This application claims priority under 35 U.S.C. §119 to European Application 06405028.9 filed in on 23 Jan. 2006, the entire contents of which is hereby incorporated by reference in its entirety.
The disclosure relates to the field of hydrodynamic machines pressurized with exhaust gases of internal combustion engines. It relates to an adjustable guide device of the exhaust gas turbine or of the compressor of an exhaust gas turbocharger, a compressor and an exhaust gas turbine with such a guide device, an exhaust gas turbocharger with such a compressor and/or with such an exhaust gas turbine and a guide vane for an adjustable guide device.
Exhaust gas turbochargers are used to boost the output of internal combustion engines. In modern internal combustion engines, matching the exhaust gas turbocharger to variable operating conditions is becoming increasingly more difficult. So-called variable turbine or compressor geometry offers one popular possibility. In a variable turbine geometry the guide vanes of the guide apparatus are aligned more or less steeply to the flow upstream of the turbine wheel according to the turbine power demand. In variable compressor geometry the diffusor vanes are aligned more or less steeply to the flow downstream from the compressor wheel. The vanes are generally adjusted via so-called adjusting levers which are moved by an adjusting ring located concentrically to the axis of the exhaust gas turbocharger. For radial turbines or radial compressors the guide vane or diffusor vane is generally parallel to the shaft axis. The shaft of the guide or diffusor vane is preferably supported twice in a housing and is turned by means of an adjusting lever which acts on the vane shaft between the two bearing points. DE 102 09 172 shows a conventional adjustable guide apparatus in which the adjusting lever after mounting the vanes is slipped onto the vane shaft and then fixed. The vane shaft can also be supported by means of an individual hole, as described in EP 1 396 621. Here the adjusting lever is also mounted subsequently after inserting the vanes.
The precisely machined joint between the slipped-on adjusting lever and the blade shaft on the one hand causes additional costs and on the other hand reduces the operating reliability of the adjustment mechanism. Relative movements which can consequently lead to wear over a longer operating time occur in the connection due to the production- and installation-induced plays.
EP 1 234 950 A1 discloses a guide device with adjustable guide vanes which are made in one piece and which are pivotally supported in hemispherical bearing openings which are opened on one aide. The bearing openings are closed with a straight cover so that the guide vanes do not fall out with the corresponding loading in the direction of the cover. In the area of the cover the bearing points of the guide vanes experience high surface pressure due to the linear support. This can lead to wear phenomena on the guide vanes and bearing opening.
A guide device is disclosed which operates reliably over a long operating time, with adjustable guide vanes.
The guide vanes can be supported in a two-part or multipart housing which therefore surrounds for example a radially outer peripheral ring and a radially inner housing part. Housing separation takes place radially in the region of the bearing point of the vane shaft so that the separating joint between the housing parts leads through the bearing openings which are designed to hold the vane shafts.
In one exemplary embodiment the two partial openings of the bearing opening for holding the vane shafts are each in the shape of a circular arc so that together they form a complete circular opening when the two housing parts are mounted. Regardless of the loading direction, the cylindrical vane shafts thus sit over a large area in the round opening.
In another embodiment the guide device is equipped with guide vanes which have adjusting levers which are materially joined to the vane shaft. In this way the number of components to be used can be reduced by the additional adjusting levers. Moreover, the connecting zone between the adjusting lever and the vane shaft which is heavily loaded during operation can be eliminated.
The guide vane can be produced in one embodiment in one piece as a precision casting with the vane profile, the vane shaft and the adjusting lever. The adjusting lever is thus an integral component of the vane shaft.
Integration of the adjusting lever in the vane shaft greatly facilitates the installation of the adjustable guide device and yields much greater reliability of the guide device in long-term operation.
Various embodiments of the invention are detailed below using the drawings.
The illustrated radial compressor comprises a compressor wheel which is located on a shaft which is pivotally mounted in the bearing housing 30. The compressor wheel has a hub 11 with a host of a rotor blades 12. The compressor wheel hub together with an insert wall 32 borders a flow channel. In the flow direction downstream of the compressor wheel the flow channel is bordered by the bearing housing and the compressor exit housing 31. In the region of the diffusor, downstream from the compressor wheel, there is an adjustable diffusor guide device.
This guide device comprises a plurality of adjustable guide vanes 21 which can each be rotated around a pivotally mounted vane shaft 22. The guide vane and the vane shaft can be connected to one another by a force-fit, form-fit or materially.
The vane shaft is pivotally mounted in a housing. To drive the vane shaft there is an adjusting lever 23 which transmits force from an adjusting ring 4 to the vane shaft. The adjusting lever is for example cast and/or milled with the vane shaft as a single component.
In one exemplary embodiment the guide vane 21, the vane shaft 22 and the adjusting lever 23 are materially joined to one another. For example, due to the fact that the guide vane, vane shaft and adjusting lever are cast and/or milled as a single component.
The housing which borders the flow channel in the region of the guide device is divided into two parts in the radial direction. In addition to the insert wall 32, it comprises a peripheral ring 33 which is located radially outside of the insert wall. In the peripheral ring and in the insert wall there are bearing points 25 for supporting the vane shaft, as can be taken from the enlargement in
An elongated groove 24 is inlet into the free end of the adjusting lever and in it the driving pin of an adjusting ring for driving the adjusting lever can be held. The elongated groove can also be made as a slot in which the driving pin can move back and forth, but which prevents the driving pin from being pulled entirely out of the groove.
If the portion 341 of the bearing opening 34 in the insert wall 32 as is shown in
An exemplary bearing opening can be comprised of two partial openings 341 and 342 with the shape of a partial circular arc, and combined in cross section—therefore perpendicular to the bearing axis of the vane shaft—yield a completely round opening 34. The separating joint 36 between the two housing parts, the insert wall 32 and the peripheral ring 33 leads as through the opening 34. The completely round opening 34 leads to the bearing point 33 of the vane shaft having large-area support in any position. Regardless of the loading direction, the cylindrical shaft sits flat in the round opening. Thus, high surface pressures can be avoided which arise when the vane shaft is supported in a non-round or only partially round opening.
If the vane-shaft has a region with a diameter which has been reduced relative to the bearing point 25, the vane shaft with the region with a reduced diameter can be inserted into the bearing opening and then pushed in the axial direction into the definitive position.
Before the guide vanes with the vane shafts are inserted into the bearing openings of the insert wall which are intended for this purpose, the adjusting ring 4 is placed in a recess of the insert wall intended for this purpose. If then all guide vanes are inserted, the peripheral ring 33 can be pushed in the radial direction over the insert wall so that the free ends of the vane shafts 22 are inserted into the openings in the peripheral ring which are intended for this purpose and which are equipped with spring elements 7. The adjusting ring 4 is advantageously axially guided, for example via the corresponding axial stops on the insert wall and/or on the peripheral ring. The peripheral ring is finally attached to the insert wall by fastening means 6. The adjustable guide device can then be installed together with the insert wall on the central opening of the compressor housing 31.
The cavity 37 which is surrounded by the insert wall 32 and the peripheral ring 33 (see
The combination of guide vanes made in one piece and the sealed cavity can be implemented due to the division of the insert wall and peripheral ring as claimed in the invention.
The peripheral ring can alternatively also be made in several parts. In this way the several parts of the peripheral ring can be placed on the insert wall in the radial direction from the outside. This enables additional free construction space in the configuration of the adjustable guide device.
To improve the operating reliability of the adjusting lever-adjusting ring coupling the inherently cylindrically made driving pin which can freely rotate in a round opening in the adjusting ring can be made with two planar slide surfaces which rest on the correspondingly flat slide surfaces of the groove on the free end of the adjusting lever.
The exemplary guide devices can be inserted both in the compressor and/or turbine of an exhaust gas turbocharger for supercharging of two-stroke and four-stroke internal combustion engines and also in turbines for useful turbines operated with the exhaust gases of an internal combustion engine.
It will be appreciated by those of ordinary skill in the art that the exemplary guide devices described here can be embodied in various specific forms without departing from the essential characteristics thereof. The presently disclosed embodiments are considered in all respects to be illustrative and not restrictive. The scope of the invention is indicated by the appended claims, rather than the foregoing description, and all changes that come within the meaning and range of equivalence thereof are intended to be embraced.
Number | Date | Country | Kind |
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06405028.9 | Jan 2006 | EP | regional |
Number | Name | Date | Kind |
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4726744 | Arnold | Feb 1988 | A |
4792277 | Dittberner et al. | Dec 1988 | A |
5184459 | McAndrews | Feb 1993 | A |
5380152 | Sikorski et al. | Jan 1995 | A |
5518365 | Baets et al. | May 1996 | A |
Number | Date | Country |
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102 09 172 | Sep 2003 | DE |
1 234 950 | Aug 2002 | EP |
1 396 621 | Mar 2004 | EP |
Number | Date | Country | |
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20070172347 A1 | Jul 2007 | US |