NO158853B - CROSS COUNTRY SKIS. - Google Patents

Description

The invention relates to a cross-country ski with a running surface which has varying gliding properties over the length of the ski, as structured, integrated in the running surface and anti-slip climbing aids are arranged over part of the running surface.

By such structured climbing means integrated into the running surface are understood here shell designs, steps, fur-like coverings and special microstructures of the running surface, i.e. means which, due to the geometric design prevents the cross-country ski from sliding backwards in the kick-off phase, but acts less inhibiting in the gliding phase, i.e. when the cross-country ski slides forward. In addition to these known mechanical climbing aids, special lubricants are also used in cross-country skiing to achieve back-sliding inhibition during the kick-off phase.

Climbing aids are usually arranged at least in the area of the running surface that lies below the ski binding, so that during kick-off the necessary kick-off force can be transferred and thus prevent backsliding. In the gliding phase, where the cross-country skiing is less loaded, the structured climbing aids arranged in known ways will, however, give poorer gliding properties than smooth running surface coverings. In addition, e.g. shells or steps give dust and lugging during the sliding phase in hard track tracks and on uneven ground. Fur inherently has poor sliding properties. Lubrication of a smooth running surface does indeed provide the opportunity to adapt the gliding and kick-off properties to the road conditions, but above all for inexperienced runners, but also for experienced runners and their technical assistants during races, it will often be difficult

to find the right lubrication. If the road conditions change on the trail, proper lubrication will be almost impossible, and on inclines the adhesion to the lubricated running surface will usually not be sufficient to prevent an unwanted backsliding.

The purpose of the invention is to provide a cross-country ski of the type mentioned at the outset, by which cross-country skis avoid poor sliding properties, as known from the hitherto usual structured climbing equipment, while at the same time the ski will have sufficient inhibition against backsliding in the kick-off phase.

This is achieved according to the invention in that the structured climbing means are arranged in the running surface areas which front and/or rear border a middle running surface area which is free of mechanical climbing means and extends below the binding assembly location, over a length of 0.15 to 0.35, preferably 0.20 to 0.30 of the length of the ski.

The middle area made without structured climbing aids makes it possible to install a running surface covering with better sliding properties than in the areas where the structured climbing aids are located, and in this way the cross-country ski's sliding properties during the sliding phase are thus improved overall. The climbing means arranged at a distance from the center of the running surface in front and/or behind do not significantly affect the gliding properties. In addition, it has been shown that the arrangement of the structured climbing aids in these areas means that the usual noise from steps or shell coverings, as well as lugging, is avoided.

To improve adhesion in the kick-off phase, the new cross-country ski can be lubricated with normal special lubricants in the middle area of the running surface.

According to a further inventive feature, it is advantageous for the same purpose if the middle area, free of structured climbing aids, is formed by a running surface coating with at least zone-wise poorer sliding properties than a running surface coating made of polyethylene, the reference material being understood as such polyethylene which is usually used for ski surfaces (low pressure polyethylene, extruded or sintered).

A preferred embodiment of the invention, with good sliding properties and good inhibition against backward sliding in the kick-off phase, involves the running surface coating arranged in the middle area of the running surface and preferably partly consisting of polyethylene containing silicone rubber as a slip-inhibiting substance. In the same way as with lubrication, an adhesive inhibition against back sliding can be achieved here. However, the lubrication can be lost. The greater pressure exerted in the kick-off phase in the middle area means that, in relation to the structured climbing aids, the well-gliding, adhesive-acting running surface coating with anti-slip substances, together with the structured climbing aids arranged outside this area, under less pressure, will be sufficient to to prevent a backsliding in the kick-off phase.

The running surface of the cross-country ski shown has a middle area 1 that runs below the front binding attachment area Bl. In front and behind this middle area follow respective areas 2 and 3. Structured climbing means are arranged here in the form of steps or shells 4. The front binding attachment area Bl lies symmetrically about the assembly point M for the binding not shown and has a length of approx. 10 cm. Area 1, where there are no structured means of climbing, has a length of approximately 40 - 60 cm, for example, and preferably extends asymmetrically relative to the binding assembly point M, here with a longer partial area in front of the point and a shorter partial area behind the point. The reason for this is that in the kick-off phase the runner's load center of gravity will shift to the area in front of the binding attachment point M. As regards the dimensioning of areas 2 and 3 with structured climbing aids, it is suggested that the area in front and/or behind with a length of approximately 15 to 20 cm, so that in front and behind these areas 2 and 3, respectively, you will still have sufficiently long, clean sliding areas.

A running surface coating 5 is arranged in the middle area 1. This mainly consists of polyethylene mixed with an anti-slip substance, i.e. a substance which reduces the ability to slip. Such a substance can, for example, be silicone rubber. The running surface coating 5 acts as an adhesive climbing material and has better sliding properties than structured climbing materials, for example steps or shells 4. Moreover, such a running surface coating does not produce any noise during the sliding phase. You also avoid the otherwise usual lugging that you experience when using structured climbing equipment in the middle area.

In the kick-off phase, the middle adhesive climbing material (polyethylene-silicone rubber coating 5) together with the less loaded structured climbing materials in the kick-off phase (stage 4) will be sufficient to prevent a backward slide under all driving conditions.

The invention is not limited to the exemplary embodiment shown. For example, a regular PE coating can be arranged in the middle area 1. Depending on the circumstances, this can be lubricated and thus also used as an adhesive climbing agent. Structures other than the indicated steps and shells 4 can also be used as structured climbing aids in areas 2 and 3. One can also imagine fur-like coatings, or a special slip-resistant microstructure in the running surface.

Claims (5)

1. Cross-country skis with a running surface that has varying gliding properties over the length of the ski, in that over part of the running surface structured, integrated in the running surface and anti-slip climbing means are arranged, characterized in that the structured climbing means (4) are arranged in the areas (2,3) of the running surface which front and/or rear borders a central area (1) of the running surface, which area (1) is free of structured climbing means and extends below the binding mounting point (M) over a length of 0.15 to 0.35, preferably 0.20 to 0.30 of the length of the ski. 2. Cross-country skis according to claim 1, characterized in that the middle, free area (1), to which the front and/or rear areas (2,3) with structured climbing equipment adjoin, is formed by a running surface covering that is at least zonal. has poorer sliding properties than a polyethylene running surface coating. 3. Cross-country skiing according to claim 2, characterized in that in the middle area (1) of the running surface, the running surface coating consisting preferably partly of polyethylene contains silicone rubber as an anti-slip substance. 4. Cross-country skiing according to one of claims 1-3, characterized in that the areas (2,3) with the structured climbing means (2,3) have a respective length of approx. 15-30 cm. 5. Cross-country skis according to one of claims 1-4, characterized in that the middle area (1) extends further forwards than backwards from the binding mounting point (M).