RU199905U1 - Inertial Skater Trainer - Google Patents

Abstract

The utility model relates to the field of devices for teaching athletes - figure skaters specific movements based on vertical rotational movement of the body in one direction, without the possibility of reverse movement (rotation in different positions, jumping elements), as well as for the development of the vestibular apparatus. the fact that the simulator includes two horizontal platforms, located one on top of the other on a common axis of rotation (5), the upper one (1) rests on the lower one (2) through a thrust bearing of large diameter (4), the lower one is equipped with anti-slip and damping supports (6) for setting on any surface (parquet, linoleum, concrete, etc.). The possibility of rotation only in one direction is realized by using an overrunning clutch (3). The movement with this design is created by the athlete, completely standing on the simulator, by twisting the shoulder girdle in the direction of rotation, without any external influence.

Description

Application area

The utility model relates to sports equipment for teaching skaters to rotate, jumping at the approach stage, as well as for the development of the vestibular apparatus.

State of the art

Known portable rotating exercise machine RU 160003 U1, representing a platform on which the athlete becomes rotating with an electric motor. This simulator was chosen as a prototype of a utility model.

The disadvantage of the prototype is the impossibility of achieving rotational motion without the aid of power supply. In addition, this machine is overweight for regular transport, especially for coaches who train individually in different locations.

The task of the utility model is to create a simulator in which the achievement of rotational movement becomes possible without the use of an electric motor, but only by the muscular strength of the athlete.

According to the utility model, this goal is achieved by the fact that the electric motor is removed from the simulator and an overrunning clutch is introduced to ensure rotation without external influence, as well as a large-diameter thrust bearing to achieve a minimum rolling friction force.

The essence of the utility model

The main technical task of the proposed solution is to create a universal simulator for practicing rotations, jumping and training the vestibular apparatus without involving any connection to the power supply lines.

The main technical result is autonomy and, as a result, provides the device's mobility, low weight and reduced dimensions in comparison with the closest analogue.

The main technical result is achieved by the fact that in the skater's inertial simulator, which includes an upper platform fixed on the axis through a thrust bearing to the lower platform and an overrunning clutch, according to the proposed solution, the upper platform and the lower platform are made in the form of two identical discs, concentrically articulated by the axis through the thrust the bearings have the ability to rotate relative to each other in only one direction using an overrunning clutch located inside the bearing on the same axis with the platforms.

Blueprints

FIG. 1 shows a general view of an inertial skater trainer.

FIG. 2 is a schematic sectional view of the simulator device.

The device consists of an upper platform 1, a lower platform 2, which are connected by an axis 5 and are made of plywood or MDF with a thickness of at least 18 mm, a thrust bearing 4 to maintain rotation, an overrunning clutch 3 to create a stopper at the beginning of the rotational movement and anti-slip damping supports 6.

Implementation of the utility model

The work of the skater's inertial simulator is as follows. The athlete stands on the upper platform and, by rotating the shoulders in the direction of the rotation of the simulator, transfers this moment to the legs. The overrunning clutch protects the upper platform from opposite rotation, which inevitably occurs due to the closed system. Moreover, the coupling can be installed both for right-hand and left-hand rotating athletes.

The speed of rotation is achieved not so much by the force and speed of the spin, but by its accuracy and technique. Thus, the athlete learns to create a rotational movement using the shoulders, to transmit it to the whole body, to keep the body in rotation for a long time. There are options for placing the legs on the platform for practicing certain rotations and groupings.

The effect of using the skater's inertial simulator is that the athlete acquires the skill of imparting angular velocity to the body and maintaining balance when rotating in various positions, and also learns precise approaches to jumping elements. After such training, the process of mastering these movements in real conditions on ice is accelerated.

Among other things, the skater trains the vestibular apparatus, especially with multiple acceleration and deceleration cycles.

It is possible to use this simulator in any conditions, in any footwear, on any surface, indoors or outdoors. no need for connection to power supply. The simulator has a small weight and dimensions, which makes it easy to transport it even by public transport.

Claims (6)

1. An inertial skater trainer containing two platforms connected to each other with the possibility of rotation relative to each other on the same axis, characterized in that the upper platform and the lower platform are made in the form of two identical discs, concentrically articulated with an axis through a thrust bearing, which can rotate relative to each other in only one direction using a freewheel located inside the bearing on the same axis with the platforms. 2. An inertial trainer according to claim 1, characterized in that the platforms are made of round shape. 3. An inertial trainer according to claim 2, characterized in that the platforms are made of plywood or MDF 18 mm thick. 4. An inertial trainer according to claim 1, characterized in that the upper platform rests on the lower one through a thrust bearing with a diameter of at least 180 mm. 5. An inertial trainer according to claim 1, characterized in that the upper platform is deprived of the possibility of rotation to one side by means of the overrunning clutch. 6. An inertial trainer according to claim 1, characterized in that the lower platform is equipped with anti-slip and damping supports.

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