CH674826A5 - - Google Patents

Description

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CH 674 826 A5

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description

The invention relates to a surfboard with at least one fin.

Surfboards have recently been further developed from the originally rigid board to a board with a rear region which can be elastically bent in the longitudinal direction of the surfboard, the rear region being understood to mean approximately the rearmost third of the length of the surfboard. The findings described below have led to the development mentioned. The longitudinal axis of the surfboard includes the so-called glide angle with the water surface. A stationary surfboard has a glide angle of 0 °, whereas with a surfboard gliding over the water surface, the glide angle increases with increasing speed. An increasing glide angle means nothing other than that the front area of the surfboard lifts out of the water and the rear area dips into the water. The sliding surface of the surfboard is reduced, and the immersion of the rear area creates a braking effect that reduces the speed. The result is a constantly changing glide angle or, in other words, a restless behavior of the surfboard. By making the back of the surfboard flexible, i.e. Bendable in the longitudinal direction of the surfboard, it has been achieved that this area bends slightly upwards with increasing surfing speed due to the pressure exerted on it by the water and no longer immerses to the same extent in the water. This further development results in a much quieter behavior of the surfboard on the water at high surfing speeds. The fin is usually fastened in the rear area of the surfboard in a fin box embedded in the surfboard. In the case of the aforementioned further development with the flexible rear area, which is formed from a relatively thin lower flex part which has the necessary strength and an upper shaped part which serves to shape the shape, the fin is fastened in a fin box embedded in the lower flex part. However, the rigid fin box affects the formation of an ideal bend line of the rear area of the surfboard at high speeds. On the one hand, this means that even with these advanced surfboards, the optimal behavior of the latter on the water is not yet achieved and, on the other hand, that over time as a result of different strengths in the rear area, at the transition to the lower flex section or when the rigid fin box is inserted into the Fatigue fractures in the longitudinal direction of the surfboard result in fatigue fractures. What has been said here also applies to surfboards in which several fins, as described above, are arranged side by side.

It is the object of the invention to provide a surfboard with at least one fin, in which the disadvantages mentioned above do not occur.

This object is achieved according to the features listed in the characterizing part of claim 1.

The invention is described in more detail below with reference to drawings. Show it

1 is a side view of a surfboard with a fin,

2 the rear area of a surfboard, illustrating the principle of the fin attachment according to the prior art,

3 shows the side view of a surfboard according to the invention with partial sections,

4 shows the rear area of the surfboard according to FIG. 3 with the fin attachment according to the invention, and

5 shows the rear area of the surfboard according to FIG. 4 in a partially sectioned top view.

1 and 2 relate to surfboards 1 with a fin 3 according to the prior art. In Fig. 1, a rigid surfboard is shown, which is made for example in the usual design from a foam core 6 with a coating 5, made of a thermoplastic, polyester or epoxy resin. In the rear area 4 of the surfboard 1, on the lower side facing the water, lying on the longitudinal axis, a so-called fin box 2 is let into the surfboard. The fin box 2 is a substantially rectangular box with a downward opening into which the fin 3 can be inserted. As already mentioned, these rigid, immovable boards show restless behavior in the water at high speeds. Furthermore, these boards tend to undercut. Undercutting is to be understood as the immersion of the corresponding surfboard side of the surfboard which is inclined sideways in relation to the surface of the water when cornering. Improvements in this regard have brought surfboards 1, the rear area 4 of which is designed according to FIG. 2. The latter comprises a lower flex part 16 having the necessary strength for fastening the fin 3 and an upper shaped part 17 serving to shape the shape. In the exemplary embodiment shown, the two parts are spaced apart from one another by an intermediate space 7 which is open to the rear and runs essentially parallel to the surfboard surface . The lower flex part 16 is designed to be elastically bendable in the longitudinal direction of the surfboard 1. At high surfing speeds, the lower flex part 16 bends in the direction of the upper molded part 17 and, by increasing the sliding surface and reducing the depth of penetration, gives the surfboard a quieter behavior on the water. The lower flex part 16, like the surfboard, consists of the foam core 6, which is provided with a covering made of a thermoplastic, polyester or epoxy resin. The strength of this lower flex part 16 is selected so that, on the one hand, essentially when surfing

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the desired bending line is reached and that, on the other hand, there is sufficient strength to hold the fin box 2. The upper molded part 17 serves primarily to shape the rear area 4. As a result of the bending movements of the lower flexible part 16, fatigue fractures occur over time at the points designated by the reference numerals 8 and 9, as mentioned in the introduction to the description.

The surfboard according to the invention is designed to eliminate all of these disadvantages, as shown in FIGS. 3, 4 and 5. The surfboard 1 comprises two parts 10, 11 lying one above the other and running essentially parallel to one another. The lower part 10 is intended for resting and sliding on the water surface. In a preferred embodiment, this lower part 10 consists of a core 13 made of hard foam, which has a cover 12 made of a thermoplastic, polyester or epoxy resin. It would also be conceivable to build the core from wood, for example, or from a plastic provided with structured openings. Such a plastic with honeycomb-shaped openings is available on the market under the name Honeycomb. Further embodiments of the lower part 10, not shown in the figures, provide for this to be designed, for example, as a hollow body or as a solid body. The coating 12 of the exemplary embodiment shown can consist of several layers, a so-called laminate, with different hardnesses. The lower part 10 is elastically bendable in the longitudinal direction of the surfboard 1. This ensures that on the one hand, when surfing at high speeds, the rear area 4, to increase the sliding surface and to reduce the depth of immersion in the water, is bent upward, thus giving the surfboard a stable, calm behavior. When cornering, the elastically bendable surfboard is bent over its entire length due to the water pressure, thus lies optimally on the water and does not undercut. With the surfboard according to the invention, cornering at higher speeds is possible. Due to the shape of the lower part 10, the choice of the material of the core 13 and the structure of the cover 12, the elastic bendability, the flexibility of the surfboard in the construction can be determined, i.e. depending on the design of the so-called bending curve, direct control of the curve behavior of the board can be achieved. The thickness of the lower part 10 is relatively small at 2-4 cm. An upper part 11, which is preferably made of a soft foam 14, serves as a buoyancy body and the shape of the surfboard 1. The upper part 11 is connected to the lower part 10, for example by gluing. The adhesive point 15 is located between the underside of the upper part 11 and the upper side of the lower part 10. The upper part 11 has only a low mechanical strength. The fin 3 and the foot straps (not shown in the drawings) and the mast track are therefore fastened to the lower part 10. Also not shown recesses in the upper part 11 make the

Foot straps and the mast track accessible from above.

The fin 3 and its attachment to the lower part 10 in the rear area 4 of the surfboard 1 is shown in FIGS. 4 and 5. In order to eliminate the breakages mentioned at the beginning in the end regions of the fin box 2 (FIG. 2) and to obtain an ideal, continuously running bending line, a new type of fin fastening has been sought. Instead of a fin box, the lower part 10 has a continuous narrow cutout 20 lying on the longitudinal axis of the surfboard for the passage of the fin 3. The cutout

20 is similar in cross section to the cross section of the fin 3. The latter has an essentially rectangular flat plate 21 on its end facing the upper part 11. On the downward facing, the lower part 10 facing surface 23 of the plate 21, which runs essentially parallel to the upper side 22 of the lower part 10, are approximately in the middle of the plate and in the middle of the cutout 20 in the transverse direction to the surfboard 1, substantially roller-shaped connecting means 24 arranged for connecting the plate 21 to the lower part 10. The lower surface 23 of the plate 21 is spaced from the upper side 22 of the lower part 10 by the connecting means 24. The connecting means 24 are both with the plate

21 and also connected to the lower part 10 and can consist, for example, of a permanently elastic adhesive, of a permanently elastic, roll-shaped solid body or of hinges. It is important that the plate 21 can be pivoted about this connecting means 24, which serves as an axis. In order to prevent the plate 21 from striking the surface of the lower part 10, at least one punctiform support means 25 is fastened either to the plate 21 or to the lower part 10 in the longitudinal direction of the surfboard in the region of the front plate edge. The support means 25 is resilient or elastic and can consist, for example, of a rubber pin. A recess 26 encompassing the plate 21 is incorporated in the upper part 11 from soft foam, so that the fin 3 can unfold its full functionality with the plate 21.

Further embodiments, not shown in the figures, provide for the attachment of a plurality of fins arranged essentially next to one another in the transverse direction of the surfboard in the rear region 4.

In summary, the following advantages are achieved with the surfboard according to the invention. The surfboard adapts to the water level and always lies optimally on the water. It never undercuts when cornering. The surfboard is less sensitive to impact than surfboards of the type known to date. The soft base formed by the upper part 11 is pleasant for the surfer and reduces the risk of injury. The calm behavior of the surfboard on the water makes it very quick. The behavior of the surfboard when cornering can be determined by defining the bending line when designing the board. thanks

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that the lower part 10 has no sudden changes in cross-section or strength, no fractures occur.

Claims (10)

Claims 1. Surfboard with at least one fin, characterized in that the surfboard (1) comprises two substantially parallel superimposed parts (10, 11), a lower part (10) intended to rest and slide on the water surface and one with the connected lower part, serving as a buoyant upper part (11), that the lower part (10) is elastically bendable in the longitudinal direction of the surfboard (1) and a cutout in its rear region (4) (20) for passing the fin (3) and that the fin (3) is fastened to the side of the lower part (10) facing the upper part (11). 2. Surfboard according to claim 1, characterized in that the lower part (10) has a core (13) made of hard foam, wood or plastic with structured openings and that around the core (13) a coating (12) made of a thermoplastic material , made of polyester or epoxy resin. 3. Surfboard according to claim 1, characterized in that the lower part (10) is a hollow body. 4. Surfboard according to claim 1, characterized in that the lower part (10) is a full body. 5. Surfboard according to one of claims 1 to 4, characterized in that the upper part (11) made of soft foam (14) and is glued to the lower part (10). 6. Surfboard according to one of claims to 5, characterized in that the lower part (10) is intended for fastening foot straps, fins and a mast track. 7. Surfboard according to one of claims 1 to 6, characterized in that the fin (3) at the end facing the upper part (11) has a substantially flat plate (21), the downward facing surface (23) of which upper side (22) of the lower part (10) is substantially parallel. 8. Surfboard according to claim 7, characterized in that between the plate (21) and the lower part (10) approximately in the middle of the cutout (20) at least one transverse to the surfboard (1) extending means (24) for pivotally connecting the plate (21) with the lower part (10) is present. 9. Surfboard according to claim 8, characterized in that the connecting means (24) is a strip-shaped permanently elastic adhesive or with the plate (21) and the lower part (10) permanently elastically glued, roll-shaped body or a hinge. 10. Surfboard according to one of claims 7 to 9, characterized in that in the longitudinal direction of the surfboard (1) in the area of at least one edge of the plate at least one punctiform support element (25) intended as a stop on the plate (21) or on the lower part ( 10) is attached. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 4th