Patents Form # 5
NEW ZEALAND Patents Act 1953
COMPLETE SPECIFICATION
AFTER PROVISIONAL NO.: 576833 PRIORITY DATE : 08 May 2009
TITLE : Improvements in or relating to Waterborne Craft
I, JONES, Cameron Grant
Address: 85 Wellpark Avenue, Westmere, Auckland, New Zealand, 1021 Nationality: A citizen of New Zealand do hereby declare the invention for which I pray that a patent may be granted to me and the method by which it is to be performed, to be particularly described in and by the following statement:
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192299NZ_Cap_20100601_1444_CJW.doc FEE CODE 1050
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IMPROVEMENTS IN OR RELATING TO WATERBORNE CRAFT TECHNICAL FIELD OF THE INVENTION
The invention relates to a Waterborne Craft, particularly though not necessarily solely a surf 5 board.
BACKGROUND OF INVENTION
Surfing has been in vogue as a pastime, recreational activity and sport for some time. In order 10 to function adequately a surfboard has on its underside at least one fin. Usually three fins are used, two side fins towards the rear of the board and a central fin between the side fins and often placed generally rearward of the side fins. The fin or fins assist in creating stability and reduce unwanted leeward motion. Fins, keels and centreboards are used in other waterborne vessels for similar purposes. However the fin, keel or centreboard itself in its contact with the water 15 creates drag and reduces the performance of the surfboard or other waterborne craft.
OBJECT OF THE INVENTION
It is an object of the invention to provide a waterborne craft which will obviate or minimise 20 some of the disadvantages and limitations of the known art or which will at least provide the public with a useful choice.
SUMMARY OF INVENTION
Accordingly the invention consists in a waterborne craft having a hull, board or base, the hull, board or base having an upper surface and a lower surface, and a fin, keel, or centreboard
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extending from the lower surface, one or more air conduits having an inlet end on or adjacent the upper surface, passing through the hull, board or base and exiting the lower surface of the hull, board or base at or adjacent at least one side of the fin, keel, or centreboard in a position such that the conduit in use provides, or the conduits in use provide, air to a position at or 5 adjacent at least one side of the fin, keel or centreboard.
Preferably the conduit or conduits take the form of apertures through the hull, board or base.
Preferably, the waterborne craft has a plurality of fins, keels or centreboards and an aperture or 10 apertures positioned to provide air to at least one side face of at least one said fin, keel or centreboard.
Preferably the aperture or apertures comprise one or more apertures through the hull, board or base at or adjacent at least one side of at least one fin, keel or centreboard.
Preferably the apertures have a reduced diameter at or adjacent the air exit end thereof. Preferably at least one fin, keel or centreboard has three or four apertures therebeside.
BRIEF DESCRIPTION
The invention will now be described, by way of example only, by reference to the accompanying drawings:
Figure 1 is a transverse cross section through part of a surfboard showing a fin and air conduit in accordance with a first preferred embodiment of the invention
Figure 2 is an underneath perspective view of a surfboard and fin of the type shown in figure 1,
Figure 3 is a view as in figure 1 of an alternative surfboard and fin,
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Figure 4 is a view as in figure 2 of a surfboard and fin of the type of figure 3,
Figure 5 is a longitudinal cross section of a further alternative surfboard and fin,
Figures 6 to 8 are each diagrammatic underneath perspective views of alternative fin and socket constructions for use in some forms of the invention,
Figures 9 and 10 are transverse cross-sectional views of part of a surfboard and fin construction 10 in still further alternative embodiments of the invention,
Figure 11 is an underneath perspective view of the invention as shown in figures 9 and 10,
Figures 12 to 15 are part longitudinal cross-sectional views of various embodiments of the 15 invention,
Figures 16 to 18 are underneath views of various embodiments of the invention,
Figure 20 is an underneath perspective view of a still further alternative embodiment of the 20 invention,
Figure 21 is a transverse cross-sectional view of a still further alternative embodiment of the invention,
Figures 22 and 23 are respectively an underneath and a top perspective view of a still further alternative embodiment of the invention, and
Figure 24 is a perspective view of a further alternative construction.
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DESCRIPTION OF DRAWINGS
The following description will describe the invention in relation to preferred embodiments of the invention, namely a waterborne craft. The invention is in no way limited to these preferred embodiments as they are purely to exemplify the invention only and that possible variations and modifications would be readily apparent without departing from the scope of the invention. The invention will be described with reference to a surfboard and fin, but it will be appreciated that the invention may be used on a wide variety of waterborne craft having a board base or hull and carrying a fin, keel, centreboard or the like device.
Figure 1 shows a surfboard 1, mounting a fin 2. The fin is a rear side fin and is canted outwardly downwardly by an amount selected by the surfboard maker in accordance with good practice. The fin 2 is mounted to the surfboard 1 by means of a tongue 3 engaged into socket 4. Again this is known in the surfboard manufacturing art. If desired a bracing flange 5 may be provided 15 on the outer face of the fin 2 to aid in providing stability to the fin 2 in use. One or more conduits 6 are provided which have an air inlet end 7 and an air outlet or exiting end 8. The exiting end 8 is positioned at or adjacent one face of the fin 2. In this case the exiting end 8 is positioned adjacent the face 9 of the fin 2 which is inwardly facing with respect to the board 1. In use air is drawn through the conduit or conduits 6 and released from the exiting end 8 20 adjacent the face 9 so as to form an air film over at least part of the face 9.
The point of exit at the exiting end 8 is desirably of smaller dimension than the diameter of the remainder of the conduit 6. This will help prevent flow back of water into the conduit 6. The precise dimensions of the conduit 6 and the exiting end can be empirically determined and may 25 vary depending on the type of board into which the invention is applied. However a maximum diameter of the conduit 6 is expected to be about 5 mm.
In figure 2 three conduits 6 are shown which exit into an optional oval depression 10 with the major axis of the depression 10 aligned substantially longitudinally of the board 1. In this 30 embodiment of the invention the conduits 6 are arrayed substantially along the length of the fin 2 or at least the forward two thirds of the longitudinal extent of the fin 2.
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In the embodiment of figure 3 the conduit 6 runs through the tongue 3 and socket 4 and exits at least at position 11 in the inner face 9 of the fin 2. The conduit 6 as shown in figure 4 is extended at 12 and provides further exits at 12, 13, 14, 15 and 16. A similar construction is 5 shown in figure 14 where multiple exits are provided across the face of the fin 2. The exits 11 to 16 are placed anywhere on the fin face except at or adjacent the leading edge of the fin 2 or adjacent the leading edge of any flap built into the fin 2.
In the construction of figure 4 the conduits 6 again exit at depressions 10. However the 10 construction is similar to figure 3 in that the exits of the conduits are in the fin 2 near the conjunction of the board 1 and fin 2. Again three conduits 6 are shown.
The construction of figure 5 is similar save that four conduits 6 are shown. In this embodiment the inlet ends are protected by a cover 20 which is of a somewhat rigid construction so that in 15 use if the user steps on the board at the position of the conduits 6 the conduits 6 are not substantially closed by the user's foot. The covers 20 could be in the form of a concave disk such as disc 20 shown in figure 24 with a segment 20a removed to provide the air inlet channel.
The conduits can be drilled and sealed or may be incorporated during the manufacturing 20 process.
The constructions of figures 6 to 8 show methods by which the conduits can be incorporated during manufacture. In figure 6 a fin 2 carrying a tongue 3 is provided. Also provided is a socket 4 into which tongue 3 is secured in use. The socket 4 has a circumferential flange 21 25 onto which conduits 6 are formed. The conduits 6 extend from the flange 21 at openings 22. The conduits may be open or closed at the remote end 23 which should be long enough to extend to the opposite face of the board 1 or indeed a little past the opposite face of the board 1 so that the conduits 6 can be cut to the required length and sealed to the gel coat of the board. The construction of figure 6 is intended to be for a side fin.
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Figure 7 is somewhat similar save that conduits 6 are provided on each side of the fin 2 making the construction particularly suitable for a centre fin but which could also be used for a side fin if desired.
Figure 8 shows a construction somewhat like the construction of figure 4. The conduits 6 are formed from the bottom of the socket 4 and meet or at least abut passageways 25 within the fin 2 to exit at depressions 10.
Figure 9 shows a further alternative construction in which a split conduit 6 is provided exiting at 10 outlets 26 each side of the fin 2 at or adjacent the conjunction of the board 1 and fin 2. Again this is arrangement is most suitable for a centre fin but could be used for a side fin.
In figure 10 an arrangement similar to figure 9 is used save that two conduits 6 are shown positioned each side of the fin 2 and the tongue 3. Again this is arrangement is most suitable for 15 a centre fin but could be used for a side fin.
Figure 11 is an underneath view of a construction such as would be seen in figure 9 or figure 10.
Figure 12 shows a construction similar to that in figure 5 but the conduits 6 are angled 20 rearwardly downwardly. This may increase the uptake of air as it allows some pressure at the inlet end 7 of the conduit as well as the suction at the exiting end 8 due to the suction caused by the entraining effect of the water passing the exiting ends 8 of the conduits 6. Also the figure 12 construction has the exiting ends 8 exiting beside the fin 2 rather than therethrough. The angle of the conduit 6 may be about 50° to the longitudinal axis of the board 1 but the angle could 25 vary over quite a wide range such as 30° to 70°. I believe that the angle should not be perpendicular to the board as water may then flow back too easily.
Figure 13 shows a construction having three conduits 6 which exit through the fin 2, flange 4 or bracing flange 5. Again the conduits 6 are angled rearwardly downwardly.
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In the construction of figure 14 the leading conduit 6 has a plurality of exits 8 similar to those shown in figure 4 but also provided are exits 8a arrayed as shown in figure 13.
Figure 15 shows a construction wherein the exits 8 and 8a are placed as for figure 14 but the 5 conduits feeding the exits are re-arranged with the lower exits 8 being fed by the rearward conduits 6 past the exits 8a.
Figures 16 to 19 show fin arrangements.
In figure 16 four fins 2 are provided each of which is a side fin. The exits 8 are on or adjacent the inner face of the fins 2. The exits are in the fins 2, or in flange 4 or bracing flange 5.
In figure 17 substantially the same structure is shown save that the exits 8 are beside the fin 2. Figure 18 shows a three fin arrangement. Side fins 2a have exits as for figure 16 on the inner 15 side of the fin 2a whilst the centre fin 2b has exits 8 on both faces of the fin 2b.
Figure 19 shows a construction as for figure 18 but the exits 8 are as for figure 16.
Figure 20 shows a construction where the fin 2 and the socket 3 are manufactured as a unitary 20 item. The exits 8 are shown beside the fin 2 but constructions where the exits are in the fin, in the flange 4 or in the flange 5 could be provided for example as shown in figure 11.
In the construction of figure 21a conduit 6 is provided as for figure 1, although other variations could be used. This is supplemented by a second conduit 28 with its inlet at or adjacent the rail 25 29 of the surfboard 1. The conduit 28 exits adjacent the fin 2 on the outer side thereof but this is for illustrative purposes and other exiting positions previously shown could be utilised. Covers 20 are provided as for other constructions such as figure 5.
Figures 22 and 23 show a construction wherein the conduits 28 are staggered forward of the fin 30 2. The amount of forward stagger can be empirically determined. However the covers 20 of figure 21 have been replaced by a flexible, preferably flexibly resilient cover 30. The purpose
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of the flexible cover 30 is to close the conduit 28 when the rail 29 becomes submerged during use of the board 1. In such circumstances the water pressure on the cover 30 will cause the cover 30 to close against the inlet to the conduit 28 thereby preventing or at least reducing ingress of water into the conduit 28 while the rail 29 is submerged. Ingress of water into 5 conduit 28 could reduce the effectiveness of the conduit 28 by blocking or at least partially blocking conduit 28.
In use the surfboard 1 or other waterborne craft is provided with a wash of air over, or partly over, one or both sides of the fin or other similar device.
ADVANTAGES
The wash of air over, or partly over, one or both sides of the fin or other similar device is expected to reduce drag on the fin or similar device thereby enabling the performance of the 15 waterborne craft to be increased.
VARIATIONS
Throughout the description of this specification, the word "comprise" and variations of that 20 word such as "comprising" and "comprises", are not intended to exclude other additives, components, integers or steps.
It will of course be realised that while the foregoing has been given by way of illustrative example of this invention, all such and other modifications and variations thereto as would be 25 apparent to persons skilled in the art are deemed to fall within the broad scope and ambit of this invention as is hereinbefore described.