초록 ▼

The present invention relates to lightweight ski systems. One embodiment of the present invention relates to a lightweight ski stability system for improving performance while maintaining lightweight characteristics. The ski stability system includes a ski and one or more weighted members. One wei

The present invention relates to lightweight ski systems. One embodiment of the present invention relates to a lightweight ski stability system for improving performance while maintaining lightweight characteristics. The ski stability system includes a ski and one or more weighted members. One weighted member is positioned on the upper surface of the ski within 10 centimeters of the tip contact point. A second optional weighted member is positioned on the upper surface of the ski within 10 centimeters of the tail contact point. The contact points refer to a lengthwise position before the tip or tail laterally curve upward. The weighted members weigh at least 3% of the ski weight. The disposition of these weighted members at one or both of the contact points increases the rotational inertia characteristics of the lightweight ski while minimizing the resulting weight. A second embodiment of the present invention relates to a method of increasing the rotational inertia of a lightweight ski.

대표청구항 ▼

What is claimed is: 1. A ski stability system comprising: a ski including an upper surface, a lower surface, a tip, a tail, and a medial point disposed equidistantly between the tip and tail, wherein the tip includes a laterally curved upward region on the lower surface, and wherein the tip further

What is claimed is: 1. A ski stability system comprising: a ski including an upper surface, a lower surface, a tip, a tail, and a medial point disposed equidistantly between the tip and tail, wherein the tip includes a laterally curved upward region on the lower surface, and wherein the tip further includes a contact point corresponding to the furthest distance from the medial point before the laterally curved upward region; a weighted member lengthwise disposed within 10 centimeters of the contact point of the tip toward the medial point on the upper surface of the ski, wherein the weighted member weights at least 3% of the ski weight. 2. The ski stability system of claim 1, wherein the tail includes a laterally curved upward region, and wherein the tail further includes a contact point corresponding to the furthest distance from the medial point before the upward curvature on the lower surface, and wherein system further includes a second weighted member lengthwise disposed within a region contained within 10 centimeters of the contact point of the tail on the upper surface of the ski, wherein the weighted member weights at least 3% of the overall ski weight. 3. The ski stability system of claim 1, wherein the weighted member increases the rotational inertia of the ski by at least 5%. 4. The ski stability system of claim 1, wherein the weighted member is chemically bonded to the upper surface of the ski. 5. The ski stability system of claim 1, wherein the weighted member is oval shaped and disposed on the ski with the longest dimension oriented substantially parallel to the longest dimension of the ski. 6. The ski stability system of claim 1, wherein the weight of the weighted member is between 3% and 10% of the ski weight. 7. The ski stability system of claim 1, wherein the weight of the weighted member is 75 grams. 8. The ski stability system of claim 1, wherein the overall ski weight is less than 2000 grams. 9. A ski stability system comprising: a ski including an upper surface, a lower surface, a tip, a tail, wherein the overall ski weight is less than 2000 grams; at least one weighted member lengthwise disposed within 20 centimeters toward the medial point of at least one of the tip and tail on the upper surface of the ski, wherein each of the at least one weighted members weights at least 3% of the ski weight. 10. The ski stability system of claim 9, wherein the at least one weighted member includes a weighted member disposed within 20 centimeters of both the tip and tail on the upper surface of the ski. 11. The ski stability system of claim 9, wherein the at least one weighted member increases the rotational inertia of the ski by at least 5%. 12. The ski stability system of claim 9, wherein the at least one weighted member is chemically bonded to the upper surface of the ski. 13. The ski stability system of claim 9, wherein the at least one weighted member is oval shaped and disposed on the ski with the longest dimension oriented substantially parallel to the longest dimension of the ski. 14. The ski stability system of claim 9, wherein the weight of each of the at least one weighted members is between 3% and 10% of the ski weight. 15. The ski stability system of claim 9, wherein the weight of each of the at least one weighted members is 75 grams. 16. A method for increasing the rotational inertia of a lightweight ski comprising the acts of: providing a ski weighting less than 2000 grams, wherein the ski includes a tip and tail; identifying a tip contact point corresponding to a lengthwise location on the ski at which the lower surface curves laterally upward in proximity to the tip; and disposing a first weighted member on an upper surface of the ski within 10 centimeters toward the medial point of the tip contact point, wherein the first weighted member weight at least 3% of the ski weight. 17. The method of claim 16, further including the acts of identifying a tail contact point corresponding to a lengthwise location on the ski at which the lower surface curves laterally upward in proximity to the tail; and disposing a second weighted member on an upper surface of the ski within 10 centimeters toward the medial point of the tail contact point, wherein the first weighted member weight at least 3% of the ski weight. 18. The method of claim 16, wherein the act of disposing a first weighted member on an upper surface of the ski within 10 centimeters toward the medial point of the tip contact point further includes a first weighted member weighting substantially 75 grams. 19. The method of claim 16 further including the act of increasing the rotational inertia of the ski by at least 5%. 20. The method of claim 16, wherein the act of disposing a second weighted member on an upper surface of the ski within 10 centimeters toward the medial point of the tail contact point further includes a first oval shaped weighted member comprising oriented on the ski such that the longest dimension of the first weighted member is substantially parallel to the longest dimension of the ski.