DE102007025282A1 - turbocharger - Google Patents

Abstract

The invention relates to an exhaust gas turbocharger, comprising - a turbine wheel; a compressor wheel; - Turbine and compressor wheel are in driving connection with each other; a turbine housing having a spiral passage, a radial exhaust inlet and a radial exhaust outlet; a compressor housing having a spiral channel, an axial fresh air inlet and a radial fresh air outlet; a bearing housing; - a device for regulating the pressure of the compressed air. The turbine housing and / or the compressor housing have connections for guiding a medium in addition to the exhaust gas flow or to the fresh air flow.

Description

The invention relates to the field of exhaust gas turbochargers. See for example WO 00/73630 A1 ,

turbocharger are indispensable in modern motor vehicles. They include as most important components a turbine and a compressor. These two Components sit together on one and the same shaft. The turbine the exhaust gas of the internal combustion engine is supplied. The exhaust gas is driving the turbine on. The turbine in turn drives the compressor. This sucks air from the environment and compresses it. The compressed air is then used for combustion in the engine exploited. Exhaust gas turbochargers have the purpose of exhaust emissions reduce as well as the efficiency of the engine and its torque to increase. They also have an important function with regard to the mode of action of the catalyst.

At Exhaust gas turbochargers are generally subject to the following requirements: They should have the functions mentioned with regard to the exhaust emission, the Efficiency and torque of the engine in as possible perfect way to fulfill. They should have a low Have weight and a low construction volume. The construction should Easy to set up and easy to install, so the manufacturing costs keep it limited. They should be catalyst-friendly.

One It is also an important requirement to adjust the fresh air to an acceptable level Raise pressure value. This must be high enough to meet the requirements to meet the combustion process. He is not allowed to be too high to endanger downstream components.

It Many facilities have become known with which the pressure the fresh air is regulated. This can be, for example change the turbine geometry to show the performance of the turbine to set a desired value. Also are slides known, with which the volume flow of the turbine supplied Exhaust gas is adjustable. Furthermore, it is known in the exhaust gas supply channel to provide a valve (so-called Wastgate), with regard to the desired pressure of the compressed air adjustable is. This valve is controlled by an actuator that controls the pressure the compressed fresh air detected.

These Mechanisms for regulating the pressure of the compressed air do not have fully satisfied. They are elaborate, costly, claim relatively much Space, and do not always work on their function optimal. Particularly disadvantageous in all known solutions, that mechanical components must be moved, with errors can occur on an unwanted game go back to wear or jamming.

Of the Invention is based on the object, a method for regulating a Exhaust gas turbocharger and an exhaust gas turbocharger of the type mentioned in such a way to design that operating parameters of the exhaust gas turbocharger on to regulate a way that is more favorable in every respect than before. This concerns among other things the function, the manufacturing costs and the space requirements.

These The object is solved by the features of claim 1.

Corresponding The inventive method is thus the Exhaust gas flow and / or the fresh air flow for the purpose of regulating operating parameters the exhaust gas turbocharger supplied in each case a further medium flow. Accordingly, an inventive exhaust gas turbocharger in addition to the exhaust inlet or in addition to the fresh air inlet, a port for introducing a medium depending on current operating parameters.

there may under the phrase "operating parameters the exhaust gas turbocharger "any parameters are understood, such as For example, the performance of the turbine wheel, the throughput or the Pressure or the temperature of the exhaust stream, or the performance of the Compressor wheel, or the flow rate or the pressure or temperature of fresh air flow.

So For example, the output power of the turbine wheel can be determined change by means of a medium flow, the exhaust gas flow is supplied. As the medium, any gases come into consideration, such as For example, air or another gas or a mixture of such Gases. Also, parameters of the medium flow itself can be changed such as throughput or pressure or temperature.

Also It is possible, as a medium, a partial exhaust gas flow itself to use. For example, the turbine impeller with a constant exhaust gas flow are applied, and also - ever as needed for the purpose of regulating performance or pressure the compressed fresh air stream - a corresponding Partial exhaust gas flow can also be used.

The Idea is awesome easy. This will cause any (additional) Moving components avoided. The regulation is thus on the elegant way, namely aerodynamic.

The mentioned additional media streams can be generated in any way. Thus, for example via a power take-off from the engine a fresh air compressor can be provided, which generates a corresponding amount of fresh air and thus, for example, the turbine wheel applied.

The Rules of an exhaust gas turbocharger is often the, Adjust pressure in the spiral channel of the compressor housing. Is in such a case the pressure in the volute of the Compressor housing too low, then a medium flow - in addition to the exhaust stream - the turbine wheel supplied. This then produces a higher power and gives a higher Torque to the compressor impeller, so that this higher Pressure generated in the spiral channel of the compressor housing. is however, the pressure in the spiral channel of the compressor housing too high, it is waived, a medium flow in addition to supply the exhaust stream to the turbine runner.

Also It is conceivable to design the turbine wheel so that it is less Torque generated and delivered to the compressor wheel, as actually would be necessary. Setting the "right" Power of the turbine wheel is then effected by the additional Medium current is changed accordingly, for example in that this with a higher or a lower flow rate applied to the turbine wheel.

The The invention is explained in more detail with reference to the drawing. The following is shown in detail:

1 shows in an axial section of an exhaust gas turbocharger, in which the invention is applicable.

2 illustrated in a schematic representation of the operation of an exhaust gas turbocharger.

The Indian 1 The exhaust gas turbocharger shown comprises the following components: A turbine wheel 1 and a compressor wheel 2 are on a common wave 3 stored. The wave 3 is not axially movable. compressor 2 is fixed on the shaft, so that a rotationally fixed connection between these two is made, but also a fixation against displacement in the axial direction.

The wave 3 is on two radial bearings 5 . 6 stored. There is also a thrust bearing 7 intended.

The turbine wheel 1 is from a turbine housing 8th enclosed. This has an inlet nozzle 8.1 for exhaust gas from the combustion process of an internal combustion engine, further comprising an outlet 8.2 , The turbine housing 8th forms a spiral channel 8.3 , the turbine wheel 1 surrounds.

It is also a compressor housing 9 intended. This has an inlet nozzle 9.1 for the intake of fresh air. The sucked in and compressed amount of fresh air is through a radial annular gap 9.2 a spiral channel 9.3 fed. The compressed fresh air then enters a device for producing a fuel-air mixture (not shown here).

The wave 3 is in a bearing housing 10 stored. This has an oil inlet 10.1 and an oil outlet 10.2 on. Oil passages (not shown) supply the said bearings with oil.

It is provided a regulating device for regulating the pressure of the compressed air. This includes a pressure sensor 4.1 and this pressure sensor 4.1 indicates the pressure in the outlet of the spiral channel 9.3 of the compressor housing 9 immediately and feeds this to a central processing unit (CPU) 4.2 one. The central process unit 4.2 controls a medium compressor 4.3 , This leads a medium via a medium connection 4.4 the inlet nozzle 8.1 for exhaust gas from the combustion process of an internal combustion engine. Thus, said control device can adjust the pressure of the compressed fresh air flow to a desired value.

2 again illustrates the structure of the control device in a schematic representation. You can see the turbine wheel again 1 , the compressor wheel 2 and the wave 3 ,

The exhaust gas flow coming from the engine 20 impinges on the turbine wheel 1 and leaves this again after work done as an exhaust stream 21 , The turbine wheel 1 is also from a medium stream according to the invention 22 defined throughput and defined pressure applied.

The compressor wheel 2 sucks a fresh air stream 23 at. This is called a compressed fresh air stream 24 delivered to the compressor housing.

1

turbine

2

compressor

3

wave

4.1

pressure sensor

4.2

central Process unit (CPU)

4.3

medium compressor

4.4

medium connection

5

bearings

6

bearings

7

thrust

8th

turbine housing

8.1

inlet port

8.2

outlet

8.3

spiral channel

9

compressor housing

9.1

intake

9.2

annular gap

9.3

spiral channel

10

bearing housing

10.1

oil inlet

10.2

oil outlet

20

incoming exhaust gas flow

21

leaking exhaust gas flow

22

medium flow

23

incoming Fresh air flow

24

leaking Fresh air flow

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 00/73630 A1 [0001]

Claims (7)

Method for controlling an exhaust gas turbocharger, of a motor vehicle, with a turbine wheel ( 1 ) and with a compressor wheel ( 2 ), comprising the following process steps: 1.1 the turbine wheel ( 1 ) is generated by an exhaust gas flow ( 20 ) charged; 1.2 the compressor wheel is fresh air ( 23 supplied); 1.3 current operating parameters of the exhaust gas turbocharger are detected; characterized by the following method steps: 1.4 in addition to the exhaust gas flow ( 20 ) is the turbine wheel ( 1 ) and / or the compressor wheel ( 2 ) for controlling operating parameters of the exhaust gas turbocharger another medium flow ( 22 ). Method according to Claim 1, characterized by the following features: 2.1 one or more of the following variables are used as operating parameters: the power of the turbine wheel ( 1 ); The throughput or the pressure or the temperature of the turbine wheel ( 1 ) supplied exhaust gas stream ( 20 ); - the power of the compressor wheel ( 2 ); - the flow rate or the pressure or the temperature of the compressed fresh air stream ( 24 ). Method according to claim 1 or 2, characterized that as the medium air or another gas or a gas mixture or an exhaust gas is used. Method according to claim 3, characterized that as a medium compressed air from the compressor or from the compressed air network of the vehicle is used. Method according to one of claims 1-4, characterized in that the medium during the acceleration phases of the vehicle or during the so-called turbo lag the turbine wheel ( 1 ) and / or the compressor wheel ( 2 ). Method according to one of claims 1 to 5, characterized in that for controlling operating parameters of the exhaust gas turbocharger, the flow rate or the pressure or the temperature of the medium flow ( 22 ) to be changed. Exhaust gas turbocharger 7.1 with a turbine wheel ( 1 ): 7.2 with a surrounding turbine housing ( 8th ) which has an exhaust gas inlet ( 8.1 ) and an exhaust outlet ( 8.2 ) having; 7.3 with a compressor wheel ( 2 ); 7.4 with a surrounding compressor housing ( 9 ), which has a fresh air intake ( 9.1 ) and a fresh air outlet ( 9.2 ) having; 7.5 turbine wheel ( 1 ) and compressor wheel ( 2 ) are in communication with each other; 7.6 with a device ( 4.1 ) for detecting operating parameters of the exhaust gas turbocharger; characterized by the following features: 7.7 they are connectors ( 4.4 ), with which an additional medium the turbine housing ( 8th ) or the compressor housing ( 9 ).