on a wave 5 is arranged rotationally fixed. The wave 5 is itself rotatable in a housing 6 the exhaust gas turbocharger 1 stored. At one of the compressor wheel 4 opposite end of the shaft 5 is also a second impeller, here a turbine wheel 7 the turbine 3 rotatable with the wave 5 connected. If the turbine wheel 7 From the exhaust gas of an internal combustion engine flows and is thereby driven, so that the compressor wheel 4 also set in a rotational movement, so that the compressor wheel 4 supplied fresh air compressed and the internal combustion engine is supplied.

The rotatable bearing of the shaft 5 in the case 6 can be realized in different ways. According to a first embodiment, it is provided that the shaft 5 through at least two bearings 8th and 9 in the case 6 is rotatably mounted. Preferably are as bearings 8th . 9 two rolling element bearings available. For axial bearing of the shaft 5 can also be provided that one of the rolling element bearing is designed as Axialwälzkörperlager.

Alternatively and according to the in 1 shown embodiment, it is provided that the bearing 8th is designed as a magnetic bearing, and the bearing 9 , which serves as a thrust bearing, as a roller bearing.

So that in particular the compressor 2 is independently driven by the exhaust stream of the internal combustion engine, so that at any time a high cylinder air filling in the cylinders of the internal combustion engine can be achieved, is also provided in this case that the exhaust gas turbocharger 1 an electric media splitting machine 10 having. This is present in the compressor 2 integrated, with a rotor 11 the media splitting machine 10 rotationally fixed on the turbine wheel 7 opposite end of the shaft 5 is arranged. One with the rotor 11 cooperating stator 12 , in particular with an energizable drive winding 17 , is coaxial with the rotor 11 fixed to the housing in the compressor wheel 4 leading flow channel 13 the exhaust gas turbocharger 1 arranged.

2 shows a simplified representation of the media splitting machine 10 in a cross-sectional view. In particular, there are stator 12 and rotor 11 the media splitting machine 10 shown. The stator 12 has an annular Statorjoch 14 of which several evenly over the circumference of the stator yoke 14 distributed stator teeth 15 of which only one is provided with a reference numeral project radially inwards and in the direction of the rotor 11 or the axis of rotation of the shaft 5 point. The stator teeth 15 ends radially spaced from the rotor 11 so that between the stator teeth 15 and the rotor 11 one air gap remains.

The stator teeth 15 have at least in their respective end region, that of the drive winding in the direction of the rotor 11 protrudes, an ovoid shape. In particular, the stator teeth 15 oval in cross section in said end region. But also in a longitudinal section in the axial direction - along the longitudinal center axis of the media splitting machine 10 - are the stator teeth 15 in particular, preferably only, ovoid or oval shaped in said end region and thus formed optimized flow. As a result, particularly advantageous flow properties for the media splitting machine 10 flowing medium and high efficiency of the media splitting machine 10 created.

In addition, the stator teeth 15 , optionally also the Stator yoke 14 , from a powder metallurgical iron, cobalt and / or nickel-based material, here from a massive metallic glass 16 in particular in one piece with the stator yoke 14 manufactured. Thus, the magnetic conductivity of the stator 12 , the corrosion resistance of the stator 12 and the efficiency of the media splitting machine 10 improved.

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 102014210451 A1 [0006]
• EP 1995426 A1 [0007]

Claims (12)

A stator (12) for a media splitting machine (10), in particular for a compressor (2) or a turbine (3), having an annular stator yoke (14) and having a plurality of radially inwardly from the stator yoke (14) - in the direction of a longitudinal central axis the media splitting machine - extending stator teeth (15), characterized in that at least one of the stator teeth (15) is at least partially made of a powder metallurgical iron, cobalt and / or nickel-based material. Stator (12) according to one of the preceding claims, characterized in that the powder metallurgical iron, cobalt and / or nickel-based material is a metallic glass (16), in particular a solid metallic glass (16). Stator (12) according to one of the preceding claims, characterized in that at least one of the stator teeth (15) consists of a powder metallurgical iron, cobalt and / or nickel-based material. Stator (12) according to one of the preceding claims, characterized in that a plurality of stator teeth (15), in particular all the stator teeth (15) are made of a powder metallurgical iron, cobalt and / or nickel-based material. Stator (12) according to one of the preceding claims, characterized in that the stator yoke (14) is made of the powder metallurgical iron, cobalt and / or nickel-based material. Stator (12) according to one of the preceding claims, characterized in that the stator teeth (15) are formed integrally with the stator yoke (14). Stator (12) according to one of the preceding claims, characterized in that the respective stator tooth (15) is designed to be flow-optimized as a distributor for a media splitting machine. Stator (12) according to one of the preceding claims, characterized in that the respective stator tooth (15) has an ovoid, in particular an ellipsoidal shape. A media splitting machine (10), in particular for a compressor (2) and / or a turbine (3), with a stator (12) and a rotor (11) mounted on a shaft rotatable about a longitudinal central axis, characterized in that the stator (12 ) after one of the Claims 1 to 8th is trained. Compressor (2) or turbine (3), with a housing in which an impeller (4,7) on a rotatably mounted shaft (5) is arranged, and with a with the shaft (5) operatively connected media splitting machine (10), characterized characterized in that the media splitting machine (10) according to Claim 9 is trained. Exhaust gas turbocharger (1), with a compressor (2) and a turbine (3), characterized in that the compressor (2) and / or the turbine (3) according to Claim 10 are formed. Method for producing a stator (12) according to one of the Claims 1 to 8th for a media splitting machine (10) with an annular stator yoke (14) and with a plurality of stator yokes (14) radially inwardly - in the direction of a longitudinal center axis of the media splitting machine (10) - extending stator teeth (15), characterized in that at least one of Statorzähne (15) is at least partially made of a powder metallurgical iron, cobalt and / or nickel-based material.

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