RU2544815C1 - Folding skate-skis - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: each skate-ski is composed of at least three parts: a block part in the form of a hollow beam and two console parts interacting (from different ends) with the hollow block part and jointly determining the length of the skate-ski; each console part is designed so that to enable flat reciprocating linear movement within the block part horizontal plane by means of devices adjusting: skate-ski length, rigidity and control over the value of the consoles protrusion relative to the block part butt-ends. The skate-skis allow not to break them off from the running track during running (which achieves a long-time dream of all ski users, putting into practice the law of nature: "Pull what is flat"), to adjust and control the skate-skis length, train different muscle groups and use the skate-skis in six different movement modes (classic, non-classic, free style, Gaussoidal and Gauss sinusoidal, sinusoidal), to increase the speed of movement, to arrange power local hypoxic training, to use maximally short skate-skis that are convenient to operate, store in a space-efficient way, transport, carry and conserve by way of change of skate-skis length, to attach footwear in a conventional way, to change the diagram characteristics, to do without lubrication with ointments, paraffins, powders and gels and other rather variegated ski outfit. The skate-skis user users approximately 90% of muscles.

EFFECT: skate-skis are designed so that to be used by a user of any body height and weight in any skate-skiing step modes.

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Description

The invention relates to skiing, skating, skating and can be used to move both on an ice and on a solid snow track.

There are well-known skis for running with classic and skate courses, which have different lengths and stiffnesses (see Skate course? Not only ... Evstratov et al. "Physical Culture and Sports", Moscow, 1988), the disadvantage of which is that for each specific user it is necessary to select skis for length and stiffness. Known skis containing sliding surfaces made in the form of interchangeable profiles mounted on the skis with the ability to rearrange the profiles along the length of the skis, the shoe part, with a friction lining fixed to it, with the possibility of contacting it with the treadmill, as a result of elastic deformation of the shoe part from dynamic loads when pushing with a foot, a support platform pivotally mounted on a shoe part made in the form of a link, on the free end of which a crank is pivotally fixed, with the other end Nirni cooperating with a slider mounted on the drum part adjustable linear motion (see. Patent RU 2370297).

The disadvantage of skating skis is that they are ineffective when moving classic moves, due to the fact that when rearranging profiles, the console remains on the forefoot, which makes it impossible to run the classic move, in addition, it is difficult to control long skis, and transportation is difficult, storage and warehousing. The technical task is to increase the efficiency of the product.

The technical result is achieved by the fact that the skate is made of at least three beams: shoe and two cantilever, interacting with the shoe beam, which together determine the length of the skate, each of the two beams is made with the possibility of synchronous flat reciprocating linear movement in the horizontal plane of the shoe beam, by means of devices that regulate: the length of the skis, stiffness and control over the amount of departure of the consoles, relative to the block beam, while the skis are equipped with troystvom storage, with reliable fastening pair konkolyzh aggregate during transportation, transferring, storing, stacking, moving profiles fastened to the ends of the consoles motionless shoe mounted on the rocker at a minimum distance from the hinge wings, one of the known methods.

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 sinusoidal, gaussoidal, ridge and gaussinusoidal moves, general view; figure 3 is a view along arrow A, the projection of the tracks when running in a sinusoidal stroke, figure 2; figure 4 is a view along arrow A, the projection of the tracks when running a gaussoid and gaussinusoidal course in Fig.2; figure 5 - rocker mechanism callout I, figure 1; in Fig.6 - callout II, the cross section of the skating in Fig.2, a General view; Fig.7 is a section bB, the rotation mechanism of Fig.6; on Fig shows the storage of a pair of skis, general view; Fig.9 - callout III, shows the element of the docking unit connecting two pairs of skating skis; figure 10 shows a section along BB in figure 9.

Skating racks 1, containing sliding surfaces made in the form of sliding profiles 2, fixed rigidly on the skateboard consoles with the possibility of rearranging the sliding profiles 2 along the length of the skis, shoe block 3 with a friction lining 4 fixed to it with the possibility of contact with the treadmill as a result of elastic deformation of the shoe parts from the dynamic load when pushing with the foot, the support platform 5, mounted on the shoe part, made in the form of a wings 6, on the free end of which the boot 8 is pivotally fixed the crank 7, the other end pivotally interacting with the slider 9 mounted on the shoe 3 with linear adjustment of the damper 10 and the adjusting stop 11. Moreover, the skating 1 is made of at least three beams: shoe 3 and two beams 12 installed from different ends, into the cavity of the shoe beam 3, with the possibility of synchronous flat reciprocating movement by means of a device 13 that regulates the length and stiffness of the skate, and in the aggregate - determines the length and stiffness of the skate 1. the structure 13 is made in the form of a fixed cylindrical drum 14 with the possibility of rotation in the cavity of the shoe part 3 with an indirect tooth wheel 15 fixed on it, holes with left and right threads are made on the side walls 16 of the drum 14, which interact with the corresponding threaded rods 17, pivotally spatially fixed on the end walls 18 of the beams 12. The gear wheel 15 interacts with the gear wheel 19 mounted on the axis 20, mounted on the side walls 21 of the beam 3 with the possibility of manual rotation. The device for controlling the length of the skate contains arrows 22, mounted on the ends 23 of the block part 3 with the possibility of interaction with digital risks 24 located on the side walls 25 of the beams 12. The ski rods are used as follows. The user, turning the shaft 20, for example manually, with the gear wheel 19 fixed on it, clockwise or counterclockwise. The torque is transmitted through the gear wheel 15 to the drum 14. By means of a threaded connection, the rods 17 synchronously push the beams 12 to the desired size by the articulated spatial hinge, digital risk control 24. A device is used to transport, transfer, store, store a pair of skates (storage circuit) (Fig. 8), made in the form of a rigidly joined pair of skating rings through the ends 26 of one of the skating skirts and the ends 27 of the joined skating, belonging to the rolling profile 2, providing a reliable connection konkolyzh pair.

The storage device is used as follows.

Skating racks 1 are folded in pairs by sliding profiles 2 towards each other (Fig. 8), providing a gap between the ends of the profiles 26 of one skating and the end profiles 27 of the other skating by the length of the pins 28. For example, manually rotate the shaft 20 by entering kinematic manipulations of the pins 28 one skis in the holes 29 of the other skis, abutting beams 12, thereby ensuring reliable storage of a pair of skis. The movement on skates 1 with a classic classic know-how (see Figs. 1, 5,) is ensured by the user adjusting the departure of R on the backstage 6 using one of the known methods, for example, rearranging a ski mount with a boot 8 hinged, depending on the anthropological user capabilities by adjusting the height of separation of the toe of the boot 8 from the shoe part to the desired value by means of the slider 9 of the damper 10 and the stop 11 (figure 5). With free sliding, only the heel and heel profiles are in contact with the track 2. When pushing away, the working force of the leg is transmitted to the skating ski 1, the deflection under the foot is elastically eliminated, it is repelled from the cover by means of the friction lining 4. After the push, the leg rises by inertia, entraining backstage 6, while the skating does not lose contact with the track (figure 1). After one-sided sliding, the jogging foot is sent forward together with the skating via the backstage 6, while the skating does not lose contact with the track. When moving with a classic classic know-how, all the known moves used when running with classic moves are used. The movement on skates in a cyclic sinusoidal manner (figure 2, 3) is as follows. The user makes a push at the same time with ski poles and legs at an angle to the direction of movement (figure 2), and the projection of the tracks from the skating skirts form two curves of the second order of the sinusoidal type (figure 3). The kick is performed in the direction from oneself, in an ascending curve, to the extreme points of the curves. After that, the legs are reduced, as if pulling the skis 1 under themselves to the minimum reduction of the legs - the cycle. Movement consists of a series of repeating cycles. Movement on skates with a Gaussian and Gaussian sinusoidal cycle (Fig.2, 4) is as follows. The user makes a push at the same time with ski poles and one of the legs at an angle to the direction of movement from oneself (Figs. 2, 4), along the ascending curve, without changing the muscular effort - a Gaussian move, changing the leg force after the extreme point to the opposite, as if lifting the leg under itself - a gaussinusoidal move. Moreover, in both cases, the second leg moves along a horizontal line in the direction of movement - the cycle. Classic skis move on skis in the same way as skiing, that is, skis are adjustable in length, stiffness and staging for shoes, according to the proven pattern for classic skis. Skating rinks allow one pair to be used both on an ice and solid snow track, starting from children and ending with elderly people, regardless of height, weight, age, do not tear them off the treadmill, while running, adjust and control the length of the skis, train different muscle groups and use them in six modes of movement: classical, know-classical (figure 1, 5), ridge (figure 2), gaussoid and gaussinusoidal (figure 2, 4) sinusoidal (figure 2, 3), increase movement speed, conduct power locale o hypoxic classes, use as short as possible skating rinks that are convenient to operate, compactly store, transport, carry, preserve, by changing the length of the skating rinks, fasten the shoes in any known manner, change the plot characteristics, refuse lubrication, ointments, paraffins, powders, gels and other very versatile ski equipment, while the skating user uses up to 90% of the muscles.

Claims (3)

1. Skateboards containing sliding surfaces made in the form of interchangeable profiles mounted on the skate with the ability to rearrange the profiles along the length of the skis, the shoe part with a friction pad fixed to it with the possibility of contact with the treadmill as a result of elastic deformation of the shoe part from dynamic loading foot, a support platform mounted on the shoe part, made in the form of a wings, on the free end of which the crank is pivotally mounted, the other end pivotally interact with a slider mounted on the shoe with linear movement adjustment, characterized in that each skate is made of at least three beams: a shoe and two cantilever, interacting with the shoe, which together determine the length of the skate, each of the two beams is made with the possibility of synchronous flat reciprocating linear movement in the horizontal plane of the shoe beams, through devices that regulate: the length of the skis, stiffness and control over the amount of departure to onsal, relative to the shoe beam, while the skis are equipped with a storage device with the possibility of reliable joint fastening of a pair of skis during transportation, transfer, storage and storage. 2. Skates according to claim 1, characterized in that the sliding profiles are fixed at the ends of the consoles motionless. 3. Skates according to claim 1, characterized in that the boot is mounted on the wings at a minimum distance from the hinge of the wings in one of the known ways.

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