The present invention relates to an adjustable steering device of a small watercraft, more particularly, to a steering device in which linear extension and contraction, as well as tilt are possible.
Unexamined Patent Publication No. SHO 61-229690, Unexamined Patent Publication No. SHO 61-275095, U.S. Pat. No. 4,726,311 and Unexamined Utility Model Publication No. HEI 2-105099 disclose adjustable steering devices or structures of small watercraft. Each steering device is configured to be adjustable for a physique or riding posture of an operator, or a storage space. The steering devices include a steering column and the steering column is typically configured to be dividable in two parts, an upper steering column component and a lower steering column component, substantially in the vertical direction. The upper steering column component and the lower steering column component are coupled together with a telescopic mechanism or a tilt mechanism.
The disclosed techniques in Unexamined Patent Publication No. SHO 61-229690, U.S. Pat. No. 4,726,311, and Unexamined Utility Patent Publication No. HEI 2-105099 include a tilt mechanism, however, they do not include a telescopic mechanism. On the other hand, the disclosed technique in the Unexamined Patent Publication No. SHO 61-275095 includes a telescopic mechanism, however, it does not include a tilt mechanism. Thus, the prior art references only disclose either one of the adjusting mechanisms and do not suggest or teach the combination of the both mechanisms.
The telescopic function is advantageous when adjusting for physique and riding posture of an operator. On the other hand, the tilt function is advantageous when transporting watercraft with height restrictions. For this reason, a steering device including both telescopic function and tilt function has been desired.
The present invention addresses the above-mentioned conditions, and one aspect of the present invention is to provide an improved steering device of a small watercraft.
The steering device comprises a steering column oriented substantially in the vertical direction, wherein the steering column includes an upper steering column component and a lower steering column component. The upper steering column component and the lower steering column component are coupled together so as to be movable relative to each other in the longitudinal direction of the steering column. One of the steering column components includes a first elongated hole which penetrates in the left-and-right direction and is elongated in the vertical direction, and the other steering column component includes a protrusion extended in the left-and-right direction so as to be accommodated in the first elongated hole and to be guided by the first elongated hole in the vertical direction. The steering column components each include a contact surface having a plurality of engaging teeth arranged in the vertical direction. The steering column components engage with each other in the front-and-rear direction by engaging the engaging teeth, and a fastening device configured to lock the relative movement of the steering column components.
In one aspect of the present invention, the steering device is configured to achieve both a telescopic function and a tilt function with a single integrated mechanism.
It is preferable that the steering column components may be configured to be relatively tiltable around the protrusions and the tilting of the steering column components may be restricted by the fastening device.
Preferably, the fastening device may be configured to perpendicularly penetrate the contact surfaces.
Preferably, one of the steering column components may include a second elongated hole which penetrates the one of the steering column components in the front-and-rear direction and elongate in the vertical direction, the fastening device being inserted through the second elongated hole.
Preferably, the tilting of the steering column components may be enabled by loosening the fastening device.
Preferably, the steering column components may be each configured to be in substantially a channel shape opened in a transverse cross-section, substantially in the longitudinal direction of the watercraft, and may be configured so that a portion of one component is inside a portion of the other. One of the contact surfaces may be provided in a front surface of a web portion of one of the channel-shaped steering column components and the other contact surface may be provided on a rear surface of a web portion of the other channel-shaped steering column component. Further, the contact surfaces may be configured to be exposed when the steering column components are tilted.
Preferably, the steering column components may be oriented so that the channel shapes thereof are opened forward.
Preferably, the lower steering column component may be rotatably coupled with a body of the watercraft about the longitudinal axis thereof, and configured for an interlocking movement with a steering nozzle of the watercraft. A portion of the lower steering column component may be arranged inside a portion of the upper steering column component, and the upper steering column component may be configured to be movable in the longitudinal direction of the steering column and tiltable rearward, with respect to the lower steering column component.
The above and further objects and features of the invention will more fully be apparent from the following detailed description with accompanying drawings.
The present invention will now be described in detail referring to the accompanying drawings illustrating the embodiments thereof.
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A water intake 22 is provided on the bottom of the hull 11. Water is sucked from the water intake 22 and fed to the water jet pump P through a water intake passage 23. The water jet pump P pressurizes and accelerates the water by rotation of the impeller 20. The pressurized and accelerated water is discharged through a pump nozzle 24 having a cross-sectional area of water flow gradually reduced rearward, and from an outlet port 25 provided on the rear end portion of the pump nozzle 24, thereby obtaining a thrust. In
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The front hatch cover 32 is configured to be pivotable about an axis in the left-and-right direction (not shown) at a front end thereof. Opening and closing operation of the front hatch cover 32 about the axis is assisted by a spring-damper mechanism (not shown). The rear end portion of the hatch cover 32 extends slightly over the multi-function meter 31 so as to serve as a sunshade for the multi-function meter 31.
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The upper steering column component 302 is typically formed in a channel shape opened forward in transverse cross-section. An upper end portion 302A of the upper steering column component 302 typically is formed in a brick shape extending in the left-and-right direction. In an upper surface of the upper end portion 302A, a groove 304 of a semicircular cross-section is formed so as to extend in the left-and-right direction. A central portion of the handle 30 is fitted in along the groove 304 and, then, from above, a handle holder 306 of a brick shape to which a similar groove 305 to the groove 304 is formed in an undersurface thereof is placed and covers the handle 30. The handle holder 306 is fastened onto the upper end portion 302A of the upper steering column component 302 with threaded fasteners 307.
A second elongated hole 309 is typically formed in a lower portion of the channel-shaped upper steering column component 302. More specifically, the second elongated hole 309 is formed in a rear wall portion (a web portion of the channel shape) 308 of the channel-shaped upper steering column component 302, facing rearward. The elongated hole 309 extends in the vertical direction. Two or more engagement teeth 310 are formed in a front surface (a contact surface with the lower steering column component 303) 308A of the rear wall portion 308 and allotted in the vertical direction.
Similarly, the lower steering column component 303 is typically formed in a channel shape opened forward in transverse cross-section. The lower steering column component 303 includes a flange portion 320 extended in the transverse cross-sectional direction at a lower end portion. The lower steering column component 303 is coupled with the front deck portion 12A or the structural member therein so as to be rotatable about the longitudinal axis thereof, as mentioned above.
Two or more engagement teeth 322 are formed in the channel-shaped lower steering column component 303. More specifically, the engagement teeth 322 are allotted in the vertical direction and formed in a rear surface (a contact surface with the upper steering column component 302) 321A of a rear wall portion (a web portion of the channel shape) 321 of the channel-shaped lower steering column component 303 facing rearward. The engagement teeth 322 are configured to mate with the engagement teeth 310 of the upper steering column component 302.
In this embodiment, the engagement teeth 310 of the upper steering column component 302 are formed in a lower end portion on the front surface of the rear wall portion 308. On the other hand, the engagement teeth 322 of the lower steering column component 303 are formed along substantially an entire rear surface of the rear wall portion 321 in the vertical direction. Thereby, the engagement between the engagement teeth 310 and 322 is possible throughout an entire telescopic range of movement of the upper steering column component 302 and the lower steering column component 303, which movement will be explained in detail hereinafter.
A first elongated hole 324 elongated in the vertical direction is formed in each of side wall portions (flange portions of the channel shape) 323 (only one side is illustrated) of the lower steering column component 303. The first elongated hole 324 may be formed as a penetrated hole or a concaved portion. Protrusions 312 extended in the left-and-right direction are formed in side wall portions 311 (only one side is illustrated) of the upper steering column component 302. The protrusions 312 are respectively accommodated in the elongated holes 324 so as to be guided by the elongated hole 324. The positions and elongated direction of the elongated hole pair are aligned in the left-and-right direction. The protrusions are also aligned in the left-and-right direction so as to be co-axial.
A fastening device 330 is inserted through a hole (typically, a circular hole) 325 formed in the rear wall portion 321 of the lower steering column component 303. The fastening device 330 further extends rearward through an elongated hole 309 formed in the upper steering column component 302. The elongated hole 309 elongates in the vertical direction. The fastening device 330 may be any fastening device with various shapes and of various fastening methods, as long as it can at least hold the upper steering column component 302 and the lower steering column component 303 together in the front-and-rear direction, and maintain the engagement between the engagement teeth 310 and 322 formed in the components 302 and 303. Therefore, the fastening device 330 may be simply realized by a bolt-and-nut mechanism.
In this embodiment, in order to join the upper steering column component 302 and the lower steering column component 303 together and, at the same time, to guide the components 302 and 303 in the vertical direction, a relationship between the protrusions and elongated holes may be reversed and the reversed relationship still can achieve similar functions. For example, the relationship between each of the protrusions 312 of the upper steering column component 302 and the corresponding elongated hole 324 of the lower steering column component 303 may be reversed, and the lower steering column component 303 may include a protrusion and the upper steering column component 302 may include a corresponding elongated hole. Further, the elongated hole may be replaced with a concavity, a groove or the like being capable of guiding the corresponding protrusion. Similarly, the relationship between the elongated hole 309 of the upper steering column component 302 and the hole 325 of the lower steering column component 303 through which the fastening device 330 is inserted may also be reversed and, the lower steering column component 303 may include an elongated hole and the upper steering column component 302 may include a hole (typically, a circular hole). Further, the elongated hole 309 formed in the upper steering column component 302 may be replaced with a plurality of holes spaced in the vertical direction.
In this embodiment, although the lower steering column component 303 is substantially fixed permanently to the front deck portion 12A or the structural member therein, except that rotational movement about the longitudinal axis thereof is permitted. On the other hand, when the fastening device 330 is loosened, the upper steering column component 302 can be tilted rearward around the protrusions 312 with respect to the lower steering column component 303. A tilt angle of the upper steering column component 302 depends on how much the fastening device 330 is loosened. When the engagement between the engagement teeth 310 and 322 is released, the upper steering column component 302 can be moved upward as the protrusions 312 are guided in the respective elongated holes 324 of the lower steering column component 303, with respect to the lower steering column component 303 and, thus, the steering column 301 can be in an extended state, as shown in
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To make the steering column 301 transition from the most extended state (
As mentioned above, when the fastening device 330 is loosened, the upper steering column component 302 can be tilted rearward around the protrusions 312. This is always true within the extendable range of the steering column 301. Therefore, as shown in
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As the present invention may be embodied in several forms without departing from the spirit of essential characteristics thereof, the present embodiments are therefore illustrative and not restrictive, since the scope of the invention is defined by the appended claims rather than by the description preceding them, and all changes that fall within the metes and bounds of the claims, or equivalence of such metes and bounds thereof are therefore intended to be embraced by the claims.
Number | Date | Country | Kind |
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2004-020395 | Jan 2004 | JP | national |