The present invention relates to a water jet propulsion boat which travels forward by thrust of water projected from a water jet pump provided at the rear portion of a boat body. More specifically, the invention relates to an improved ride plate that closes the bottom of a pump chamber.
In the related art, a water jet propulsion boat in which a pump chamber is provided at the rear portion of a boat body, a water jet pump is accommodated in the pump chamber, and the bottom of the pump chamber is closed by a ride plate (ship bottom plate (37)) is known (for example, see Patent Document JP-A-10-129583).
Since the bottom surface of a ride plate constitutes part of the bottom surface of the rear portion of a boat body, the shape of the bottom surface of the ride plate affects much the traveling performance and turning performance of a water jet propulsion boat.
The ride plate in the related art is composed of a single component, and is fixed directly to the boat body.
Therefore, there is a problem that when an attempt is made to improve the traveling performance or the turning performance, the entire ride plate is forced to be manufactured again and replaced with a new one.
It is an object of the present invention to solve the above-described problem, and to provide a water jet propulsion boat in which the traveling performance and the turning performance can be improved without manufacturing and replacing the entire ride plate.
In order to achieve the aforementioned object, a water jet propulsion boat according to the present invention includes a pump chamber provided at the rear portion of the boat body, a water jet pump accommodated in the pump chamber, and a ride plate closing the bottom of the pump chamber, wherein the ride plate includes a base to be fixed to the boat body, and a setting part detachably fixed to the base, and forming part of the bottom surface of the rear portion of the boat body.
Preferably, the setting part is fixed under the base so that the bottom surface of the setting part constitutes part of the bottom surface of the rear portion of the boat body.
Preferably, the base includes a pair of left and right bases, and the setting part includes a pair of left and right side parts to be fixed to the base and a center part to be detachably fixed to the side parts.
Since the water jet propulsion boat of the present invention includes a pump chamber at the rear portion of a boat body, a water jet pump accommodated in the pump chamber, and a ride plate closing the bottom of the pump chamber, and is characterized that the ride plate includes a base to be fixed to the boat body, and a setting part detachably fixed to the base and constituting part of the bottom surface of the rear portion of the boat body the following effects are achieved.
When an attempt is made to improve the traveling performance or turning performance of the water jet propulsion boat, it is not necessary to newly manufacture and replace the entire ride plate itself any longer. The traveling performance and/or the turning performance of the water jet propulsion boat can be improved by manufacturing and replacing only the setting part.
In addition, by attaching a suitable setting part (smaller than the entire ride plate) depending on the machine type of the water jet propulsion boat, the performance specific to each type of boats can easily be exploited.
Furthermore, by fixing the setting part under the base, and constituting part of the bottom surface of the rear portion of the boat body by the bottom surfaces of the setting part, a preferable sliding surface can easily be obtained.
Still further, by constituting the base by a pair of left and right bases, and constituting the setting part by a pair of left and right side parts to be fixed to the base and a center part to be detachably fixed to the side parts, steering stability and improvement of the maximum speed can easily be achieved by replacing only the center part constituting the center portion which affects the steering stability and the maximum speed very much.
In other words, by replacing only the center part, which is much smaller than the entire ride plate, the steering stability and improvement of the maximum speed can easily be achieved.
A preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein:
a) is a diagrammatic cross-section viewed from behind a boat body and
Referring now to the drawings, embodiments of the present invention will be described.
As shown in these drawings (mainly in
The boat body 11 is of a floating structure formed by joining a hull 14 and a deck 15 so as to form a space 16 inside. In the space 16, an engine 20 is mounted on the hull 14, and a water jet pump (hereinafter, simply referred to as a jet pump) 30 as propulsion means to be driven by the engine 20 is accommodated in a pump chamber 19 provided at the rear portion of the hull 14.
The jet pump 30 includes an impeller 32 which is disposed in a flow path 18 formed from a water-inlet port 17 opening on the bottom of the boat to an injection port 31 opening at the rear end of the boat body and a steering nozzle 33, and a shaft (drive shaft) 22 for driving the impeller 32 is connected to an output shaft 21 of the engine 20 via a coupler 23. Therefore, when the impeller 32 is driven to rotate by the engine 20 via the coupler 23 and the drive shaft 22, water taken from the water-inlet port 17 is directed from the injection port 31 through the steering nozzle 33, whereby the boat body 11 is propelled. The number of revolution of the engine 20, that is, the propulsion force generated by the jet pump 30 is operated by rotating a throttle lever 13a (see
The bottom of the pump chamber 19 in which the jet pump 30 is accommodated is closed by a ride plate 40.
As shown in the drawings, the ride plate 40 includes a base 50(51) and a setting part 60.
The base 50 is composed of a pair of left and right supporting members 51 and a pair of left and right base-and-side parts (hereinafter, also referred simply as side parts) 61 detachably fixed to the supporting members 51.
The setting part 60 includes the pair of side parts 61, and a center part 62 to be detachably fixed to the side parts 61.
In
As shown in
The outer surfaces of the supporting members 51 are formed with projections 51b for positioning the supporting members 51 (that is, the base 50) by fitting them into the recesses, not shown, provided on the inner surface of the above-described pump chamber 19 respectively, and the upper portions of the supporting members 51 are formed with bolt holes 51c.
As shown mainly in
The boat body 11 is formed with bolt holes opposed to the bolt holes 51c, 61c.
Therefore, by fitting the projections 51b of the supporting members 51 into the recesses on the boat body 11, and fitting the recesses 61b of the side parts 61 onto the projections on the boat body 11 respectively, inserting bolts 63 (see
As shown mainly in
The center part 62 is formed with bolt holes (through-hole) 62b (see
Therefore, the center part 62 is detachably fixed to the side parts 61 (that is, the base 50), by fitting the both side portions 62a thereof with the shoulders 61d of the side parts 61, inserting the bolts into the bolt holes 62b, and tightening the same.
As is clear from
The rear portion of the center part 62 projects in the shape of a mountain (the shape of Mt. Fuji) toward the rear. An edge 62c (see
As shown in
As shown in
Therefore, by inserting bolts into the bolt holes and tightening the same, the front portions of the side parts 61 are connected to each other by the connecting member 90.
Projections 92 are provided at the front of the connecting member 90, and rear portion (base portion) 71 of the foreign material preventing plate 70 engages with the projections 92 as shown in
Therefore, by inserting bolts into these bolt holes and tightening the same, the foreign material preventing plate 70 is fixed to the bottom of the boat body 11, and the front portion of the connecting member 90 is securely fixed to the bottom of the boat body 11 with the projections 92 clamped between the base portion 71 of the foreign material preventing plate 70 and the bottom of the boat body 11.
As shown in
According to the water jet propulsion boat as described above, the following effects are achieved.
Since the water jet propulsion boat 10 includes the pump chamber 19 provided at the rear portion of the boat body 11, the water jet pump 30 accommodated in the pump chamber 19, the ride plate 40 closing the bottom of the pump chamber 19, and the ride plate 40 includes the base 50 to be fixed to the boat body 11, and the setting part 60 detachably fixed to the base 50 and constituting part of the bottom surface of the rear portion of the boat body 11, the following effects are achieved by this arrangement.
That is, when an attempt is made to improve the traveling performance or the turning performance of the water jet propulsion boat 10, it is not necessary to manufacture and replace the entire ride plate 40 itself any longer, and the traveling performance and/or the turning performance of the water jet propulsion boat 10 can be improved by manufacturing and replacing only the setting part 60 (in particular, the center part 62).
In addition, by attaching a suitable setting part (smaller than the entire ride plate) 60 depending on the machine type of the water jet propulsion boat 10, the performance specific to each type of boats can easily be demonstrated.
Furthermore, by fixing the setting part 60 under the base 50, and constituting part of the bottom surface of the rear portion of the boat body 11 by the bottom surfaces 61f, 62f of the setting part 60, a preferable sliding surface can easily be obtained.
Still further, by constituting the base 50 by the pair of left and right bases 51, and constituting the setting part 60 by the pair of left and right side parts 61 to be fixed to the bases 51 and the center part 62 to be detachably fixed to the side parts 61, steering stability and improvement of the maximum speed can easily be achieved by replacing only the center part 62 constituting the center portion which affects the steering stability and the maximum speed very much.
In other words, by replacing only the center part 62, which is much smaller than the entire ride plate 40, the steering stability and improvement of the maximum speed can easily be achieved.
Also, when changing the setting of the bottom shape of the ride plate 40, the setting can be changed by replacing only the setting part 62 at the lower side or at the center without changing the base 50 (and the side parts 61 which constitute the base) which is relatively large and hence requires high cost for a mold.
In addition, it is not necessary to manufacture the ride plates with new molds for the respective machine types, and it becomes possible to share the base 50 ensured strength in common and to adapt to the respective settings for exploiting machine-type-specific performance by attaching the relatively small setting part 60 (in particular the center part 62).
a) shows the embodiment described above in diagrammatic cross-section viewed from the rear of the boat body 11. While, as shown in
With the embodiment shown in
According to the embodiment shown in
Also, since the setting part of suitable shape can be selectively mounted according to the setting of the traveling functions (direct-traveling performance, turning performance, high-velocity performance), by mounting the setting part 64 of a substantially inverted triangular cross-section whose single bottom edge (ridge) 64b corresponds the bottom edge of the boat body 11, for example, as shown in
Although the embodiments of the present invention have been described thus far, the present invention is not limited to the above-described embodiments, and may be modified as needed within the scope of the present invention.
For example, it is also possible to form the supporting member 51 and the side parts 61 integrally with each other, thereby constituting the base.
In this detailed description of the preferred embodiments, reference is made to the accompanying drawings, which form a part hereof, and within which are shown by way of illustration specific embodiments by which the invention may be practiced. It is to be understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the invention.
Number | Date | Country | Kind |
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2004-104566 | Mar 2004 | JP | national |
Number | Name | Date | Kind |
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5460553 | Craig et al. | Oct 1995 | A |
RE35351 | Morgan | Oct 1996 | E |
6066014 | Smith et al. | May 2000 | A |
20030064637 | Fuse et al. | Apr 2003 | A1 |
20030153219 | Menard et al. | Aug 2003 | A1 |
Number | Date | Country |
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10-129583 | May 1998 | JP |
Number | Date | Country | |
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20050221694 A1 | Oct 2005 | US |