In an exhaust manifold for an internal combustion engine including a central part with tow exhaust gas flow ducts extending from the central part in opposite directions for collecting exhaust gas from first and respectively second cylinder groups of the engine, the center part includes a first contr
In an exhaust manifold for an internal combustion engine including a central part with tow exhaust gas flow ducts extending from the central part in opposite directions for collecting exhaust gas from first and respectively second cylinder groups of the engine, the center part includes a first control valve for controlling the exhaust gas flow from the first and the second cylinder groups to first and second turbine inlet flow passages, a second control valve for controlling the exhaust gas pressure and a third control valve for controlling the exhaust gas recirculation rate.
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1. An exhaust manifold for an internal combustion engine having first and second cylinder groups, said exhaust manifold (20) comprising a central part (21) and two exhaust gas flow ducts (26, 27) connected to the central part (21) for delivering engine exhaust gas from the first cylinder group of th
1. An exhaust manifold for an internal combustion engine having first and second cylinder groups, said exhaust manifold (20) comprising a central part (21) and two exhaust gas flow ducts (26, 27) connected to the central part (21) for delivering engine exhaust gas from the first cylinder group of the internal combustion engine via the first exhaust gas flow duct (26) to the central part (21) and engine exhaust gas from the second cylinder group of the internal combustion engine via the a second exhaust gas flow duct (27) to the central part (21) and supplying the exhaust gas to a first turbine inlet flow passage via the first exhaust gas flow duct (26) and to a second turbine inlet flow passage via the second exhaust gas flow duct (27), anda motor brake control element (30) for influencing an engine brake function, a pressure control element (43) for influencing an exhaust gas pressure upstream of the motor brake control element (30) and a recirculation control element (59) for controlling an exhaust gas recirculation rate, wherein the motor brake control element (30), the pressure control element (43), and the recirculation control element (59) are incorporated into the central part (21) of the manifold (20), wherein said motor brake control element (30) for controlling the brake function is incorporated into a wall (29) of the central part (21) and has a first switching position in which said motor brake control element (30) separates the two exhaust gas flow ducts (26, 27) from one another, and a second switching position in which the two exhaust gas flow ducts (26, 27) are joined together for directing the exhaust gas flows of both exhaust gas flow ducts (26, 27) to only one of the turbine inlet flow passages. 2. The exhaust manifold as claimed in claim 1, wherein the motor brake control element (30) for influencing the engine brake function is a flap valve, which, in a first switching position, whilst the internal combustion engine is operated under power, closes an opening (32) in the wall (29) of the central part (21), thereby separating the two exhaust gas flow ducts (26, 27) from one another, andwhich, in a second switching position, during an engine braking mode of the internal combustion engine, opens the opening (32) in the wall (29) of the central part (21), thereby connecting the two exhaust gas flow ducts (26, 27) together, and at least partially closing one of the two exhaust gas flow ducts (26). 3. The exhaust manifold as claimed in claim 2, wherein the flap valve (30) has two effective areas of different sizes. 4. The exhaust manifold as claimed in claim 1, wherein the motor brake control element (30) for influencing the engine brake function is eccentrically supported on an operating shaft (33), and an operating means (34) acts on the operating shaft (33) in order to operate the motor brake control element (30). 5. The exhaust manifold as claimed in claim 4, wherein a spring element (36), is arranged between an outer wall of the central part and the operating shaft whereby the operating shaft (33) is drawn towards a bearing (38). 6. The exhaust manifold as claimed in claim 1, wherein the pressure control element (43) for influencing the exhaust gas pressure upstream of the motor brake control element (30) is supported by an operating shaft (48), an operating means (51) being connected to the operating shaft (48) in order to operate the pressure control element (43). 7. The exhaust manifold as claimed in claim 6, wherein a spring element (52), is provided and is braced against an outer wall of the central part and the operating shaft (48) and for drawing the operating shaft (48) towards a bearing (53). 8. The exhaust manifold as claimed in claim 1, wherein the control element (59) for controlling the exhaust gas recirculation rate is incorporated into an exhaust gas recirculation connection (57) of the central part (21). 9. The exhaust manifold as claimed in claim 8, wherein the control element (59) for controlling the exhaust gas recirculation rate is a flap valve, the position of which determines a volumetric flow of the recirculated exhaust gas through the exhaust gas recirculation connection (57). 10. The exhaust manifold as claimed in claim 8, wherein the control element (59) for controlling the exhaust gas recirculation rate is supported on an operating shaft (60), an operating means being connected to the operating shaft (60) for operating the control element (59). 11. The exhaust manifold as claimed in claim 10, wherein a spring element (62), is arranged between an outer wall of the central part and the operating shaft (60), for drawing the operating shaft (60) towards a bearing (63).
McCandless James C. (Rolling Meadows IL) Zlock Milan E. (Greensboro IL) Wood Terry G. (Countryside IL) Oehlerking Dale A. (Des Plaines IL) Iwaszkiewicz Titus J. (Woodridge IL), Exhaust back pressure control system.
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