| Yamaha Marine Kabushiki Kaisha Patent applications |
| Patent application number | Title | Published |
|---|
| 20100240266 | VESSEL SPEED CONTROL SYSTEM FOR SMALL PLANING BOAT AND SMALL PLANING BOAT UTILIZING THE SAME - A speed control system for a small planing boat can comprise a speed sensor to detect a vessel speed of a boat body, a speed information storing unit on which data of a previously set maximum speed limit of the boat body is stored, and a speed control device for controlling the cruising speed of the boat body not to exceed the maximum speed limit based on a result of a correlation between the cruising speed and the maximum speed limit. The speed control device can comprise a revolution speed sensor, a revolution speed acquiring unit and a revolution speed control unit. The speed control device can also work in conjunction with an intake air mass amount control device which can include an electronically-controlled throttle valve, an air mass amount acquiring unit and a throttle opening degree control unit. | 09-23-2010 |
| 20100131132 | REMOTE CONTROL SYSTEM FOR A WATERCRAFT - A remote control system for controlling a propulsion unit of a watercraft includes a plurality of remote controller side ECUs, all of which have the same construction in one embodiment. Each remote controller side ECU includes ECU discriminating terminal sections and an ECU determining section for determining a role of each remote controller side ECU based upon signals provided by the ECU discriminating terminal sections. The ECU determining section determines a role of the particular remote controller side ECU based upon the signals provided by the ECU discriminating terminal sections when the remote controller side ECU starts operating. The ECU determining section also reads out the most proper one of first through sixth exclusive use sections, which define the function of the ECU's role. A determination result is stored in first, second and third EPROMs so as to be used to determine the role. | 05-27-2010 |
| 20090181585 | OUTBOARD MOTOR - An oil supply device includes an axial oil passage and an intersecting oil passage provided in a propeller shaft, an axial oil passage and an intersecting oil passage provided in a drive shaft, and an oil guide passage. The intersecting oil passages allow oil inside the axial oil passages to be spouted radially of the shaft by centrifugal force generated as the shafts rotate. The oil is then supplied via the oil guide passage to an intermediate speed reduction device. As a result, it is possible to sufficiently lubricate an intermediate speed reduction device mounted on a drive shaft through a simple and compact arrangement. | 07-16-2009 |
| 20090176420 | OUTBOARD MOTOR - An outboard motor includes a transmission device disposed on a middle portion of a drive shaft driven by an engine. The transmission device includes a forward-reverse switching device housed in a transmission case. Lubricating oil for lubricating the forward-reverse switching device is stored in the transmission case. The transmission case has a drain hole arranged to discharge lubricating oil in the transmission case that is provided in a lower portion of a side wall and in a position in front of the drive shaft, and a drain bolt for opening or closing the drain hole. An exposed opening for exposing the drain hole is provided in an upper case that covers the transmission case. As a result, work efficiency in discharging or draining of lubricating oil is greatly improved without requiring dismantling of a main body of the outboard motor. | 07-09-2009 |
| 20090176418 | BOAT - A boat includes a steering load detector arranged to calculate an output value of a steering motor necessary for steering an outboard motor in a traveling state, a motor output detector arranged to detect a possible output value that can be output by the steering motor, a prediction determination unit arranged to compare the necessary output value from the steering load detector with the possible output value from the motor output detector, and an electric power load control unit arranged to perform a control operation so as to increase a battery charge amount and/or to reduce the electric power load when the necessary output value is determined to be larger than the possible output value. As a result, the boat that can effectively perform steering when a motor output becomes small as a result of a reduced battery charge amount. | 07-09-2009 |
| 20090173185 | WATER COOLING APPARATUS IN POWER TRANSMISSION SYSTEM OF BOAT PROPULSION UNIT - A water cooling apparatus in a power transmission system of a boat propulsion system includes a transmission unit that changes the speed of an output from an engine and then transmits the output to a propeller shaft. The transmission unit includes a cylindrical transmission case with an axis extending vertically, a transmission device housed in the transmission case and arranged to change the speed of an input, and a cooling water passage formed in the transmission case for flowing cooling water. In the plan sectional view of the transmission unit, the cooling water passage is formed in at least one of a side portion or a rear portion of the transmission case. As a result, strain on a rear portion of a hull that supports a boat propulsion unit is prevented and minimized, while a transmission unit is sufficiently cooled with cooling water. | 07-09-2009 |
| 20090170387 | BOAT PROPULSION SYSTEM AND BOAT INCLUDING THE SAME AND BOAT CONTROL DEVICE AND BOAT CONTROL METHOD - A boat propulsion system includes a control section, a thrust calculation section, a thrust generating unit, a thrust detection section, and a control section. An accelerator opening is input to the control lever by operation of an operator. The accelerator opening detection section detects the input accelerator opening. The thrust calculation section calculates a thrust intended to be generated from the accelerator opening to output a calculated thrust. The thrust generating unit generates a thrust. The thrust detection section detects a thrust actually generated on the thrust generating unit to output it as an actual thrust. The control section controls an output of the thrust generating unit so that the actual thrust approaches the calculated thrust. | 07-02-2009 |
| 20090163094 | OUTBOARD MOTOR - An outboard motor includes a water pump arranged to draw in cooling water, a pump drive mechanism that decelerates rotation of a drive shaft and transmits the rotation to the water pump, and an oil supply device (a main oil passage, oil ejection passages, a hollow portion, and an oil ejection hole) arranged to supply oil to lubricate a transmission to the pump drive mechanism. The outboard motor is able to prevent occurrence of cavitation in a water pump of a vane-type pump and to increase a discharge amount of the pump while an engine is running at high speed. | 06-25-2009 |
| 20090163093 | OUTBOARD MOTOR - A motor including an intake-side conduit member disposed outside a casing that makes a connection between a cooling water intake section of a water pump and an intake hole, and a cooling water relay section provided outside the casing. The cooling water relay section communicates with a cooling water supply passage in the casing. A discharge-side conduit member that is disposed outside the casing connects the cooling water relay section to a cooling water discharge section of the water pump. Additionally, the other end of a transmission cooling conduit member that is branched from the cooling water relay section is connected to a water jacket of the transmission. The conduit members are preferably flexible hose members, for example. Accordingly, this unique construction improves a cooling water piping layout around a water pump, a discharge performance of the water pump, and an assembly workability of a motor. | 06-25-2009 |
| 20090163092 | COOLING SYSTEM FOR OUTBOARD MOTOR - A cooling system includes a coolant distributing device arranged to distribute coolant discharged from a water pump to both an engine and a transmission device. The coolant distributing device includes a coolant relay section, an inlet conduit member, an outlet conduit member, and a transmission cooling conduit member, and supplies a portion of the coolant discharged from the water pump to a highest portion of a water jacket of the transmission device, and discharges the water from a lowest portion of the water jacket. The cooling system effectively cools the transmission device with a simple construction facilitating assembly and maintenance. | 06-25-2009 |
| 20090124141 | SHIFT MOTION CONTROL DEVICE - A shift-in operation determination device determines a shift-in operation based on a signal in accordance with an operation of a remote control lever. An ignition timing operation device retards an ignition timing of an engine based on a determination result of the shift-in operation by the shift-in operation determination device. A shift-in command device engages a shift actuator and a dog clutch with either of a forward traveling bevel gear or a rearward traveling bevel gear in a state where the ignition timing of the engine is retarded. The shift-in operation determination device works to prevent a shock which occurs at a shift-in while maintaining a stable engine output in an outboard motor. | 05-14-2009 |
| 20090111339 | SMALL BOAT - A small boat includes engines mounted on a hull, a plurality of water jet propulsion units disposed on both sides of a longitudinal axis of the hull and driven by the engines, and a steering wheel arranged to change jet directions of the water jet propulsion units. The small boat further includes a steering angle sensor arranged to detect a rotational angle of the steering wheel, front and rear gravity sensors arranged to detect a turning state of the hull, and a control device to which the rotational angle and the turning state of the hull are inputted in order to control thrusts of the water jet propulsion units such that the turning state coincides with any one of a group of target steady turning radii corresponding to the rotational angle of the steering wheel. The small boat turns along the steady radius regardless of any water conditions. | 04-30-2009 |
| 20090111338 | WATER JET PROPULSION BOAT - A water jet propulsion boat includes a fuel pump driven by an electric control unit and arranged to deliver fuel from a fuel tank to an engine via a fuel pipe, and a fuel pressure sensor arranged to detect a pressure of the fuel delivered to the engine by the fuel pump. When a magnitude of the fuel pressure detected by the fuel pressure sensor is less than a predetermined magnitude, the fuel pump is activated. On the other hand, when the magnitude of the fuel pressure detected by the fuel pressure sensor is equal to or greater than the predetermined magnitude, the fuel pump is deactivated. Also, when the fuel pressure detected by the fuel pressure sensor becomes equal to or less than an abnormal threshold value, either one or both of the fuel pump and the engine are deactivated. The water jet propulsion boat lowers power consumption, reduces battery size, extends battery life, and lowers costs. | 04-30-2009 |
| 20090095061 | ABNORMALITY DETECTION DEVICE OF FUEL PUMP - An abnormality detection device of a fuel pump reduces costs and prevents detection error or breakdown by making the fuel pressure sensor unnecessary. The abnormality detection device includes an abnormality detection circuit, a fuel pump driving voltage detection unit to detect the voltage value of an abnormality detection circuit, and a meter. The abnormality detection circuit is constituted by the circuit including a resistance disposed between a battery side of the fuel pump motor to drive the fuel pump and a ground side. If the voltage value detected by the fuel pump driving voltage detection unit is larger than the upper limit or lower than the lower limit of the normal range, the warning lamp of the meter flashes and a buzzer makes an alarm sound. The abnormality detection circuit is housed in the fuel pump module disposed in the fuel tank. | 04-16-2009 |
| 20090093175 | WATER JET PROPULSION BOAT - A water jet propulsion boat is constructed such that a fuel pressure detection device is free from a detection error or breakdown and a restart ability of an engine is protected against malfunction. A fuel tank is provided in a boat body of the water jet propulsion boat through vibration absorbing members. A fuel pump unit including a fuel pump is provided in the fuel tank. A fuel pressure sensor is provided in the fuel pump unit. An electric control device stops the fuel pump if the value detected by the fuel pressure sensor is out of the normal value range. Additionally, an electric control device stops operation of the fuel pump if the fall sensor detects the overturning of the boat body and if the detected value of the fuel pressure sensor is out of the normal value range. A regulator and a filter are provided to the fuel pump unit. | 04-09-2009 |
| 20090088927 | STEERING CONTROL METHOD, STEERING CONTROL DEVICE, AND WATERCRAFT - A watercraft includes an operating method in which a present steering wheel rotational angle is detected, and a steering wheel rotational angle variation is calculated by subtracting a steering wheel rotational angle in a preceding control period from the steering wheel rotational angle. Next, a steering angle ratio is set. A target steering angle variation is calculated by multiplying the steering wheel rotational angle variation by the steering angle ratio. Finally, a target steering angle in a present period is calculated by adding the target steering angle variation to a target steering angle in a preceding control period. A steering device is steered based on the target steering angle. The operating method operates to prevent a rider of a watercraft from feeling uncomfortable in the watercraft which has an electric steering mechanism when either a steering wheel or a steering device is turned in a state when a power supply is turned off or a case when steering wheel rotational angles of a plurality of operating stations differ from each other. | 04-02-2009 |
| 20090084299 | ELECTRIC STEERING DEVICE FOR WATERCRAFT AND CONTROL METHOD OF ELECTRIC STEERING DEVICE - An electric steering device includes a steering retaining device arranged to retain a steering angle against an external steering force applied from outside of a watercraft to an outboard motor main body. A reverse input shutoff clutch, for example, is preferably used as the steering retaining device. A steering retaining state in which a steering angle of the outboard motor main body is retained can be detected from a steering condition of the outboard motor main body, and a control is made to stop electric power from being supplied to an electric motor steering the outboard motor main body. Accordingly, the steering retaining device retains a steering angle while steering is retained, and thus the electric power supply to the electric motor can be stopped, which allows electric power to be saved. The steering retaining device provides an electric steering device for a watercraft in which no electric power is required when applying a steering retaining force for retaining a counter-steering state. | 04-02-2009 |
| 20090076671 | WATERCRAFT - A watercraft includes a plurality of watercraft operating devices arranged to adjust an amount and/or a direction of a propulsive force or a resistance provided to a prescribed position of the watercraft, operation devices arranged to operate the plurality of watercraft operating devices, actuators arranged to actuate the respective watercraft operating devices, and a control unit arranged to control an operation amount of each of the actuators based on an operational state of the operation devices. The control unit preferably includes a traveling state detecting device arranged to detect a traveling state of the watercraft, an operational state detecting device arranged to detect an operational state of the operation devices, a traveling plan estimating device arranged to estimate a traveling plan of an operator of the watercraft based on the traveling state and the operational state, and a watercraft operating device controlling device arranged to select one of the watercraft operating devices to be controlled from the plurality of watercraft operating devices, and arranged to control an operating amount of the actuator operating the watercraft operating device. | 03-19-2009 |
| 20090075533 | WATERCRAFT - A watercraft includes a plurality of outboard motors. Each of the outboard motors has a generator and a rudder deflecting system driven by an electric motor. The outboard motors are turned by the rudder deflecting systems thereby steering the watercraft. Electric power can be supplied from the generators of others of the plurality of outboard motors to the rudder deflecting system of an arbitrary outboard motor among the plurality of the outboard motors. Using this arrangement it is possible to provide a watercraft in which electric power for operation is stably supplied to the rudder deflecting system without increasing the size of the generators. | 03-19-2009 |
| 20090075532 | BOAT PROPULSION UNIT - A boat propulsion unit includes an electric motor, a potentiometer arranged to detect the rotating angle of a throttle grip, a first stop mode sensor, a second stop mode sensor, and a controller including a CPU, and a disconnection and short detecting circuit. If the voltage signal fed by the disconnection and short detecting circuit is out of the specified range, the CPU detects the operation mode designated by the throttle grip based on the switching of the outputs from the first stop mode sensor and the second stop mode sensor. Then, the electric motor is driven in the forward operation mode and with the specified output power when the forward operation mode is designated, whereas, the electric motor is driven in the reverse operation mode and with the specified output power when the reverse operation mode is designated. Using this arrangement, the boat propulsion unit can obtain a minimum required boat operation as intended by the boat operator even when an abnormality has occurred in the controls. | 03-19-2009 |
| 20090051054 | FUEL SUPPLY DEVICE FOR ENGINE - A fuel supply device for an engine includes a fuel tank positioned such that, at least when the fuel tank is filled with fuel, a first fuel level in the fuel tank is higher than a minimum required second fuel level in a float chamber. A bypass passage that bypasses a fuel pump is provided, and an on-off valve is disposed in the bypass passage. The fuel supply device is capable of improving a starting characteristic of the engine during an off period of the fuel pump without increasing a head difference between the first and second fuel levels. | 02-26-2009 |
| 20090044255 | DEVICE AUTHENTICATION CONTROL METHOD, DEVICE AUTHENTICATION CONTROL DEVICE, AND BOAT - In a device authentication control method and device, when a connection device is connected to a network mounted on a boat, it is determined whether or not the connection device corresponds to an authentication-free device. If the connection device does not correspond to an authentication-free device, an authenticating action is performed on the connection device. If the connection device does correspond to an authentication-free device, the connection device is exempted from the authenticating action. In this way, when a connection device does not correspond to an authentication-free device, an authenticating action is performed, but when the connection device corresponds to an authentication-free device, the connection device is exempted from an authenticating action. As a result, it is possible to handle specific connection devices as authentication-free. | 02-12-2009 |
| 20090043904 | CONNECTION DEVICE AND PROGRAM - In a connection device connected to a network mounted in a boat, a protocol of a connection device connected to a network mounted in a boat is identified based on a communication ID in a certain message transmitted through the network. A device protocol is determined in accordance with the protocol of the network. Data communication in the network is performed in conformity with the device protocol. Accordingly, when the connection device is connected to the network, the connection device automatically identifies a protocol of the network and operates appropriately. Therefore, upward compatibility is maintained and usability is improved. | 02-12-2009 |
| 20090042463 | Small Planing Boat - A small planing boat can include a multi-cylinder engine, and a propulsion unit driven by the engine, such as a jet pump, for propelling a hull by drawing up and jetting out water. The engine can be configured to change the number of deactivated cylinders in a phased manner corresponding to an engine speed when the engine speed becomes a prescribed speed or more, and can include memory devices for storing a plurality of cylinder deactivation sequence schedules for determining sequences of cylinders that are deactivated and increasing the number of deactivated cylinders in a phased manner. An operation control device configured to deactivate the cylinders of the engine in a phased manner in accordance with the cylinder deactivation sequence schedules stored in the memory devices. The operation control device shifts the cylinder deactivation sequence schedules to be read out from the memory devices to another cylinder deactivation sequence schedule corresponding to an operational state of the engine. | 02-12-2009 |
| 20090042458 | Multiple-Cylinder Engine for Planing Water Vehicle - A multiple-cylinder engine for a planing water vehicle includes an operation control device which changes the number of deactivated cylinders step by step in response to an engine speed when the engine speed exceeds a preset speed. The operation control device can have a plurality of cylinder deactivation order maps used for instructing an increment order of cylinders which are deactivated step by step when the engine speed exceeds the preset speed. The operation control device can exchange one of the cylinder deactivation order maps which is currently used for another one of the maps in accordance with an operation state of the engine. | 02-12-2009 |
| 20090036006 | DRIVE SHAFT SEALING DEVICE FOR SMALL WATERCRAFT - A sealing member can include a radially-working lip which contacts a drive shaft in a radial direction to seal a gap between the drive shaft and the housing in the radial direction, an axially-working lip extending in an axial direction, and a contact member which contacts the axially-working lip to seal the gap between the drive shaft and the housing in the axial direction. The contact member can be fitted to the drive shaft to rotate with the drive shaft. | 02-05-2009 |
| 20090007550 | EXHAUST SYSTEM FOR EIGHT-CYLINDER ENGINE - An exhaust manifold includes first to eighth upstream exhaust pipes extending respectively from first to eighth cylinders ignited in that order; first to fourth midway exhaust pipes extending respectively from a joint of extended ends of the first and fifth upstream exhaust pipes, a joint of extended ends of the second and sixth upstream exhaust pipes, a joint of extended ends of the third and seventh upstream exhaust pipes, and a joint of extended ends of the fourth and eighth upstream exhaust pipes; and first and second downstream exhaust pipes extending respectively from a joint of extended ends of the first and third midway exhaust pipes and a joint of extended ends of the second and fourth midway exhaust pipes for communicating the respective joints to the ambient atmosphere. | 01-08-2009 |
| 20080270002 | ENGINE TEMPERATURE DISPLAY DEVICE FOR A WATERCRAFT PROPULSION UNIT AND A WATERCRAFT - In engine temperature display device for a watercraft, an engine temperature data value is calculated based on a detection signal of a temperature of an engine of an outboard motor. The engine temperature data value is sent to an engine state display device installed in a watercraft by a LAN. A control portion of the engine state display device computes the engine temperature data value based on a plurality of threshold temperatures of a standard engine model stored in a nonvolatile memory, and converts the data value into a display data for indicating a temperature level among a plurality of temperature levels. The display data is displayed on a display device on the watercraft. An engine temperature data value calculating and sending device computes using a plurality of threshold values on an engine block wall temperature specific to an engine, and sends the appropriately converted engine temperature data value. The engine state display device for the watercraft propulsion unit can display an appropriate temperature level of the engine coolant temperature indicated for a model with higher engine coolant temperatures. | 10-30-2008 |
| 20080269970 | BOAT CONTROL SYSTEM AND BOAT - A boat control system detects a wire break status in a duplicated communication system. A hull of a boat is provided with a main remote control side ECU and a subremote control side ECU, and the subremote control side ECU communicates with an engine side ECU via the main remote control side ECU. Both of the remote control side ECUs are provided with storage buffers in which communication status confirmation data transmitted between nodes is stored. A broken wire detection section of the engine side ECU starts a determination when a system is started, and broken wire detection sections of both of the remote control side ECUs start a determination when communication status confirmation data is received from another node. Data indicating that communication is in an abnormal status is stored as an initial value in a main remote control data storage buffer. | 10-30-2008 |
| 20080268727 | BOAT - An engine ECU provided in a boat propulsion system is connected to a remote control ECU provided in a remote control device, the remote control ECU is connected to a gauge ECU provided in an information display device, and control is performed so as to start communication between the remote control ECU and the gauge ECU after a power supply is turned on and after authentication of the engine ECU and the remote control ECU is completed. Accurate information on the boat propulsion system can be transmitted in response to a request from the information display device at a time of initialization at a system start. | 10-30-2008 |
| 20080268726 | CONTROL DEVICE OF BOAT PROPULSION SYSTEM AND BOAT - An engine in an outboard motor includes a first rotation angle sensing device arranged to sense a rotation angle of a crankshaft and second rotation angle sensing device arranged to sense a rotation angle of an exhaust camshaft. A reverse rotation determination section is arranged to determine an occurrence of a reverse rotation of the crankshaft based on of a rotation angle sensed by the first rotation angle sensing device and a rotation angle sensed by the second rotation angle sensing device. A gear mechanism operation section forceaby shifts a shift gear mechanism into a neutral state when a reverse rotation of the crankshaft is sensed by the reverse rotation determination section. Water is surely prevented from entering the internal combustion engine and can minimize an increase in the manufacturing cost and simplify the maintenance work of the internal combustion engine. | 10-30-2008 |
| 20080264666 | ELECTRICAL COMPONENT BOX FOR WATER VEHICLE - An electrical component box which can be provided under a maintenance opening in an engine compartment on a water vehicle, can include a box body provided with an electrical unit and a cover member. The box body can be attached to a bulkhead so that a mounting surface for an electrical unit extends generally vertically. Engaging frames can be provided on the upper face of the box body. Also, engaging clamps can be provided on the upper side of the cover member to be engaged with the engaging frames by one-touch operation. A bottom cover can be provided under the box body to cover the bottom side of the electrical unit and the upper side, both lateral sides and the front side of the electrical unit can be covered by the cover member. | 10-30-2008 |
| 20080262702 | FUEL SUPPLY AMOUNT CONTROL SYSTEM AND BOAT PROPULSION UNIT - In a fuel supply amount control system, during a period of engine startup from the time when a crankshaft starts to rotate by a starter motor to the time when the crankshaft stably rotates by fuel combustion, a fuel supply amount is controlled independently before and after a cylinder stroke determination. This enables determination of the fuel supply amount independently before and after the cylinder stroke determination. Accordingly, the required fuel amounts are provided respectively before and after the cylinder stroke determination. As a result, even if the required fuel amounts are different before and after the cylinder stroke determination, engine startup can be achieved in a short time. | 10-23-2008 |
| 20080251591 | THERMOELEMENT AND THERMOSTAT APPARATUS USING THE THERMOELEMENT - According to the present invention, there is provided a thermoelement that suppresses the corrosion or corrosion products occurring on an outer peripheral surface of a piston and an inner wall of a guide portion so that the piston reciprocates surely and smoothly, and a thermostat apparatus using this thermoelement. The thermoelement according to the present invention includes a wax case that internally has a wax, which is an expanding body, a piston to which responsive action of the expansion and contraction of the wax is transmitted, and a guide portion that guides the sliding of the piston, wherein the guide portion is made of brass containing 69 mass % or more and 80 mass % or less of copper component, 2 mass % or more and 4 mass % or less of silicon component, 0.1 mass % or less of lead component, and the balance of zinc, and the piston is made of stainless steel. | 10-16-2008 |
| 20080233815 | OUTBOARD MOTOR - An outboard motor includes a drive shaft including a pinion gear arranged at one end of the drive shaft, a first driven gear engaged with the pinion gear, a second driven gear engaged with the pinion gear, a first propeller shaft connected to a second propeller, a second propeller shaft connected to a first propeller, and a shift change mechanism arranged to selectively engage the first driven gear with the second propeller shaft, and to selectively engage the second driven gear with the first propeller shaft and with the second propeller shaft. | 09-25-2008 |
| 20080233812 | CONTROLLER FOR BOAT PROPULSION SYSTEM AND BOAT PROPULSION SYSTEM - A controller for a boat propulsion system has an adjusting device arranged to adjust an inclination angle in the vertical direction of the boat propulsion system by a drive unit, the controller arranged to perform drive control of the adjusting device, a storage section provided in the controller and arranged to store a limit value of the inclination angle, and a connector arranged to communicate with a service tool, wherein the controller is arranged to set the limit value from the service tool and stop the drive unit when the inclination angle reaches the limit value. | 09-25-2008 |
| 20080227585 | OUTBOARD MOTOR - A power transmission mechanism transferring a power output from an engine to a propeller includes a transmission planetary gear train that transforms the output power of the engine before it is transferred to the propeller. The transmission planetary gear train includes a transmission sun gear, a transmission double planetary gear set, and a transmission internal gear, in which the transmission sun gear is connected via the first clutch to the input end shaft extending into the engine, and the transmission sun gear is also connected via the second one-way clutch to the housing. In addition, the transmission double planetary gear set is connected via the second clutch to the input end shaft extending into the engine, and the transmission double planetary gear set is also connected via the first one-way clutch to the housing. Further, the transmission internal gear is connected to the output end shaft extending toward the propeller. | 09-18-2008 |
| 20080215230 | ENGINE ROTATION CONTROL DEVICE AND BOAT - In an engine rotation control device, a remote control operation device is provided with a remote control side ECU and an engine side ECU so that an outboard motor can be remotely controlled. The remote control side ECU and the engine side ECU periodically communicate a control signal. A gauge includes a slow-speed operation section that changes the engine rotational speed during slow-speed cruising. The slow-speed operation section outputs a change command signal to change the engine rotational speed, and a rotational speed change signal generated by a signal output section based on the change command signal is transmitted to the engine side ECU as a periodic control signal. A reset section of the remote control side ECU resets the rotational speed change signal to an initial state in response to a request from a reset request section. | 09-04-2008 |
| 20080214069 | BOAT PROPULSION APPARATUS AND BOAT - In a boat propulsion apparatus including an engine control device for controlling operation of an engine, the engine control device includes a first ID storage and a second ID storage, a first ID is stored in the first ID storage beforehand, and the engine control device is communicably connected to a controller of a remote control device over a network. A signal containing a second ID is received from the controller when the engine control device and the controller are connected to the network for the first time and is stored in the second ID storage. Thus, maintenance and management of the engine are easy, and also it is possible to prevent a mischievous operation or theft of the boat propulsion apparatus. | 09-04-2008 |
| 20080210148 | WATERCRAFT STEERING SYSTEM - A boat has a propulsion unit and a steering system. The steering system includes a steering device actuated by an electric actuator. A steering wheel operated by an operator is electrically connected to the actuator. Detectors collect data regarding one or more of operation status of the steering wheel, running status of the boat, status of the propulsion unit(s), status of the electric actuator, and the like. Based upon such collected data, a current for powering the electric actuator may be selectively increased to provide increased torque to ensure excellent steering response even in changing. | 09-04-2008 |
| 20080207065 | BOAT PROPULSION APPARATUS - A boat propulsion apparatus is constructed such that an operation mode can be switched to a reverse mode and an amount of an output can be set by an easy operation without a complicated structure and further in which a main body of the propulsion apparatus can be locked to a hull. The boat propulsion apparatus is provided with a main body and a locking mechanism. The main body of the propulsion apparatus is provided with an electric motor, a throttle grip, a potentiometer arranged to detect an indication by the throttle grip, a first controller arranged to control an operation mode and an output of the electric motor depending on an output of the potentiometer, and second controller arranged to control the locking mechanism depending on an indication provided by the throttle grip. According to an operation for turning the throttle grip to a reverse mode area, the controller switches the electric motor to the reverse mode, and the second controller operates the locking mechanism to lock the main body of the propulsion apparatus to a hull. | 08-28-2008 |
| 20080201031 | BOAT PROPULSION UNIT AND BOAT - A boat is capable of preventing shocks on gears in meshing engagement with each other and an abrupt movement thereof when a remote control shift lever is quickly rotated to reverse from a cruising mode. A control microcomputer is arranged to control the operation of a shift actuator based on the displacement of a remote control shift lever for remotely switching between forward, neutral, and reverse positions. The control microcomputer has a shift detector arranged to detect whether a shift operation from the neutral position to the forward position or the reverse position was made based on a signal from a lever position sensor arranged to detect the position of the remote control shift lever; and a switch control which does not drive a shift motor when a shift operation from the neutral position to the forward position or the reverse position is detected by the shift detector and the engine rotational speed detected by the engine rotational speed sensor is higher than a prescribed value, and drives the shift motor and controls a shift operating device to start shifting when the engine rotational speed decreases to a value equal to or smaller than the prescribed value. | 08-21-2008 |
| 20080200080 | STEERING SYSTEM FOR OUTBOARD MOTOR - A swivel bracket of an outboard motor pivots about an axis of a tilt shaft disposed at a front end of the bracket unit and extending horizontally in a vertical plane to adjust a tilt angle and a trim angle of the outboard motor. A steering system for the outboard motor includes a pivotal gear attached to the swivel shaft, a drive mechanism driving the pivotal gear, and an electric motor providing drive force to the drive mechanism. Preferably these steering system components are positioned between the swivel bracket and an engine cowling of the outboard motor. | 08-21-2008 |
| 20080196692 | CONTROLLER FOR BOAT PROPULSION UNIT - A boat propulsion unit controller includes a switch arranged to switch between a long intake duct and a short intake duct for drawing air into an engine of a boat propulsion unit, a motor-operated driver arranged to drive the switch, a duct length switching position sensor arranged to detect the position of the switch at the time of switching the duct length, a fuel supply arranged to supply fuel to the engine, a sensor failure detector arranged to detect failure of the duct length switching position sensor based on its output, and a controller arranged to compensate the fuel supply rate based on the position of the switch detected at the time of duct length switchover. A controller, when the duct length switching position sensor fails, takes the action of switching to the long intake duct and compensates the fuel supply rate using a sensor output quasi value corresponding to the time of switchover to the long intake duct. Engine performance may be maintained as much as possible even when duct length switchover fails due to frequent duct length switchover actions. | 08-21-2008 |
