Power plants – Fluid motor means driven by waste heat or by exhaust energy... – With supercharging means for engine
Reexamination Certificate
2003-05-05
2004-09-21
Denion, Thomas (Department: 3748)
Power plants
Fluid motor means driven by waste heat or by exhaust energy...
With supercharging means for engine
C060S605100, C415S173100, C415S170100, C415S206000, C415S102000
Reexamination Certificate
active
06792755
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to turbochargers and, more particularly, to turbocharger comprising a two-stage compressor section that is configured to provide a higher pressure ratio operating condition than possible with a conventional single-stage compressor turbocharger.
BACKGROUND OF THE INVENTION
Turbochargers for gasoline and diesel internal combustion engines are devices known in the art that are used for pressurizing or boosting the intake air stream, routed to a combustion chamber of the engine, by using the heat and volumetric flow of exhaust gas exiting the engine. Specifically, the exhaust gas exiting the engine is routed into a turbine housing of a turbocharger in a manner that causes an exhaust gas-driven turbine to spin within the housing.
The exhaust gas-driven turbine is mounted onto one end of a shaft that is common to a radial air compressor impeller mounted onto an opposite end of that shaft. Thus, rotary action of the turbine also causes the air compressor impeller to spin within a compressor housing of the turbocharger that is separate from the exhaust housing. The spinning action of the air compressor impeller causes intake air to enter the compressor housing and be pressurized or boosted a desired amount before the air is mixed with fuel and combusted within the engine combustion chamber.
The turbocharger turbine section comprises a turbine wheel, a wheel heat shroud, and a turbine housing. The turbine exhaust gas inlet is positioned along an outer diameter portion of the turbine housing. The turbine is a centripetal radial, or mixed inflow device in that exhaust gas flows inward, past the wheel blades, and exits at the center of the housing's diameter. Expanded engine exhaust gas is directed through the engine exhaust gas manifold into the turbine housing. The exhaust gas pressure and the heat energy extracted from the gas causes the turbine wheel and attached shaft to rotate, which drives the compressor impeller.
In a traditional turbocharger, the turbocharger compressor section comprises a compressor impeller, a backplate, and a compressor housing. The compressor air inlet is positioned at the center of the compressor housing diameter. It is a centrifugal, or radial-outflow device in that the air flows outward, past the impeller blades, and exits at the outer diameter of the housing. The rotating compressor wheel draws ambient air through the engine's air filtration system. The blades of the impeller accelerate and expel the air into the compressor housing where it is compressed and directed through ducting to the engine intake manifold.
A central housing and rotating assembly supports the common compressor impeller the turbine wheel shaft in a bearing assembly or system. Seals separate the center housing from both the turbine and compressor housings.
Conventional turbochargers comprise a single compressor impeller disposed within the compressor housing. Such single-stage compressors are known to provide a fixed pressure ratio at operating conditions that may not produce a desired level of pressurized air or boost at low RPM engine conditions.
It is, therefore, desired that a turbocharger be constructed in a manner that provides a higher pressure ratio, than conventional single-stage compressor turbochargers, at operating conditions that functions to provide a desired amount of pressurized air at low RPM engine conditions, thereby expanding the practical operating window of the turbocharger.
SUMMARY OF THE INVENTION
The present invention is directed to a high-pressure ratio turbocharger having a twostage compressor section. According to an exemplary embodiment of the present invention, the turbocharger has a rotatable shaft with a first end and a second end. A turbine wheel is coupled to the first end of the rotatable shaft and is disposed within a turbine housing.
A first compressor impeller is coupled to the second end of the rotatable shaft and is disposed in a first compressor housing comprising an air inlet and a pressurized air outlet. A second compressor impeller is coupled to the shaft adjacent the first compressor impeller and is disposed within a second compressor housing. The second compressor housing is configured to receive pressurized air from the first compressor housing, and direct pressurized air outwardly therefrom to an intake system of an internal combustion engine.
In an embodiment of the present invention, the second compressor impeller faces in an opposite direction to the first compressor impeller. The first and second compressor impellers can be provided in the form of a one-piece construction, or as a two-piece construction.
A scroll seal is positioned between the first and second compressor impellers, and between the first and second compressor chamber, and an air flow wall is coupled to the scroll seal and to the second compressor housing. The second compressor housing is in part formed from a compressor backplate that is attached to a turbocharger center housing. The scroll seal, the second compressor housing, and the air flow wall operate to form passageway for directing pressurized air from the first compressor impeller to the second compressor impeller.
In an additional embodiment, the air flow wall also forms a radial diffuser for the second compressor impeller. In another embodiment, the air flow wall forms a volute outlet for the second compressor housing. In yet another embodiment, the air flow wall is configured having inlet guide vanes.
REFERENCES:
patent: 1105967 (1914-08-01), Davidson
patent: 1163778 (1915-12-01), Scheurmann
patent: 2944785 (1960-07-01), Sampietro
patent: 3173241 (1965-03-01), Birmann
patent: 3175756 (1965-03-01), Freevol
patent: 4032262 (1977-06-01), Zehnder
patent: 4155684 (1979-05-01), Curiel
patent: 5025629 (1991-06-01), Woollenweber
patent: 6062028 (2000-05-01), Arnold
patent: 05106459 (1993-04-01), None
Arnold Steven Don
Vrbas Gary
Denion Thomas
Ephraim Starr Grant Langton
Honeywell International , Inc.
Trieu Thai Ba
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