DE2026824B2 - OUTSOLE MADE OF THERMOPLASTIC PLASTIC FOR SKIS OR DGL. - Google Patents

Description

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The invention relates to a thermoplastic outsole for skis or the like The term ski also includes skis for skibobs, water skis and, in a broader sense, sled runners Understood.

The material of ski soles must be multiple Meet requirements. On the one hand, it must be sufficiently flexible and elastic, but on the other hand, it must be have sufficient strength against breakage and abrasion as well as weather resistance and it must be in be temperature-resistant to certain limits. In addition, the outsole must have good sliding properties own. The use of thermoplastic material, such as. B. Polyethylene or PolypropylenUls Material for the outsole of skis is known

However, these materials do not always meet the aforementioned requirements made of them.

It is also already known to use plastics of the polyacetal group in ski construction (Europa-Sport 1964, pages 914.915).

The object of the invention in relation to this prior art is to provide ski soles made of thermoplastic To create plastic, which is considerably better than the previously known ski soles Have sliding properties that can withstand high thermal loads and which have good resistance even at low temperatures.

According to the invention this object is achieved by the use of polyoxymethylene as a material for the Solved outsole.

Polyoxymethylene has been around for over a long time in certain areas of the plastics processing industry Known for years (Kunststoff-Taschenbuch, 17th edition 1967, pages 230-233 and 245). It is in the Maschitien- and apparatus engineering in electrical engineering and precision engineering, for the manufacture of household appliances, in packaging and used for sanitary installations. It has now been found that polyoxymethylene for the The production of outer soles for skis is surprisingly well suited compared to known plastics essential advantages and new ones for ski heating Effects produces Polyoxymethylene has particularly valuable properties for ski soles, which by far surpass all the materials used to date. Polyoxymethylene is very resistant against thermal and oxidative degradation, exhibits great hardness and rigidity as well as dimensional stability in the Heat and can be distinguished by favorable long-term behavior even at elevated temperatures and easy to process. Surprisingly, it was found that in spite of the long molecular chains always repeating carbon-oxygen bonds polyoxymethylene is surprisingly strongly non-polar and this Apolarity (water repellency) has a very good sliding ability that is superior to the known outsoles Snow or on the film of water that is created by the pressure under the ski. Besides, it's against Very resistant to water. It is well known that polyoxymethylene is used for sliding parts in mechanical engineering, z. B. is used for plain bearings, the friction between polyoxymethylene on wood, but not occurs between a solid and a liquid component such as the outsole of a ski, so that others There are friction conditions. In addition, polyoxymethylene has good resistance even at depths Temperatures, e.g. -40 ° C, so that it is also from this Reason for the production of ski soles is particularly suitable speaks for this purpose also its hardness, which roughly corresponds to that of aluminum, although polyoxymethylene is a lower one Has a specific weight that makes it particularly suitable for outer soles of skis.

According to a particularly advantageous proposal, light-stabilized polyoxymethylene is used. As a result, polyoxymethylene can also be coated with a lacquer coating to protect against UV light be provided.

The connection of the outsole to the ski is carried out in a manner known per se. When Viirleimen certain types of skis occur relatively high temperatures, z. B. 150 ° C. At these high temperatures, the application of the known plastic coatings is difficult or impossible, since the known plastics used in the manufacture of skis do not have good heat resistance. It has been found that this disadvantage does not occur with polyoxymethylene, it rather allows thermal stress to about 150 ⁰ C.

Claims (2)

Patent claims: 1; Outsole made of thermoplastic material for skis od.dgU characterized by the s Use of polyoxymethylene. 2. Outsole according to claim 1, characterized through the use of light-stabilized polyoxymethylene.