Systems and methods for diagnosing a fault state of a shift linkage in a marine propulsion device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-061/00
G01M-017/00
출원번호
US-0760870
(2013-02-06)
등록번호
US-9014909
(2015-04-21)
발명자
/ 주소
Dengel, Michael P.
Smedema, Gene A.
Ziemer, Lance W.
출원인 / 주소
Brunswick Corporation
대리인 / 주소
Andrus Intellectual Property Law, LLP
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
A system and method are for diagnosing a fault state of a shift linkage in a marine propulsion device. A control lever is movable towards at least one of a maximum reverse position and a maximum forward position. A shift linkage couples the control lever to a transmission, wherein movement of the co
A system and method are for diagnosing a fault state of a shift linkage in a marine propulsion device. A control lever is movable towards at least one of a maximum reverse position and a maximum forward position. A shift linkage couples the control lever to a transmission, wherein movement of the control lever causes movement of the shift linkage that enacts a shift change in the transmission. A shift sensor outputs a position signal representing a current position of the shift linkage. A control circuit diagnoses a fault state of the shift linkage when after the shift change the position signal that is output by the shift sensor is outside of at least one range of position signals that is stored in the control circuit.
대표청구항▼
1. A method of diagnosing a fault state of a shift linkage in a marine propulsion device, the method comprising: moving a control lever towards at least one of a maximum reverse position and a maximum forward position so that the control lever causes movement of a shift linkage, which enacts a shift
1. A method of diagnosing a fault state of a shift linkage in a marine propulsion device, the method comprising: moving a control lever towards at least one of a maximum reverse position and a maximum forward position so that the control lever causes movement of a shift linkage, which enacts a shift change in a transmission;sensing position of the shift linkage with a shift sensor and outputting a position signal to a control circuit, the position signal representing a current position of the shift linkage; anddiagnosing with the control circuit a fault state of the shift linkage when after the shift change the position signal that is output by the shift sensor is outside of at least one range of position signals that is stored in the control circuit. 2. The method according to claim 1, comprising indicating the fault state to an operator via an alert device. 3. The method according to claim 2, comprising indicating to the operator how to remedy the fault state. 4. The method according to claim 1, wherein the shift change comprises a change between a neutral gear and one of a forward gear and reverse gear, and comprising calibrating in the control circuit the at least one stored range of position signals, wherein the at least one stored range of position signals comprises a forward range in which the shift linkage is expected to enact the change from the neutral gear to the forward gear, a reverse range in which the shift linkage is expected to enact a change from the neutral gear to the reverse gear, and a neutral range that is in between the forward range and the reverse range, wherein in the neutral range the shift linkage is expected to enact a change from the forward gear to the neutral gear and from the reverse gear to the neutral gear. 5. The method according to claim 4, comprising diagnosing with the control circuit a forward offset fault state of the shift linkage indicating that the shift linkage has shifted towards the forward gear when upon movement of the control lever towards the maximum reverse position the shift sensor outputs a first position signal that is between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the shift sensor outputs a second position signal that is outside of the forward range and not between the neutral range and the forward range. 6. The method according to claim 4, comprising diagnosing with the control circuit a reverse offset fault state of the shift linkage indicating that the shift cable has shifted towards the reverse gear when upon movement of the control lever towards the maximum reverse position the shift sensor outputs a first position signal that is outside of the reverse range and not between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the shift sensor outputs a second position signal that is between the neutral range and the forward range. 7. The method according to claim 4, comprising comparing a first position signal from a movement of the control lever towards one of the maximum forward position and maximum reverse position to a second position signal from a second movement of the control lever towards the one of the maximum forward position and maximum reverse position and diagnosing a drift fault state of the shift linkage indicating that the shift linkage has drifted when the first and second position signals differ by more than a threshold amount. 8. The method according to claim 4, comprising recalibrating the at least one range of position signals based upon when the shift change between the neutral gear and the forward and reverse gears, respectively, actually occurs. 9. The method according to claim 1, comprising comparing a total distance that the shift linkage moves during movement of the control lever between the maximum forward position and maximum reverse position to a stored distance, and diagnosing a stretched shift linkage fault state if the shift linkage does not move more than the stored distance. 10. A system for diagnosing a fault state of a shift linkage in a marine propulsion device, the system comprising: a control lever that is movable towards at least one of a maximum reverse position and a maximum forward position;a shift linkage that couples the control lever to a transmission, wherein movement of the control lever causes movement of the shift linkage, which enacts a shift change in the transmission;a shift sensor that outputs a position signal representing a current position of the shift linkage; anda control circuit that diagnoses a fault state of the shift linkage when after the shift change the position signal that is output by the shift sensor is outside of at least one range of position signals that is stored in the control circuit. 11. The system according to claim 10, comprising an alert device, wherein the control circuit controls the alert device to indicate the fault state to an operator. 12. The system according to claim 11, wherein the control circuit controls the alert device to indicate to an operator how to remedy the fault state. 13. The system according to claim 10, wherein the shift change comprises a change between a neutral gear and one of a forward gear and reverse gear. 14. The system according to claim 13, wherein the at least one stored range of position signals comprises a forward range in which the shift linkage is expected to enact the change from the neutral gear to the forward gear, a reverse range in which the shift linkage is expected to enact a change from the neutral gear to the reverse gear, and a neutral range that is in between the forward range and the reverse range, wherein in the neutral range the shift linkage is expected to enact a change from the forward gear to the neutral gear and from the reverse gear to the neutral gear. 15. The system according to claim 14, wherein the control circuit diagnoses a forward offset fault state of the shift linkage indicating that the shift linkage has shifted towards the forward gear when upon movement of the control lever towards the maximum reverse position the shift sensor outputs a first position signal that is between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the shift sensor outputs a second position signal that is outside of the forward range and not between the neutral range and the forward range. 16. The system according to claim 14, wherein the control circuit diagnoses a reverse offset fault state of the shift linkage indicating that the shift cable has shifted towards the reverse gear when upon movement of the control lever towards the maximum reverse position the shift sensor outputs a first position signal that is outside of the reverse range and not between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the shift sensor outputs a second position signal that is between the neutral range and the forward range. 17. The system according to claim 14, wherein the control circuit compares a first position signal from a movement of the control lever towards one of the maximum forward position and maximum reverse position to a second position signal from a second movement of the control lever towards the one of the maximum forward position and maximum reverse position and wherein the control circuit diagnoses a drift fault state of the shift linkage indicating that the shift linkage has drifted when the first and second position signals differ by more than a threshold amount. 18. The system according to claim 14, wherein the control circuit recalibrates the at least one range of position signals based upon when the shift change between the neutral gear and the forward and reverse gears, respectively, actually occurs. 19. The system according to claim 10, wherein the control circuit compares a total distance that the shift linkage moves during movement of the control lever towards at least one of the maximum forward position and maximum reverse position to a stored distance, and wherein the control circuit diagnoses a stretched shift linkage fault state if the shift linkage does not move more than the stored distance. 20. A system for diagnosing a fault state of a shift linkage in a marine propulsion device, the system comprising: a control lever that is movable towards at least one of a maximum reverse position and a maximum forward position;a shift cable that couples the control lever to a transmission, wherein movement of the control lever causes movement of the shift cable that enacts a shift change in the transmission, wherein the shift change comprises a change between a neutral gear and one of a forward gear and reverse gear;a potentiometer that outputs an analog-to-digital count (ADC) representing a current position of the shift cable;a control circuit that diagnoses a fault state of the shift cable when after the shift change, during movement of the control lever towards the at least one of the maximum reverse position and the maximum forward position, the ADC that is output by the potentiometer is outside of at least one range of ADCs that is stored in the control circuit; andan alert device, wherein the control circuit controls the alert device to indicate the fault state to an operator;wherein the at least one stored range of ADCs comprises a forward range in which the shift cable is expected to enact the change from the neutral gear to the forward gear, a reverse range in which the shift cable is expected to enact a change from the neutral gear to the reverse gear, and a neutral range that is in between the forward range and the reverse range, wherein in the neutral range the shift cable is expected to enact a change from the forward gear to the neutral gear and from the reverse gear to the neutral gear;wherein the control circuit diagnoses a forward offset fault state of the shift cable indicating that the shift cable has shifted towards the forward gear when upon movement of the control lever towards the maximum reverse position the potentiometer outputs an ADC that is between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the potentiometer outputs an ADC that is outside of the forward range and not between the neutral range and the forward range;wherein the control circuit diagnoses a reverse offset fault state of the shift cable indicating that the shift cable has shifted towards the reverse gear when upon movement of the control lever towards the maximum reverse position the potentiometer outputs an ADC that is outside of the reverse range and not between the neutral range and the reverse range, and upon movement of the control lever towards the maximum forward position the potentiometer outputs an ADC that is between the neutral range and the forward range;wherein the control circuit compares a first ADC from a movement of the control lever towards one of the maximum forward position and maximum reverse position to a second ADC from a second movement of the control lever towards the one of the maximum forward position and maximum reverse position and wherein the control circuit diagnoses the drift fault state of the shift cable indicating that the shift cable has drifted when the first and second ADCs differ by more than a threshold amount; andwherein the control circuit recalibrates the at least one range of ADCs based upon when the shift change between the neutral gear and the forward and reverse gears, respectively, actually occurs.
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