DE102013207473A1 - Exhaust gas turbocharger with housings which are interconnected by means of a press connection - Google Patents

Abstract

The invention relates to an exhaust gas turbocharger which has a turbine housing, a bearing housing and a compressor housing. The bearing housing is connected to the turbine housing and / or the compressor housing by means of a press connection.

Description

The invention relates to an exhaust gas turbocharger, which has housings which are interconnected by means of a press connection.

An exhaust gas turbocharger usually has a turbine housing, a bearing housing and a compressor housing. Within the turbine housing, a turbine wheel is provided which is fixedly connected to a shaft. The shaft extends from the turbine housing, starting through the bearing housing into the compressor housing. In the bearing housing, the shaft is mounted, for example, using thrust bearings and radial bearings. In the compressor housing, a compressor wheel is attached to the shaft.

During operation of the exhaust-gas turbocharger, the exhaust-gas mass flow of an internal combustion engine is conducted into the turbine housing and there causes the turbine wheel and the shaft connected to the turbine wheel to rotate. This rotational movement is transmitted to the compressor disposed in the compressor housing. The compressor impinges fresh air, compresses it and directs the compressed fresh air of the internal combustion engine, whose performance is increased by the compressed fresh air.

When mounting the exhaust gas turbocharger, the bearing housing must be connected to the turbine housing and the compressor housing in each case such that the loads occurring during operation of the exhaust gas turbocharger can be absorbed without the functionality of the exhaust gas turbocharger is impaired. In particular, tightness must be ensured between the individual housings.

In order to ensure the said functionality of the exhaust gas turbocharger, so far, the individual housing by means of screw, segment compounds, strap connections or clamps are connected to each other. In many cases, sealing elements for sealing between the individual housings are installed.

The object of the invention is to provide an exhaust gas turbocharger, the housing can be quickly and easily connected to each other.

This object is achieved by an exhaust gas turbocharger with the features specified in claim 1. Advantageous embodiments and further developments are specified in the dependent claims.

The advantages of the invention are, in particular, that the housing of the exhaust gas turbocharger to be joined without additional fasteners such as screws, rivets, clamping hooks, etc., can be quickly and easily connected to each other, it being ensured that the exhaust gas turbocharger in the subsequent work operation occurring loads withstand. In particular, the required tightness of the housing is guaranteed.

This is achieved according to the present invention in that the bearing housing is connected to the turbine housing and / or the compressor housing by means of a press connection, wherein for producing this press connection preferably the bearing housing and the turbine housing and / or the bearing housing and the compressor housing in a respective overlap region in Axial direction are pushed into each other.

Preferably, the telescoped housing made of different hardness materials. This has the advantage that, when the housings are pushed into one another, the housing, which consists of the harder material, presses into the housing, which consists of the softer material. As a result, the formed positive connection is reinforced and increases the load capacity of the press connection formed in the subsequent operation of the exhaust gas turbocharger.

This effect can be increased by providing the housing made of the harder material in the respective overlapping area in a connecting area with a special surface profile. Preferably, this special surface profile is a tooth profile or a groove profile.

Advantageously, the form fit formed by the press connection of the interconnected housings is further enhanced by the fact that the housings which are pushed into one another in the axial direction are additionally compressed or embossed in the radial direction in the respective overlapping area.

Alternatively or additionally, the expansion coefficients of the materials of the interconnected by means of the press connection housing are chosen such that the positive connection formed by the press connection between the interconnected housings is reinforced at the occurring during operation of the exhaust gas turbocharger high temperatures. This increases the reliability of the turbocharger during operation.

According to a further embodiment, in the respective overlap region around the radially outer of the interconnected Housing be placed a strained ribbon. This strengthens the positive connection formed by the press connection between the interconnected housings and thereby also contributes to increasing the reliability of the exhaust gas turbocharger during operation. In order to prevent slippage of the flat strip during operation of the exhaust gas turbocharger, the flat strip is placed in an advantageous manner in a flat groove of the outer of the interconnected housing.

Embodiments of the invention will be explained in more detail with reference to the drawings. It shows

1 a longitudinal sectional view of an exhaust gas turbocharger, which has a turbine housing, a bearing housing and a compressor housing,

2 an enlarged view of the detail area D1 of 1 .

3 an enlarged view of the detail area D2 of 1 and

4 a sketch illustrating an embodiment of a connection of the turbine housing of an exhaust gas turbocharger with the bearing housing of the exhaust gas turbocharger.

The 1 shows a longitudinal sectional view of an exhaust gas turbocharger ATL, which is a turbine housing 1 , a bearing housing 2 and a compressor housing 4 having. Furthermore, within the housing mentioned is a shaft 5 provided, being on this shaft within the turbine housing 1 a turbine wheel 1c is attached. Further, on the shaft 5 inside the compressor housing 4 a compressor wheel 4a attached. The wave 5 is inside the bearing housing 2 using radial bearings 2c stored.

Within the detail area D1 is the turbine housing 1 with the bearing housing 2 connected by means of a press connection. Within the detail area D2 is the compressor housing 4 with the bearing housing 2 also connected by means of a press connection. The letter "A" indicates the axial direction of the exhaust gas turbocharger, ie the longitudinal direction of the shaft 5 , The letter "R" denotes the radial direction of the exhaust gas turbocharger, which extends at an angle of 90 ° relative to the axial direction A.

The 2 shows an enlarged view of the detail area D1 of 1 , In this detail area D1 is the area of the exhaust gas turbocharger, in which the turbine housing 1 with the bearing housing 2 forms an overlap area and is connected by a press connection. This area is in the 2 designated as detail area D3. It can be seen that in this detail area D3, the mutually opposite connection areas of the turbine housing and the bearing housing in the overlap area extend in the axial direction A. Furthermore, goes from the 2 shows that in the overlap region around the turbine housing located in the radial direction R 1 a tense flat band 3 is placed between the turbine housing 1 and the bearing housing 2 further strengthened by the press connection form fit.

The 3 shows an enlarged view of the detail area D2 of 1 , In this detail area D2 is the area of the exhaust gas turbocharger, in which the compressor housing 4 with the bearing housing 2 forms an overlap area and is connected by a press connection. This area is in the 3 designated as detail area D4. It can be seen that in this detail region D4, the connecting regions of the compressor housing and of the bearing housing, which lie opposite one another in the overlapping region, each extend in the axial direction A.

The 4 shows a sketch illustrating an embodiment of a press connection of the turbine housing 1 an exhaust gas turbocharger with the bearing housing 2 the exhaust gas turbocharger. Also in the 4 is the longitudinal direction of the shaft, ie the axial direction, denoted by the letter A and the radial direction by the letter R.

The bearing housing 2 points in its connection area 2a in which it is with the turbine housing 1 connected, a special surface profile 2 B on. In the in the 4 surface profile shown is a tooth profile. Alternatively, the surface profile may also be another profile, for example a groove profile.

The turbine housing 1 points in its connection area 1a in which it is with the bearing housing 2 is connected, a surface counter profile 1b on. In this surface counter profile 1b is it in the in the 4 shown embodiment to tooth-shaped incisions into which the teeth of the tooth profile 2 B of the bearing housing 2 are positioned.

Like from the 4 it can be seen, in the embodiment shown, the turbine housing 1 and the bearing housing 2 positively connected to each other by means of a press connection.

This positive connection was brought about by the fact that in the preparation of the compound in a first step, the turbine housing 1 and the bearing housing 2 be pushed towards each other in the axial direction A until the boundary walls running in the radial direction of the turbine housing and the bearing housing abut one another. Thereafter, in a second step, exerting pressure on the turbine housing 1 in the formed overlap region in the radial direction R relative to the bearing housing 2 , By applying pressure, the teeth of the tooth profile are boring 2 B of the bearing housing in the respectively above the teeth arranged areas of the turbine housing 1 , This will be in the turbine housing 1 or in its connection area 1a the said tooth-shaped incisions, the surface counter profile 1b of the turbine housing 1 form, trained. If the application of pressure stops, then there is between the turbine housing 1 and the bearing housing 2 a positive press connection. It has been shown that this form-fitting press connection withstands the loads occurring during operation of the exhaust-gas turbocharger, it also being particularly ensured that the tightness of the housing is ensured.

The application of pressure in the radial direction R can be carried out by an additional pressing or embossing by application of an externally acting force. By this additional pressing or embossing the reliability of the formed press connection is further increased. The external force can be applied either at individual locations or over the entire circumference of the outer housing.

It can be applied using punches, rollers or other tools.

To the production of the press connection of the turbine housing 1 with the bearing housing 2 To simplify, consist of the turbine housing 1 and the bearing housing 2 advantageously made of materials of different hardness. For example, in which in the 4 shown embodiment, the bearing housing 2 made of a harder material than the turbine housing 1 , This facilitates the drilling in of the teeth of the tooth profile during the application of pressure in the radial direction R 2 B of the bearing housing 2 in the above this teeth arranged connection area 1a of the turbine housing 1 ,

When choosing the material of the housing is further ensured that the material used in each case the best possible meet the high temperatures occurring during operation of the exhaust gas turbocharger. For example, a material is used as the material for the turbine housing, which withstands the particularly high temperatures that the exhaust gas flowing into the turbine housing of the internal combustion engine has.

Furthermore, care is taken in the choice of materials that the expansion coefficients of the different materials and the thermal expansion occurring therewith and with the respective temperatures are coordinated so that a safe operation of the exhaust gas turbocharger is ensured even in the presence of the respective maximum operating temperatures.

An advantageous embodiment of the invention is to increase the stability of the formed press connection by a strained ribbon 3 in the respective overlap region around the housing which is located radially in the radial direction, in which case it is the turbine housing in the exemplary embodiment shown 1 is placed. To prevent slippage of this ribbon 3 during operation of the exhaust gas turbocharger is to prevent the turbine housing 1 with a flat groove 1d provided, in which the flat band 3 is inserted. This has the further advantage that the surface of the turbine housing 1 is formed step-free. Preferably, the transition region of the turbine housing is also 1 to the bearing housing 2 steplessly formed, as it is in the 4 is indicated above.

The above was based on the 4 an embodiment described in which the bearing housing is connected to the turbine housing by means of a press connection. Alternatively or additionally, the bearing housing may be connected to the compressor housing by means of a corresponding press connection.

Such press connections have the advantage that no additional connecting elements such as screws, rivets, clamps, etc., are required between the interconnected housings. This elimination of additional connecting elements allows in comparison to known exhaust gas turbochargers a simpler, faster and more cost-effective installation of the respective exhaust gas turbocharger.

Claims (10)

Exhaust gas turbocharger, which a turbine housing ( 1 ), a bearing housing ( 2 ) and a compressor housing ( 4 ), characterized in that the bearing housing ( 2 ) with the turbine housing ( 1 ) and / or the compressor housing ( 4 ) is connected by means of a press connection. Exhaust gas turbocharger according to claim 1, characterized in that the bearing housing ( 2 ) and the turbine housing ( 1 ) and / or the bearing housing ( 2 ) and the compressor housing ( 4 ), in a respective Overlapping area in the axial direction (A) are pushed into each other. Exhaust gas turbocharger according to claim 2, characterized in that the telescoped housing consist of materials of different hardness. Exhaust gas turbocharger according to claim 3, characterized in that the existing of the harder material housing ( 2 ), in the area of its interface ( 2a ) in the overlap area with the housing made of the softer material ( 1 ), with a surface profile ( 2 B ) is provided. Exhaust gas turbocharger according to claim 4, characterized in that the surface profile ( 2 B ) is a tooth profile or a groove profile. Exhaust gas turbocharger according to one of claims 2 to 5, characterized in that in the axial direction (A) telescoped housing are additionally pressed together or embossed in the overlapping region in the radial direction (R). Exhaust gas turbocharger according to one of claims 2 to 6, characterized in that the expansion coefficients of the materials of the interconnected by means of the press connection housing are chosen such that the positive connection formed by the press connection between the interconnected housings at the high temperatures occurring during operation of the exhaust gas turbocharger is. Exhaust gas turbocharger according to one of claims 2 to 7, characterized in that in the overlapping region of the interconnected housing to the radially outer of the interconnected housing a strained flat belt ( 3 ) is placed. Exhaust gas turbocharger according to claim 8, characterized in that the flat band ( 3 ) in a flat groove ( 1d ) of the outer of the interconnected housing is placed. Exhaust gas turbocharger according to one of the preceding claims, characterized in that the mutually opposite connection areas ( 1a , 2a) of the bearing housing ( 2 ) and the turbine housing ( 1 ) and / or the bearing housing ( 2 ) and the compressor housing ( 4 ) each extend in the overlapping area in the axial direction (A).

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