IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0399141
(2009-03-06)
|
등록번호 |
US-8277270
(2012-10-02)
|
우선권정보 |
JP-2008-090885 (2008-03-31) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Yamaha Hatsudoki Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
5 |
초록
▼
A boat propulsion unit includes a power source, a propeller, a shift position switching mechanism, a control device, and a retention switch. The propeller is driven by the power source to generate propulsive force. The shift position switching mechanism has an input shaft connected to a side of the
A boat propulsion unit includes a power source, a propeller, a shift position switching mechanism, a control device, and a retention switch. The propeller is driven by the power source to generate propulsive force. The shift position switching mechanism has an input shaft connected to a side of the power source, an output shaft connected to a side of the propeller, and clutches that change a connection state between the input shaft and the output shaft. A shift position of the shift position switching mechanism is switched among forward, neutral, and reverse by engaging and disengaging the clutches. The control device adjusts an engagement force of the clutches. The retention switch is connected to the control device. When the retention switch is turned on by an operator, the control device controls the engagement force of the clutches to retain a hull in a predefined position. The boat propulsion unit provides a boat propulsion unit that can accurately retain a boat at a fixed point.
대표청구항
▼
1. A boat propulsion unit comprising: a power source;a propeller arranged to be driven by the power source to generate a propulsive force;a shift position switching mechanism having an input shaft connected to the power source, an output shaft connected to the propeller, and a hydraulic clutch arran
1. A boat propulsion unit comprising: a power source;a propeller arranged to be driven by the power source to generate a propulsive force;a shift position switching mechanism having an input shaft connected to the power source, an output shaft connected to the propeller, and a hydraulic clutch arranged to change a connection state between the input shaft and the output shaft, a shift position of the shift position switching mechanism being switched between forward, neutral, and reverse by engaging and disengaging the hydraulic clutch;a control device arranged to adjust and maintain an engagement force of the hydraulic clutch to be any value in a range of 0% to 100%, including any value between 0% and 100%, of the engagement force of the hydraulic clutch by adjusting a hydraulic pressure applied to the hydraulic clutch and thereby vary a rotational speed of the output shaft with respect to a rotational speed of the input shaft; anda retention switch connected to the control device; whereinwhen the retention switch is turned on by an operator, the control device controls the engagement force of the hydraulic clutch to assist a hull being retained at or propelled toward a predefined position; andthe control device calculates the engagement force of the hydraulic clutch based on a boat speed integral value, which is a speed of the boat integrated over time since the retention switch was turned on. 2. The boat propulsion unit according to claim 1, wherein when the retention switch is turned on by the operator, the control device controls the engagement force of the hydraulic clutch to assist the hull being retained at or propelled toward the predefined position at which the hull was located when the retention switch was turned on. 3. The boat propulsion unit according to claim 1, wherein the hydraulic clutch includes: a first hydraulic clutch that is engaged when the shift position of the shift position switching mechanism is in the reverse position, and is disengaged when the shift position of the shift position switching mechanism is in the forward or neutral positions; anda second hydraulic clutch that is engaged when the shift position of the shift position switching mechanism is in the forward position and to be disengaged when the shift position of the shift position switching mechanism is in the reverse or neutral positions; andwhen the retention switch is turned on by the operator, the control deviced disengages the second hydraulic clutch and increases an engagement force of the first clutch if a current position of the hull is more forward than the predefined position and disengages the first hydraulic clutch and increases an engagement force of the second hydraulic clutch if the current position of the hull is more rearward than the predefined position. 4. The boat propulsion unit according to claim 3, wherein the engagement force of the first hydraulic clutch or the second hydraulic clutch is gradually increased in order to increase the engagement force of the first hydraulic clutch or the second hydraulic clutch when the retention switch is turned on by the operator. 5. The boat propulsion unit according to claim 3, wherein the control device is arranged to control the engagement force of the first hydraulic clutch and the engagement force of the second hydraulic clutch based on a distance between the current position of the hull and the predefined position when the retention switch is turned on by the operator. 6. The boat propulsion unit according to claim 1, comprising: a first boat propulsion unit provided with the power source, the propeller, and the shift position switching mechanism; anda second boat propulsion unit provided with a second power source, a second propeller, and a second shift position switching mechanism; whereinthe control device is arranged to cause an engagement force of a hydraulic clutch of the second boat propulsion unit to be larger than an engagement force of a hydraulic clutch of the first boat propulsion unit when the hull is located on one side in the width direction of the hull with respect to the predefined position when the retention switch is turned on by the operator. 7. The boat propulsion unit according to claim 6, further comprising: a third boat propulsion unit provided with a third power source, a third propeller, and a third shift position switching mechanism, the third boat propulsion unit being disposed between the first boat propulsion unit and the second boat propulsion unit in the width direction of the hull; whereinthe control device is arranged to keep a hydraulic clutch of the third boat propulsion unit disconnected when the retention switch is turned on by the operator. 8. The boat propulsion unit according to claim 1,further comprising: a deceleration switch connected to the control device; whereinthe control device is arranged to control the engagement force of the hydraulic clutch such that the propeller generates propulsive force in an opposite direction to a current propulsion direction of the hull when the deceleration switch is turned on by the operator, and if the deceleration switch remains on when a propulsion speed of the hull becomes substantially zero, controls the engagement force of the hydraulic clutch to assist the hull being retained at or propelled toward a position in which the hull is located when the propulsion speed of the hull becomes substantially zero. 9. The boat propulsion unit according to claim 1, wherein the hydraulic clutch is a multi-plate clutch. 10. The boat propulsion unit according to claim 1, wherein the control device includes: an actuator; anda control section arranged to control the actuator; andthe actuator includes: an oil pump arranged to generate the hydraulic pressure to engage and disengage the hydraulic clutch;an oil path arranged to connect the oil pump and the hydraulic clutch; anda valve disposed in the oil path arranged to gradually change a flow area of the oil path. 11. The boat propulsion unit according to claim 1, further comprising a memory arranged to store a map defining a relationship between the boat speed integral value and the engagement force of the hydraulic clutch, wherein the control device calculates the engagement force of the hydraulic clutch by applying the boat speed integral value to the map.
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