1. Field of the Invention
The present invention relates to a watercraft including a global navigation satellite system (hereinafter referred to as “GNSS”).
2. Description of the Related Art
In recent years, it has been proposed that a watercraft be provided with a receiver device for a GPS or other GNSS. For example, Laid-open Japanese Patent Application Publication 11-43093 discloses a small watercraft having a GPS antenna installed on a deck member.
Regulations regarding watercraft vary depending on the country and/or region. For example, regulations regarding the amount of harmful substances contained in exhaust gas do not exist in some countries or regions and amounts to which harmful emissions are restricted vary from country to country and region to region. Consequently, manufacturers manufacture watercrafts to different specifications depending on the destinations where they intend to sell the watercrafts and, in each country or region, they sell watercrafts manufactured to specifications compliant with the regulations of that particular country or region. However, once a watercraft has been introduced into the market, the watercraft is sometimes exported to a country or region other than the destination the manufacturer intended. In such a case, the watercraft ends up being used in a country or region having regulations with which the watercraft does not comply.
Preferred embodiments of the present invention prevent and suppress the occurrence of watercrafts being used in countries or regions having regulations with which the watercrafts do not comply.
A watercraft according to a preferred embodiment of the present invention includes a watercraft main body, a GNSS receiver, a storage device, and a controller. The GNSS receiver is installed on the watercraft main body and receives position information regarding the watercraft main body. The storage device stores area information including position information related to a specified area. The controller compares a current position of the watercraft main body obtained by the GNSS receiver to the position information related to the specified area. The controller controls the watercraft main body in accordance with a normal mode when the current position of the watercraft main body is within the specified area. The controller is configured to control the watercraft main body in accordance with a limited mode in which at least a portion of a plurality of functions of the watercraft main body are limited in comparison with the normal mode when the current position of the watercraft main body is not within the specified area.
With a watercraft according to the present preferred embodiment of the present invention, the watercraft main body is controlled in the normal mode when the watercraft main body is positioned within the specified area. Meanwhile, the watercraft is controlled in the limited mode when the watercraft is positioned outside the specified area. Thus, by storing area information in which a destination for which the watercraft is intended is provided as the specified area, at least a portion of the functions of the watercraft main body will be limited when the watercraft is used in an area outside the intended destination. In this way, the occurrence of watercrafts being used in countries or regions having regulations with which the watercrafts do not comply can be prenveted and suppressed.
The above and other elements, features, steps, characteristics and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments with reference to the attached drawings.
A watercraft according to preferred embodiments of the present invention will now be explained with reference to the drawings.
As shown in
The engine 3 preferably is, for example, an inline, four-cylinder, four-stroke engine. The engine 3 includes a crankshaft 31. The crankshaft 31 is arranged to extend in a longitudinal direction. As shown in
The jet propulsion device 5 is driven by the engine 3 and draws in water from around the hull body 2 and shoot the water out. As shown in
The impeller 51 is attached to a rearward portion of the impeller shaft 50. The impeller 51 is arranged inside the impeller housing 52. The impeller 51 rotates together with the impeller shaft 50 and draws in water from the water suction portion 2e. The impeller 51 shoots the drawn water rearward from the nozzle 53. The deflector 54 is arranged rearward of the nozzle 53. The deflector 54 is configured to change a movement direction of water shot from the nozzle 53 to a leftward or a rightward direction. The reverse bucket 55 is arranged rearward of the deflector 54. The reverse bucket 55 is configured to change the movement direction of water shot from the nozzle 53 and diverted by the deflector 54 to a frontward direction.
As shown in
The ECU 10 controls the engine 3. The ECU 10 is an example of a controller according to a preferred embodiment of the present invention. When the start operation member 41 is operated, the ECU 10 drives the starter motor 21 and the engine 3 starts. The watercraft main body 1 includes a speed sensor 45 and an engine speed sensor 46, as shown in FIG. 2., preferably as well as other sensors not shown in the figures, for example. The speed sensor 45 detects a speed of the watercraft main body 1. The engine speed sensor 46 detects a rotational speed of the engine 3. The other sensors include, for example, sensors to detect an external air temperature, a water temperature, and an oil temperature. The ECU 10 controls the engine 3 based on information detected by these sensors.
The ECU 10 executes an assistance function in response to an operation of the aforementioned operation members. Examples of an assistance function include a reverse control, a no-wake mode, and a cruise control. The reverse control is a control configured to control the engine 3 such that the rotational speed of the engine 3 does not exceed a prescribed rotational speed when the watercraft main body 1 is propelled in reverse by the reverse bucket 55. The ECU 10 executes the reverse control when the shift operation member 43 is arranged in a reverse propulsion position. The no-wake mode is a control configured to execute a low-speed travelling state while maintaining a predetermined engine rotational speed. The ECU 10 executes the no-wake mode when a no-wake mode switch is turned on. The cruise control is a control configured to hold the engine at a rotational speed that existed when an operating member (cruise control switch) was operated. The ECU 10 executes the cruise control when a cruise control switch is turned on.
As shown in
The second indicating portion 62 includes a digital speedometer 64 and an hour/voltage indicating portion 65. The digital speedometer 64 indicates a speed of the watercraft main body 1 in a digital format. When one of the aforementioned assistance functions is executed, the digital speedometer 64 indicates the speed in a flashing manner to inform an operator that the assistance function is being executed. The hour/voltage indicating portion 65 switches between indication of a cumulative operating time of the engine 3 and a voltage of a battery. The second indicating portion 62 also displays a fuel gauge 66 and a variety of warning lamps 67a to 67e. The fuel gauge 66 indicates an amount of fuel remaining. The warning lamps 67a to 67e include a remaining fuel amount warning 67a, an overheat warning 67b, a check engine warning 67c, a catalytic converter warning 67d, and an oil warning 67e. The remaining fuel amount warning 67a illuminates when the amount of fuel remaining is low. The overhead warning illuminates when an engine temperature has become excessively high. The check engine warning 67c illuminates when a sensor failure, a severed sensor connection, or other abnormality is detected. The catalytic converter warning 67d illuminates when a temperature of a catalytic converter (not shown) serving to clean an exhaust gas discharged from the engine 3 has become excessively high. The oil warning 67e illuminates when a pressure of an engine oil has become excessively low.
The third indicating portion 63 is configured to selectively indicate a variety of information regarding the watercraft main body 1. Specifically, the third indicating portion 63 is configured to switch between states of displaying, for example, an average speed, an elapsed time, and a traveled distance. The third indicating portion 63 also indicates a direction in which the watercraft main body 1 is moving. More specifically, the third indicating portion 63 displays such words as “NORTH,” “EAST,” “SOUTH,” “WEST,” “N-EAST,” “S-EAST,” “N-WEST,” and “S-WEST.” The third indicating portion also indicates such information as an external air temperature, a water temperature, and a fuel consumption rate.
As shown in
(1) Prohibition of Starting the Engine 3
In the limited mode, the ECU 10 prohibits starting the engine 3. The start prohibition of the engine 3 is accomplished by, for example, not driving the starter motor 21. The start prohibition of the engine 3 can also be accomplished by stopping the fuel injection device 22 from injecting fuel. The start prohibition of the engine 3 can also be accomplished by limiting an amount of fuel injected by the fuel injection device 22 to an amount that is too small to enable the engine 3 to be started. The start prohibition of the engine 3 can also be accomplished by stopping the ignition device 24 from igniting. The start prohibition of the engine 3 can also be accomplished by limiting a throttle opening degree of the throttle valve 23 to an opening degree that is too small to enable the engine 3 to be started.
(2) Limitation of an Assistance Function
Although the assistance functions explained previously can be used in the normal mode, the ECU 10 limits the actuation of assistance functions in the limited mode. For example, in the limited mode, the ECU 10 does not start the cruise control even if the cruise control switch is depressed. Or, in the limited mode, the ECU 10 does not execute reverse control even if the shift operation member 43 is arranged in the reverse propulsion position. Or, in the limited mode, the ECU 10 does not start the no-wake mode even if the no-wake mode switch is depressed.
(3) Limitation of Engine Performance
In the limited mode, the ECU 10 limits the rotational speed of the engine 3 such that the rotational speed of the engine 3 does not exceed a prescribed rotational speed. The limitation of the rotational speed of the engine 3 is accomplished by, for example, not allowing the amount of fuel injected by the fuel injection device 22 to exceed a prescribed amount. The limitation of the rotational speed of the engine 3 can also be accomplished by offsetting an ignition timing at which the ignition device 24 executes ignition from an ignition timing used in the normal mode. The limitation of the rotational speed of the engine 3 can be accomplished by limiting a number of times the ignition device 24 ignites. That is, the limitation of the rotational speed of the engine 3 can be accomplished by reducing a number spark ignitions executed by the ignition device 24 to a smaller number than is executed in the normal mode. Furthermore, the limitation of the number of ignitions can be accomplished by not executing an ignition at any of one or more cylinders or by reducing the number ignitions executed at any of one or more cylinders. The limitation of the rotational speed of the engine 3 can also be accomplished by not allowing the opening degree of the throttle valve 23 to exceed a prescribed opening degree.
In the limited mode, it is also acceptable if the ECU 10 limits a speed of the watercraft 100 such that the speed does not exceed a prescribed speed. The limitation of the speed of the watercraft 100 is accomplished by, for example, not allowing the amount of fuel injected by the fuel injection device 22 to exceed a prescribed amount. The limitation of the speed of the watercraft 100 can also be accomplished by offsetting an ignition timing at which the ignition device 24 ignites from an ignition timing used in the normal mode. The limitation of the speed of the watercraft 100 can also be accomplished by limiting a number of times the ignition device 24 ignites. The limitation of the speed of the watercraft 100 can also be accomplished by not allowing the opening degree of the throttle valve 23 to exceed a prescribed opening degree.
(4) Limitation of Content Indicated on the Indicating Device 47
In the limited mode, the ECU 10 does not display at least a portion of the items displayed on the indicating device 47 during the normal mode. Examples of items not displayed during the limited mode include the analog speedometer and the analog tachometer of the first indicating portion 61 and the digital speedometer 64 of the second indicating portion 62. It is also acceptable for the items not displayed during the limited mode to be the indicators serving to inform an operator that an assistance function is being executed. In such a case, during the limited mode, the digital speedometer 64 will not flash even if the assistance function is being executed. It is also acceptable for the items not displayed during the limited mode to be the information displayed on the third indicating portion 63. In such a case, during the limited mode, an average speed, an elapsed time, a traveled distance, a direction of the watercraft main body 1, an external air temperature, a water temperature, a fuel consumption rate, etc., are not indicated on the third indicating portion 63.
The ECU 10 is configured to display warning indications warning of abnormalities of the watercraft main body 1 even if the limited mode is in effect. Thus, even in the limited mode, the warning lamps 67a to 67e are displayed when an abnormality occurs in the watercraft 100.
The ECU 10 is configured to compare a current position of the watercraft main body 1 obtained by the GNSS receiver 68 to the position information of the specified area A1 when the start operation member 41 is operated. The ECU 10 then determines whether to control the watercraft main body 1 in the normal mode or the limited mode. While the watercraft main body 1 is being operated, the ECU 10 maintains the current operating mode, i.e., does not change the control mode, even if the current position of the watercraft main body 1 changes from a position inside the specified area A1 to a position outside the specified area A1 or from a position outside the specified area A1 to a position inside the specified area A1.
As shown in
A watercraft 100 according to this preferred embodiment is controlled in the normal mode when the watercraft 100 is positioned inside the specified area A1. Meanwhile, the watercraft 100 is controlled in the limited mode when the watercraft 100 is positioned outside the specified area A1. Thus, when the watercraft 100 is used in an area other than an intended destination, at least a portion of the functions of the watercraft 100 are limited. In this way, use of the watercraft 100 in countries or regions having regulations with which the watercraft does not comply is suppressed and prevented.
Although a preferred embodiment of the present invention has been described above, the present invention is not limited to the preferred embodiment described above. Various changes can be made without departing from the scope of the present invention.
Although the watercraft 100 presented in the preceding preferred embodiment preferably is a personal watercraft, it is acceptable for a watercraft according to various preferred embodiments of the present invention to be a sport boat. A watercraft according to various preferred embodiments of the present invention is preferably a small watercraft, such as a water jet propulsion watercraft, for example. The indicating device is not limited to a liquid crystal monitor and it is acceptable for the indicating device to be a device configured to present information using another method. The displayed items and layout of the indicating device are not limited to the displayed items and layout of the previously explained indicating device 47 and it is acceptable for them to be changed.
In the previously explained preferred embodiment, the ECU 10 is configured to compare a current position of the watercraft main body 1 obtained by the GNSS receiver 68 to the position information of the specified area A1 when the start operation member 41 is operated. However, it is acceptable for the ECU 10 to continuously execute a determination of whether to control the watercraft main body 1 in the normal mode or the limited mode while the watercraft main body 1 is being operated. In such a case, while the watercraft main body 1 is being operated, the ECU 10 changes the current operating mode if the current position of the watercraft main body 1 changes from a position inside the specified area A1 to a position outside the specified area A1 or from a position outside the specified area A1 to a position inside the specified area A1.
It is acceptable if, as shown in
It is acceptable if, as shown in
While preferred embodiments of the present invention have been described above, it is to be understood that variations and modifications will be apparent to those skilled in the art without departing from the scope and spirit of the present invention. The scope of the present invention, therefore, is to be determined solely by the following claims.
Number | Date | Country | Kind |
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2011-229466 | Oct 2011 | JP | national |
Number | Name | Date | Kind |
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6125782 | Takashima et al. | Oct 2000 | A |
7755472 | Grossman | Jul 2010 | B2 |
Number | Date | Country |
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11-043093 | Feb 1999 | JP |
Number | Date | Country | |
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20130102206 A1 | Apr 2013 | US |