A valve system for an engine is provided. The valve system includes a cylinder head that defines an intake passageway, an exhaust passageway, and an auxiliary passageway. The auxiliary passageway includes a first connection with the intake passageway and a second connection with the exhaust passagew
A valve system for an engine is provided. The valve system includes a cylinder head that defines an intake passageway, an exhaust passageway, and an auxiliary passageway. The auxiliary passageway includes a first connection with the intake passageway and a second connection with the exhaust passageway. A control valve is disposed in the auxiliary passageway. The control valve is moveable between a first position where the control valve blocks the first connection between the auxiliary passageway and the intake passageway and a second position where control valve blocks the second connection between the auxiliary passageway and the exhaust passageway.
대표청구항▼
1. A valve system for an engine, comprising:a cylinder head defining an intake passageway, an exhaust passageway, and an auxiliary passageway having a first connection with the intake passageway and a second connection with the exhaust passageway; anda control valve disposed in the auxiliary passage
1. A valve system for an engine, comprising:a cylinder head defining an intake passageway, an exhaust passageway, and an auxiliary passageway having a first connection with the intake passageway and a second connection with the exhaust passageway; anda control valve disposed in the auxiliary passageway and moveable between a first position where the control valve blocks the first connection between the auxiliary passageway and the intake passageway and a second position where the control valve blocks the second connection between the auxiliary passageway and the exhaust passageway. 2. The valve system of claim 1, wherein the control valve is hydraulically actuated. 3. The valve system of claim 1, wherein the control valve is actuated by a solenoid. 4. The valve system of claim 1, further including at least one intake valve disposed in the intake passageway, at least one exhaust valve disposed in the exhaust passageway, and an auxiliary valve disposed in the auxiliary passageway. 5. The valve system of claim 4, wherein the cylinder head defines at least one intake opening, an exhaust opening, and an auxiliary opening, and the at least one intake valve is configured to selectively block the at least one intake opening, the exhaust valve is configured to selectively block the exhaust opening, and the auxiliary valve is configured to selectively block the auxiliary opening. 6. An engine, comprising:an engine block defining at least one combustion chamber;a cylinder head configured for engagement with the engine block, the cylinder head defining an intake passageway leading to the combustion chamber, at least one exhaust passageway leading from the combustion chamber, and an auxiliary passageway leading from the combustion chamber;an auxiliary valve element disposed in the auxiliary passageway for movement between an open position and a closed position; anda piston disposed in the combustion chamber for movement between a bottom dead center position and a top dead center position, the piston having a combustion bowl configured to, receive the auxiliary valve element when the piston is at the top dead center position and the auxiliary valve element is in the open position. 7. The engine of claim 6, wherein the piston includes a wall surrounding the combustion bowl and a central projection and the piston receives the auxiliary valve element between the central projection and the wall. 8. The engine of claim 6, further including at least one intake valve configured to selectively block the intake passageway and an exhaust valve configured to selectively block the exhaust passageway. 9. The engine of claim 8, wherein at least the one intake valve is driven by an intake cam, the exhaust valve is driven by an exhaust cam, and the auxiliary valve is hydraulically driven. 10. An engine, comprising:an engine block defining at least one combustion chamber having a piston slidably disposed therein;a cylinder head configured for engagement with the engine block, the cylinder head defining an intake passageway leading to the at least one combustion chamber, an exhaust passageway leading from the at least one combustion chamber, and an auxiliary passageway having a first connection with the intake passageway and a second connection with the exhaust passageway; anda control valve disposed in the auxiliary passageway and moveable between a first position where the valve blocks the first connection between the auxiliary passageway and the intake passageway and a second position where valve blocks the second connection between the auxiliary passageway and the exhaust passageway. 11. The engine of claim 10, further including at least one intake valve configured to selectively block the intake passageway, an exhaust valve configured to selectively block the exhaust passageway, and an auxiliary valve configured to selectively block the auxiliary passageway. 12. The engine of claim 11, wherein the at least one intake valve is driven by an intake cam, t he exhaust valve is driven by an exhaust cam, and the auxiliary valve is hydraulically driven. 13. The engine of claim 10, further including a heat exchanger disposed in the first connection between the auxiliary passageway and the intake passageway. 14. The engine of claim 13, further including a turbocharger operable to provide pressurized air to the intake passageway. 15. The engine of claim 14, further including an aftercooler disposed between the turbocharger and the intake passageway. 16. A method of controlling air flow in an engine, comprising:actuating an intake valve to selectively connect an intake passageway with a combustion chamber in the engine;actuating an exhaust valve to selectively connect the combustion chamber with an exhaust passageway;actuating an auxiliary valve to selectively connect the combustion chamber with an auxiliary passageway;connecting the auxiliary passageway with the intake passageway when the engine experiences a first set of operating conditions; andconnecting the auxiliary passageway with the exhaust passageway when the engine experiences a second set of operating conditions. 17. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with the intake passageway during a portion of an intake stroke of a piston. 18. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with the intake passageway prior to the actuation of the exhaust valve during an exhaust stroke of a piston. 19. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with the exhaust passageway when a piston approaches a top dead center position of a compression stroke. 20. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with one of the exhaust passageway and the intake passageway during an intake stroke of a piston and a compression stroke of a piston. 21. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with the intake passageway during a valve overlap period. 22. The method of claim 16, wherein the auxiliary valve is actuated and the auxiliary passageway is connected with the exhaust passageway prior to the actuation of the exhaust valve during an exhaust stroke of a piston.
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이 특허에 인용된 특허 (13)
Wakeman Anthony C. (West Midlands GB2), Internal combustion engine and a method of operating same.
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