RU2370297C2 - Skating ski - Google Patents

Abstract

FIELD: sports.

SUBSTANCE: invention concerns ski sports. Skating ski feature sliding surface, stock part to assume elastic deformation from dynamic load by foot push, and bearing area connected to stock part by joint. Sliding surface is made in the form of replacement modules fixated at skating ski so as to shift along the ski length, and stock part is made in the form of friction pad attached to sliding surface so as to contact trek by foot push. Bearing area is made in the form of coupling link with crankshaft attached by joint to loose link end and interacting pivotally with slider mounted on skating ski with linear movement control.

EFFECT: enhanced efficiency of skating ski usage on running treks, maximum reduction of ski length in running mode, convenient carriage, transportation and storage.

9 cl, 6 dwg

Description

The invention relates to skiing and can be used for running on an ice track.

Skis for running are known in the classical style (see "Cross-country skiing." N. Anikin, publ. Physical Education and Sports. M. 1971, p. 5 frames 2, 12). The disadvantage of skiing is that after a jerking effort with the foot, the ski breaks off the treadmill, and contact with the snow is carried out by the toe of the ski. In this case, a significant part of the weight of the ski is transferred to the hip belt, which tires the muscles, and the sliding surface of the ski changes the temperature environment, which affects the quality of sliding when the ski is re-placed in the snow. In addition, skis need to be lubricated with paraffins, powders, gels, to reduce the friction of the ski on snow. And lubricants during their heat treatment on the surface of the skis emit toxic substances that are hazardous to health. In addition, these operations require skill, dexterity, and physical and material costs, including skiing. The disadvantages include a certain length and rigidity of the ski, which is selected for a particular user, as well as the inability to use the skis in running new moves with a sinusoidal, Gaussian, Gaussian, and classical know-how.

Closest to the invention are skis that do not come off the treadmill, having a minimum length (see patent RU 2019232 - prototype). The disadvantage of skis is that they need lubrication, they are unreliable in control while running, the inability to use new moves, the specific length and stiffness for each user.

The technical challenge is to increase the efficiency of skating.

The technical result is achieved by the fact that the skis are used when running with the new generation moves using the classic, sinusoidal, Gaussian, Gaussian-sinus moves. The sliding surfaces are made in the form of interchangeable profiles fixed on the skate, with the possibility of rearranging the profiles along the length of the skis. The block part of the weight deflection is equipped with a device that allows you to adjust the weight deflection. And the supporting platform is made in the form of a backstage, on the free end of which a crank is pivotally fixed, with the other end pivotally interacting with a slide installed on the shoe part of the skis, with the possibility of linear movement along the skis, resulting in increased reliability of skating control.

The sliding contact surfaces of interchangeable profiles are made of wear-resistant material with a low coefficient of friction and do not need lubrication. Skating, when running with the moves of a new generation, do not break away from the treadmill. Moreover, the sliding surfaces of the profiles are made of various lengths and widths with longitudinal grooves, in the direction of the skis, and their height, width, distance between them and the geometric arrangement of the grooves are made depending on the temperature and condition of the treadmill. When running in a sinusoidal, gaussoidal, and gaussinusoidal manner, the sliding profiles end with vertical guides made in the form of cantilevered keel blades that are elastically deformed when a dynamic muscular effort of the legs of the user is applied to the skating track, directed from it at an acute angle to the direction of movement with subsequent reduction of the legs, with the projection Traces of blades form curves of the second order.

Skating skis, as an option, are made with longitudinally concave interchangeable profiles, with the ability to be repelled by the leg when tilting the skis when running in a sinusoidal, gaussinusoidal and gaussoidal course.

Skis, as an option, are made with convex interchangeable profiles, with sharp edges, with the ability to move on them with the know-how of a classic, sinusoidal, Gaussian, Gaussian-sinuous course.

By changing the distance between the profiles, by moving with subsequent fastening, we thereby change the diagram characteristic of the skis.

Figure 1 shows the skis and running on them with classic know-how, a general view; figure 2 shows the skis and running on them in a sinusoidal, gaussoidal, gaussinusoidal course, general view; figure 3 is a view along arrow B, the projection of the tracks when running in a sinusoidal stroke, figure 2; figure 4 is a view along arrow B, the projection of the tracks when running a gaussoid and gaussinusoidal course, Fig.2: Fig.5 - section AA, types of interchangeable profiles, Fig.1, 2; figure 6 - rocker mechanism, leader 1, figure 1. The movement on the skates 1 with the classic know-how is ensured by the fact (see Fig. 1) that a support platform is pivotally mounted on the elastically deformable shoe part, in the form of a link 2, on the free end of which the crank 3 is pivotally mounted, the other end pivotally interacting with the slider 4 mounted on the shoe part of the skis with the possibility of limited linear movement by means of an abutment 5. At the free end of the link 2, the ski boot 6 is pivotally mounted using one of the known methods. The distance from the swing axis of the wings to the toe of the boot forms a protrusion R of the wings 2, which is regulated in a known manner, for example by rearranging the ski mount, depending on the anthropological capabilities of the user. And in conjunction with the adjustment of the distance between the profiles 7, the diagram characteristic of the skating skates 1 is corrected, depending on the weather, temperature and state of the ice, the physical and psychological state of the user, his weight, age, and the characteristics of the particular pair of skating skates 1. With free sliding, they are in contact with the track only the toe and heel profiles 7. When repelling, the working force of the leg is transmitted to the skating ski 1, the deflection under the foot is elastically eliminated, repulsion from the cover occurs, by means of friction of the pads 8. After the push, the leg rises by inertia, dragging the wings 2 behind it, while the skating does not lose contact with the track. After one-way sliding, the jogging foot is sent forward together with the skating track 1, through the wings 2, while the skating does not lose contact with the track. Due to the constant contact of the skating ring with ice, the temperature of the ice and sliding surfaces remains constant, which improves the sliding conditions. The insignificant weight of the rocker mechanism in combination with its kinematics provides reliable control of the skating ski 1, reducing the load on the hip belt, allows the use of skis of minimal length, which facilitates their storage, transportation, storage. And the priority is that the skis do not need lubrication.

The movement on the skis 1 with a sinusoidal stroke is ensured by the fact (Figs. 1, 2) that the skis adjustable in length are installed on removable sliding profiles 7, then the leg is attached in one of the known ways. The user starts the movement by putting the skis 1 at an angle alpha (Fig. 3, section 9-10) in the direction of motion indicated by arrow X. Applying simultaneously the foot force on the skis 1, away from him, the user begins to move forward. After the feet, extreme points (10-10), which are determined by the anthropological possibilities of spreading the user's legs, go over on the skis 1, he changes the effort of the legs to the opposite, as if pulling the skis under him, to the desired information of the feet (points 9-9) The cycle is finished. Running consists of a series of repeating cycles, and the projection of traces from sliding surfaces form second-order curves of a sinusoidal type. The preparation of skating skates 1 for running in a sinusoidal, gaussoidal, gaussinusoidal manner is the same. The movement on skates 1 with a gaussoid, gaussinusoidal course (Fig. 1, 2) consists of a series of repeating cycles, and the cycle includes three phases: 1 - push with the foot (section 13-12-11), 2 - rolling on the second leg (section 13- 11), 3 - redistribution of the user's body weight on both legs with free double-support rolling (section - 11-13). The user starts the movement by putting the skating ski 1 at an angle (Fig. 4, section 13-12) in the direction of motion indicated by arrow X. Applying alternately the foot force on the skating ski 1 in the direction from itself, the user starts moving forward. After the stop on the skate crosses the extreme point 12, which is determined by the anthropological capabilities of the user, the skate unfolds (section 12-11), the phase is completed with one leg. The skate approaches to the desired distance (section 12-11) without changing the effect of the efforts of the legs - a gaussoidal move. Changing the force of action of the legs (section 12-11) to the opposite (as if pulling the skating ring under you), is a Gaussian-sinusoidal move. Further, in both moves, the user transfers the weight of the body to both skis and moves on parallel skis (section 11-13), after which the other leg is pushed.

Sinusoidal, gaussoidal, gaussinusoidal skating allows you to: increase speed; conduct power - locally hypoxic training; use the shortest skis that are convenient to store, carry, transport, store; fasten shoes in any way; to change the diagram characteristic of skating skates depending on weather, ice temperature, track quality, physical and psychological state of the user, bringing together or sliding interchangeable sliding profiles; train additional muscle groups; discard grease.

Claims (9)

1. Skating rinks containing a sliding surface, a shoe part elastically deformable from dynamic loads when pushing with a foot, a support platform pivotally mounted on a shoe part, characterized in that the sliding surface is made in the form of interchangeable profiles fixed to the skate with the possibility of rearranging profiles along the length skating skis, and the shoe part is made in the form of a friction lining fixed to it with the possibility of contacting it with the treadmill when pushing with the foot, while the supporting platform is made in the form a backstage, on the free end of which a crank is pivotally fixed, the other end pivotally interacting with a slider mounted on the skate with linear movement adjustment. 2. Skating skates according to claim 1, characterized in that the sliding contacting surfaces of the interchangeable profiles are made of wear-resistant material with a low coefficient of sliding friction. 3. Skating skates according to any one of claims 1 and 2, characterized in that by changing the distance between the replaceable profiles of the skis, we change the sketch characteristics of the skis. 4. Skating racks according to any one of claims 1 and 2, characterized in that the contacting sliding surfaces of the interchangeable profiles are made of various lengths and widths with longitudinal grooves located in the direction of movement of the skate, and their height, width, distance between them and the geometric arrangement of the grooves depending on the temperature and condition of the treadmill. 5. Skates according to claim 3, characterized in that the sliding contacting surfaces of the interchangeable profiles are made in the form of longitudinal convex profiles with sharp edges with the ability to push them off the treadmill. 6. Skating skates according to claim 5, characterized in that the sliding contacting surfaces of the interchangeable profiles are made in the form of concave surfaces with the ability to slide and push off when the skis are tilted. 7. Skating skates according to claim 5, characterized in that the sliding contacting surfaces of the interchangeable profiles end with guides in the form of cantilevered keel blades, elastically deformable when muscular effort is applied to the skis by the user's legs directed from it at an acute angle to the direction of movement, with subsequent reduction of the legs, as a result, projections of traces of keel blades form second-order curves. 8. The skis according to claim 1, characterized in that the skis do not tear themselves away from the treadmill while running, as a result of which the length of the skis does not depend on the height of the user. 9. Skating skates according to claim 1, characterized in that the skating boot is mounted on skis in any of the known ways.

Images