System and method for automatically controlling trim position of a marine drive unit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B63H-020/10
B63J-099/00
G05D-003/12
출원번호
US-0874848
(2015-10-05)
등록번호
US-10118681
(2018-11-06)
발명자
/ 주소
Andrasko, Steven J.
Przybyl, Andrew J.
출원인 / 주소
BRUNSWICK CORPORATION
대리인 / 주소
Andrus Intellectual Property Law, LLP
인용정보
피인용 횟수 :
0인용 특허 :
103
초록▼
A method for automatically controlling a trim position of a trimmable drive unit with respect to a transom of a marine vessel includes retrieving from a memory a stored level trim position of the drive unit, measuring an actual trim position of the drive unit, and determining with a controller wheth
A method for automatically controlling a trim position of a trimmable drive unit with respect to a transom of a marine vessel includes retrieving from a memory a stored level trim position of the drive unit, measuring an actual trim position of the drive unit, and determining with a controller whether an absolute difference between the level trim position and the actual trim position exceeds a given threshold. The method also includes determining whether at least one of a plurality of trim-to-level enable conditions indicative of an idle state of an engine powering the drive unit is true. In response to a determination that the absolute difference exceeds the given threshold and that at least one trim-to-level enable condition is true, the method includes sending a control signal with the controller to trim the drive unit to the level trim position. A system for carrying out the method is provided.
대표청구항▼
1. A method for automatically controlling a trim position of a trimmable drive unit with respect to a transom of a marine vessel, the method comprising: retrieving from a memory a stored level trim position of the drive unit;measuring an actual trim position of the drive unit;determining with a cont
1. A method for automatically controlling a trim position of a trimmable drive unit with respect to a transom of a marine vessel, the method comprising: retrieving from a memory a stored level trim position of the drive unit;measuring an actual trim position of the drive unit;determining with a controller whether an absolute difference between the level trim position and the actual trim position exceeds a given threshold;determining whether at least two of a plurality of trim-to-level enable conditions indicate that an engine powering the drive unit is idling, wherein the at least two trim-to-level enable conditions include: (1) an actual speed of the engine is less than a given engine speed threshold, and (2) an actual speed of the marine vessel is less than a given first vessel speed threshold; andin response to a determination that the absolute difference exceeds the given threshold and that the at least two trim-to-level enable conditions indicate that the engine is idling, sending a control signal with the controller to trim the drive unit to the level trim position;wherein the method is carried out automatically without requiring initiation by an operator of the marine vessel. 2. The method of claim 1, wherein the trim-to-level enable conditions further comprise: a throttle controlling throttling of the engine is in one of a neutral position, a reverse idle position, and a forward idle position; anda gear state of a transmission of the drive unit is a neutral gear state. 3. The method of claim 2, further comprising requiring that a time for which the absolute difference exceeds the given threshold and the at least two trim-to-level enable conditions indicate that the engine is idling exceeds a given time threshold before sending the control signal to trim the drive unit to the level trim position. 4. The method of claim 2, wherein the trim-to-level enable conditions further comprise: the actual trim position of the drive unit is less than a given trim position threshold; anda depth of water in which the marine vessel is operating is greater than a given depth. 5. The method of claim 2, further comprising automatically actuating the drive unit to a trimmed-in position with respect to the level trim position when the actual vessel speed exceeds the first vessel speed threshold, but is less than a given second vessel speed threshold. 6. The method of claim 5, further comprising: automatically actuating the drive unit to a trimmed-out position with respect to the level trim position in response to the actual vessel speed reaching the second vessel speed threshold; andautomatically actuating the drive unit to increasingly more trimmed-out positions with respect to the level trim position as the actual vessel speed continues to increase beyond the second vessel speed threshold. 7. The method of claim 2, further comprising determining whether the actual trim position has one of achieved and passed the level trim position, and if so, sending a brief control signal to reverse-actuate a trim actuator coupled between the drive unit and the transom. 8. The method of claim 1, wherein the drive unit is a sterndrive coupled to the transom of the marine vessel via a universal joint, and wherein the level trim position is one that orients a first part of the universal joint in line with respect to a second part of the universal joint. 9. The method of claim 1, wherein the drive unit is an outboard motor coupled to the transom of the marine vessel via a transom bracket, and wherein the level trim position is one that positions the outboard motor out of contact with a mechanical stop coupled to the transom. 10. The method of claim 1, wherein the level trim position is one in which a drive shaft of the drive unit is substantially vertically oriented. 11. A system for controlling a trim position of a trimmable drive unit with respect to a transom of a marine vessel, the system comprising: a controller,a processor; anda memory storing instructions that, when executed by the processor, configure the controller to do the following automatically without requiring initiation by an operator of the marine vessel: retrieve from the memory a stored level trim position of the drive unit;receive an actual trim position of the drive unit;determine whether an absolute difference between the level trim position and the actual trim position exceeds a given threshold;determine whether at least two of a plurality of trim-to-level enable conditions indicate that an engine powering the drive unit is idling, wherein the at least two trim-to-level enable conditions include: (1) an actual speed of the engine is less than a given engine speed threshold, and (2) an actual speed of the marine vessel is less than a given vessel speed threshold; andin response to a determination that the absolute difference exceeds the given threshold and that the at least two trim-to-level enable conditions indicate that the engine is idling, send a control signal to trim the drive unit to the level trim position. 12. The system of claim 11, wherein the trim-to-level enable conditions further comprise: a throttle controlling throttling of the engine is in one of a neutral position, a reverse idle position, and a forward idle position; anda gear state of a transmission of the drive unit is a neutral gear state. 13. The system of claim 12, wherein the instructions further configure the controller to require that a time for which the absolute difference exceeds the given threshold and the at least two trim-to-level enable conditions indicate that the engine is idling exceeds a given time threshold before sending the control signal to trim the drive unit to the level trim position. 14. The system of claim 12, wherein the trim-to-level enable conditions further comprise: the actual trim position of the drive unit is less than a given trim position threshold; anda depth of water in which the marine vessel is operating is greater than a given depth. 15. The system of claim 11, further comprising a drive unit, wherein the drive unit is one of: a sterndrive coupled to the transom of the marine vessel via a universal joint, wherein the level trim position is one that orients a first part of the universal joint in line with respect to a second part of the universal joint; andan outboard motor coupled to the transom of the marine vessel via a transom bracket, wherein the level trim position is one that positions the outboard motor out of contact with a mechanical stop coupled to the transom. 16. The system of claim 15, further comprising a trim actuator in signal communication with the controller and coupled between the transom and the drive unit, the trim actuator being extendable and retractable to change the trim position of the drive unit with respect to the transom. 17. The system of claim 15, further comprising a trim sensor sensing the actual trim position of the drive unit and in signal communication with the controller for providing the actual trim position to the controller. 18. The system of claim 15, wherein the level trim position is one in which a drive shaft of the drive unit is substantially vertically oriented.
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이 특허에 인용된 특허 (103)
Eick Edward C. ; Shields Waylon D. ; Barker Arthur L., Adjustable trim position system.
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Cahoon William L. (P.O. Box 69 ; Hwy. 27 Lake Hamilton FL 33851) Garbrecht Gary D. (P.O. Box 69 ; Hwy. 27 Lake Hamilton FL 33851), Automatic trim control system for multiple drive boats.
Newman Neil A. (Omro WI) Bankstahl Herbert A. (Fond du Lac WI) Griffiths John M. (Fond du Lac WI) Forsgren Lyle M. (Oshkosh WI) Beck Wayne T. (Fond du Lac WI), Fuel conserving cruise system for a marine drive unit.
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Newman Neil A. (Omro WI) Bankstahl Herbert A. (Fond du Lac WI) Griffiths John M. (Fond du Lac WI) Forsgren Lyle M. (Oshkosh WI) Beck Wayne T. (Fond du Lac WI), Operation optimizing system for a marine drive unit.
Gee, Michael B.; Birkland, Dana L.; Bertolasi, Robert B.; Babu, Darryl S.; Meyersieck, Klaus; Bratel, Dean J.; Vann, David D. N.; Hall, Steven B.; Wilson, Mark B.; Gates, Russel E.; Nystrom, Frederic E.; Schenk, Robert N., Programmable trim control system for marine applications.
Anschuetz, Steven M.; Andrasko, Steven J.; Przybyl, Andrew J., System and method for trimming a trimmable marine device with respect to a marine vessel.
Andrasko, Steven J.; Lemancik, Michael J.; Anschuetz, Steven M.; Przybyl, Andrew J.; Balogh, Daniel J., Systems and methods for automatically controlling attitude of a marine vessel with trim devices.
Andrasko, Steven J.; Przybyl, Andrew J.; Anschuetz, Steven M., Systems and methods for automatically controlling attitude of a marine vessel with trim devices.
Anschuetz, Steven M.; Saltsman, Aaron K.; Andrasko, Steven J., Systems and methods for positioning a marine propulsion device to prevent hydro-lock of a marine propulsion engine.
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