RU211658U1 - Skating skis - Google Patents

Abstract

The utility model relates to the design of skis and makes it possible to increase the speed of running and the efficiency of skating movement. The purpose of the utility model is to increase the speed and efficiency of movement by skating by means that the grooves of the sliding surface of the ski, located parallel to each other, run along the direction of movement at an angle of 2° to the axis of the sliding surface towards the outer end of the ski. This goal is achieved in that, firstly, the grooves of the sliding surface of the ski, located parallel to each other, run along the direction of travel at an angle of 2° to the axis of the sliding surface of the ski towards the outer end of the ski; secondly, the first groove of the sliding surface of the ski originates at the point of intersection of the axis of the sliding surface with the axis of the groove at a distance of 30 cm from the projection of the ski toe onto a horizontal plane; thirdly, the second groove of the sliding surface of the ski originates in the middle of the length of the sliding surface of the ski L / 2 and at a distance of 1/4B of the width of the sliding surface from the outer end of the ski. 1 w.p. f-ly, 1 ill.

Description

The utility model relates to the design of skis and makes it possible to increase the speed of running and the efficiency of skating movement.

Known skis for skating, in which to increase the speed and efficiency of movement, the shape and number of guide grooves on the sliding surface have been changed [1].

The main disadvantage of the known skis is the increase in the friction force of the sliding surface with the snow due to the increase in the sliding area.

Skis for skating are known, in which, to increase the efficiency of movement, a groove is made on the sliding surface of the ski along, in the direction of movement, not along the axis of the sliding surface of the ski, but at an angle of 1.5 ° to it towards the outer end of the ski [2].

The disadvantage of this ski design is the insufficient pulling force of the ski toes to increase the speed of running and the efficiency of movement by the athlete during skating.

The purpose of the utility model is to increase the speed and efficiency of movement by skating by means that the grooves of the sliding surface of the ski, located parallel to each other, run along the direction of movement at an angle of 2° to the axis of the sliding surface towards the outer end of the ski.

This goal is achieved in that, firstly, the grooves of the sliding surface of the ski, located parallel to each other, run along the direction of travel at an angle of 2° to the axis of the sliding surface of the ski towards the outer end of the ski; secondly, the first groove of the sliding surface of the ski originates at the point of intersection of the axis of the sliding surface with the axis of the groove at a distance of 30 cm from the projection of the ski toe onto a horizontal plane; thirdly, the second groove of the sliding surface of the ski originates in the middle of the length of the sliding surface of the ski L / 2 and at a distance of 1/4B of the width of the sliding surface from the outer end of the ski.

The figure 1 shows the outer ends of the sliding surfaces of the left 7 and right 2 skis, sliding (working) surfaces 3 and 4 with the first grooves 5 and 6, the second - 7 and 8, the axes of the first grooves 9 and 10, the second - 11 and 12, the axis sliding surfaces 13 and 14, ski toes 15 and 16, lower ends of skis 17 and 18, B - width of the sliding surface of the ski, L - length of the sliding surface of the ski.

When running on the proposed skis, the athlete, using skating and making less effort when rearranging the skis than with conventional skating skis, consumes less strength and energy. Also, the proposed skis will help the athlete to skate, since the grooves 5, 7 and 6, 8, located parallel to each other on sliding surfaces 3 and 4, the axes of which 9, 11 and 10, 12 run along the direction of movement at an angle of 2 ° to the axes of the sliding surfaces 13 and 14 in the direction of the outer ends of the skis 7 and 2, constantly take the toes of the skis 15 and 16 to the side, forcing him to skate. The athlete thus spends much less energy.

On descents, when athletes usually take a break, the proposed skis will also help the athlete to skate, but with the least expenditure of effort and energy, i.e. forced to take a less active break, which will allow the athlete not to slow down, maintain a high speed, thereby greatly increasing the efficiency and results of running.

Thus, the proposed skis for skating will not allow athletes to relax on the track, which contributes to the achievement of high results with the least expenditure of effort and energy.

The design features of the proposed skis for skating ensure that the technical solution meets the "novelty" criterion. When comparing the proposed solution, no solutions with similar features were found. This allows us to conclude that the technical solution meets the criterion of "significant differences".

Sources of information.

1. RF patent No. 2104075. Ski / Aznabaev A.A. Published 10.02.98.

2. Utility model patent of the Russian Federation No. 205925. Skis for skating / Egorov V.P., Peshkumov O.A., Glinkin B.N., Glinkin V.N., Grigoriev D.V., Ivanova N.P. , Pestryaeva L.Sh. Published 08/12/2021, Bull. No. 23.

Claims (3)

1. Ski for skating, on the sliding surface of which two grooves are made, characterized in that the grooves of the sliding surface of the ski, located parallel to each other, extend along the direction of travel at an angle of 2 ° to the axis of the sliding surface of the ski towards the outer end of the ski. 2. Ski for skating according to claim 1, characterized in that the first groove of the sliding surface of the ski originates at the point of intersection of the axis of the sliding surface with the axis of the groove at a distance of 30 cm from the projection of the toe of the ski onto a horizontal plane. 3. Ski for skating according to claim 1, characterized in that the second groove of the sliding surface of the ski originates in the middle of the length of the sliding surface and at a distance of 1/4 of the width of the sliding surface from the outer end of the ski.

Images