Exhaust gas recirculation system for gasoline engines
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-025/07
F02B-047/08
F02B-047/00
출원번호
US-0533035
(2006-09-19)
등록번호
US-7426923
(2008-09-23)
발명자
/ 주소
Berggren,Gustav
출원인 / 주소
Haldex Hydraulics AB
대리인 / 주소
St. Onge Steward Johnston & Reens LLC
인용정보
피인용 횟수 :
4인용 특허 :
9
초록▼
A gasoline engine system includes a gasoline engine, a throttle valve for metering a supply of combustion gas fed to the engine, and a source of metered fuel injected into the combustion gas mixture. The throttle valve includes an inlet air supply line, a recirculating exhaust gas supply line, and a
A gasoline engine system includes a gasoline engine, a throttle valve for metering a supply of combustion gas fed to the engine, and a source of metered fuel injected into the combustion gas mixture. The throttle valve includes an inlet air supply line, a recirculating exhaust gas supply line, and an output line. Air entering through the inlet air supply line and exhaust gas entering though the recirculating exhaust gas supply line mix to create a combustion gas mixture of air, fuel and exhaust gas before exiting the output line. A body is actuatable to control a proportion of air versus recirculating exhaust gas in the combustion gas mixture.
대표청구항▼
What is claimed is: 1. An exhaust gas recirculation system adapted for use in connection with a gasoline engine, said exhaust gas recirculation system comprising: an inlet air supply line, a recirculating exhaust gas supply line, and an output line, air entering through said inlet air supply line a
What is claimed is: 1. An exhaust gas recirculation system adapted for use in connection with a gasoline engine, said exhaust gas recirculation system comprising: an inlet air supply line, a recirculating exhaust gas supply line, and an output line, air entering through said inlet air supply line and cooled exhaust gas entering though said recirculating exhaust gas supply line mixing to create a mixture of air and cooled exhaust gas before exiting said output line; a body actuatable to control a proportion of air versus recirculating cooled exhaust gas in the mixture; a source of metered fuel injected into the mixture; and an actuator which causes actuation of said body in order to vary the proportion of air versus recirculating cooled exhaust gas in the mixture so as to cause a combustion temperature of said engine to be reduced when said engine is operating under at least some engine conditions. 2. The system of claim 1 wherein said actuator causes the recirculating cooled exhaust gas to be injected into the mixture in an amount such that said combustion temperature is reduced to a degree such that engine knock is reduced. 3. The system of claim 1 wherein the recirculating cooled exhaust gas contains hydrocarbons, at least some of which are combusted during recirculation. 4. The system of claim 1 wherein said body comprises a valve body arranged to be displaced in a longitudinal direction within a channel in order to achieve a variable venturi effect and to control air mass flow and the proportion of air versus recirculating cooled exhaust gas in the mixture. 5. The system of claim 4 wherein the variable venturi effect ensures minimal losses across said body. 6. The system of claim 1 wherein said system is configured to selectively supply warm exhaust gas rather than cooled exhaust gas, the warm exhaust gas being mixed with the air to create a mixture of air and warm exhaust gas before exiting said output line, and wherein said actuator causes actuation of the body in order to vary a proportion of air versus recirculating warm exhaust gas in the mixture so as to cause the engine to be warmed when the engine is operating under at least some engine conditions. 7. The system of claim 6 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that said engine is quickly warmed during a cold start to minimize cold operating, thereby reducing related emissions. 8. The system of claim 6 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that exhaust temperature is raised to a degree sufficient to ignite a three-way catalyst during a cold start. 9. An exhaust gas recirculation system adapted for use in connection with a gasoline engine, said exhaust gas recirculation system comprising: an inlet air supply line, a recirculating exhaust gas supply line, and an output line, air entering through the inlet air supply line and warm exhaust gas entering though the recirculating exhaust gas supply line mixing to create a mixture of air and warm exhaust gas before exiting the output line; a body actuatable to control a proportion of air versus recirculating warm exhaust gas in the mixture; a source of metered fuel injected into the mixture; and an actuator which causes actuation of the body in order to vary the proportion of air versus recirculating warm exhaust gas in the mixture so as to cause the engine to be warmed when the engine is operating under at least some engine conditions. 10. The system of claim 9 wherein said body comprises a valve body arranged to be displaced in a longitudinal direction within a channel in order to achieve a variable venturi effect and to control air mass flow and the proportion of air versus recirculating warm exhaust gas in the mixture. 11. The system of claim 9 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that said engine is quickly warmed during a cold start to minimize cold operating, thereby reducing related emissions. 12. The system of claim 9 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that exhaust temperature is raised to a degree sufficient to ignite a three-way catalyst during a cold start. 13. The system of claim 9 wherein the recirculating warm exhaust gas contains hydrocarbons, at least some of which are combusted during recirculation. 14. The system of claim 9 wherein said system is configured to selectively supply cooled exhaust gas rather than warm exhaust gas, the cooled exhaust gas being mixed with the air to create a mixture of air and cooled exhaust gas before exiting said output line, and wherein said actuator causes actuation of the body in order to vary a proportion of air versus recirculating cooled exhaust gas in the mixture so as to cause a combustion temperature of said engine to be reduced when said engine is operating under at least some engine conditions. 15. The system of claim 14 wherein said actuator causes the recirculating cooled exhaust gas to be injected into the mixture in an amount such that said combustion temperature is reduced to a degree such that engine knock is reduced. 16. A gasoline engine system comprising: a gasoline engine; a throttle valve for metering a supply of combustion gas fed to the engine, said throttle valve comprising: an inlet air supply line, a recirculating exhaust gas supply line, and an output line, air entering through the inlet air supply line and exhaust gas entering though the recirculating exhaust gas supply line mixing to create a combustion gas mixture of air and exhaust gas before exiting the output line; a body actuatable to control a proportion of air versus recirculating exhaust gas in the combustion gas mixture; and a source of metered fuel injected into the combustion gas mixture. 17. The system of claim 16 wherein the recirculating exhaust gas contains hydrocarbons, at least some of which are combusted during recirculation. 18. The system of claim 16 wherein said body comprises a valve body arranged to be displaced in a longitudinal direction within a channel in order to achieve a variable venturi effect and to control air mass flow and the proportion of air versus recirculating exhaust gas in the combustion gas mixture. 19. The system of claim 18 wherein the variable venturi effect ensures minimal losses across said body. 20. The system of claim 16 wherein said system is configured to selectively supply cooled exhaust gas, the cooled exhaust gas being mixed with the air to create a mixture of air and cooled exhaust gas before exiting said output line, and further comprising an actuator which causes actuation of the body in order to vary a proportion of air versus recirculating cooled exhaust gas in the mixture so as to cause a combustion temperature of said engine to be reduced when said engine is operating under at least some engine conditions. 21. The system of claim 20 wherein said actuator causes the recirculating cooled exhaust gas to be injected into the mixture in an amount such that said combustion temperature is reduced to a degree such that engine knock is reduced. 22. The system of claim 16 wherein said system is configured to selectively supply warm exhaust gas, the warm exhaust gas being mixed with the air to create a mixture of air and warm exhaust gas before exiting said output line, and further comprising an actuator which causes actuation of the body in order to vary a proportion of air versus recirculating warm exhaust gas in the mixture so as to cause the engine to be warmed when the engine is operating under at least some engine conditions. 23. The system of claim 22 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that said engine is quickly warmed during a cold start to minimize cold operating, thereby reducing related emissions. 24. The system of claim 22 wherein said actuator causes the recirculating warm exhaust gas to be injected into the mixture in an amount such that exhaust temperature is raised to a degree sufficient to ignite a three-way catalyst during a cold start. 25. An arrangement for mixing an inlet flow with an exhaust gas return flow in a gasoline engine, comprising a line for the first flow; an inlet for the second flow in the line, in order to achieve the mixing; a streamlined body arranged to be displaced in a longitudinal direction of the line at the inlet in order to achieve a variable venturi effect and in this way a variable suction effect and mixture of the mixed flow; and an actuator for displacing the body forwards and backwards in the line; characterized in that the streamlined body and the line are designed to achieve maximal throttling in the line close to the inlet independently of the position of the body, in order to minimize the need for throttling and accompanying pressure losses; and further comprising a source of metered fuel injected into the mixed flow. 26. The arrangement according to claim 25, characterized in that the actuator is arranged inside of the body or outside of the line in order not to disturb the first flow and cause pressure losses in it. 27. The arrangement according to claim 25, characterized in that the inlet is arranged around the cross-section of the line in order to maximize the suction effect and in this way minimize pressure losses. 28. The arrangement according to claim 27, characterized in that the inlet is designed in the form of a gap. 29. The arrangement according to claim 28, characterized in that the gap has a gap width that can be adjusted, such that the area of flow can be optimized for various mixture conditions with the aim of minimizing pressure losses. 30. The arrangement according to claim 25, characterized in that the streamlined body is suspended at the front end thereof by means of a holder that extends to one external surface of the line. 31. The arrangement according to claim 30, characterized in that the holder, when the actuator is arranged either inside the body or outside of the line, comprises means for supplying energy to the actuator. 32. The arrangement according to claim 30, characterized in that the holder has a streamlined cross-section in order to minimize pressure losses. 33. The arrangement according to claim 32, characterized in that the holder, when the actuator is arranged outside of the line, is constituted by a smooth rod arranged to slide on bearings in a bore in the outer wall of the line, threaded or executed as a ball screw.
Busato Murray F.,CAX ; Balsdon David W.,CAX ; Cook John E.,CAX, Integrated engine intake manifold having a fuel vapor purge valve and an exhaust gas recirculation valve.
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