A multicylinder internal combustion engine, which can simplify its control and is advantageous against thermal loads or vibrations includes a cylinder head with intake valves and exhaust valves arranged therein. Valve actuators are provided for openably operating the intake valves and exhaust valves
A multicylinder internal combustion engine, which can simplify its control and is advantageous against thermal loads or vibrations includes a cylinder head with intake valves and exhaust valves arranged therein. Valve actuators are provided for openably operating the intake valves and exhaust valves, respectively. A cylinder head cover forms, in combination with the cylinder head, a valve actuator chamber with the valve actuators accommodated therein. At least some of the valve actuators are deactivatable to disable their corresponding cylinders. The multicylinder internal combustion engine is a V-shaped internal combustion engine provided with a front bank and rear bank. The cylinders on opposite ends in a direction of a crankshaft are set as full-time operating cylinders.
대표청구항▼
What is claimed is: 1. A multicylinder internal combustion engine comprising: a cylinder head with engine valves arranged therein; valve actuators for openably operating said engine valves, respectively; a cylinder head cover forming, in combination with said cylinder head, a valve actuator chamber
What is claimed is: 1. A multicylinder internal combustion engine comprising: a cylinder head with engine valves arranged therein; valve actuators for openably operating said engine valves, respectively; a cylinder head cover forming, in combination with said cylinder head, a valve actuator chamber with said valve actuators accommodated therein, at least some of said valve actuators being deactivatable to disable their corresponding cylinders; and a crankshaft, wherein said multicylinder internal combustion engine is a V-shaped internal combustion engine provided with a front bank and rear bank, and the cylinders on opposite ends of the crankshaft are set as full-time operating cylinders, being located in the front bank, and the cylinders in the vicinity of a center of the crankshaft are set as deactivatable cylinders, being located in the rear bank; wherein each of the full-time operating cylinders are connected to a position on the crankshaft further toward the end of the crankshaft than each of the deactivatable cylinders is connected. 2. The multicylinder internal combustion engine according to claim 1, wherein said V-type internal combustion engine is to be mounted on a motorcycle. 3. The multicylinder internal combustion engine according to claim 1, wherein said V-type internal combustion engine is to be mounted on a motorcycle. 4. The multicylinder internal combustion engine according to claim 1, wherein said internal combustion engine is a V-shaped 4-cylinder internal combustion engine, an operation mode of said internal combustion engine is selectively changeable to one of operation modes consisting of an operation mode in which one of the deactivatable cylinders is disabled, another operation mode in which both of the deactivatable cylinders are disabled, and a further operation mode in which both of the deactivatable cylinders are operated, and both of the deactivatable cylinders are located in a same one of the front bank and the rear bank. 5. The multicylinder internal combustion engine according to claim 1, wherein said internal combustion engine is a V-shaped 4-cylinder internal combustion engine, and a number of operating cylinders is selectively changeable in three patterns. 6. The multicylinder internal combustion engine according to claim 2, wherein said internal combustion engine is a V-shaped 4-cylinder internal combustion engine, and a number of operating cylinders is selectively changeable in three patterns. 7. The multicylinder internal combustion engine according to claim 1, wherein a valve deactivating mechanism is arranged between a valve stem and a valve lifter to deactivate some at least some of the valve actuators and disable their corresponding cylinders. 8. The multicylinder internal combustion engine according to claim 1, wherein a valve deactivating mechanism is arranged between a valve stem and a valve lifter to deactivate some at least some of the valve actuators and disable their corresponding cylinders. 9. The multicylinder internal combustion engine according to claim 1, wherein the full-time operating cylinders are located in one of the front bank and the rear bank, the deactivatable cylinders are located in the other one of the front bank and the rear bank, and the deactivatable cylinders are located closer to a center of the crankshaft than the full-time operating cylinders. 10. The multicylinder internal combustion engine according to claim 1, wherein said internal combustion engine is operatable to activate only some of the deactivatable cylinders and deactivate rest of the deactivatable cylinders in a same one of the front bank and the rear bank. 11. The multicylinder internal combustion engine according to claim 1, wherein an opening is formed through the front bank at a central part thereof, said opening being arranged to allow the air to flow toward the rear bank. 12. The multicylinder internal combustion engine according to claim 1, wherein said multicylinder internal combustion engine includes four cylinders; two full-time operating cylinders are supported at one side of the crankshaft and two deactivatable cylinders are supported at an other side of the crankshaft opposite to the full-time operating cylinders, and wherein the two deactivatable cylinders are located in between the two full-time operating cylinders. 13. A multicylinder internal combustion engine comprising: a cylinder head with engine valves arranged therein; valve actuators for openably operating said engine valves, respectively; a cylinder head cover forming, in combination with said cylinder head, a valve actuator chamber with said valve actuators accommodated therein, at least some of said valve actuators being deactivatable to disable their corresponding cylinders; and a crankshaft, wherein said multicylinder internal combustion engine is a V-shaped internal combustion engine provided with a front bank and rear bank, the cylinders on opposite ends of the crankshaft in said front bank are set as said deactivatable cylinders, and the cylinders in said rear bank are set as full-time operating cylinders, wherein each of the deactivatable cylinders are connected to a position on the crankshaft further toward the end of the crankshaft than each of the full-time operating cylinders is connected. 14. The multicylinder internal combustion engine according to claim 13, wherein said internal combustion engine is a V-shaped 4-cylinder internal combustion engine, and an operation mode of said internal combustion engine is selectively changeable to one of operation modes consisting of an operation mode in which one of the deactivatable cylinders is disabled, another operation mode in which both of the deactivatable cylinders are disabled, and a further operation mode in which both of the deactivatable cylinders are operated. 15. The multicylinder internal combustion engine according to claim 13, wherein a valve deactivating mechanism is arranged between a valve stem and a valve lifter to deactivate some at least some of the valve actuators and disable their corresponding cylinders. 16. The multicylinder internal combustion engine according to claim 13, wherein the cylinders in said rear bank are located closer to a center of the crankshaft than the cylinders in said front bank. 17. The multicylinder internal combustion engine according to claim 13, wherein said front bank only has the deactivatable cylinders and the multicylinder internal combustion engine is operatable to activate only some of the deactivatable cylinders and deactivate rest of the deactivatable cylinders. 18. A multicylinder internal combustion engine comprising: a cylinder head with engine valves arranged therein; valve actuators for openably operating said engine valves, respectively; a cylinder head cover forming, in combination with said cylinder head, a valve actuator chamber with said valve actuators accommodated therein, at least some of said valve actuators being deactivatable to disable their corresponding cylinders; and a crankshaft, wherein said multicylinder internal combustion engine is an inline internal combustion engine, the two cylinders at a central part of the crankshaft are constructed as full-time operating cylinders that are fired at equal intervals, the cylinders on opposite end sides of said crankshaft are constructed as deactivatable cylinders, respectively, and an operation mode of said inline internal combustion engine is selectively changeable to one of operation modes consisting of an operation mode in which one of said deactivatable cylinders on the opposite end sides of said crankshaft is disabled, another operation mode in which both of said deactivatable cylinders are disabled, and a further operation mode in which both of said deactivatable cylinders are operated, wherein each of the deactivatable cylinders are connected to a position on the crankshaft further toward the end of the crankshaft than each of the full-time operating cylinders is connected. 19. The multicylinder internal combustion engine according to claim 18, wherein said internal combustion engine is an inline 4-cylinder internal combustion engine. 20. The multicylinder internal combustion engine according to claim 19, wherein said deactivatable cylinders are the cylinders located on the opposite end sides of said crankshaft. 21. The multicylinder internal combustion engine according to claim 18, wherein a valve deactivating mechanism is arranged between a valve stem and a valve lifter to deactivate some at least some of the valve actuators and disable their corresponding cylinders. 22. The multicylinder internal combustion engine according to claim 18, wherein the two full-time operating cylinders are located in a first bank and the two deactivatable cylinders are located in a second bank different from the first bank. 23. The multicylinder internal combustion engine according to claim 18, wherein the two deactivatable cylinders are located in a same bank.
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이 특허에 인용된 특허 (7)
Albertson, William Conrad; Rozario, Frederick J., Cylinder deactivation apparatus.
Ervin, James Douglas; Boyer, Brad Alan; McConville, Gregory Patrick; Ku, Kim Hwe, Method for controlling vibrations during transitions in a variable displacement engine.
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