초록 ▼

In a turbocharger system for internal combustion engines, the internal combustion engine has at least one combustion chamber with a variable volume and a swept volume determined by the sum of the differential volumes between the smallest and largest volumes of the combustion chambers of the internal

In a turbocharger system for internal combustion engines, the internal combustion engine has at least one combustion chamber with a variable volume and a swept volume determined by the sum of the differential volumes between the smallest and largest volumes of the combustion chambers of the internal combustion engine. The turbocharger system associated to the internal combustion engine has at least one turbine arranged in the exhaust gas pipe of the internal combustion engine and provided with a flow channel which opens via an annular jet-shaped region onto a turbine wheel. A guiding apparatus arranged in the opening region of the flow channel has a variable guiding grid with adjustable guiding blades which make it possible to obtain free flow sections of different sizes and which acts as a throttle during braking in an adjustable manner, depending on the operational parameters of the internal combustion engine, for determining the narrowest flow section in the exhaust gas pipe that leads to the turbine. The system is characterized in that at maximum braking power the relation between the free flow section A in the exhaust gas pipe that leads to the turbine, the inlet diameter D of the turbine wheel and the swept volume V.sub.H of the internal combustion engine is described by the equation (I) when the braking power supplied by the internal combustion engine during braking is at its maximum, the turbo-braking factor (TBF) being smaller than 0.0005 (5%). The internal combustion engine and the turbocharger are matched so as to supply maximum braking power with low thermal stress.

대표청구항 ▼

[ What is claimed is:] [1.]1. An internal combustion engine/turbocharger system, comprising:an internal combustion engine having at least one variable-volume combustion chamber, an engine displacement of the internal combustion engine being determined by a sum of the differences between the smallest

[ What is claimed is:] [1.]1. An internal combustion engine/turbocharger system, comprising:an internal combustion engine having at least one variable-volume combustion chamber, an engine displacement of the internal combustion engine being determined by a sum of the differences between the smallest and the largest volume of combustion chambers of the engine;a turbocharger system operatively coupled with the internal combustion engine, said turbocharger system having at least one turbine including a turbine rotor, said turbine being arranged in an exhaust path of the engine and having a flow duct opening via an annular nozzle region onto the turbine rotor;a guide vane system arranged in said region, said guide vane system comprising a variable guide vane array having adjustable guide vanes, said variable guide vane array allowing free cross sections of flow of different magnitude, said guide vane array further determining, in a braking mode, a respective narrowest cross section of flow in the exhaust path to the turbine and adjusting it as a function of engine operating parameters using the guide vane array as a restrictor;wherein, based on braking operation at a maximum braking power of the engine, a free cross section of flow A.sub.T exposed in the exhaust path to the turbine at the maximum braking power, an inlet diameter D.sub.T of the turbine rotor, and a displacement V.sub.H of the engine have the following relationship: which TBF denotes a turbo-braking factor and is less than 0.005 (5%).