초록 ▼

The invention relates to a regulating method for a turbocharger (1) with a turbine (4) which has a variable turbine geometry (VTG) provided with adjustable guide blades (5), having the following method steps: a) closing the guide blades (5) of the variable turbine geometry (VTG), as a function of th

The invention relates to a regulating method for a turbocharger (1) with a turbine (4) which has a variable turbine geometry (VTG) provided with adjustable guide blades (5), having the following method steps: a) closing the guide blades (5) of the variable turbine geometry (VTG), as a function of the present operating point of the internal combustion engine which is turbocharged by means of the turbocharged (1), to the maximum possible closing position of the guide blades (5) for said operating point, and b) regulating the charge pressure (P2) by adjusting the position of the guide blades (5) in a closed regulating loop.

대표청구항 ▼

1. A regulating method for a turbocharger (1) having a turbine (4) receiving exhaust flow from an engine, the turbine (4) having a variable turbine geometry (VTG) which is provided with adjustable guide blades (5), the turbocharger (1) having a compressor driven by the turbine (4) for providing air

1. A regulating method for a turbocharger (1) having a turbine (4) receiving exhaust flow from an engine, the turbine (4) having a variable turbine geometry (VTG) which is provided with adjustable guide blades (5), the turbocharger (1) having a compressor driven by the turbine (4) for providing air at a charge pressure to an engine, the method comprising: a) sensing an increase in engine torque,b) closing the guide blades (5) of the variable turbine geometry (VTG), as a function of a present operating point of the internal combustion engine which is supercharged by means of the turbocharger (1), to the maximum closed position of the guide blades (5) for said operating point, for 100-500 ms,c) determining a position of the guide blades (5) of the variable turbine geometry (VTG) for optimum increase in charge pressure at least predominantly on the basis of rotational speed values (n) and torque values (T) of the supercharged internal combustion engine,d) adjusting the guide blades (5) to the position which is determined in step c), ande) regulating the charge pressure (P2) by adjusting the position of the guide blades (5) in a closed regulating loop. 2. The regulating method as claimed in claim 1, with the method steps c) and d) being carried out after the method step a) and before the method step e). 3. The regulating method as claimed in claim 2, wherein, after a drop in torque on account of a shift process, the VTG guide blades are placed into a maximum permissible closed position for a certain time period of a maximum of one second. 4. The regulating method as claimed in claim 2, wherein the method steps c) and d) are carried out, with regard to the control of the charge pressure, in an open regulating loop and are carried out, with regard to the regulating of the guide blade position, in a closed regulating loop. 5. A turbocharger for an internal combustion engine comprising: a compressor;a turbine connected to the compressor via a rotor shaft, the turbine having a variable turbine geometry VTG with adjustable guide blades; anda regulating device comprising a first determining device, a second determining device, a charge-pressure regulator and a guide blade position regulator, the regulating device operatively configured to: close the guide blades of the variable turbine geometry (VTG) as a function of an operating point of the internal combustion engine to an associated maximum closed position of the guide blades for the operating point, wherein the operating point is determined on the basis of rotational speed values (n) and torque values (T) of the supercharged internal combustion engine at which it is sought to increase the exhaust-gas back pressure (P3), andregulate charge pressure by adjusting the position of the guide blades in a closed regulating loop. 6. The turbocharger as claimed in claim 5, wherein the regulating device is further configured to: determine a nominal value for the charge pressure from rotational speed and torque data of the internal combustion engine;determine the position of the guide blades from the rotational speed and torque data of the internal combustion engine; andregulate the charge pressure on the basis of the input rotational speed and torque values and the nominal value of the charge pressure. 7. The turbocharger as claimed in claim 6, wherein the regulating device is further configured to: regulate the charge pressure on the basis of fed-back actual charge pressure values. 8. The turbocharger as claimed in claim 5, wherein the regulating device is further configured to: regulate the position of the guide blades of the variable turbine geometry (VTG) on the basis of the nominal values of the guide blade position. 9. The turbocharger as claimed in claim 8, further including: sensors for measuring the position of the guide blades, and wherein the regulating device is further configured to:feed back the sensed actual position of the guide blades, andregulate the position of the guide blades of the variable turbine geometry (VTG) on the basis of fed-back actual values of the actual measured guide blade position from the sensors. 10. The turbocharger as claimed in claim 5, wherein the regulating device is further configured to: close the guide blades of the variable turbine geometry (VTG) as a function of the present operating point of the internal combustion engine to an associated maximum possible closed position of the guide blades at plurality of operating points, each of the operating points having an associated maximum possible closed position of the guide blades. 11. A turbocharger (1) for an internal combustion engine (13), in particular a spark-ignition or diesel engine, comprising: a compressor (2);a turbine (4) which is connected to the compressor (2) via a rotor shaft (3) and which has a variable turbine geometry VTG with adjustable guide blades (5), anda regulating device (6) having the following components: a first determining device (7) configured to determine a nominal value (P2NOMINAL) for the charge pressure (P2) from rotational speed and torque data (n, T) of the internal combustion engine (13);a second determining device (8), which is connected in parallel with the first determining device (7), configured to determine the position of the guide blades (5) of the variable turbine geometry (VTG) for optimum increase in charge pressure at least predominantly on the basis of rotational speed values (n) and torque values (T) of the supercharged internal combustion engine (13);a regulator (9), which is connected in series with the first determining device (7) and is configured to regulate the charge pressure (P2) on the basis of the input rotational speed and torque values (n, T) and the nominal value (P2NOMINAL) of the charge pressure and, optionally, fed-back actual charge pressure values (P2ACTUAL); anda guide blade position regulator (10) which is connected in series with the regulator (9) and configured to close the guide blades (5) of the variable turbine geometry (VTG), as a function of the present operating point of the internal combustion engine (13) which is supercharged by means of the turbocharger (1), to the maximum closed position of the guide blades (5) for this operating point, and regulate the position of the guide blades (5) of the variable turbine geometry (VTG) on the basis of the nominal values (POSVTG_NOMINAL) of the guide blade position supplied by the second determining device (8), the output signals supplied by the regulator (9) and, if appropriate, fed-back actual values (POSVTG_ACTUAL) of the actual guide blade position, to an optimum position of the guide blades (5) which is determined. 12. The turbocharger as claimed in claim 11, further comprising sensors (11, 12) for measuring the actual position of the guide blades (POSVTG_ACTUAL) and the charge pressure (P2ACTUAL). 13. The regulating method as claimed in claim 1, wherein the step a) is performed at any one of a plurality of operating points, each of the operating points having an associated maximum possible closed position of the guide blades. 14. The turbocharger as claimed in claim 11, wherein the regulating device is further configured to: close the guide blades of the variable turbine geometry (VTG) as a function of the present operating point of the internal combustion engine to an associated maximum closed position of the guide blades for the present operating point, andregulate charge pressure by adjusting the position of the guide blades in a closed regulating loop.