KR20090035599A - Turbine housing - Google Patents

Abstract

It is an object of the invention to improve the outflow region of an axial turbine in terms of flow using simple means. According to the invention, this is achieved in that, in an axial turbine, the housing is formed, in the outflow region from the diffuser to the gas outlet housing, as one component with a combined inner and outer flow duct. As a result of the integration of the diffuser into the gas outlet housing, a housing is created which is aerodynamically optimized and ensures a maximum flow deceleration with minimum pressure loss.

Description

Turbine Housing {TURBINE HOUSING}

The present invention relates to the field of exhaust gas turbochargers for turbocharged internal combustion engines.

The present invention relates to an axial turbine housing of an exhaust gas turbocharger and a method of manufacturing such a turbine housing.

Exhaust gas turbochargers are used to improve the performance of internal combustion engines, in particular reciprocating piston internal combustion engines. In this case, the exhaust gas turbocharger generally comprises a centrifugal compressor and a radial or axial turbine.

When designing the exhaust turbocharger for a particular application, the turbine side is formed above all to meet the needs of the internal combustion engine. For example, turbine blades with different blade heights may be provided for a given turbine size, ie a specific turbine wheel size and corresponding turbine housing. Depending on the application, shorter or longer blades are assembled on the blade support.

To counter application variations, turbine blades with different blade heights must be able to be mounted later in existing exhaust gas turbines.

Of course, due to the changing blade height, the housing part immediately around the movable blade, in particular the diffuser outer wall, must also be fitted. This can be cumbersome in conventional exhaust gas turbines, especially where a larger housing portion, which may have a significant weight, has to be replaced on the exhaust turbocharger.

For example, as known from DE 101 37 899 C1, the gas outlet housing of an axial turbine is generally formed as a focusing chamber, which has a substantially semicircular cross section on one side and a connection with an outlet line on the other. It has a round or rectangular flange for it. A diffuser protrudes into the focusing chamber, which extends substantially axially adjacent to the blade ring of the turbine wheel and switches radially in the confluence region into the focusing chamber. The flow is controlled based on the geometry of the diffuser correctly fitted, only in the region of the diffuser in a conventional outlet housing. If the flow leaves the diffuser into the focusing chamber, the flow proceeds uncontrolled.

It is an object of the present invention to improve the outflow region of an axial turbine with respect to flow using simple means.

According to the invention, the above object is achieved in an axial turbine by forming the housing as one component combining the inner and outer flow ducts in the outlet area from the diffuser to the gas outlet housing. By integrating the diffuser in the gas outlet housing, a housing is provided that is aerodynamically optimized and ensures maximum flow deceleration with minimal pressure loss.

The combined inner and outer flow ducts are defined by the gas outlet housing and the diffuser wall, where the intersection between the gas outlet housing and the diffuser wall is located at different radii along the perimeter according to the invention. This results in two partial flow ducts changing in the circumferential direction, which are responsible for the desired flow optimization.

Optionally, the diffuser has replaceable inserts in the radially outer region of the movable blade, which inserts can be replaced with other inserts of different geometrical dimensions, if desired, depending on the turbine blade height selected.

Hereinafter, the apparatus according to the present invention will be described in more detail by schematically showing in the drawings.

1 is a cross sectional view of an outlet area of an axial turbine with a diffuser and gas outlet housing integrated in accordance with the present invention;

2 is an enlarged view of a replaceable insert disposed in the diffuser in the radially outer region of the turbine blades.

Explanation of symbols on the main parts of the drawings

1 housing in the outlet area 10 gas outlet housing

11: external diffuser wall 12: internal diffuser wall

13: internal flow channel 14: external flow channel

15: insert 16: outlet end of the insert

17: radial clearance between gas outlet housing and insert

2: gas inlet housing 3: turbine wheel

31: movable blade 32: blade tip

33: Spacing between blade tip and housing 4: Nozzle ring

In all drawings, like-acting elements are denoted by the same reference numerals.

1 shows the outflow region of an axial turbine. The housing 1 in the outlet area essentially comprises a diffuser close to the turbine and an outer gas outlet housing 10, which is defined by an inner diffuser wall 12 and an outer diffuser wall 11, The gas outlet housing receives an internal flow 13 exiting the inner region of the diffuser and directs it to the outlet flange of the gas outlet housing with an external flow 14. The task of the housing in the outlet area of the turbine is to delay the flow rate of the exhaust gas without losing much pressure.

The gas outlet housing 10 is integrally formed with the diffuser housing. For this reason, an aerodynamically optimal transition is performed from the inner flow region 13 to the outer flow region 14. The region of the intersection between the gas outlet housing 10 and the outer wall 11 of the diffuser is T-shaped. The intersection point T is distributed over the perimeter along the diffuser wall and changes, so that the outer flow duct has unequal cross sections.

The gas outlet housing with integrated diffuser optionally has an insert 15, which is arranged in the radially outer region of the turbine blade 3. 2 shows an enlarged view of this area. Given a new housing size, ie a new height of the movable blade for an axial turbine given an integrated diffuser and gas outlet housing, the insert 15 can be replaced to compensate for the gap between the blade tip and the housing. In this way, several turbine forms with the same turbine size can be realized in a simple manner and without particularly the high costs associated with logistics and assembly techniques. The only housing parts distinguished are the small inserts. Large diffusers do not need to be replaced, or the entire gas outlet housings need not be replaced at all.

The insert 15 can be fixed between the diffuser outer wall and, for example, between the nozzle ring 4 or the gas inlet housing 2, as shown in FIG. 2. Alternatively, the insert can be secured to any housing piece by, for example, a screw. 2 suggests how the inner contour of the different inserts is moved radially inward for blades of different lengths with correspondingly offset blade tips 32.

The outer fixing ring of the nozzle ring 4 is arranged in front of the insert 15 in the flow direction. Preferably, the inner diameter of the outer fixing ring of the nozzle ring is smaller than the inner diameter of the inner contour of the insert 15. The difference is preferably 0.3 to 3 times the spacing between the blade tips and the inner contour of the insert.

Optionally, an insert can be arranged between the two housing parts such that the insert can have some kind of movement clearance in the radial direction. In this way, thermal stress in the insert can be prevented. The insert is then centered with respect to the turbine shaft through adjacent housing pieces. This can advantageously be achieved by the presence of a centering seat at the outlet end 16 of the insert. As long as the clearance 17 between the insert and the housing portion disposed radially outward of the insert is provided, the insert can extend freely in the radial direction radially outside the turbine blade.

The wall thickness of the insert is small compared to the neighboring housing portions. As a result, thermal stress can be prevented during sudden temperature changes. In addition to this, the difference in thermal expansion of the insert and the turbine wheel can be kept small.

The transition between the insert 15 and the outer diffuser wall 11 may be formed flat, or may be formed to provide a positive or negative stage.

In the manufacture or maintenance of the thus-formed axial turbine, the insert can be provided with the desired inner diameter before it is mounted into the integrated housing, the inner diameter being generated based on the selected turbine blade length. If the blade length has to be adjusted during operation, the insert can correspondingly be replaced by another insert with a larger or smaller inner diameter. All inserts have the same outer dimensions for a given turbine size, only the inner diameter changes.

Claims (5)

A housing of an axial turbine, the housing comprising a diffuser and a gas outlet housing, the diffuser comprising: a housing projecting into a focusing chamber defined by a gas inlet housing; Wherein the diffuser and the gas outlet housing are formed as an integral unitary housing part. The housing as claimed in claim 1, wherein the gas outlet housing (10) meets the diffuser wall (11) at an intersection point (T), and the position of the intersection point (T) at the diffuser wall changes in the circumferential direction. . 3. The integrated housing according to claim 1 or 2, wherein the integrated housing comprises an insert (15) in the radially outer region of the movable blade (31) of the axial turbine, the insert as a separate component in the integrated housing. A housing, characterized in that it is inserted. 4. A radial gap 17 is provided between the insert 15 and the housing portion disposed radially outward, the insert 15 having a centering sheet at the gas outlet side end 16. And through the centering sheet the insert is centered on a housing portion disposed radially outward. A method of making or servicing an axial turbine of an exhaust gas turbocharger in which movable blades of different lengths can be used for a given turbine size. Inserting the insert into a gas outlet housing with an integrated diffuser, the insert being pre-provided with an internal diameter adapted to the selected movable blade length.

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