Engine control device

The invention claimed is: 1. An engine control device for an engine provided with a supercharger, the engine including a cylinder injection valve for injecting a fuel into a cylinder in the engine; a port injection valve for injecting the fuel into an intake port of the cylinder; and a variable valve actuating mechanism that varies open/close timing of at least one of an intake valve and an exhaust valve of the engine, the engine control device comprising: a controller and a memory that stores a program that causes the controller to: control, as an injection controller, injections of the fuel through the cylinder injection valve and through the port injection valve, on the basis of a rotation speed of the engine; and control, as a variable valve controller, the variable valve actuating mechanism on the basis of the rotation speed, wherein the program causes the controller to provide a valve overlap period for opening both the intake valve and the exhaust valve, in a first rotation speed region, whereas shortening the valve overlap period in a second rotation speed region of greater rotation speeds than in the first rotation speed region, and the program causes the controller to advance timing for injecting the fuel through the port injection valve towards an expansion stroke in the period during which the rotation speed is shifting from the first rotation speed region to the second rotation speed region, for injecting fuel through the cylinder injection valve and through the port injection valve. 2. The engine control device according to claim 1 , wherein the program causes the controller to advance the timing for injecting the fuel through the port injection valve further, as the rotation speed increases. 3. The engine control device according to claim 1 , wherein the program causes the controller to increase a ratio of an amount of the fuel to be injected through the port injection valve, as the rotation speed increases. 4. The engine control device according to claim 2 , wherein the program causes the controller to increase a ratio of an amount of the fuel to be injected through the port injection valve, as the rotation speed increases. 5. The engine control device according to claim 1 , wherein the program causes the controller to set, when causing the fuel to be injected through the port injection valve, a ratio of the amount of the fuel to be injected through the port injection valve to an amount of the fuel to be injected through the cylinder injection valve, to 1 or less. 6. The engine control device according to claim 2 , wherein the program causes the controller to set, when causing the fuel to be injected through the port injection valve, a ratio of the amount of the fuel to be injected through the port injection valve to an amount of the fuel to be injected through the cylinder injection valve, to 1 or less. 7. The engine control device according to claim 3 , wherein the program causes the controller to set, when causing the fuel to be injected through the port injection valve, a ratio of the amount of the fuel to be injected through the port injection valve to an amount of the fuel to be injected through the cylinder injection valve, to 1 or less. 8. The engine control device according to claim 4 , wherein the program causes the controller to set, when causing the fuel to be injected through the port injection valve, a ratio of the amount of the fuel to be injected through the port injection valve to an amount of the fuel to be injected through the cylinder injection valve, to 1 or less. 9. The engine control device according to claim 1 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 10. The engine control device according to claim 2 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 11. The engine control device according to claim 3 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 12. The engine control device according to claim 4 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 13. The engine control device according to claim 5 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 14. The engine control device according to claim 6 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 15. The engine control device according to claim 7 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 16. The engine control device according to claim 8 , wherein the program causes the controller to inject the fuel only through the cylinder injection valve, in a low rotation speed region where the rotation speed is within the first rotation speed region and is equal to or smaller than a predetermined rotation speed. 17. The engine control device according to claim 1 , wherein in the first rotation speed region, the program causes the controller to inject the fuel through the cylinder injection valve separately during an intake stroke and during a compression stroke. 18. The engine control device according to claim 1 , wherein the engine provided with the supercharger that comprises: an exhaust turbine that is provided in an exhaust path of the engine, and is rotatable by an exhaust stream; an intake compressor that is provided in an intake path of the engine, and is rotatable with a rotation of the exhaust turbine by being coupled to the exhaust turbine; and a supercharging pressure adjustment valve that is provided in the exhaust path, and is switchable between a closed state to supply the exhaust stream to the exhaust turbine, and an open state to exhaust the exhaust stream, bypassing the exhaust turbine, and when the supercharging pressure adjustment valve is in the closed state, the program causes the controller to provide the valve overlap period for opening both the intake valve and the exhaust valve in the first rotation speed region, whereas shortening the valve overlap period in the second rotation speed region of greater rotation speeds than in the first rotation speed region, and the program causes the controller to advance timing for injecting the fuel through the port injection valve towards an expansion stroke in