The invention relates to a snow glide board, for example a snowboard, and to a method of making a board.
An object of the invention is to present a snow glide board with improved running characteristics.
The use of a thermoplastic plastic material for the at least one insert makes it possible to mount this insert in the glide board body in a form that does not have the recess on the bottom of the insert, i.e. non-convex form, and then to mechanically process the bottom of the glide board body and the bottom of the insert, i.e. to polish and/or grind them, in order to attain a smooth surface for optimum running characteristics not only for the bottom of the glide board body, but also for the bottom of the insert. In a subsequent processing step, the insert is permanently formed by heat so that it then has the recess or depression that is open toward the bottom and toward the end of the glide board body.
The invention is described below by way of an example based an exemplary embodiment with reference to the drawings, in which:
In the drawings, there is depicted a snow glide board 1 in the form of a snowboard. The snowboard body 2 has the usual design, structure and form, in particular with a rear, shovel-like upward curved end or shovel area 2.1 and a front, also shovel-like upward curved end or shovel area 2.2.
In deviation from the usual design, in the snowboard 1 there is an insert 3 which is inserted into the snowboard body 2 on the rear shovel area 2.1. The insert 3 is made of a permanently formable material, i.e. in the depicted embodiment, of a thermoplastic plastic material or polymer. The snowboard 1 has a wedge shape, or the form of a rounded V, such that this insert 3, which in the depicted embodiment is symmetrical to the longitudinal axis L of the snowboard body 2 and located in the snowboard body 2, has a width in an axis direction that is perpendicular to the longitudinal axis L which width increases toward the free edge 2.1.1 of the rear shovel area 2.1.
The insert 3 has a top 3.1, a bottom 3.2 and an edge area 3.3 and also, in the depicted embodiment, a material thickness that is equal to the material thickness of the snowboard body 2 in the proximity of the shovel area 2.1. Furthermore, the insert 3 is designed so that at least its bottom 3.1 is flush with the bottom 2.3 of the snowboard body, i.e. merges flush with the bottom 2.3 of the snowboard body.
For holding the insert 3, the snowboard body 2 is provided on its rear end or shovel area 2.2 with a V-shaped recess 4 that is adapted to the shape of the insert 3.
With the exception of the edge area 3.3, on which the insert 3 adjoins to the snowboard body 2, and with which it is connected to the snowboard body 2, the insert 3 is curved, such that it has a convex shape on the top 3.1 and a concave shape on the bottom 3.2, thus forming a depression or recess 5, which can also be referred to as a cavity or tunnel, which is also open toward the rear, free edge 2.1.1 of the shovel area 2.1 also formed by the insert 3 and the depth and width (in the axis direction perpendicular to the longitudinal axis L) of which decrease as the distance from this free edge 2.1.1 increases. The recess 5, in the depicted embodiment, is symmetrical to the longitudinal axis L, and has the shape of a rounded V in top view of the bottom 2.3 of the snowboard body 2 and extends in the depicted embodiment over the entire or the majority of the upward curved rear shovel area 2.1.
Like the bottom 2.3 of the snowboard body 2, forming the glide surface, the bottom 3.2 of the insert 3 is also mechanically processed, i.e. polished and/or grinded, in order to achieve optimum glide properties. In order to enable this, despite the shape of the insert 3, this insert is made of the thermoplastic plastic material or polymer in the depicted embodiment, namely according to
In the depicted embodiment, the insert 3 consists of a transparent, thermoplastic polymer or plastic.
The cavity or recess 5 positively influences the flow of the snow, or the gliding in the snow, when snowboarding. This results, for example, in improved guiding of the snowboard 1, especially in powder snow, in addition to reduced resistance in the rear shovel area 2.1. Provided are improved deep snow properties. Furthermore, the insert enables better spray, i.e. improved snow dust formation at the rear shovel area 2.1 when running in deep snow.
An insert 3, with a V-shape in the snowboard body 2, was described above. It goes without saying that other shapes are possible, for example a disk-shaped insert 3′ indicated in
The invention was described above based on an exemplary embodiments. It goes without saying that further modifications and variations are possible, without abandoning the underlying inventive idea of the invention. For example, it is also possible to design the insert 3 or 3′ of several layers, for example for increased stability and/or adaptation to various material requirements, e.g. on the top and bottom of the snowboard body 2 etc.
Number | Date | Country | Kind |
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203 14 511 U | Sep 2003 | DE | national |
203 16 290 U | Oct 2003 | DE | national |
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Number | Date | Country | |
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20050062259 A1 | Mar 2005 | US |