The present invention relates to a surfboard and, in particular, to reinforcement of the surfboard.
It is known to provide a single reinforcing timber rib down the centre of a surfboard. The surfboard is formed from a blank that is cut in half lengthwise of the board. The rib is set between the two halves which are then bonded back together and fiber glassed.
The rib is arranged in a vertical configuration and provides rigidity and additional strength to the board along the centre line, where a surfer's feet are placed. However, any flexing of the board, such as while riding a wave, generates a twist around the rib and through the length of the board, which can adversely effect performance.
Another form of reinforcement is to place carbon fiber strips along rails of the board and fiber glass over the rails during the final production phase of the board. The reinforced rails provide increased strength along the sides of the board but not at the ends of the board and, importantly, not where the surfer's feet are usually placed.
Another disadvantage of the side rail reinforcement is that carbon fiber can be damaged during production, shaping and handling of the core before the fiber glass is applied and that can compromise the strength of the reinforcement.
The present invention seeks to provide an improved surfboard core and method of making a surfboard core.
In accordance with the invention, there is provided a board core and a stringer array embedded in the core to modify handling characteristics of the board, the array including stringers that extend lengthwise of the core, either side of a centre line of the core, wherein: each stringer extends between a nose and tail of the core and includes a generally straight section, through a middle part of the board where a rider's feet would normally be located, and a curved section at either end of the generally straight section that curves outwardly away from the centre line and terminates at a side edge of the core; and wherein the stringers incorporate a twisted profile through parts of the core where enhanced flex is required.
Preferably, the array includes a plurality of stringers extending lengthwise of the core.
Preferably, the stringers are arranged to either side of a centre line of the core.
Preferably, the stringers are symmetrically arranged about the centre line.
Preferably, the stringers are formed of carbon fiber strips.
Preferably, the stringers include a vertical profile, in a direction normal to a riding surface of the core, at locations where a surfer's feet would normally be positioned when riding the board, in order to enhance rigidity and strength of the core at those locations.
In another aspect, there is provided a surfboard including a core, as described above.
In another aspect, there is provided a method of forming a surfboard core including: providing core sections with profiled matching edges; bonding stringers to associated ones of the edges; joining the core sections together whereby to form a core with an embedded stringer array, wherein: each stringer extends between a nose and tail of the core and includes a generally straight section, through a middle part of the board where a rider's feet would normally be located, and a curved section at either end of the generally straight section that curves outwardly away from the centre line and terminates at a side edge of the core; and wherein the stringers incorporate a twisted profile through parts of the core where enhanced flex is required.
Preferably, the core sections are provided in the form of a centre section, and two side sections.
The invention is described, by way of non-limiting example only, with reference to the accompanying drawings, in which:
a is an exploded plan view of the surfboard core;
b is a cross-section view, taken along the line A-A shown in
c is a cross-section view, taken along the line B-B shown in
a is an exploded plan view of another surfboard core;
b is a cross-section view taken along the line C-C shown in
a is an exploded plan view of another surfboard core; and
b is a cross-section view taken along the line D-D, shown in
Referring firstly to
The surfboard 1 has a stringer array 10 embedded in the core 2. The array 10 is formed of two elongate stringers 11, 12, each formed of a carbon fiber strip, although any other suitable material may be used.
One of the stingers 11 extends between the nose 8 and the tail 9, with a straight section 13 though a middle part 14 of the surfboard 1 where a surfer's feet would normally be located. The stringer 11 has curved end sections 15, 16 that terminate toward the side edge 5 of the board 1.
The other stringer 12 is embedded in the core 2, on an opposite side of the centre line.7 The stringer 12 has a mirror image configuration to the other stringer 11.
The surfboard 1, with the stringer array 10 has superior strength and rigidity through the middle part 14 of the board 1, and allows for a degree of flex at the nose 8 and tail 9 of the board 1. When the tail 9 flexes, the curved sections 15, 16 of the opposed stringers ensure there is minimal twist in the board 1, which provides for enhanced handling.
Additional line markings are shown in
The dimensions described may be used on a range of surfboard sizes simply by changing the length of the middle section where the stringers are straight. In this way, larger surfboards, typically used by heavier people, will have added strength due to the increased length of the stringers. Changing the strength and flexibility requirements of the surfboard may, however, be achieved by altering the dimensions given of the profile of the stingers 11, 12 running through the core 2, as described with reference to
Referring to
In this instance, the edges 33 are formed with a twisted or curved profile through the curved sections 15, 16 so that the edges 33 present a helix type twist from the nose 8 to the tail 9 of the core 2. The profile is substantially vertical though the straight sections 13, in a direction normal to a riding surface of the core 2, so as to impart maximum strength to the core 2 at the locations where a surfer's feet are normally positioned.
b and 2c illustrate cross-sectional views, taken along lines A-A and B-B respectively, to more clearly show the profiles of the relevant parts 30, 31, 32.
As may be appreciated, the helix configuration of the stringers 11, 12 extending lengthwise of the board will provide a spring-like quality to the board 1 which can be utilized to extract enhanced power and drive from the board 1, especially the tail 9 of the board 1.
Referring now to
Referring now to
As may be appreciated, the specific profile of the stringers 11, 12 and the layout can be varied to suit the required handling characteristics of the surfboard. More stringers can be used in the array and the profile of the stringers adjusted, as required.
Throughout the description, reference has been made to use on the invention in relation to a surfboard. However, for the purposes of the above description and the following claims, use of the word “surfboard” is to be taken as meaning any form of ride on board, such as a paddle board or the like.
Also, the stringers have been described as being formed of carbon fiber strips. However, the stringers may be formed of any suitable material such as Kevlar, metal or some form of composite material. The stringers need not necessarily extend the length of the board, as long as some degree of reinforcement and or preferred load transfer characteristics are satisfied.
It should also be appreciated the invention has been described by way of non-limiting example only and many modifications and variations may be made thereto without departing form the spirit and scope of the invention described.
Number | Date | Country | Kind |
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2013206203 | Jun 2013 | AU | national |