RU2595595C1 - Training complex for improving coordination of movements and vestibular stability in complex coordination sports and its application method - Google Patents

Abstract

FIELD: sports.

SUBSTANCE: invention refers to gym complex for development of coordination of movements and vestibular stability in kinds of sport with complex coordination and method of its application during training of sportsmen of different level and is aimed at development, improvment and fixation of motor skills in complex coordination sports, such as acrobatics, gymnastics and art, skating, ski acrobatic subject, dance classes, ballet, all types of martial arts, biathlon, hockey etc.; technical result of the proposed invention consists in the fitness complex for development of coordination of movements and vestibular stability in kinds of sport with complex coordination as well as method of its application, characterised by presence of electromechanical unit of rotary support horizontal platform (SHP), including frame, reversible motor, electric motor control unit, rotation drive shaft with support bearings, pulley, belt drive, at least two electromagnetic couplings, at least two versatile overrunning clutches, vertical u-shaped structure representing a collapsible metal frame attaching a rope, and device of horizontal rotation (HRD), electromechanical assembly of rope, including reversible motor, electric motor control unit, flexible rope drive, rope rotation drive shaft with support bearings, pulley, belt drive, at least two detachable ropes with versatile overrunning clutches; electromechanical device of horizontal rotation assembly, which includes detachable platform with belts on axis (HRD), reversible motor, electric motor control unit, HRD rotation drive shaft with support bearings, pulley, belt drive, at least two electromagnetic couplings, at least two versatile overrunning clutches; electromechanical vibration unit including motor, creating vibration, electric motor control unit, creating vibration, and drive, remote controller enabling switching direction of rotation with rotation speed controller, computer with wireless sensors, devices for measuring physiological state of a sportsman.

EFFECT: proposed invention consists in eliminating the said shortcomings: most completely, efficiently and safely implementing methods of preparing sportsmen for many complex coordination sports and training all athletes, right-handers and left-handers both, enables sportsmen to improve complex motor skills, rotating in vertical axis, and in horizontal axis, makes it possible to improve complex motion in free position, makes it possible to train in different positions (sitting, lying on his/her back, on a stomach, on one side, etc), effectively increasing level of load and train all athletes irrespective of their functional state, enables trainers with possibility to make accurate analysis of sportsmen condition, process control and programming of load level required for improving the complex motor skills, makes it possible to considerably reduce the probability of overloads and excluding the probability of injuries at high physical and vestibular loads.

14 cl, 2 dwg

Description

The claimed invention relates to a training complex for the development of coordination of movements and vestibular stability in complex coordination sports and the method of its use in training athletes of different levels and is aimed at the development, improvement and consolidation of motor skills in complex coordination sports such as acrobatics, gymnastics sports and art, figure skating, acrobatic ski disciplines, dance classes, ballet, all kinds of martial arts, biathlon, hockey, etc.

An analogue of the claimed invention is a BALANCING SUPPORT (OPTIONS). The claimed utility model relates to training devices specifically designed for the exercise of individual parts of the body, and can be used in training complexes for the exercise of the trunk, spinal column, torso and shoulders with a variable load. A balancing support containing two removable balancing elements and a support, balancing elements are configured to connect to the support by means of a detachable spherical hinge, while the thickness of one of the removable balancing elements is 1.15 ÷ 3 times greater than the thickness of the other removable balancing element, and / or the distance from the center of the detachable spherical hinge to the front face of one of the removable balancing elements more than the distance from the center of the detachable spherical hinge to the front face of the other removable balancing element 1.2 ÷ 1.6 times (patent for utility model of the Russian Federation No. 111008, publication date: 12/10/2011).

A disadvantage of the known analogue is the lack of construction of the upper mount of the block cable system for suspending the athlete (lounges), which does not provide the ability to most fully, efficiently and safely implement training methods for athletes of many complex coordination sports, for example, in an unsupported state.

The prototype of the claimed technical solution is the FIGURIST SIMULATOR. The essence of the utility model lies in the fact that the rotation engine and overrunning clutch, the engine speed control unit connected to the rotation engine are included in the simulator.

The disadvantages of the specified analogue and prototype are the lack of the ability to rotate the reference horizontal platform in both directions, the lack of vibration function in the horizontal plane, the lack of construction of the upper mount of the block cable system for suspending the athlete (lounges), the absence of forced, adjustable, two-way rotation of the longs, the lack of forced, adjustable rotation in the horizontal axis in both directions; lack of rotating supporting horizontal platforms of different diameters.

The technical result of the claimed invention is to eliminate the above disadvantages: the most complete, efficient and safe way to train athletes of many complex coordination sports and train all athletes, both "right-handed people" and "left-handed people", enables athletes to improve complex motor skills, rotating both in the vertical axis and in the horizontal axis, gives athletes the opportunity to improve complex movements in an unsupported state, makes it possible to train different positions (sitting, lying, on his back, on his stomach, on his side, etc.), to effectively increase the level of load and train all athletes regardless of their functional state, allows coaches to accurately analyze the condition of athletes, monitor the training process and programming the level of load necessary to improve complex motor skills makes it possible to significantly reduce the likelihood of overload and eliminate the likelihood of injuries with high physical and vestibular x loads.

The technical result achieved by the claimed invention consists in a training complex for the development of coordination of movements and vestibular stability in complex coordination sports and the method of its application, characterized by the presence of an electromechanical assembly of a rotating horizontal support platform (UCP), including a frame, an electric motor with reverse movement, an electric motor control unit , rotation drive shaft with pillow block bearings, belt drive pulley, at least two electromagnetic couplings s, at least two versatile overrunning clutches, a vertical U-shaped design, which is a collapsible metal frame for attaching the longs, and horizontal rotation devices (UHV); the electromechanical unit of the lounge, including the electric motor with reverse movement, the electric motor control unit, the flexible drive of rotation of the beam, the shaft of the drive of rotation of the beam with thrust bearings, the pulley of the belt drive, at least two removable lobes with versatile overrunning clutches; an electromechanical assembly of a horizontal rotation device (UHF), including a removable platform with fastening straps located on the axis of rotation of the UHF, an electric motor with reverse movement, an electric motor control unit, an UHF rotation drive shaft with thrust bearings, a belt drive pulley, at least two electromagnetic couplings, at least two versatile overrunning clutches; an electromechanical vibration unit including a vibration-generating electric motor, a vibration-controlling electric motor control unit, a drive, a remote control with a rotation direction switch with a rotation speed controller, a computer with wireless sensors, sensors for measuring the physiological state of an athlete.

In this case, the electromechanical unit with a rotating supporting horizontal surface is installed at the same level with the floor.

At the same time, the electromechanical unit of the lodge is installed at the top of the vertical U-shaped structure so that the axis of the shaft of the drive of rotation of the lodge is in the same axis of rotation with the axis of the shaft of the drive of rotation of the UCP.

At the same time, a prefabricated, portable podium was introduced into the device, and the electromechanical assembly of the rotating UCP is installed in it so that the UCP surface is at the same level with the surface of the podium.

In this case, an electric motor with reverse movement with an electric motor control unit connected to the shaft of the drive of rotation of the support horizontal platform using a belt drive and supporting bearings located on the shaft, a pulley, at least two electromagnetic couplings, at least two versatile overrunning clutches was used.

In this case, an electric motor with reverse movement with an electric motor control unit was used, mounted at the top on a vertical U-shaped structure and connected to a pulley using a belt drive located on the shaft of the drive of rotation of the longer support bearings and in the same axis of rotation with a removable long drive with versatile overrunning clutches , and in one axis of rotation with the axis of the shaft of the drive of rotation of the UCP.

In this case, an electric motor with reverse movement with an electric motor control unit was used, mounted on a vertical U-shaped structure and connected to a pulley using a belt drive located on the same shaft of the UGV rotation drive with thrust bearings with two electromagnetic and two different overrunning clutches and on one axis rotation with a removable pad UGV with straps.

In this case, the frame of the electromechanical assembly of the supporting horizontal platform is connected by a belt drive to an electric motor and a control unit that creates a horizontal vibration, adjustable in amplitude and frequency.

At the same time, extensions with a diameter of 50 cm, 60 cm and 80 cm are used for the horizontal supporting surface.

At the same time, there is a wireless remote control with digital indication.

The method of application of the training complex for the development of coordination of movements and vestibular stability in complex coordination sports, characterized in that an extension of the supporting horizontal surface of a smaller diameter is installed and softening mats are laid, the athlete gets up and starts to rotate forcibly, at a different speed, the first position is standing on two legs, arms extended to the sides for 10-15 seconds, the intervals between positions for rest 5-10 seconds, the second position, standing on two legs, arms extended to the sides, head slowly leans forward, backward, to the sides for 10-15 seconds, the third position, standing on two legs, arms extended to the sides, the head slowly leans forward, back, to the sides with eyes closed for 10-15 seconds, fourth position, standing on two legs , the arms are extended to the sides, the head slowly tilts forward, backward, to the sides with eyes closed and vibration of the supporting horizontal surface is added for 10-15 seconds, the fifth position is standing, the hands are performing multidirectional circular movements forward, backward to the sides for 10-15 seconds, sixth semi-squat position on two legs, arms extended forward 10-15 seconds, seventh position, in a semi-squat on two legs, arms extended forward and vibration added 10-15 seconds, eighth position in a full squat on two legs arms extended forward 10-15 seconds, ninth position, in a full squat on two legs, arms are extended forward and vibration is added for 10-15 seconds, tenth position, in a full squat on two legs, arms grasp your knees, head bent forward 10-15 seconds, eleventh position, in a full squat on two legs arms grasp your knees , head tilted forward and adding vibration occurs for 10-15 seconds, an extension of the supporting horizontal surface of larger diameter is installed, the athlete stands on it, twelfth position, relying on four points, arms and knees, the head falls, rises 10-15 seconds, thirteenth position, resting on four points, hands and knees, the head lowers, rises and vibration is added for 10-15 seconds, the fourteenth position, lying on the back, arms and legs extended to the sides for 10-15 seconds, the fifteenth position, lying on the back, legs pulled to the chest, hands grasp the knees for 10-15 seconds , sixteen Atay position lying on the stomach elongated arms and legs to the sides 10-15 seconds switches the direction of rotation of the reference horizontal surface in the opposite direction, and the exercises are repeated in the same sequence.

At the same time, the training time is 10-15 minutes daily at the initial level, designed for two weekly cycles with further complication and transition to a more complex level of exercises, due to variations in speeds and positions of the body, arms, legs and head.

At the same time, the training time is 20-30 minutes daily at the training level.

At the same time, the training time is daily, twice a day, for 20-30 minutes for levels of sports improvement and higher sportsmanship.

The invention is illustrated by drawings.

FIG. 1 is a drawing of the claimed invention, the main view.

FIG. 2 is a drawing of a surface of a floor or a podium.

Where:

1 - pillow block bearing;

2 - freewheel;

3 - electromagnetic clutch;

4 - belt drive pulley;

5 - frame node of the reference horizontal platform (GCP);

6 - electric motor with reverse movement;

7 - motor control unit;

8 - reference horizontal platform (UCP);

9 - removable platform with mounting straps on the axis (UGV);

10 - suspension cable;

11 - removable lounge with versatile overrunning clutches;

12 - flexible drive rotation of the long.

13 - shafts of the drive rotation of the longs, OGP and UGV;

14 - vertical U-shaped construction of the mounting of the longs and the ground water surface;

15 - surface of the floor or podium;

16 - extension of a larger diameter;

17 - control unit of the engine that creates the vibration;

18 - an electric motor that creates a vibration;

19 - personal computer (PC);

20 - wires connecting the PC and the engine control unit;

21 - measuring instruments for EEG, ECG, hemodynamics.

The training complex (Fig. 1) consists of: an electromechanical assembly of a supporting horizontal platform (OGP) (rotating OGP - 8, a frame of the OGP unit - 5, an electric motor with reverse movement - 6, an electric motor control unit - 7, a shaft for driving a rotation shaft, OGP, UGV - 13 with thrust bearings - 1, belt drive pulley - 4, two electromagnetic clutches - 3, two versatile overrunning clutches - 2, a remote control with switching the direction of rotation and a speed controller, not shown); vertical U-shaped construction of the mounting of the longs and mounting the device of horizontal rotation (UGV) - 14; the electromechanical unit of the long (electric motor with reverse movement - 6, the electric motor control unit - 7, the flexible drive of rotation of the long - 12, the shaft of the drive of rotation of the long, OGP, UGV - 13 with thrust bearings - 1, the pulley of the belt drive - 4, two removable longs with versatile overrunning clutches - 11, suspension cable - 10, remote control with switching direction of rotation and speed controller, not shown); of the electromechanical assembly of the horizontal rotation guiding device (removable platform with fastening straps on the guiding axis - 9, the electric motor with reverse movement - 6, the electric motor control unit - 7, the shaft rotation drive shaft, OGP, guarding - 13 with thrust bearings - 1, the belt drive pulley - 4, two electromagnetic couplings - 3, two versatile overrunning couplings - 2, a remote control with switching the direction of rotation and a speed controller is not shown in the drawing); electromechanical vibration unit (electric motor that creates vibration - 18, control unit of electric motor that creates vibration - 17, drive); a set of UGP extensions of a larger diameter - 16; personal computer (PC) - 19, which allows you to collect, analyze, monitor the condition of the athlete (by means of sensors and measuring instruments - 21) and control (by connecting wires - 20 to the engine control units) the rotation speed of the OGP, UGV, lounge and motor activity of the athlete; wireless sensors-sensors mounted on the head and body of the athlete; measuring instruments - 21 parameters of electroencephalography (EEG), electrocardiography (ECG) and hemodynamics (pressure of the cardiovascular system and the number of heart contractions), receiving data from sensors, and connected to a computer; folding, portable podium - 15 for training during field gatherings and competitions (additional drawing, Fig. 2), which ensures the safe use of rotating UCP on a raised platform.

An electromechanical unit with a rotating UCP is installed in the floor so that the UCP level is at the same level with the surface of the floor or podium 15 (horizontal elevation).

The electromechanical assembly of rotation of the long is installed at the top of the vertical U-shaped design so that the axis of the shaft of the drive of rotation of the longs is on the same axis of rotation with the axis of the shaft of the drive of rotation of the UCP.

In order to create a forced movement on both sides of the UCP, the lounges and the horizontal mounting platform, motors with reverse movement were used. To ensure two-way forced traffic and two-way free and overtaking traffic, three systems have been created:

1. The electric motor with reverse movement with the engine control unit is connected to a pulley, with two electromagnetic couplings, with two versatile overrunning clutches located on the shaft of the OGP rotation drive (the prototype uses only one-sided rotation design, which does not allow to use the completeness of the sports training technique, implying multidirectionality, uniformity and balance of motor exercises).

2. An electric motor with reverse movement and an engine control unit is installed in the upper part of the attachment structure of the pylon and connected to a pulley located on the shaft of the pivot drive of the pivot and driving the pivot drive of the pivot mounted in one axis of rotation with the axis of rotation of the UCP. When rotating in one direction, a lounge with a right-hand overrunning clutch is installed, when rotating in the other direction, it is replaced with a left-hand freewheeling clutch (in the analogue there is no function of forced, versatile rotation of the longbow, which does not allow to keep or set the necessary speed of rotation of the long for unsupported athlete training and does not allow you to create adjustable multidirectional rotation).

3. The electric motor with reverse movement and the control unit is mounted on a vertical structure and connected to a pulley, with two electromagnetic couplings located on the same shaft of the drive of rotation of the UGV with two versatile overrunning couplings and setting the platform with the athlete's fastening straps in the horizontal axis (in the prototype there is no rotation function in the horizontal axis).

To create an adjustable vibration of the UCP, the frame of the electromechanical unit of the UCP is connected to the engine and the control unit, creating a horizontal vibration that is adjustable in amplitude and frequency (this function is also absent in the analogue, but its use significantly increases the load on the musculoskeletal system and the athlete’s vestibular system )

Thanks to the use of UCP extensions of different diameters (50 cm, 60 cm, 80 cm) to the base rotating UCP, an athlete can perform training exercises in any position (the prototype has only one platform diameter of 40 cm, which allows you to perform exercises only in a standing or sitting position on foot).

Thanks to the use of a prefabricated, portable podium for the electromechanical assembly of a rotating UCP, it remains possible to maintain and train complex coordination movements of rotation that are not natural, inherent in human nature and therefore require constant training, outside the training base, during off-site training camps and competitions (similar and the prototype also lacks the option of a prefabricated, portable podium).

The implementation of the invention

Performing exercises on the simulator significantly develop the athlete’s vestibular apparatus due to the creation of a rotation load not characteristic of human nature. And due to combinations of positions of the head, arms, legs and body, the distance of the body parts from the axis of rotation and the ratio of the axis of the body or body parts to the axis of rotation change, which causes a change in the aggregate of forces acting on the body and has a very strong effect in training and displays functional, coordination and the athlete’s vestibular capabilities to a new, previously unattainable level. Also, temporary closing of the eyes when performing exercises in rotation, allows you to train the vestibular stability of athletes even more, because visual orientation helps to compensate for the overall load on the vestibular apparatus and increase the athlete's resistance to this type of load. At an even more difficult level of training, video simulator glasses are used, giving a distorted image for visual orientation, thereby making maintaining balance even more difficult.

Two training options are possible on the simulator: manual mode for controlling the speed of rotation of the OGP and lounges, a programmable control mode controlled by a computer connected to the engine control unit and receiving data on the athlete's condition from sensors and measuring instruments.

The athlete mounts the sensors on the body and head in the indicated areas, stands up or takes, or changes the position on the UCP, or puts on the straps of the mounting of the lounge, or lies on a horizontal platform and fastens with straps and rotates forcibly or freely, or at the speed that the assistant sets with The remote control and the engine control unit with manual control, or with the speed and intensity that the computer sets with programmed control, performing, improving and complicating movements and exercises.

The method of using the training complex: the development of the athlete’s vestibular apparatus in the vertical axis on the UCP is carried out by using the electromechanical assembly of the UCP: an electric motor with reverse movement, an electric motor control unit and a pulley mounted on the rotation axis of the UCP, two electromagnetic couplings, two versatile overrunning couplings and a remote control switching the direction of rotation and speed control. When performing exercises during forced, adjustable, overtaking with independent acceleration or free rotation in one direction, the assistant on the remote control simultaneously includes: rotation of the electric motor and clutch function, transmitting rotation from the pulley to the right-hand overrunning clutch using an electromagnetic clutch and when rotating in the opposite direction on the remote control, it simultaneously turns on: reverse rotation of the electric motor and clutch with a left-side overrunning clutch. To achieve even greater vestibular stability in training, during rotation, an assistant on the remote control, through the use of a vibration unit, turns on the adjustable vibration of the UCP in the horizontal axis. Also, for the development of complex coordination motor skills in the vertical axis of rotation and unsupported state, the athlete’s suspension system (lounge) is used. To increase the efficiency and duration of the use of the lounges for forced, adjustable, overtaking with independent acceleration and free rotation, the electromechanical assembly of the lounges is used. During unsupported rotation of the athlete, on one side, a lounge with a right-hand overrunning clutch is installed and the motor rotation is turned on, and when rotating to the other side, it is replaced with a left-hand side overrunning clutch and reverse motor rotation is turned on. Training in the horizontal axis of rotation is carried out on the site with the athlete’s fastening straps for the horizontal rotation device (UHF). An athlete, to perform exercises, is fixed on the site with special straps in several zones. Using the electromechanical unit of horizontal rotation, two-way, adjustable, forced and free rotation of the athlete in the horizontal axis is carried out.

Examples of exercises performed at the training complex: in the vertical axis on the UCP: 1) the athlete gets up on the UCP, rotating at different speeds, stretches his arms to the sides, closes his eyes and throws his head back, right, left, forward and in this position tries to maintain balance, then repeats the same movements while standing on one leg and on the other leg, and then repeats the same exercise while rotating in the other direction; 2) in the vertical axis on the UCP, standing on his hands upside down, the athlete, spinning, spreads his legs to the sides, then collects and stretches, trying to maintain balance, then repeats the exercise, transferring weight on one arm, and the same thing on the other arm, then, repeating the exercise, rotating in the opposite direction, at the initial levels it is necessary to use insurance for the legs with the help of the lounge; 3) in the vertical axis in an unsupported position on the lounge, the athlete is given rotation, and he stretches his arms and legs to the sides and then sharply, firmly pressing his hands to the body and legs to each other, creates an independent, additional, overtaking acceleration, while trying to stretch out , to extinguish the lateral vibrations of the body and maintain alignment of the rotation of the body and the lung, these movements are repeated several times and always in both directions, in order to obtain the maximum result, the athlete can also use additional small weightings on the arms and legs to create greater centrifugal force and obtain greater results; 4) in the horizontal axis of the athlete rotate at different speeds, constantly changing them, the athlete stretches arms and legs to the sides, followed by pressing and accelerating while trying to perform each of the movements with a certain orientation face down or face up depending on the requirements, mandatory repetition of all exercises in the opposite direction, the exercise can be repeated with sports equipment, skiing, etc.

An example of one training session at the training complex for the initial level: the speed of rotation of the UCP from 0 to 60 rpm is used, the UCP is set in diameter of 40 cm and softening mats are laid, the athlete gets up and starts to rotate forcibly, freely (by inertia) at a different speed, the first position - standing on two legs, arms extended to the sides for 10-15 seconds, the intervals between exercises on rest 5-10 seconds, the second position - standing on two legs, arms extended to the sides, the head slowly tilts forward, backward, to the sides 10- 15 seconds the third position is the same, the UCP vibration is added to the rotation for 10-15 seconds, the fifth position is standing, the hands are doing opposite movements in a circular motion, back and forth, sixth position - in half squat on two legs, arms extended forward 10-15 seconds, seventh position is the same, vibration is added to rotation 10-15 seconds, eighth position in full squat on two legs, arms extended forward 10-15 seconds, ninth position is the same , vibration is added to the rotation for 10-15 seconds, the tenth position is on the floor Mr. Squat on two legs, hands grasp the knees, head tilted forward 10-15 seconds, 11th position - the same, vibration is added to the rotation, UCP extension is set at 80 cm, 12th position - the athlete gets up, leaning on four points, hands and knees, the head falls, rises 10-15 seconds, the 13th position is the same, vibration is added to the rotation for 10-15 seconds, the 14th position is lying on your back, arms and legs are extended to the sides for 10-15 seconds, 15th position - lying on your back, legs are pulled up to your chest, hands grasp your knees for 10-15 seconds, 16th position - lying on your stomach, arms and legs you yanuty the sides 10-15 seconds; the direction of rotation of the UCP to the other side is switched and all exercises are repeated.

The recommended training time on the simulator daily is 10-15 minutes at the initial level, daily for 20-30 minutes at the training center, daily twice a day for 20-30 minutes for levels of sports improvement and higher sportsmanship. The training technique on the simulator is designed for two-week cycles with further complication and transition to a more complex level of exercises, due to variations in the positions of the body, arms, legs, head and increasing the speed of rotation.

Example 1. The position, standing, on two crossed legs in the lower legs, arms extended to the sides.

Example 2. A standing position, on two crossed legs, arms bent at the elbows and pressed to the chest, head down and chin pressed to the chest.

Example 3. Position, standing, on one leg, arms extended to the sides.

Analysis of the totality of all the essential features of the proposed invention proves that the exclusion of at least one of them leads to the inability to fully ensure the achieved technical result.

The analysis of the prior art shows that such a device and method is unknown, which are characterized by features identical to all the essential features of this technical solution, which indicates its unknownness and, therefore, novelty.

The above proves the conformity of the claimed device and method to the criteria of an inventive step, since it is not obvious to a specialist from the field of its application.

When carrying out the invention, the presence of the proposed object in the field of training athletes of different levels is really realized, which is aimed at developing, improving and consolidating motor skills in complex coordination sports, such as acrobatics, gymnastics, sports and art, figure skating, acrobatic ski disciplines, dance classes , ballet, all kinds of martial arts, biathlon, hockey, etc.

Claims (14)

1. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports, characterized by the presence of an electromechanical assembly of a rotating horizontal support platform (UCP), including a frame, an electric motor with reverse movement, an electric motor control unit, a rotation drive shaft with support bearings, a pulley belt drive, at least two electromagnetic couplings, at least two versatile overrunning couplings, vertical U-shaped design, for assembling a collapsible metal frame for securing the pylon, and horizontal rotation device (CWP), an electromechanical unit of the pomp, including an electric motor with reverse movement, an electric motor control unit, a flexible pivot drive, a pivot drive shaft with support bearings, a belt drive pulley, at least at least two removable lounges with versatile overrunning clutches; electromechanical assembly of a horizontal rotation device, including a removable platform with fastening straps on the axis of rotation (UHF), an electric motor with reverse movement, an electric motor control unit, an UHF rotation drive shaft with thrust bearings, a belt drive pulley, at least two electromagnetic couplings, at least two versatile overrunning clutches; an electromechanical vibration unit including a vibration-generating electric motor, a vibration-controlling electric motor control unit, a drive, a remote control with a rotation direction switch with a rotation speed controller, a computer with wireless sensors, sensors for measuring the physiological state of an athlete. 2. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the electromechanical assembly with a rotating supporting horizontal surface is installed at the same level with the floor. 3. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the electromechanical assembly of rotation of the lounge is installed so that the axis of the drive shaft of rotation of the lounge is in the same axis of rotation with the axis of the drive shaft of rotation of the UCP . 4. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that it includes a prefabricated portable podium and an electromechanical assembly of a rotating UCP installed in it so that the UCP surface is at the same level with the surface of the podium. 5. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the electric motor with reverse movement with an electric motor control unit is used, connected to the drive shaft of rotation of the supporting horizontal platform using a belt drive and located on the shaft with thrust bearings, a pulley, at least two electromagnetic clutches, at least two versatile overrunning clutches. 6. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the electric motor with reverse movement with an electric motor control unit is used, is mounted at the top on a vertical U-shaped structure and connected to the pulley by a belt drive located on the shaft of the drive of rotation of the long with support bearings and on the same axis of rotation with a removable long with versatile overrunning clutches, and on the same axis of rotation with the axis of the shaft when an ode to the rotation of the UCP. 7. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the electric motor with reverse movement with an electric motor control unit is used, mounted on a vertical U-shaped structure and connected to the pulley using a belt a drive located on the same shaft of the drive of the UGV rotation with support bearings, with two electromagnetic and two versatile overrunning clutches and in the same axis of rotation with a removable UGV platform with p mnyami attachment. 8. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that the frame of the electromechanical assembly of the reference horizontal platform is connected by a belt drive to the engine and the control unit that creates a horizontal vibration, adjustable in amplitude and frequency . 9. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that extensions of 50 cm, 60 cm and 80 cm diameter are used for the supporting horizontal surface. 10. A training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 1, characterized in that there is a wireless remote control with digital indication. 11. The method of using the training complex for the development of coordination of movements and vestibular stability in difficult coordination sports according to claim 1, characterized in that an extension of the supporting horizontal surface of a smaller diameter is installed and softening mats are laid, the athlete gets up and starts to rotate forcibly, at different speeds , the first position, standing on two legs, arms extended to the sides for 10-15 seconds, the intervals between positions on rest 5-10 seconds, the second position, standing on two legs, arms extended to the sides , head slowly leans forward, backward, to the side for 10-15 seconds, third position, standing on two legs, arms extended to the sides, head slowly leans forward, backward, to the side with eyes closed for 10-15 seconds, fourth position, standing on two legs, arms are extended to the sides, the head slowly tilts forward, backward, to the sides with eyes closed and vibration of the supporting horizontal surface is added for 10-15 seconds, the fifth position, standing, the arms perform multidirectional circular movements forward, backward to the sides for 10-15 seconds sixth position in half walking on two legs, arms extended forward 10-15 seconds, seventh position, in a semi-squat on two legs, arms extended forward and vibration added 10-15 seconds, eighth position in a full squat on two legs, arms extended forward 10-15 seconds, ninth position, in a full squat on two legs, arms are extended forward and vibration is added for 10-15 seconds, tenth position, in a full squat on two legs, arms grasp your knees, head tilted forward 10-15 seconds, eleventh position, in a full squat on two legs of a hand grasp your knees, head tilted forward and vibration is added for 10-15 seconds, an extension of the supporting horizontal surface of a larger diameter is installed, the athlete stands on it, the twelfth position, relying on four points, arms and knees, the head drops, rises 10-15 seconds, the thirteenth position, relying on four points, arms and knees, the head drops, rises and vibration is added for 10-15 seconds, the fourteenth position, lying on the back, arms and legs extended to the sides for 10-15 seconds, the fifteenth position, lying on the back, legs raised to the chest, hands grasp the knees 10 -15 seconds , Sixteenth position lying on her stomach, arms, and legs extended to the sides 10-15 seconds switches the rotation direction of the reference horizontal surface in the opposite direction, and the exercises are repeated in the same sequence. 12. The method of applying the training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 11, characterized in that the training time is 10-15 minutes daily at the initial level, designed for two-week cycles with further complication and transition to more difficult level of exercise, due to variations in speeds and positions of the body, arms, legs and head. 13. The method of application of the training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 11, characterized in that the training time is 20-30 minutes daily at the training level. 14. The method of application of the training complex for the development of coordination of movements and vestibular stability in complex coordination sports according to claim 11, characterized in that the training time is daily twice a day for 20-30 minutes for levels of sports improvement and higher sportsmanship.

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