An outboard motor mounted to a hull of a watercraft includes a V-type engine having right and left cylinder banks positioned in a cowling and having a crankshaft generally vertically disposed when the watercraft is under a running condition. A surge tank is disposed in the cowling. Right and left si
An outboard motor mounted to a hull of a watercraft includes a V-type engine having right and left cylinder banks positioned in a cowling and having a crankshaft generally vertically disposed when the watercraft is under a running condition. A surge tank is disposed in the cowling. Right and left side long intake conduits and right and left side short intake conduits both connect the surge tank to intake ports of respective right and left banks of cylinders. The associated long intake conduits and short intake conduits can be selectively established depending on information about operational conditions of the hull and/or the outboard motor. The outboard motor includes right and left shut-off valves interchanging the long intake conduits and the short intake conduits. Right and left actuators individually actuate the right and left shut-off valves in accordance with information about operational conditions. A control means individually controls operations of the respective actuators.
대표청구항▼
What is claimed is: 1. An outboard motor adapted to be mounted on a hull of a watercraft, the outboard motor including a cowling and a V-type engine generally enclosed within the cowling, the engine comprising right and left banks of cylinders, a crankshaft arranged to extend generally vertically w
What is claimed is: 1. An outboard motor adapted to be mounted on a hull of a watercraft, the outboard motor including a cowling and a V-type engine generally enclosed within the cowling, the engine comprising right and left banks of cylinders, a crankshaft arranged to extend generally vertically when an attached watercraft hull is in an operating condition, a surge tank disposed within the cowling, right and left side intake conduits for connecting the surge tank to intake ports of respective cylinders of the right and left banks, the right and left side intake conduits each having first and second openings into the surge tank, each intake conduit having a valve for selectively closing the second opening so as to place the conduit in a long effective intake conduit condition, the conduit being in a short effective intake conduit condition when the valve is open, right and left actuators for actuating valves on the right side and left side, respectively, and a controller for controlling operation of the actuators in accordance with information about engine and/or watercraft operational conditions, wherein the controller controls the right actuator independently from the left actuator. 2. An outboard motor as in claim 1, wherein each of the valves on the right side comprises a valve shaft coaxial with a right side shaft, each of the valves on the left side comprises a valve shaft coaxial with a left side shaft, and the right and left actuators are coaxial with the right and left shafts, respectively. 3. An outboard motor as in claim 2, wherein the controller controls the right and left actuators based upon operational conditions of the engine and/or watercraft. 4. An outboard motor as in claim 3, wherein the controller is adapted to selectively vary actuator speed so as to control speed of valve operation when the valve is being opened or closed. 5. An outboard motor as in claim 4, wherein a first portion of the surge tank is disposed forwardly of a crankcase of the engine, and a second portion of the surge tank is disposed on a side of the crankcase, and wherein the second openings of the intake conduits open into the second portion of the surge tank. 6. An outboard motor as in claim 3, wherein the controller is adapted to control the actuators so as to change valve position in a step-by-step manner comprising a plurality of discrete valve position changes. 7. An outboard motor as in claim 6, wherein a first portion of the surge tank is disposed forwardly of a crankcase of the engine, and a second portion of the surge tank is disposed on a side of the crankcase, and wherein the second openings of the intake conduits open into the second portion of the surge tank. 8. An outboard motor as in claim 1, wherein the controller is adapted to vary a speed of valve operation during valve opening or closure depending upon operational conditions of the engine and/or watercraft. 9. An outboard motor as in claim 8, wherein a first valve operation speed is greater than zero but substantially slower than a second valve operation speed. 10. An outboard motor as in claim 1, wherein the controller is adapted to selectively control the actuators so as to change valve position in a step-by-step manner between a plurality of discrete valve positions or at a selected valve change speed. 11. An outboard motor as in claim 10, wherein the controller selects the manner of valve operation based upon operational conditions of the engine and/or watercraft. 12. An outboard motor as in claim 11, wherein the controller selects the manner of valve operation based upon the engine speed. 13. An outboard motor as in claim 1, wherein the controller is adapted to control the actuators so as to change valve position in a step-by-step manner between a plurality of discrete valve positions. 14. An outboard motor as in claim 1, wherein the controller is configured to control the right actuator to actuate the valves on the right side at a right cylinder optimum change moment, and to actuate the valves on the left side at a left cylinder optimum change moment, and wherein the right cylinder optimum change moment is different than the left cylinder optimum change moment. 15. An outboard motor adapted to be mounted on a hull of a watercraft, the outboard motor including a cowling and an engine generally enclosed within the cowling, the engine comprising a plurality of cylinders, a crankshaft arranged to extend generally vertically when an attached watercraft hull is in an operating condition, a surge tank disposed within the cowling, intake conduits for connecting the surge tank to intake ports of respective cylinders, the intake conduits each having first and second openings into the surge tank, each intake conduit having a valve for selectively closing the second opening so as to place the conduit in a long effective intake conduit condition, the conduit being in a short effective intake conduit condition when the valve is open, a valve actuator for actuating the valves, and a controller for controlling operation of the actuator in accordance with information about engine and/or watercraft operational conditions, wherein the controller is adapted to control the valves so as to vary the valve operation speed during opening and/or closure of the valve and/or to operate the valve in a step-by-step manner in which the valve is moved step-by-step through a plurality of discrete valve positions. 16. An outboard motor as in claim 15, wherein the valves are arranged on a common valve shaft, and the actuator is coaxially mounted on the common valve shaft. 17. An outboard motor as in claim 16, wherein the controller controls actuation of the valves based upon engine speed. 18. An outboard motor as in claim 16, wherein at least part of the surge tank is disposed between the intake conduit and the crankcase, and the second opening of each intake conduit opens in a direction generally facing the crankcase. 19. An outboard motor as in claim 18, wherein the actuator is disposed substantially in a space between at least a portion of the intake conduit and the crankcase.
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