This application claims the benefit of priority to Japanese Patent Application No. 2020-009437 filed on Jan. 23, 2020. The entire contents of this application are hereby incorporated herein by reference.
The present invention relates to boats.
A conventional boat includes a hull in which an engine is disposed, a deck mounted to an upper portion of the hull, and a bow hatch connected to the deck (see Japanese Patent Publication No. 2005-119513). In a conventional boat, the deck includes an air inlet port for supplying air to the engine which is disposed in an engine compartment. The air inlet port opens upward.
In a conventional boat, water may easily enter the air inlet port because the air inlet port opens upward. In other words, in a conventional boat, water may easily enter the engine compartment from the air inlet port.
Preferred embodiments of the present invention provide boats each of which significantly reduces or prevents intrusion of water from an air inlet port into an engine compartment.
A boat according to a preferred embodiment of the present invention includes a hull, a deck, and a bow hatch. An engine compartment is provided in the hull. The deck is mounted on an upper portion of the hull. The deck includes an air inlet port. The air inlet port opens rearward to supply air to the engine compartment. The bow hatch is attached to the deck. The bow hatch includes a wall that faces the air inlet port.
According to preferred embodiments of the present invention, it is possible to significantly reduce or prevent the intrusion of water from the air inlet port into the engine compartment in the boats.
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 the following description, the front, rear, left, right, up, and down directions refer to the front, rear, left, right, up, and down directions of the boat 1, respectively. For example, a boat center line C1 extending in the front-rear direction of the boat 1 passes through the center G of gravity of a boat body 3. FIG. 1 shows a state in which a left cover 21 is removed.
The front-rear direction is a direction along the boat center line C1. The front direction is a direction toward a left side along the boat center line C1 of
The left-right direction (a width direction) is a direction perpendicular to the boat center line C1. The left direction is a direction toward a lower side perpendicular to the boat center line C1 in
“In a top view of boat body 3” means “when the boat body 3 is viewed from an upper side”. “In a side view of boat body 3” means “when the boat body 3 is viewed from a side”. “In a front view of boat body 3” means “when the boat body 3 is viewed from a front side”. “In a rear view of boat body 3” means “when the boat body 3 is viewed from a rear side”.
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The pair of air inlet ports 15a and 15b supply air to the engine 6. Specifically, the pair of air inlet ports 15a and 15b supply outside air taken into an internal space of the bow hatch 11 to the engine compartment 5.
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Each of the pair of air inlet ports 15a, 15b opens rearward. For example, each of the pair of air inlet ports 15a, 15b opens obliquely upward and rearward. Specifically, each of the pair of air inlet ports 15a, 15b opens in the direction in which the opening center line CL1 extends.
The opening center line CL1 passes through a geometric center of a figure defined by inner surfaces of the air inlet ports 15a, 15b. The opening center line CL1 extends in a direction perpendicular or substantially perpendicular to the inclined surfaces 17a, 17b in the side view of the boat body 3.
The pair of inclined surfaces 17a, 17b are located on the bulging portion 9c. For example, the pair of inclined surfaces 17a, 17b define a rear surface of the bulging portion 9c. It is preferable that an inclination angle α of each of the pair of inclined surfaces 17a, 17b are defined as follows in a state in which the boat body 3 is stationary on a water surface.
Preferably, the inclined surfaces 17a, 17b have an inclination angle α, defined by the inclined surfaces 17a, 17b and a plane P including a center axis SC of a pivot shaft 14 (described below) and that extends in a direction in which gravity acts, that is equal to or larger than about 20 degrees and equal to or less than about 80 degrees, for example. Preferably, the air inlet ports 15a, 15b are provided on the inclined surfaces 17a, 17b so that an angle β, defined by the opening center line CL1 and the inclined surfaces 17a, 17b, is equal to or larger than about 10 degrees and equal to or less than about 70 degrees, for example, in the side view of the boat body 3.
In the present preferred embodiment, the inclined surfaces 17a, 17b have an inclination angle α, defined by the plane P and the inclined surfaces 17a, 17b, that is equal to or larger than about 25 degrees and equal to or less than about 70 degrees. The air inlet ports 15a, 15b are provided on the inclined surfaces 17a, 17b so that the angle β, defined by the opening center line CL1 and the inclined surfaces 17a, 17b, is equal to or larger than about 20 degrees and equal to or less than about 65 degrees, for example, in the side view of the boat body 3.
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The bow hatch 11 further includes a wall 23, an outside-air inlet port 25 (an example of an opening), a first drain port 27, and a second drain port 29. Specifically, the bow hatch 11 includes a pair of walls 23a, 23b, a pair of outside-air inlet ports 25b, a pair of first drain ports 27a, 27b, and a pair of second drain ports 29a, 29b.
The pair of walls 23a, 23b prevent the intrusion of water into the pair of air inlet ports 15a, 15b. As shown in
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The pair of walls 23a, 23b are located in the internal space of the bow hatch 11. The tip of each of the pair of walls 23a, 23b is spaced apart from an inner surface of the cover 21. With this configuration, the outside air taken into the internal space of the bow hatch 11 is able to pass between the tip of each of the pair of walls 23a, 23b and the inner surface of the cover 21.
The pair of walls 23a, 23b face the pair of air inlet ports 15a, 15b respectively in a state in which the bow hatch 11 is mounted to the deck 9. Each of the pair of walls 23a, 23b is located respectively between each of the pair of air inlet ports 15a, 15b and each of the pair of outside-air inlet ports 25b in the state in which the bow hatch 11 is mounted to the deck 9.
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The pair of second drain ports 29a, 29b discharge water that intrudes behind the walls 23a, 23b. The pair of second drain ports 29a, 29b are provided behind the pair of walls 23a, 23b, respectively.
The water, which is discharged from the pair of first drain ports 27a, 27b and the pair of second drain ports 29a, 29b, is discharged from the drain gap SL (see
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The second duct 33 extends from the air inlet port 15b toward the engine compartment 5. In the following, the air inlet port 15b is described as a second air inlet port. The second air inlet port 15b is located on a second side opposite to the first side in the top view.
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In this configuration, even if the boat body 3 swings around a roll axis and the first air inlet port 15a or the second air inlet port 15b is located below the water surface, it is possible to significantly reduce or prevent the intrusion of water into the engine compartment 5 because the first duct 31 and the second duct 33 intersect.
In the boat 1 including the above configuration, it is possible to significantly reduce or prevent the intrusion of water into the pair of air inlet ports 15a, 15b because the pair of air inlet ports 15a, 15b open rearward. Also, it is possible to significantly reduce or prevent the intrusion of water into the pair of air inlet ports 15a, 15b because the pair of walls 23a, 23b face the pair of air inlet ports 15a, 15b,
According to preferred embodiments of the present invention, it is possible to significantly reduce or prevent the intrusion of water from the air inlet port into the engine compartment in a boat.
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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2020-009437 | Jan 2020 | JP | national |