The invention relates to a compressor, particularly in an exhaust gas turbocharger, for an internal combustion engine with a compressor wheel rotatably supported in a compressor housing and a diffuser which is arranged in the compressor housing upstream of the compressor wheel and has a variable diffuser geometry formed by adjustable guide vanes.
In such a compressor as described for example in U.S. Pat. No. 5,207,559, fresh air is supplied to the compressor by way of a compressor supply channel and is compressed by a compressor wheel in the compressor housing and is then conducted downstream of the compressor wheel through a diffuser. The compressor wheel is driven via a shaft by a turbine with a turbine wheel to which gas under pressure is supplied.
In order to increase the operating range of the compressor which is limited on one hand in the area of small mass flows by the pumping limit and, on the other hand, in the area of large mass flows by the blocking limit, the compressor has a variably adjustable diffuser geometry which permits to change the geometry of the diffuser downstream of the compressor wheel depending on the momentary operating point of the compressor. The diffuser geometry comprises guide vanes which are distributed over the circumference of the diffuser and are pivotally supported so as to be adjustable and a rotatable adjustment ring is provided with adjustment members engaging the guide vanes for pivoting the guide vanes about their pivot axes so as to adapt the guide vane positions to various flow conditions in the diffuser.
The adjustment movement of the adjustment ring is transferred by the adjustment members to the guide vanes which are supported in the housing. The adjustment members are rotatably supported by the adjustment ring and bridge a radial gap between the adjustment ring and the guide vane pivot shafts. Because of the pivotal support of the guide vanes shafts in the housing and the distance between the guide vane shafts and the support shafts of the adjustment members, the adjustment ring can be pivoted only to a limited degree. Large adjustment movements cannot be accomplished with this adjustment arrangement and an accurate adjustment of the guide vane positions cannot be ensured.
It is the object of the present invention to provide such a compressor with a variably adjustable diffuser geometry which is simple in design and accurately adjustable. It should also be safe from jamming and from distortions and operable with relatively small adjustment forces.
In a compressor particularly of an exhaust gas turbocharger of an internal combustion engine having a compressor wheel rotatably supported in a compressor housing which includes a diffuser structure with an adjustable diffuser geometry comprising guide vanes pivotally supported, an adjustment ring is provided with engagement elements which engage forked end structures of the guide vanes at the outer ends of the guide vanes opposite the pivotal guide vane support so that the pivot position of the guide vanes can be adjusted by rotation of the adjustment ring.
In this way, the adjustment force for changing the pivot position of the guide vanes is not applied to the guide vane pivot shaft, but is directly transmitted to the guide vanes at a distance from the guide vane pivot shaft whereby smaller and more accurately controllable adjustment forces are required for the adjustment of the guide vanes. Expediently, the guide vanes which are annularly uniformly distributed around the compressor wheel are engaged by adjustment elements particularly at their radially outer ends which are disposed at a larger distance from the center of the diffuser geometry than the guide vane shafts. In this embodiment, the guide vanes are advantageously supported on a bearing ring, particularly they are engaged by the bearing ring only at one side thereof. With such an engagement of the guide vanes only at one side of the compressor diffuser in the compressor wheel discharge area, the possibility of jamming of the guide vanes is eliminated which, with a double-sided support on the opposite diffuser walls could possibly occur because of the substantial temperature differences between the diffuser walls.
Another advantage of the arrangement according to the invention resides in the simple design and in the small number of building components required, particularly the relatively small number of movable parts. As a result, undesired leakages, particularly in the area of the support shaft penetrations are reduced and the efficiency of the compressor is improved.
In accordance with a preferred embodiment of the invention, the guide vanes are fork-like shaped at their ends remote from the guide vane shafts so that they have two spaced tines between which the adjustment element of the adjustment ring extends. The adjustment element is preferably an adjustment pin which is firmly mounted to the adjustment ring and which, with a rotation of the adjustment ring, adjusts the pivot position of the guide vanes, all by the same angle as desired. This simple arrangement has been found to operate with high reliability.
By a rotation of the adjustment ring, the guide vanes are pivoted about the guide vane shaft by the desired angle wherein, with a co-axial arrangement of the adjustment ring and the compressor wheel, the distance of the adjustment elements from the compressor wheel remains constant during the adjustment movement of the adjustment ring.
Expediently, the diffuser geometry, which comprises the pivotable guide vanes, is supported directly on a back wall of the compressor housing which also delimits the front side of the compressor wheel. Furthermore, the diffuser geometry may comprise a support ring on which the guide vane shafts are supported and which is firmly connected to the housing, particularly the rear wall of the compressor housing. At the front side of the support ring, there are, also expediently uniformly distributed in an annular pattern, a plurality of guide vanes whose guide vane shafts are rotatably supported on the support, ring. Each guide vane is operated by an associated adjustment element of the adjustment ring, wherein the adjustment elements on the adjustment ring extend over the support ring at the radially outer end thereof. The support ring is arranged preferably between the guide vanes and the adjustment ring, wherein, preferably, the support ring is rotatably received in the adjustment ring. This can be realized in that the radially outer end of the support ring is supported rotatably at the radially inner end of the adjustment ring. Alternately, the support ring may be provided with axially projecting support elements which are supported rotatably at the radially inner end of the adjustment ring.
The rotational movement of the adjustment ring about the adjustment ring axis for adjusting the guide vanes between the guide vane end positions is accomplished expediently via a push/pull rod which is connected to the adjustment ring and which is operated by an actuator.
The invention will become more readily apparent from the following description thereof on the basis of the accompanying drawings.
The diffuser 11 is in the form of a radial annular exit channel between the radial exit passage of the compressor wheel 9 and the spiral discharge channel 12 and includes an adjustable diffuser geometry or guide vane structure 13, by way of which the effective flow cross-section of the diffuser 11 can be adjusted depending on the operating conditions of the internal combustion engine or the drive components connected to the internal combustion engine. The flow cross-section of the diffuser is changed by the adjustment of the diffuser geometry particularly by an increase of the operating range of the compressor. It is possible in this way to stabilize the compressor operation near the limits of the acceptable compressor operating range close to the blocking limit and also close to the pumping limit so that the pumping limit and consequently compressor pumping conditions can safely be avoided.
In the exemplary embodiment, the diffuser geometry can be adjusted by adjustable guide vanes which are arranged in the diffuser flow cross-section. The diffuser geometry may also be adjusted by an axial displacement of the diffuser side walls. In the embodiment shown herein, a compressor back wall forms one of the side walls of the diffuser 11, wherein the compressor back walls 14 delimits the axial front side of the compressor wheel 9 as well as the variable diffuser geometry 13.
The variable diffuser geometry 13 may be a pre-assembled module which is installed into the diffuser 11.
The exhaust gas turbine 2 may also be provided with a variably adjustable flow geometry (inlet vane structure) by way of which the effective turbine inlet flow cross-section is adjustable.
Each guide vane 16 is fork-like shaped with two spaced fork tines 22 and 23 disposed at their outer ends between which a radially outwardly open engagement channel is formed into which the adjustment element 20 extends in any position of the adjustment ring 19. In this way, it is ensured that, during an adjustment movement of the adjustment ring 19 in the direction of the arrow 25, the guide vanes 16 are firmly guided in any position of the adjustment ring 19.
The adjustment can be supported by the support ring 18 in an alternative embodiment also in such a way that support elements which are connected to the support ring and project axially from the support ring abut the radially inner end of the adjustment ring which thereby is rotatably supported on the support ring 18.
The variable diffuser provides for a control arrangement for the air mass flow to the engine or, respectively, the air ratio λ which, with the free adjustability of the guide vanes, is accurately adjustable depending on the individual control requirements for the air flow to be supplied to the engine. In this way, particle flow regeneration of for example a Diesel engine can be supported by a short reduction of the air ratio λ and a resulting increase in the engine exhaust gas temperatures. Furthermore, a catalytic converter operating temperature can be adjusted depending on individual requirements. Furthermore, at engine start up, the engine startup period or the engine exhaust temperature can be increased for a reduction of the engine emissions and increasing the catalytic converter operating temperature. By increasing the engine temperature in certain engine operating ranges, with the use of an SCR system, also the conversion rate can be increased. The variable diffuser permits furthermore a reduction of the exhaust gas turbocharger speed in connection with the use of a larger compressor without a deterioration of the pumping limit of the compressor.
Number | Date | Country | Kind |
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102 38 658 | Aug 2002 | DE | national |
This is a Continuation-In-Part Application of International Application PCT/EP03/08741 filed Aug. 7, 2003 and claiming the priority of German application 102 38 658.7 filed Aug. 23, 2002.
Number | Name | Date | Kind |
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3992128 | Lunsford et al. | Nov 1976 | A |
4325673 | Hall, Jr. | Apr 1982 | A |
4403913 | Fisker | Sep 1983 | A |
4657476 | Berg | Apr 1987 | A |
4780049 | Palmer et al. | Oct 1988 | A |
5207559 | Clevenger et al. | May 1993 | A |
Number | Date | Country |
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1 211 746 | Mar 1966 | DE |
24 42 896 | Mar 1976 | DE |
2 599 436 | Dec 1987 | FR |
Number | Date | Country | |
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20050207885 A1 | Sep 2005 | US |
Number | Date | Country | |
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Parent | PCT/EP03/08741 | Aug 2003 | US |
Child | 11064417 | US |