DE102013013235A1 - End cover for a compressor impeller of an exhaust gas turbocharger and turbocharger - Google Patents

Abstract

End cover (13) for a compressor impeller of an exhaust gas turbocharger, via which the air-conducting compressor impeller of ölbeaufschlagten assemblies of the exhaust gas turbocharger is separable, with a passage opening (17) for a shaft having base body (16), wherein on the base body (16) at least one ring-like projection (22) is formed.

Description

The invention relates to a closure cover for a compressor impeller of an exhaust gas turbocharger according to the preamble of claim 1. Furthermore, the invention relates to an exhaust gas turbocharger according to the preamble of claim 6.

From the DE 10 2010 038 524 A1 is the basic structure of an exhaust gas turbocharger known. Thus, the exhaust gas turbocharger shown there includes a compressor having a compressor impeller and a compressor impeller shell and a turbine having a turbine impeller and a turbine runner housing, wherein the compressor impeller and the turbine runner are coupled via a shaft which is mounted in a bearing housing. After DE 10 2010 038 524 A1 In each case a cover is provided both in the area of the turbine and in the area of the compressor, wherein the end cover for the compressor impeller separates the air-conducting compressor impeller from oil-loaded assemblies of the exhaust gas turbocharger, and the end cover associated with the turbine impeller likewise separates the exhaust gas-carrying turbine impeller from oil-loaded assemblies of the exhaust gas turbocharger , The shaft which couples the compressor impeller with the turbine runner extends on the one hand through a passage opening in the end cover of the compressor impeller and on the other hand through a passage opening in the end cover of the turbine runner.

During operation of the exhaust gas turbocharger there is a risk that the compressor impeller breaks. Then, when the compressor impeller breaks, fragments of the compressor impeller may damage the compressor impeller cover, allowing oil from the oil-imparted assemblies to enter the area of the air-bearing compressor impeller. This can lead to an oil mist explosion.

There is therefore a need for an exhaust gas turbocharger or on a cover for a compressor impeller of the exhaust gas turbocharger, with which the risk of such oil mist explosion can be reduced.

On this basis, the invention is based on the object to provide a novel cover for a compressor impeller of an exhaust gas turbocharger and an exhaust gas turbocharger with such a cover.

This object is achieved by a cover according to claim 1. According to the invention, at least one ring-like projection facing the compressor impeller is formed on the main body of the end cover. The or each annular projection formed on the base of the end cap and facing the compressor impeller stiffens the compressor impeller cover. Should the compressor impeller break, this reduces the risk of damaging the end cover in such a way that an oil mist explosion can occur. The or each annular projection receives kinetic energy from fragments of the compressor impeller and can deflect same.

Preferably, the or each projection rotates in the circumferential direction and extends, starting from the main body in the axial direction of the compressor impeller. This embodiment of the or each projection on the end cover of the compressor wheel provides a particularly advantageous stiffening of the end cover.

According to an advantageous development, a plurality of the compressor impeller facing, annular and concentric projections are formed on the body. Hereby, the end cover can be optimally stiffened.

Preferably, an axial extent of the projections is dimensioned such that free ends of the projections each have a nearly identical distance to the end cover facing the compressor wheel contour. Preferably, in the radial direction, a distance between adjacent projections corresponds at least to the radial thickness of the projections. Hereby, the kinetic energy of it in the event of damage to the compressor wheel forming fragments of the same can be optimally absorbed.

The exhaust gas turbocharger according to the invention is defined in claim 6.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

1 a cross section through a cover according to the invention for a compressor impeller of an exhaust gas turbocharger;

2 a plan view of the end cap according to the invention; and

3 an excerpted cross-section through an exhaust gas turbocharger according to the invention in the region of a cover end according to the invention.

The present invention relates to a cover for a compressor impeller of a Compressor of an exhaust gas turbocharger and an exhaust gas turbocharger with such a cover.

The basic structure of an exhaust gas turbocharger is familiar to those skilled in the art and, for example, from the DE 10 2010 038 524 A1 known.

For the sake of completeness, it should be pointed out here that an exhaust-gas turbocharger comprises a compressor and a turbine. The compressor has a compressor impeller and a compressor impeller housing. The turbine has a turbine runner and a turbine runner housing. The compressor impeller of the compressor and the turbine impeller of the turbine are coupled via a shaft which is mounted in a bearing housing.

The compressor impeller of the compressor of the exhaust gas turbocharger is a compressor side end cap and the turbine runner of the turbine of the exhaust gas turbocharger associated with a turbinenseitiger end cover to separate the respective wheels of an oil-carrying region of the exhaust gas turbocharger, such as oil bearing bearing housing.

3 shows a schematic, fragmentary cross section through an exhaust gas turbocharger in the region of a compressor impeller 10 , a bearing housing 11 for a wave 12 and a compressor side end cap 13 , The compressor impeller 10 is at the shaft 12 via a retaining ring 14 mounted, being between the compressor impeller 10 and the retaining ring 14 adjacent to the end cap 13 a piston ring 15 is provided.

The end cover 13 for the compressor impeller 10 , which is the air-carrying compressor impeller 10 opposite the bearing housing 11 and thus separates and seals against oil-bearing assemblies of the exhaust gas turbocharger, has a base body 16 with a passage opening 17 for the wave 12 which the compressor impeller 10 coupled with the turbine wheel.

The main body 16 of the end cover 13 has a stepped outer contour, on which in the embodiment shown several grooves 18 are formed for receiving sealing rings, not shown, the sealing of the end cover 13 opposite the bearing housing 11 guarantee.

Between the groove 18 , on the largest outer diameter of the outer contour of the main body 16 is positioned, and the groove 18 , which is based on a mean outer diameter of the outer contour of the basic body 16 is positioned, is a groove 19 formed, which together with the adjacent bearing housing 11 a cooling channel 20 defined, which is flowed through by cooling medium.

Since water is preferably used as the cooling medium is between the on the average outer diameter of the outer contour of the base body 16 located groove 18 and on the smallest outer diameter of the outer contour of the body 16 located groove 18 a leak groove 21 formed in the event that on the middle outer diameter of the outer contour of the main body 16 Positioned seal should fail to prevent penetration of the cooling water in the oil-bearing area of the turbocharger.

According to the invention is to the body 16 of the end cover 13 at least one compressor impeller 10 facing, ring-like projection 22 educated. In the illustrated preferred embodiment, there are three such annular projections 22 present, which rotate in the circumferential direction and surround concentrically.

The projections 22 extend from the main body 16 towards the compressor impeller 10 wherein an extension of the projections 22 in the axial direction A is dimensioned such that free ends of the projections 22 each a nearly identical distance to a the end cap 13 facing compressor wheel contour 23 exhibit.

As seen in the radial direction R, a distance between each adjacent projections corresponds 22 at least the radial thickness of the projections 22 ,

Risk of damage to the compressor impeller 10 is in the area where the piston ring 15 is positioned, largest. A fragment of the compressor impeller forming in this area, possibly in the event of damage 10 is due to the kinetic energy of the compressor impeller 10 initially thrown radially outward and then enters the region of at least one of the projections 22 , where the protrusions 22 deform elastically in the radial direction to absorb the kinetic energy of such a fragment, and wherein the projections 22 In this case, deflect the fragment in the axial direction, namely in the direction of the compressor impeller 10 ,

Fragments of the compressor impeller 10 can therefore use the end cap 13 of the compressor impeller 10 no longer penetrate, so in case of damage the compressor impeller 10 the functionality of the end cover 13 preserved. Accordingly, the same can still separate the oil-carrying region of the exhaust-gas turbocharger from the air-guiding region of the same, so that then there is no danger of oil getting into the air-conducting area of the turbocharger and causing an oil mist explosion.

The concentrically enclosing projections 22 are at an area of the main body 16 of the end cover 13 formed, seen in the radial direction R between the passage opening 17 for the wave 12 and on the smallest outer diameter of the outer contour of the body 16 located groove 18 is positioned.

Due to the design of the end cover 13 it is possible to make the same from a relatively inexpensive cast iron material. Such a cover made of a cast iron material can be manufactured easily and inexpensively.

LIST OF REFERENCE NUMBERS

10

compressor impeller

11

bearing housing

12

wave

13

End cover

14

retaining ring

15

piston ring

16

body

17

Through opening

18

groove

19

groove

20

cooling channel

21

leakage groove

22

head Start

23

Compressor wheel contour

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 102010038524 A1 [0002, 0002, 0016]

Claims (10)

End cover ( 13 ) for a compressor impeller of an exhaust gas turbocharger, via which the air-conducting compressor impeller is separable from Ölbeaufschlagten assemblies of the exhaust gas turbocharger, with a through opening ( 17 ) for a shaft having basic body ( 16 ), characterized in that on the base body ( 16 ) at least one ring-like projection ( 22 ) is trained. End cover according to claim 1, characterized in that the or each projection ( 22 ) in the circumferential direction and starting from the main body ( 16 ) extends in the axial direction. End cover according to claim 1 or 2, characterized in that on the base body ( 16 ) a plurality of annular and concentric projections ( 22 ) are formed. End cover according to claim 3, characterized in that an axial extension of the projections ( 22 ) is dimensioned such that free ends of the projections ( 22 ) each have a nearly identical distance to the end cap facing the compressor wheel contour ( 23 ) exhibit. End cover according to claim 3 or 4, characterized in that, viewed in radial direction, a distance between adjacent projections ( 22 ) at least the radial thickness of the projections ( 22 ) corresponds. Exhaust gas turbocharger, comprising a compressor and a turbine, the compressor comprising a compressor impeller with a compressor wheel housing, the turbine comprising a turbine impeller with a Turbinenlaufradgehäuse, wherein the compressor impeller and the turbine impeller are coupled via a bearing in a bearing housing shaft, and wherein a cover of the Compressor impeller separates the air-conducting compressor impeller of ölbeaufschlagten assemblies of the exhaust gas turbocharger, characterized in that on a base body ( 16 ) of the end cover ( 13 ) at least one of the compressor impeller ( 10 ) facing, ring-like projection ( 22 ) is trained. Exhaust gas turbocharger according to claim 6, characterized in that the or each projection ( 22 ) in the circumferential direction and starting from the main body ( 16 ) in the axial direction on the compressor impeller ( 10 ). Exhaust gas turbocharger according to claim 6 or 7, characterized in that on the base body ( 16 ) a plurality of the compressor impeller ( 10 ) facing, annular and concentric projections ( 22 ) are formed. Exhaust gas turbocharger according to claim 8, characterized in that an axial extension of the projections ( 22 ) is dimensioned such that free ends of the projections ( 22 ) each have a nearly identical distance to the end cap facing the compressor wheel contour ( 23 ) exhibit. Exhaust gas turbocharger according to claim 8 or 9, characterized in that viewed in the radial direction, a distance between adjacent projections ( 22 ) at least the radial thickness of the projections ( 22 ) corresponds.

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