IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0881735
(2004-06-30)
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우선권정보 |
JP-2003-188020(2003-06-30); JP-2004-123202(2004-04-19) |
발명자
/ 주소 |
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출원인 / 주소 |
- Yamaha Marine Kabushiki Kaisha
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대리인 / 주소 |
Knobbe, Martens, Olson &
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인용정보 |
피인용 횟수 :
0 인용 특허 :
38 |
초록
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The control system establishes an engine warm-up protocol based, at least in part, on elapsed time from engine start. The control system provides a reduced reliance on engine temperature as a basis for determining an appropriate engine idle speed. The control system thus reduces the likelihood of un
The control system establishes an engine warm-up protocol based, at least in part, on elapsed time from engine start. The control system provides a reduced reliance on engine temperature as a basis for determining an appropriate engine idle speed. The control system thus reduces the likelihood of unstable idling conditions when, for example, inadequate cooling water or extremely cold cooling water is being supplied to the engine.
대표청구항
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What is claimed is: 1. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle
What is claimed is: 1. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle sensor adapted to detect whether the engine is idling; apparatus adapted to determine an elapsed time after an engine start; apparatus adapted to determine a reference engine idle speed based on the elapsed time after an engine start, said apparatus including a counter adapted to monitor a number of times that a processing operation is executed and a processor adapted to multiply the number by a preselected sampling interval; and a controller adapted to adjust an engine idle speed during idle speed running based on the reference engine idle speed when the operability sensor detects that the watercraft is operable and the engine idle sensor detects that the engine is idling. 2. The control system of claim 1, wherein the operability sensor comprises a shift switch position sensor. 3. The control system of claim 1, wherein the engine idle sensor comprises a throttle opening sensor. 4. The control system of claim 1, wherein the apparatus adapted to determine an elapsed time after an engine start comprises a timer. 5. The control system of claim 1, wherein the controller is adapted to control the opening and closing of a secondary air valve. 6. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle sensor adapted to detect whether the engine is idling; apparatus adapted to determine an elapsed time after an engine start; apparatus adapted to determine a reference engine idle speed based on the elapsed time after an engine start; a controller adapted to adjust an engine idle speed during idle speed running based on the reference engine idle speed when the operability sensor detects that the watercraft is operable and the engine idle sensor detects that the engine is idling; and an engine idle speed control switch adapted to enable a watercraft operator to manually input an engine idle speed. 7. The control system of claim 6, wherein, during idle speed running, the engine idle speed controller is adapted to set either the input engine idle speed or the reference engine idle speed, whichever is higher, as a target engine idle speed until an engine warm-up is completed. 8. The control system of claim 6, wherein, during idle speed running, the engine idle speed controller is adapted to set the input engine idle speed as a target engine idle speed after an engine warm-up is completed. 9. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle sensor adapted to detect whether the engine is idling; apparatus adapted to determine an elapsed time after an engine start; apparatus adapted to determine a reference engine idle speed based on the elapsed time after an engine start; a controller adapted to adjust an engine idle speed during idle speed running based on the reference engine idle speed when the operability sensor detects that the watercraft is operable and the engine idle sensor detects that the engine is idling; an engine idle speed control switch adapted to enable a watercraft operator to manually input an engine idle speed; and an engine speed sensor adapted to detect an engine speed; wherein, when the engine speed equals a predetermined speed or higher, the control system is adapted to reset the input engine idle speed. 10. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle sensor adapted to detect whether the engine is idling; apparatus adapted to determine an elapsed time after an engine start; apparatus adapted to determine a reference engine idle speed based on the elapsed time after an engine start; a controller adapted to adjust an engine idle speed during idle speed running based on the reference engine idle speed when the operability sensor detects that the watercraft is operable and the engine idle sensor detects that the engine is idling; an engine idle speed control switch adapted to enable a watercraft operator to manually input an engine idle speed; and an engine speed sensor adapted to detect an engine speed; wherein, when the engine is stopped, the control system is adapted to reset the input engine idle speed. 11. A control system for a marine engine, the marine engine being adapted to propel a watercraft with thrust produced by an engine-driven propeller, the control system comprising: an operability sensor adapted to detect whether the watercraft is operable; at least one engine idle sensor adapted to detect whether the engine is idling; apparatus adapted to determine an elapsed time after an engine start; apparatus adapted to determine a reference engine idle speed based on the elapsed time after an engine start; and a controller adapted to adjust an engine idle speed during idle speed running based on the reference engine idle speed when the operability sensor detects that the watercraft is operable and the engine idle sensor detects that the engine is idling; wherein, during idle speed running, the engine idle speed controller is adapted to assume that an engine warm-up is completed when the reference engine idle speed equals a predetermined engine idle speed. 12. The control system of claim 11, further comprising an engine temperature sensor adapted to detect an engine temperature. 13. The control system of claim 12, wherein, immediately after an engine start, the apparatus adapted to determine a reference engine idle speed is adapted to set the reference engine idle speed based on the engine temperature. 14. A marine engine for a watercraft comprising: an engine body defining at least one cylinder bore in which a piston reciprocates; a cylinder head secured to a first end of the engine body for closing the cylinder bore and defining with the piston and the cylinder bore a combustion chamber; an intake passage in selective fluid communication with the combustion chamber and configured to provide air for an air/fuel mixture to the combustion chamber; an air induction system configured to supply air to the intake passage; at least one sensor configured to monitor engine running conditions; and an engine control unit configured to determine an elapsed time after an engine start and further configured to control an engine idle speed based upon the engine running conditions and the elapsed time; wherein the engine control unit is further configured to compare a reference engine idle speed to a preset engine idle speed, and still further configured to control an actual engine idle speed based upon relative values of the reference engine idle speed and the preset engine idle speed. 15. The marine engine of claim 14, wherein the air induction system comprises a throttle valve configured to regulate an air flow into the intake passageway. 16. The marine engine of claim 14, wherein the air induction system further comprises a secondary air valve configured to selectively supplement the air flow into the intake passageway. 17. The marine engine of claim 14, wherein the engine control unit controls the engine idle speed by controlling an opening or closing of the secondary air valve. 18. A method of operating an outboard motor for a watercraft, the outboard motor comprising an engine for driving a marine propulsion device, the method comprising: determining at least one actual engine running condition; determining an elapsed time after an engine start; setting a reference engine idle speed based at least in part upon the elapsed time; reading an input engine idle speed; comparing the reference engine idle speed to a preset engine idle speed; setting a target engine idle speed to be one of the reference engine idle speed and the input engine idle speed; and adjusting an actual engine idle speed to be equal to the target engine idle speed. 19. The method of claim 18, wherein the target engine idle speed is set to the reference engine idle speed if the reference engine idle speed is greater than the preset engine idle speed and the reference engine idle speed is greater than the input engine idle speed. 20. The method of claim 18, wherein the target engine idle speed is set to the input engine idle speed if the reference engine idle speed is greater than the preset engine idle speed and the input engine idle speed is greater than the reference engine idle speed. 21. The method of claim 18, wherein the target engine idle speed is set to the input engine idle speed if the reference engine idle speed is equal to the preset engine idle speed. 22. The method of claim 18, wherein adjusting the actual engine idle speed comprises setting a secondary air valve opening command value. 23. The method of claim 22, wherein adjusting the actual engine idle speed further comprises outputting the secondary air valve opening command value. 24. The method of claim 18, wherein the engine running condition is whether the engine is idling and target engine idle speed is set to be the reference engine idle speed if the engine is determined to be idling and an associated transmission is not in neutral. 25. The method of claim 18, wherein the target engine idle speed is reset to the reference engine idle speed if a sensed engine speed exceeds a preset threshold speed. 26. The method of claim 18, wherein the target engine idle speed is reset to the reference engine idle speed if the engine is stopped.
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