RU105838U1 - TRAINING APPARATUS - Google Patents

Abstract

 1. The simulator, including the platform with the support, the lower surface of the platform and support made with the possibility of rotation of the platform around the axis of the support when transferring the weight of the body to the support. ! 2. The simulator according to claim 1, characterized in that the support is installed in the platform from the side of the lower surface of the platform. ! 3. The simulator according to claim 1, characterized in that a bearing is mounted between the support and the platform. ! 4. The simulator according to claim 1, characterized in that between the support and the platform is installed a sliding bearing made in the form of fluoroplastic rings. ! 5. The simulator according to claim 1, characterized in that the lower surface of the platform is convex, the lower surface of the support is flat, installed with a protrusion above the lower surface of the platform and is equipped with a supporting element. ! 6. The simulator according to claim 1, characterized in that it has zones for the toe and for the heel, the support is installed in the zone for the toe, offset to the edge of the platform, the angle between the plane of the support and the lower surface of the platform in the zone for the heel is in the range of 3-10 °. ! 7. The simulator according to claim 1, characterized in that the lower surface of the platform is made with a constant radius of curvature in a longitudinal vertical section. ! 8. The simulator according to claim 1, characterized in that the upper surface of the platform is made flat and has platforms for the toe and for the heel, connected by a jumper. ! 9. The simulator according to claim 1, characterized in that it is equipped with a braking device.

Description

The utility model relates to simulators for training skaters outside the ice.

Known simulator according to the application US 2003/0216221 (published on November 20, 2003), made in the form of two plates rotating relative to each other. The simulator allows you to train the vestibular apparatus of the skater during rotation. Its disadvantage is that it does not allow simulating the skater's inclination on the curved blade of a figure skate.

Known spinner simulator (Fig.1-2), selected as a prototype, made in the form of a solid plastic platform with zones for the toe and for the heel, the lower surface of which follows the curvature of the curved blade. Due to this, when transferring body weight to the toe area, the simulator allows you to work out the rotation elements with the body inclined.

Its disadvantage is increased friction during rotation on the supporting surface, in addition, the use of a spinner simulator is possible only on solid, smooth supporting surfaces.

The technical task is to create a simulator for practicing rotations with a tilted body, characterized by reduced friction during rotation and the possibility of use on untrained supporting surfaces.

The technical result is achieved in the simulator, including the platform, from the bottom surface of which the support is installed. The lower surface of the platform and the support are made with the possibility of rotation of the platform around the axis of the support when transferring body weight to the support. A bearing, for example, a ball bearing or a sliding bearing made in the form of fluoroplastic rings, is mounted between the support and the platform. The lower surface of the platform is convex, the lower surface of the support is flat, mounted with a protrusion above the lower surface of the platform and is equipped with one or more supporting elements. The simulator has zones for the toe and for the heel, the support is installed in the zone for the toe, offset to the edge of the platform, the angle between the plane of the support and the lower surface of the platform in the zone for the heel is in the range of 3-10 degrees. The lower surface of the platform is made with a constant radius of curvature in a longitudinal vertical section. The upper surface of the platform is made flat and has platforms for the toe and for the heel, connected by a jumper. The simulator can be equipped with a braking device.

The utility model is illustrated by the drawings:

figure 1-2 - spinner simulator, prototype;

figure 3 - simulator, a vertical longitudinal section;

figure 4 - simulator, top view;

5 is a simulator, a bottom view.

The simulator (Fig.3-5), includes a platform 1, made, for example, solid, made of hard plastic, with zones 2, 3 for the toe and for the heel. For ease of use, zones 2, 3 for the toe and for the heel can follow the shape of the foot or sole of the shoe. On the upper surface 4 of the platform 1 of the zone 2, 3 for the toe and for the heel, pads 5 can be installed to prevent the athlete’s legs from slipping on the platform 1.

On the side of the lower surface 6 of the platform 1, in the zone 2 for the sock, a support 7 is installed. The lower surface 6 of the platform 1 and the support 7 are configured to rotate the platform 1 around the axis of the support 7 when transferring the body weight to the support 7. Thus, between the support 7 and bearing 1 is mounted on the platform 1, for example, figure 3 shows a ball bearing 8. In addition, the bearing 8 can be made in the form of a sliding bearing, consisting of fluoroplastic rings (not shown). The lower surface 9 of the support 7 is made flat and provided with one (Fig. 5) or several (Fig. 3) support elements 10, which prevent the support 7 from sliding on the support surface. In the assembled simulator, the flat lower surface 9 of the support 7 is located with the protrusion 11 relative to the lower surface 6 of the platform 1. The support elements 10 can be made of a polymeric material having great friction with a supporting surface, for example, rubber. The lower surface 6 of the platform 1 is convex, while the toe zone 2 with the support 7 is shifted to the edge of the platform 1, the angle a between the flat lower surface 9 of the support 7 and the lower surface 6 of the platform 1 in the heel zone 3 is in the range of 3-10 degrees, which corresponds to the curvature of the blade of the figure skate. The lower surface 6 of the platform 1 can be made with a constant radius of curvature in the longitudinal (from zone 2 for the toe to zone 3 for the heel) vertical section.

The simulator can be equipped with a braking device (not shown), which can be made in the form of adjusting screws installed in the platform 1, interacting directly or through the brake pads with the support 7.

The simulator is used as follows.

The athlete puts his foot on the simulator, transfers the body weight to it and leans forward (the load falls on the toe zone 2) and, due to the convex shape of the lower surface 6 of the platform 1, the simulator occupies a position in which the support 7 is pressed against the support by the flat lower surface 9 surface (to the floor). At the same time, due to the protrusion 11, the lower surface 6 of the platform 1 is not in contact with the supporting surface. With a slight tangential force, the platform 1 with the athlete begins to rotate around the support 1.

The installation of the support 7 from the side of the lower surface 6 of the platform 1 simplifies the manufacture of the simulator and increases its reliability, since the load is transmitted through the bearing to the whole body of the platform.

To reduce the speed and duration of rotation, the braking device can be adjusted to increase friction between the support 7 and the platform 1.

Claims (9)

1. The simulator, including the platform with the support, the lower surface of the platform and support made with the possibility of rotation of the platform around the axis of the support when transferring the weight of the body to the support. 2. The simulator according to claim 1, characterized in that the support is installed in the platform from the side of the lower surface of the platform. 3. The simulator according to claim 1, characterized in that a bearing is mounted between the support and the platform. 4. The simulator according to claim 1, characterized in that between the support and the platform is installed a sliding bearing made in the form of fluoroplastic rings. 5. The simulator according to claim 1, characterized in that the lower surface of the platform is convex, the lower surface of the support is flat, installed with a protrusion above the lower surface of the platform and is equipped with a supporting element. 6. The simulator according to claim 1, characterized in that it has zones for the toe and for the heel, the support is installed in the zone for the toe, offset to the edge of the platform, the angle between the plane of the support and the lower surface of the platform in the zone for the heel is in the range of 3-10 °. 7. The simulator according to claim 1, characterized in that the lower surface of the platform is made with a constant radius of curvature in a longitudinal vertical section. 8. The simulator according to claim 1, characterized in that the upper surface of the platform is made flat and has platforms for the toe and for the heel, connected by a jumper. 9. The simulator according to claim 1, characterized in that it is equipped with a braking device.