WO2013000631A1 - Snowboard - Google Patents

Abstract

In a snowboard (1) with a slide surface formed on an underside, wherein the snowboard (1) has an upwardly bent front tip (3) and is delimited by lateral edges (4, 4'), provision is made according to the invention that the tip (3) has a front elongated section (5), which is shaped in such a way that, in plan view, the lateral edges (4, 4') of the elongated section each change the direction of rotation at a first turning point (W1, W1') and at a second turning point (W2, W2').

Description

 gliding over snow

TECHN IS ES GE ET ET

 The invention relates to a snow sliding board with a sliding surface formed on a lower side, wherein the snow sliding board has a front bent-up tip and is bounded by lateral edges.

STATE OF THE ART

Known snow gliding boards have an upwardly bent tip in the front area, so that the tip of the snow gliding board does not dig into the snow while driving and the snow gliding board can easily slide over the surface. When driving on the runway, ie with a relatively hard layer of snow, a relatively short tip slightly bent slightly upwards is sufficient. For driving in deep snow, wider and more upturned peaks will often be used to prevent the tip from sinking into the snow due to increased buoyancy. However, such Schneegleitbrett is again less suitable on the track, because it has more mass in the front and thus generates a higher rotational resistance. Also, such a peak in deep snow, especially at low to medium speeds, produce too much sliding resistance. Also, it can lead to a "pulling out" of the curve or to undesirable "gripping" especially in Bruchharst or wind-pressed snow. Normally, a ski "grabs" when it tilts up (turn, or skew). This can happen unintentionally with the break harp, as soon as the tip cuts into the harp and the ski assumes a direction of travel due to the tip, which is not really intended. In addition, the ski can sink irregularly in the Harst, depending on how stable the Bruchharst blanket is formed. In general, the ski can already be guided in the desired direction. But he is always easily distracted by what results in an unstable and exhausting driving style. A trouble-free gliding in the intended direction is made difficult.

PRESENTATION OF THE INVENTION

 The object of the invention is to provide a snow sliding board with a front bent-up tip, which is suitable for both deep snow as well as slopes. In particular, the deep snow runs are to be improved.

This object is solved by the features of claim 1. Accordingly, the tip of the above-mentioned Schneegleitbretts on a front extended portion which is shaped such that in plan view, the lateral edges of the extended portion each change the direction of rotation in a first and a second inflection point.

For the purposes of this application is with the lateral edge of the outer contour of the snow gliding board in the plan view resp. Planar projection, such as in Fig. 2, meant. Preferably, the lateral edge of the side surface of the Schneegleitbretts.

Typically, modern snow gliding boards, such as carving skis, have a sidecut in the middle area. The lateral edge of the snow gliding board therefore has a negative radius in the middle region with respect to a longitudinal axis of the snow gliding board. In the front area of the snowboard the direction of rotation of the edge changes and the negative radius becomes a positive radius. This area forms the top of the snowboard. In the present application, therefore, a negative radius is understood to mean a curvature of the lateral edge, in which the edge is inwardly curved, ie concave, with respect to the longitudinal axis of the snow gliding board. A positive radius is exactly the opposite - the lateral edge is curved outwards with respect to the longitudinal axis, ie convex. In a preferred embodiment, the snow sliding board according to the invention has a tip with at least two sections. The front extended portion, also referred to below as Tiefschneißitze, which extends from the first inflection point to the end of the tip, wherein the second inflection point between the first inflection point and the end of the tip is, and a rear portion which the range of the tip to the first Turning Point corresponds, also referred to below as the piste point. The first turning point thus forms the transition from the piste tip to the deep snow peak. The section of the piste tip thus has a convex shape laterally in plan view, ie, the edge is laterally curved away from a longitudinal axis of the Schneegleitbretts with a positive radius outwards, and the portion of the deep snow peak has in plan view laterally a concave shape, ie the edge is curved laterally to the longitudinal axis of the Schneegleitbretts with a negative radius inwards. The tip, in particular the section of the deep snow tip, can thus have a kind of waist.

The front elongated section of the tip, the so-called deep snow tip, produces little drag in the deep snow due to its shape, so that a "clean cut" is produced by the snow layer. These conventional powder snowboards suitable for deep snow typically have a wider and more upwardly bent tip than snow board suitable for snow.

In a conventional snow gliding board suitable for deep snow, the tip has a positive radius. This leads to the unwanted "gripping" described above, especially when driving in Bruchharst or wind-pressed snow, because the "curvature" counteracts the curvature of the top of the desired direction of travel. Such unwanted "gripping" during rupture or wind-pressed snow journeys is dungsgemägige snow sliding board prevented. At the same time, the deep snow tip guides the snow gliding board towards the surface.

In a further preferred embodiment of the invention, the front, extended portion of the tip is tapered in width from the first inflection point to the front. The distance between the first inflection point and a tip tip may be about 20 to 40 cm, preferably about 25 to 35 cm, more preferably about 28 cm. In addition, the front end may e.g. rounded or square shaped.

In a further preferred embodiment of the invention, the snow sliding board preferably has a waisted central region and seen in plan view change the lateral edges change the direction of rotation in a third inflection point. This third turning point defines, so to speak, the transition of the waisted area of the snow gliding board to the top of the snow gliding board. The distance between the third inflection point and the first inflection point preferably has a length of 1 8 to 38 mm, particularly preferably about 28 mm. In a further preferred embodiment of the snow gliding board according to the invention, the front elongate section has a width of about 50 to 70 mm, preferably about 66 mm at the narrowest point, and a width of about 1 10 to 1 20 mm at the widest point, preferably about 1 1 7 mm, on. The rear portion has a width of about 1 20 to 1 67 mm, preferably about 1 25 to 1 55 mm, more preferably about 1 29 to 1 35 mm at the widest point on.

In all embodiments, the lateral edges at the forward extended portion may have a maximum curvature having a negative radius less than 29 m, preferably less than 14 m, and the curvature of the lateral edges may decrease continuously forward to the second inflection point. The front extended extension Section of the tip can be integrally formed on the snow sliding board or be detachably connected to a suitable snow for snowboard. The curvature of the tip upwardly may increase towards the front, such that the leading end of an unloaded in-plane snow gliding board, preferably about 80 to 110 mm, more preferably about 85 to 100 mm, still more preferably about 90 mm, is spaced from the plane. In the transition from the rear portion to the front portion, the distance between the snow sliding board and the plane is preferably about 1 5 to 25 mm, more preferably about 1 8 to 23 cm.

Preferably, in the plan view, the first, second and third inflection points in all embodiments are each arranged mirror-symmetrically to the longitudinal axis of the snow gliding board. The snow gliding board according to the invention can furthermore preferably also have a torsion, as known from EP 2248560, in all embodiments.

Preferably, the snowboard is skis, e.g. Carvingskis, with the conventional lengths of about 1 50 to 21 0 cm and widths in the waisted middle region of about 72 to 1 40 mm. The snow sliding board preferably has a thickness of about 5 to 1 5 mm.

The snow sliding board according to the invention has the following properties and functions:

- The snow sliding board has a lower Cleitwiderstand during straight and cornering in deep snow on;

- the snow sliding board is steered in deep snow towards the surface;

- the snow gliding board can glide smoothly in the intended direction in deep snow (no "pulling out" of the curve, no undesired "gripping" in the break harp or wind-pressed snow); and - The lower mass in the peak area (compared to conventional snow gliding boards for deep snow) leads to less rotational resistance on the slopes.

KU RZE EXPLANATION TO THE FIGURES

 The invention will be explained in more detail with reference to embodiments in conjunction with the drawings. Show it:

1 is a side view of an inventive snow gliding board. and

2 is a plan view of the front region of a snow gliding board according to the invention according to FIG. 1.

WAY TO RUNNING THE INVENTORY

In Fig. 1, an embodiment of the front portion of an inventive snow gliding board 1 is shown with an upwardly bent tip 3 in a side view. The snow sliding board 1 has a sliding surface 2 on the underside. The front region of the snow gliding board has a so-called rocker over a length of about 500 to 850 mm. That is, the front portion of an unloaded, on a plane (dashed line in Fig. 1) lying Schneegleitbretts is slightly biased upward. The curvature of the upturned tip increases towards the front. The area of the tip 3 is bounded by a front end 6 and third inflection points W3, W3 '. The first inflection points Wl, WV and the second inflection point W2, W2 'are explained below. The distance of the front end 6 of an unloaded, on a plane (dashed line in Fig. 1) lying Schneegleitbretts 1 to the plane is about 88 mm. At the first points of inflection Wl, WV, the distance is about 1 8 mm and at the third inflection points W3, W3 'about 44 mm. FIG. 2 shows the front area of the snow sliding board 1 from FIG. 1 in a plan view. The snow sliding board 1 is bounded by lateral edges 4, 4 'and has a waisted middle area 8, which is shown only partially in FIG. The region of the upturned tip 3 is bounded by the third inflection points W3, W3 'and the front end 6 of the tip 3. In the turning points W3, W3 ', the direction of rotation of the edges changes

4, 4 ', i. the negative radius in the central region 8 of the snowboard changes to a positive radius. The third turning point W3. W3 'forms the transition of the waisted middle region 8 of the snow gliding board 1 to the tip 3 of the snow gliding board 1.

The tip 3 has two sections. A front, extended section 5, the deep snow peak, and a rear section 7, the piste top. In the front, extended section, the lateral edges 4, 4 'each pass through a first inflection point Wl, Wl' and a second inflection point W2, W2 '. In each case, the direction of rotation of the lateral edges 4, 4 'changes in these turning points, so that they have a negative radius between the first turning points W1, W1' and the second turning points W2, W2 '. The section of the deep snow peak 5 thus has a concave shape laterally in plan view, i. the edge is laterally curved inwardly towards a longitudinal axis AI of the snowboard 1. The front, extended portion 5 of the tip 3 is bounded by the two first inflection points Wl, Wl '. The front end 6 of the deep snow tip 5 has a polygonal shape, but may also be rounded. The back section of the top, the piste top

5, is limited by the inflection points W3, W3 'and the inflection points Wl, Wl'. Thus, in plan view, it has a convex shape laterally, i. the edges 4, 4 'are laterally curved away from the longitudinal axis AI of the snow gliding board 1 with a positive radius to the outside. The first turning point Wl, Wl 'thus forms the transition from the tip of the runner 7 to the deep snow tip 5. The deep snow tip 5 thus has a kind of waisting.

The piste tip 7, except that it is not rounded in front, corresponds approximately to a conventional tip of a snowboard. The distance between the turning points points W3, W3 'and the turning points Wl, WV has a length of 1 8 to 38 mm, preferably about 28 mm.

The deep snow peak has a length, i. the distance between the turning points Wl, WV and the front end 6, from 250 to 350 mm, preferably about 280 mm. The curvature of the edges 4, 4 'decreases towards the front, the edges between points W4, W4' and the turning points W2, W2 'over a length of about 85 mm parallel to the longitudinal axis.

The snow sliding board 1 is at the turning points Wl, WV about 1 1 5 mm, at the turning points W2, W2 'about 66 mm and at the turning points W3, W3' at least about 1 20 mm, preferably 1 29 mm wide, with this information to can vary up to +/- 1 0%.

NUMBER LIST

 1 snow sliding board

2 guiding surface

3 top

4, 4 'lateral edge

5 front extended section / deep snow peak

6 front end

7 rear section / piste top

8 waisted middle section

AI longitudinal axis

Wl, WV first turning point W2, W2 'second inflection point W3, W3' third inflection point W4, W4 'point

Claims

claims 1 . Snow gliding board (1) with a guiding surface (2) formed on a lower side, wherein the snow gliding board (1) has a front upwardly bent tip (3) and is delimited by lateral edges (4, 4 '), characterized in that the tip (3) has a front extended portion (5) shaped such that, in plan view, the lateral edges (4, 4 ') of the extended portion respectively rotate in a first inflection point (Wl, Wl') and in a second inflection point Change inflection point (W2, W2 '). 2. snow gliding board (1) according to claim 1, wherein the front elongated portion (5) of the tip (3) from the first inflection point (Wl, Wl ') is tapered in width to the front. 3. snow sliding board (1) according to any one of the preceding claims, wherein the front elongated portion (5) about 20 to 40 cm, preferably about 25 to 35 cm, more preferably about 28 cm long. 4. Schneegleitbrett (1) according to any one of the preceding claims, wherein the front elongated portion (5) at the narrowest point about 50 to 70 mm, preferably about 66 mm, and at the widest point about 1 1 0 to 1 20 mm, preferably about 1 1 7 mm. 5. Schneegleitbrett (1) according to any one of the preceding claims, wherein the Schneegleitbrett (1) has a waisted central region (8) and wherein in the plan view, the lateral edges (4, 4 ') the direction of rotation in a third inflection point (W3, W3 ') to change. 6. snow sliding board (1) according to claim 5, wherein the distance between the third inflection point (W3, W3 ') and the first inflection point (Wl, Wl') has a length of 1 8 to 38 mm, preferably about 28 mm. 7. snow sliding board (1) according to any one of the preceding claims, wherein a front end (6) of the front extended portion (5) is rounded or angularly shaped. 8. Schneegleitbrett (1) according to any one of the preceding claims, wherein the lateral edges (4, 4 ') at the front extended portion (5) has a maximum curvature with a negative radius of less than 29 m, preferably less than 14 m. 9. snow sliding board (1) according to any one of the preceding claims, wherein the curvature of the lateral edges (4, 4 ') towards the front to the second inflection point (W2, W2') decreases. 10. Schneegleitbrett (1) according to any one of the preceding claims, wherein the front elongated portion (5) of the tip (3) is integrally formed on the snow sliding board (1). 1 1. A snow sliding board (1) according to any one of the preceding claims, wherein the front extended portion (5) of the tip (3) is detachably connected to the snow sliding board (1). 1 2. Schneegleitbrett (1) according to any one of the preceding claims, wherein the tip (3) is bent upwards so that the front end (6) of an unloaded, lying on a plane snow gliding board about 80 to 1 00 mm, preferably about 90 mm , is spaced from the plane. 3. Schneegleitbrettspitze (3), characterized in that it can be placed on a snow sliding board, so that a snow sliding board (1) according to one of claims 1 to 9 is present.