This application claims the benefit of Japanese Patent Application No. 2021-008737, filed Jan. 22, 2021, which is hereby incorporated by reference herein in its entirety.
The present invention relates to an outboard motor, a marine vessel including a lower case and an upper case, and a marine propulsion device.
In the related art, as shown in
Since the lower case 82 sinks under a water surface when a marine vessel sails, the lower case 82 significantly affects the sailing performance of the marine vessel. In recent years, the use of the marine vessel has been diversified, and the sailing performance required for the marine vessel has also been diversified, and various types of lower cases corresponding to the sailing performance are manufactured. The lower case is changed (modified) in design in accordance with the required sailing performance, and the changed lower case is attached to the upper case 83.
When the lower case is changed, the shapes of the lower case before and after the change may be different. For example, in the case of a lower case having high-durability, the high-durability lower case 84 is increased in size in order to accommodate drive components having a lifespan twice or more than that of a typical lower case 82 based on the assumption that it will be used for a longer period of time than the typical lower case 82 (
Accordingly, as shown in
In this case, it is necessary to separately manufacture a new and different upper case having a mating surface matching the mating surface 84a of the high-durability lower case 84 or the mating surface 85a of the high-speed lower case 85. Therefore, there is room for improvement from the viewpoint of reducing the number of components and shortening a development period of the outboard motor.
Preferred embodiments of the present invention significantly reduce or prevent an increase in the number of types of upper cases.
According to a preferred embodiment of the present invention, an outboard motor for attachment to a hull of a marine vessel includes a lower case including a propeller shaft to rotate a propeller, an upper case including a drive shaft to transmit a power to the propeller shaft, and an intermediate structure connecting the lower case and the upper case, wherein the lower case is selected from among a plurality of different lower cases, and the intermediate structure is configured to connect any of the plurality different lower cases to the upper case.
According to this structural configuration, the intermediate structure connects the upper case and the lower case so as to make it possible to attach, by using the intermediate structure connectable to mating surfaces of many different lower cases with different shapes or sizes, any of the different lower cases to the same upper case, thus eliminating the need to manufacture and provide different upper cases. As a result, it is possible to significantly reduce or prevent the increase in the number of types of upper cases.
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.
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
In addition, the outboard motor 10 includes a suspension mechanism 16 to attach the outboard motor 10 to a stern (not illustrated) of a hull of the marine vessel, and the suspension mechanism 16 also defines and functions as a steering mechanism and a lifting mechanism of the outboard motor 10 to tilt up the outboard motor 10 when the marine vessel is stored.
The attachment 14 is interposed between the standard lower case 12 and the upper case 13 to connect the standard lower case 12 and the upper case 13. A shape of an upper mating surface 14a of the attachment 14 matches a mating surface 13a of the upper case 13, and a shape of a lower mating surface 14b of the attachment 14 matches a mating surface 12a of the standard lower case 12.
In the outboard motor 10, as illustrated in
On the other hand, in the present preferred embodiment, an attachment 18 (
In the present preferred embodiment, an attachment 20 (
Further, for example, as illustrated in
According to the present preferred embodiment, since the attachment 14 connects the upper case 13 and the standard lower case 12, when the high-durability lower case 17 or the high-speed lower case 19 are attached to the upper case 13, provided that the attachment 18 connectable to the mating surface 17a of the high-durability lower case 17 or the attachment 20 connectable to the mating surface 19a of the high-speed lower case 19 is used instead of the attachment 14, the high-durability lower case 17 or the high-speed lower case 19 is able to be attached to the upper case 13. Accordingly, it is possible to eliminate the need to separately manufacture a different, additional upper case 13 when the high-durability lower case 17 or the high-speed lower case 19 is desired, and it is possible to significantly reduce or prevent an increase in the number of types of the upper case 13.
In addition, in the present preferred embodiment, since the outboard motor 10 has the frame body 21 or the main body 39 made of a rigid body, which is fastened to the attachment 14 and the suspension mechanism 16, the propulsive force generated by the propeller 15 is reliably transmitted to the hull via the attachment 14 and the suspension mechanism 16.
Typically, the lower case encloses a gearbox that engages with the drive shaft to transmit the rotation of the drive shaft to the propeller shaft, and a link mechanism that switches rotation directions of the propeller. A shift rod is connected to the link mechanism, and the shift rod is parallel or substantially parallel to the drive shaft and is rotated or moved up and down by a shift actuator. The link mechanism moves a dog clutch in the gearbox via a shift slider in accordance with the movement of the shift rod, and thus the link mechanism switches the rotation directions of the propeller. The link mechanism, the shift rod, and the shift actuator define a shift mechanism.
In the related art, although a shift actuator is enclosed in an upper case or a cowl, a distance between a link mechanism and a gearbox may vary in accordance with the type of a lower case, and thus, a relative position (pitch) of a shift rod with respect to a drive shaft may change. As a result, when the lower case is changed and attached, it may be necessary to separately manufacture a different and additional upper case in order to change the pitch between the shift rod and the drive shaft by changing the position of the shift actuator.
On the other hand, in a first variation of a preferred embodiment of the present invention, the shift actuator is located in the attachment.
In the attachment 24, a position of a shift actuator 28 is set such that a pitch between a shift rod 26 and a drive shaft 27 (drive shaft) corresponds to a distance between the link mechanism 22 and the gearbox 23 in the standard lower case (
Accordingly, even though the distance between the link mechanism and the gearbox is different among different the different types of lower cases, the differently shaped or sized lower case is able to be attached to the same upper case by replacing the attachment. That is, it is possible to eliminate the need to manufacture and provide different upper cases 13, and to significantly reduce or prevent an increase in the number of types of the upper case 13.
It should be noted that, although a plurality of types of attachments in which the position of the shift actuator 28 is changed in accordance with the type of the lower case is used in the present variation, in a case in which the shape of the mating surfaces of the various lower cases is not changed, the shift actuator 28 may be movable in the attachment so that the position of the shift actuator 28 is changed in accordance with the distance between the link mechanism 22 and the gearbox 23 in each lower case. In this case, it is possible to eliminate the need to manufacture and provide differently shaped or sized attachments, which significantly reduces or prevents an increase in the number of types of attachments.
In addition, in recent years it has been studied in outboard motors to drive the propeller not only by an internal combustion engine but also by an electric motor. For example, a hybrid outboard motor including an engine and an electric motor is disclosed in Japanese Laid-open Patent Publication (Kokai) No. 2020-29186.
The lower case in the hybrid outboard motor encloses a motor gearbox to transmit a driving force of the electric motor to the propeller shaft in addition to the link mechanism and the gearbox which engages with the drive shaft to transmit the driving force of the engine. The electric motor is located in the lower case in the hybrid outboard motor described in Japanese Laid-open Patent Publication (Kokai) No. 2020-29186. However, since the shape of the lower case greatly affects the sailing performance of the marine vessel, an electric motor that affects the shape of the lower case is preferably located in the upper case. Therefore, when the outboard motor is a hybrid, it may be necessary to manufacture not only the lower case but also the upper case and locate the electric motor in the upper case.
Regarding this matter, in a second variation of a preferred embodiment of the present invention, the electric motor is located in the attachment.
In the outboard motor 10 which is not a hybrid and in which the propeller 15 is driven only by an engine as described above, the standard lower case 12 encloses the link mechanism 22 and the gearbox 23 but does not enclose a gearbox for a motor (
Accordingly, when the standard lower case 12 is replaced with the hybrid-compatible lower case 30 in order to provide a hybrid the outboard motor, the hybrid-compatible lower case 30 is able to be attached to the upper case 13 only by replacing the attachment 24 with the hybrid-compatible attachment 32. Accordingly, it is possible to eliminate the need to separately manufacture a different upper case 13 in order to hybridize the outboard motor, and it is possible to prevent an increase in the number of types of the upper cases 13.
In addition, the electric motor 33 is enclosed in the hybrid-compatible attachment 32, and thus, it is possible to eliminate the need to locate the electric motor 33 in the hybrid-compatible lower case 30, which makes it possible to prevent the shape of the hybrid-compatible lower case 30 from being hydrodynamically disadvantageous. As a result, even though the outboard motor is a hybrid, it is possible to reduce or prevent a significant influence on the sailing performance of the marine vessel.
Instead of the hybrid-compatible lower case 30, a high-durability hybrid-compatible lower case or a high-speed hybrid-compatible lower case may be used. In this case, the relative position of the motor gearbox 31 with respect to the link mechanism 22 and the gearbox 23 may change. Regarding this matter, the electric motor 33 may be movable in the hybrid-compatible attachment 32 so that the position of the electric motor 33 may be changed in accordance with the relative position of the motor gearbox 31 with respect to the link mechanism 22 and the gearbox 23 in each lower case. Alternatively, a plurality of hybrid-compatible attachments in which the electric motor 33 is provided at the position corresponding to the relative position of the motor gearbox 31 with respect to the link mechanism 22 and the gearbox 23 in each lower case may be prepared, and the hybrid-compatible attachment corresponding to each lower case may be used.
In the outboard motor, since at least a portion of the lower case is submerged and causes splashes while the marine vessel sails, a splash plate (anti-splash plate) to prevent the splashes from scattering may be conventionally provided on the upper case.
The scattering of the splashes changes in accordance with the shape of the lower case. Thus, for example, when the standard lower case 12 is replaced with the high-durability lower case 17 or the high-speed lower case 19, it may be necessary to change the shape of the splash plate in accordance with the scattering of the splashes in each case, and it may be conventionally necessary to separately manufacture and provide additional different upper cases.
In contrast to the conventional location of the splash plate, in a third variation of a preferred embodiment of the present invention, a splash plate is provided on the attachment.
In the present variation, for example, a splash plate 35 is provided at an upper portion of an attachment 14 attached to a standard lower case 12 (
Accordingly, even in a case in which the lower case is replaced and the scattering of the splashes changes, the splash plate suitable for the changed scattering of the splashes is able to be used by replacing the attachment. That is, it is possible to eliminate the need to replace the upper case in order to change the shape of the splash plate, and thus, it is possible to eliminate the need to separately manufacture and provide additional differently shaped or sized upper cases 13.
Each splash plate may be integral with each attachment, or may be separable with respect to each attachment. In a case where each splash plate is separable with respect to each attachment, provided that the shapes of the mating surfaces of the lower cases are the same, the scattering of the splashes is reduced by replacing only the splash plate without changing the attachment in accordance with the change of the lower case. Accordingly, it is possible to save time and effort when replacing the attachment.
Conventionally, in order to reduce the progress of corrosion of each part of the outboard motor 10, a sacrificial anode is provided in the suspension mechanism and the lower case. Regarding this matter, in the above-described preferred embodiments/variations, a sacrificial anode 37 is provided in the attachment 14. Specifically, in the attachment 14, the sacrificial anode 37 is provided at a position (
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.
For example, although preferred embodiments of the present invention are applied to an outboard motor in the above-described preferred embodiments, the present invention may be applied to an inboard/outboard motor including an upper case and a lower case. Likewise in this case, an inboard/outboard motor includes an attachment, and the attachment connects the lower case and the upper case.
Number | Date | Country | Kind |
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2021-008737 | Jan 2021 | JP | national |