An in-cylinder injector injects fuel to be sprayed in the form of an inverted letter V sandwiching a spark plug, as seen in a top view, and in a sector as seen in a side view. The sprayed fuel interferes with an intake valve assuming an open position. An engine ECU executes a program including the s
An in-cylinder injector injects fuel to be sprayed in the form of an inverted letter V sandwiching a spark plug, as seen in a top view, and in a sector as seen in a side view. The sprayed fuel interferes with an intake valve assuming an open position. An engine ECU executes a program including the steps of: determining with reference to a map a timing of injection of the fuel through the in-cylinder injector (S100); determining a period for injection from an amount of fuel injected (S110); determining in accordance with map whether the sprayed fuel interferes with the intake valve (S120); modifying the period for injection to be advanced by a period for injection having the sprayed fuel interfering with the intake valve (S130); and determining a timing of injection and a period for injection (S140).
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What is claimed is: 1. A control device for an internal combustion engine including a fuel injection mechanism injecting fuel into a cylinder, comprising: an injection controller controlling said fuel injection mechanism to inject the fuel into said cylinder at an intake stroke, as corresponding to
What is claimed is: 1. A control device for an internal combustion engine including a fuel injection mechanism injecting fuel into a cylinder, comprising: an injection controller controlling said fuel injection mechanism to inject the fuel into said cylinder at an intake stroke, as corresponding to a prescribed state of operation associated with said internal combustion engine; a valve controller controlling at least one of a timing to open and close an intake valve, a period of time for which said intake valve is opened/closed, and said intake valve's liftability; a determinator determining whether the fuel injected through said fuel injection mechanism and thus sprayed interferes with said intake valve and scatters in a vicinity of a spark plug; and a modifier operative in response to said determinator making a decision that the fuel has scattered in the vicinity of said spark plug to allow said injection controller to modify a manner of injecting the fuel and/or to allow said valve controller to modify a manner of operating said intake valve to prevent the fuel sprayed from interfering with said intake valve. 2. The control device according to claim 1, wherein said modifier allows said injection controller to modify a timing of injection of the fuel to modify said manner of injecting the fuel. 3. The control device according to claim 2, wherein said modifier advances said timing of injection of the fuel. 4. The control device according to claim 1, wherein said modifier allows said injection controller to divide injecting the fuel at least in two times to modify said manner of injecting the fuel. 5. The control device according to claim 1, wherein: said internal combustion engine further includes a fuel injection mechanism injecting the fuel into an intake manifold; and said modifier allows said injection controller to reduce a period for injecting the fuel and if reducing said period results in failing to satisfy an amount of fuel required then said modifier modifies said manner of injecting the fuel by allowing said fuel injection mechanism injecting the fuel into said intake manifold to inject fuel by a shortfall. 6. The control device according to claim 5, wherein: said fuel injection mechanism injecting the fuel into said cylinder is an in-cylinder injector; and said fuel injection mechanism injecting the fuel into said intake manifold is an intake manifold injector. 7. The control device according to claim 1, wherein said modifier allows said valve controller to modify said timing to open and close said intake valve to modify said manner of injecting the fuel. 8. The control device according to claim 7, wherein said modifier allows said intake valve to be timed to open later. 9. The control device according to claim 1, wherein said determinator determines whether the fuel sprayed has scattered in the vicinity of the spark plug with reference to a map represented by a parameter representing a state of operation of said internal combustion engine. 10. The control device according to claim 1, wherein an electrical characteristic of said spark plug is detected and if said electrical characteristic varies from a normal state said determinator determines whether the fuel sprayed has scattered in the vicinity of said spark plug. 11. The control device according to claim 10, wherein said modifier modifies at least one of said manner of injecting the fuel and said manner of operating said intake valve until said electrical characteristic no longer varies, as detected. 12. A control device for an internal combustion engine including fuel injection means for injecting fuel into a cylinder, comprising: injection control means for controlling said fuel injection means to inject the fuel into said cylinder at an intake stroke, as corresponding to a prescribed state of operation associated with said internal combustion engine; valve control means for controlling at least one of a timing to open and close an intake valve, a period of time for which said intake valve is opened/closed, and said intake valve's liftability; determination means for determining whether the fuel injected through said fuel injection means and thus sprayed interferes with said intake valve and scatters in a vicinity of a spark plug; and modification means operative in response to said determination means making a decision that the fuel has scattered in the vicinity of said spark plug for allowing said injection control means to modify a manner of injecting the fuel and/or allowing said valve control means to modify a manner of operating said intake valve to prevent the fuel sprayed from interfering with said intake valve. 13. The control device according to claim 12, wherein said modification means includes means for allowing said injection control means to modify a timing of injection of the fuel to modify said manner of injecting the fuel. 14. The control device according to claim 13, wherein said modification means includes means for advancing said timing of injection of the fuel. 15. The control device according to claim 12, wherein said modification means includes means for allowing said injection control means to divide injecting the fuel at least in two times to modify said manner of injecting the fuel. 16. The control device according to claim 12, wherein: said internal combustion engine further includes fuel injection means for injecting the fuel into an intake manifold; and said modification means includes means for allowing said injection control means to reduce a period for injecting the fuel and, if reducing said period results in failing to satisfy an amount of fuel required, then causing said fuel injection means for injecting the fuel into said intake manifold to inject fuel by a shortfall to modify said manner of injecting the fuel. 17. The control device according to claim 16, wherein: said fuel injection means for injecting the fuel into said cylinder is an in-cylinder injector; and said fuel injection means for injecting the fuel into said intake manifold is an intake manifold injector. 18. The control device according to claim 12, wherein said modification means includes means for allowing said valve control means to modify said timing to open and close said intake valve to modify said manner of injecting the fuel. 19. The control device according to claim 18, wherein said modification means includes means for allowing said intake valve to be timed to open later. 20. The control device according to claim 12, wherein said determination means includes means for determining whether the fuel sprayed has scattered in the vicinity of the spark plug with reference to a map represented by a parameter representing a state of operation of said internal combustion engine. 21. The control device according to claim 12, wherein said determination means includes means for determining whether the fuel sprayed has scattered in the vicinity of said spark plug from a fact that an electrical characteristic of said spark plug detected varies from a normal state. 22. The control device according to claim 21, wherein said modification means includes means for modifying at least one of said manner of injecting the fuel and said manner of operating said intake valve until said electrical characteristic no longer varies, as detected.
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