EP1642009A1

EP1642009A1 - Distributor for an exhaust gas turbine

Info

Publication number: EP1642009A1
Application number: EP04731148A
Authority: EP
Inventors: Hermann Burmester; Akihiro Ohkita; Yukio Takahashi
Original assignee: IHI Charging Systems International GmbH
Current assignee: IHI Charging Systems International GmbH
Priority date: 2003-06-07
Filing date: 2004-05-05
Publication date: 2006-04-05
Anticipated expiration: 2024-05-05
Also published as: JP2006527323A; JP4280936B2; EP1642009B1; DE502004001823D1; DE10325985A1; WO2004109063A1; US20110236197A1

Abstract

The invention relates to a distributor for an exhaust gas turbine of a turbocharger. Said distributor comprises a bearing ring and a contoured sleeve that are spaced apart by spacer elements and between which adjustable guide blades are rotatably mounted. The contoured sleeve is inserted together with a radial seal in a spiral housing so as to be axially slidable and defines a lateral outer contour of a bladed wheel so as to have play. The bearing ring (22) is centered relative to a housing (27) of the exhaust gas turbine (10) and received by an annular, flexible support element (23). The invention is characterized in that the support element is produced in a non-cutting and/or cutting manner as a structural component having a constant wall thickness.

Description

Guide device for an exhaust gas turbine

The invention relates to a guide apparatus for an exhaust gas turbine according to the preamble of claim 1.

A turbocharger with an exhaust gas turbine and a compressor is known from US ^Pat. No. 2,860,827 A, the impeller with the blades of the exhaust gas turbine driving the impeller of a compressor via a drive shaft. The drive shaft is mounted in a bearing housing that is part of a turbine housing. The rotor blades are laterally delimited with play by a contour sleeve, which is inserted with an axially directed end sealingly into an outlet cross section of a spiral housing via a radial sealing ring. Between the radially outwardly extending part of the contour sleeve and a bearing ring, guide vanes are provided radially outward to the rotor blades, which are rotatably mounted in the bearing ring and can be adjusted by an adjusting mechanism mounted in the bearing housing. The contour sleeve and bearing ring are screwed together by screws and are kept at a distance by spacing ribs.

A flexible mounting ring holds and centers the bearing ring in the housing. For this purpose, the mounting ring has a Z-shaped cross-sectional profile, with a radially outwardly directed outer flange in the joint between the Bearing housing and the spiral housing engages and is held simultaneously with the housing screws, while an inner, radially directed flange engages over the bearing ring on the outer circumference and is screwed to the bearing ring. Between the inner and outer flange, the mounting ring has a relatively thin cylindrical section, through which the contour sleeve is held flexibly with the diffuser, so that, in conjunction with the radial seal at the outlet of the exhaust gas turbine, it is able to thermally expand without the Brace the adjusting device of the guide vanes. The type of storage of the adjusting device is complex to manufacture and assemble. Furthermore, the mounting ring has different wall thicknesses, so that it is expensive to manufacture.

From EP 1 227 221, a guide vane for an actuating device for a turbocharger is known, in which a guide vane carrier plate, guide vanes, levers and an adjusting ring can be manufactured, transported and installed as a module, the individual parts being captive after the connection of guide vane axes and guide vane levers are connected to the guide vane carrier plate.

The invention is based on the object of mounting a collar for adjustable guide vanes of a gas turbine of a turbocharger in a simple and inexpensive manner. It is solved according to the invention by the features of claim 1. Further advantageous embodiments result from the subclaims.

According to the invention, the annular support element is manufactured as a component with a constant wall thickness without cutting and / or cutting. As a result, it can be produced inexpensively with little effort, for example as Sheet metal part. It is also particularly light. Furthermore, due to its simple configuration, its thermal expansion and deformation can easily be determined in advance.

The bearing ring is expediently permanently connected to the spacer element, the contour sleeve and the support element via a riveted connection and preferably forms an assembly unit with the guide vanes, which are adjustably mounted between the bearing ring and the contour sleeve. This is held and centered in the housing of the exhaust gas turbine in that an outer, radially directed flange of the support element is clamped between a bearing housing and a spiral housing of the exhaust gas turbine.

According to one embodiment of the invention, it is proposed that the spacer elements are sealing bolts on which rivet heads are molded on the end face. These are used to fasten the spacer bolts on the one hand to the contour sleeve and on the other hand to the bearing ring. However, it is also possible to captively connect the bearing ring, the contour sleeve and the support element to one another via a rivet connection, a screw connection, a welded connection or a press connection, so that they form an assembly unit. In this case, the spacer element can be designed as desired and e.g. be formed by a spacer rib on the contour sleeve and / or the bearing ring.

The support element is expediently connected to the bearing ring on the side facing away from the exhaust gas, so that the inner flange is not directly exposed to the hot exhaust gases and the support element can be produced from an inexpensive material. With the same attachment as for the support element, a holding plate can be attached to the bearing ring, which with molded sharks angle to the support element forms a receiving space for an adjusting ring for the guide vanes. Both the retaining ring and the adjusting ring as well as other parts of an adjusting mechanism for the guide vanes can be added to the assembly unit by being captively connected to the bearing ring. This simplifies assembly on the one hand, and on the other hand results in simple, short components whose thermal expansions are very low. Nevertheless, it may be expedient to provide a compensating ring between the retaining ring and the support element or the bearing ring for the axial calibration of the installation space of the adjusting ring. The compensating ring is arranged between the holding plate and the support element and is preferably fastened to the bearing ring with the same fastening means as for this.

In order to reduce the thermal stresses in the suspension of the support element, it may also be expedient to connect the support element to the bearing ring on the side facing the exhaust gas.

Further advantages result from the following description of the drawing. Exemplary embodiments of the invention are shown in the drawing. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into useful further combinations.

Show:

1 shows a schematic longitudinal section through an exhaust gas turbine,

Fig. 2 shows a partial longitudinal section through a guide apparatus without guide vanes and Fig. 3 shows a partial longitudinal section in the region of an adjusting ring for the guide vanes.

An exhaust gas turbine 10 of an exhaust gas turbocharger has a bearing housing 27 in which a shaft 14 of an impeller 13 is rotatably mounted about an axis of rotation 16. The impeller 13 of the exhaust gas turbine 10 drives the impeller (not shown) of a compressor of the turbocharger via the shaft 14. The impeller 13 has blades 15, to which exhaust gas is fed in the flow direction 35 via a radially outer diffuser 17. The exhaust gas is passed via a turbine outlet 36 into an exhaust system (not shown) of an internal combustion engine.

The guide device 17 essentially comprises a contour sleeve 18, which forms a lateral boundary of the rotor blades 15 with play and is held at a distance from a bearing ring 22 by means of spacer elements 20 in the form of spacer bolts. The spacer bolts 20 have rivet heads 21 on the end face, through which the contoured sleeve 18 and the bearing ring 22 are pressed against stops of the spacer elements 20. Adjustable guide vanes 19 are rotatably mounted between the radially outwardly directed part of the contour sleeve 18 and the bearing ring 22. They are adjusted by an adjusting mechanism 28 via an adjusting ring 39, adjusting lever 41 and adjusting shafts 29 connected to the guide vanes 19 as a function of operating parameters. The bearing ring 22 and the components captively connected to it to form an assembly unit, in particular the contour sleeve 18, the guide vanes 19, the spacer elements 20, the bearing ring 22 and parts of the actuating mechanism 28, are in the housing 11, 27 of the exhaust gas turbine 10 by an annular flexible support element 23 held and centered. The support element 23 has a substantially Z-shaped cross section with an outer radial flange 24 and an inner radial flange 25. Between the two flanges 24, 25 there is a cylindrical part 26 which, due to its dimensions, contributes significantly to the flexibility of the support element 23. The support element 23 has a constant wall thickness and is expediently made of sheet metal. While the inner flange 25 is fastened to the bearing ring 22, the outer flange 24 is clamped between a fastening flange 30 of the bearing housing 27 and a fastening flange 31 of a spiral housing 11, in that the two fastening flanges 30, 31 are held together by a clamping ring 32 with a V-shaped cross section ,

The spiral housing 11 has a spiral channel 12, the flow cross section of which tapers from a tangential inlet (not shown) in a known manner over the circumference of the spiral housing 11. In the spiral housing 11, the contour sleeve 18 is inserted with its axially extending part so as to be axially displaceable to a limited extent and is sealed on its outer circumference by a radial sealing ring 34 which is embedded in a groove 33. The guide device 17 can thus adjust to different thermal expansions during the operation of the exhaust gas turbine 10, without there being tension in adjacent components, in particular the adjusting mechanism 28.

While the support element 23 with its inner flange 25 engages over the bearing ring 22 in the embodiment according to FIG. 1 and is fastened to the bearing ring 22 with the inner flange 25, the support element 23 according to FIG Side of the bearing ring 22 facing away from the exhaust gas is thus protected against the hot exhaust gases. The spacer element 20 in the form of a spacer bolt, which has rivet heads 21 on the end face, can simultaneously serve to attach the support element 23. Furthermore, a holding plate 37 can be fastened to the bearing ring 22 by the spacer element 20. The holding plate 37, with its integrally formed holding angles 38 towards the support element 23, forms an installation space for the adjusting ring 39.

A compensation ring 40 is provided between the retaining ring 37 and the support element 23 to control the necessary axial play for the adjusting ring 39 under the changing hot operating conditions of the exhaust gas turbine 10. Since it behaves similarly to the holding ring 37 under the operating conditions, its distance from the holding ring 37 or its holding angles 38 remains constant, so that the set play is maintained during operation and thermal expansions and deformations do not adversely affect the function of the adjusting mechanism.

Claims

claims

1. Leitapparat for an exhaust gas turbine of a turbocharger, which has a bearing ring and a contour sleeve, which are kept at a distance by spacers and between which adjustable guide vanes are rotatably mounted, the contour sleeve is inserted with a radial seal axially displaceable in a spiral housing and a side The outer contour of an impeller is limited with play, while the bearing ring is centered and supported by an annular, flexible support element relative to a housing of the exhaust gas turbine, characterized in that the support element (23) is produced as a component with a constant wall thickness without cutting and / or cutting.

2. Guide device according to claim 1, so that the bearing ring (22) is captively connected to the spacer element (20), the contour sleeve (18) and the support element (23) via a riveted connection and thus forms an assembly unit.

3. Leitapparat according to claim 2, characterized in that the spacer element (20) is a spacer bolt on which rivet heads (21) are integrally formed on the end face.

4. Leitapparat according to claim 1, characterized in that the bearing ring (22) regardless of the spacer (20) with the contour sleeve (18) and the support element (23) via a riveted connection, a screw connection, a welded connection or a press connection is captively connected and thus forms an assembly unit.

5. Guide device according to one of the preceding claims, that the support element (23) is connected to the bearing ring (22) on the side facing away from the exhaust gas.

6. Leitapparat according to claim 5, characterized in that on the side facing away from the exhaust gas on the bearing ring (22) an annular retaining plate (37) is attached, which with molded-on brackets (38) to the support element (23) towards a receiving space for an adjusting ring (39 ) for the guide vanes (19).

7. Guide device according to claim 6, that a compensation ring (40) is provided between the holding plate (37) and the support element (23).

8. Guide apparatus according to claim 6 or 7, characterized in that all or some of its components (18, 20, 22, 23,) including an adjusting device (28, 29, 37, 39, 40) are mounted for assembly of a mold and are captive be held together. Guide apparatus according to one of claims 1 to 4, characterized in that the support element (23) is fastened to the bearing ring (22) on the side facing the exhaust gas.