RU212526U1 - SIMULATOR FOR THE DEVELOPMENT OF THE VESTIBULAR APPARATUS - Google Patents

Abstract

The utility model relates to a simulator for the development of the vestibular apparatus and coordination of movements and can be used in the field of complex coordination sports (artistic gymnastics, acrobatics, freestyle, figure skating, trampolining, bobsleigh, diving, etc.), as well as in the field of medicine, in particular for the rehabilitation of adults and children with diseases of the hearing organs, cerebral palsy, autism, Down's disease and other diseases associated with impaired cerebral circulation. The simulator for the development of the vestibular apparatus includes a frame and a suspension device pivotally connected to the frame, a means of fixing the user in the waist section, a means of fixing the feet and a means of fixing the hands. The technical result is the creation of a reliable and safe simulator for the development of the vestibular apparatus with a high degree of training efficiency by increasing the reliability of the user's fixation.

Description

The utility model relates to a simulator for the development of the vestibular apparatus and coordination of movements and can be used in the field of complex coordination sports (artistic gymnastics, acrobatics, freestyle, figure skating, trampolining, bobsleigh, diving, etc.), as well as in the field of medicine, in particular for the rehabilitation of adults and children with diseases of the hearing organs, cerebral palsy, autism, Down's disease and other diseases associated with impaired cerebral circulation.

Training of the vestibular apparatus is of exceptional importance for the full physical development of adults and children, improving cognitive functions (perception of information, memory, intelligence, speech), which determine a high degree of learning, as well as for certain categories of people, such as athletes and astronauts, pilots, paratroopers, and for people restoring health, functional state and ability to work, broken by diseases, injuries or physical factors.

Known loping swings (looping swings) designed for the development of the vestibular apparatus (Loping simulator. The site of the company Plant "HERCULES", https://royal-sport.ru/po-vidam-sporta/trenazhery-dlja-letchikov/loping- trenazher-luping-trenazher/, accessed 02/09/2022). Such a device is a frame, on a horizontal beam of which a suspension device is fixed, capable of rotating around the specified beam (by 360 °). The suspension device is made in the form of a frame with a flat lower part (footboard). The user stands on the footboard and, holding the vertical racks of the frame with his hands, swings.

The known device is not safe for training children, as well as adults during the rehabilitation period. This is due to the fact that the user is swinging while standing on the footboard and holding the vertical frame beams with their hands (without aids), which significantly increases the risk of falling from the harness during strong swing (and 360° rotation). Therefore, in some cases, for example, when training children with cerebral palsy or adults with a weak functional state (rehabilitation therapy for disorders of the musculoskeletal system), the use of the simulator is basically impossible.

The closest in technical essence is a simulator for training the vestibular apparatus (patent RU 166788, published on December 10, 2016), containing a U-shaped frame, a mounting device and a suspension device. The fastening device is rigidly fixed in the center of the upper part of the U-shaped frame, the side posts of the U-shaped frame are reinforced with stops in the upper and lower parts. The suspended device is connected to the fastening device by means of a movable fastening device and contains a metal frame with a soft upholstery fixed on it, a hole for installing an inter-knee separator is made in the center of the suspension device, and there is a footboard in the lower part. On the sides of the suspension device on a metal frame there are eyelets for fastening the user's fixing straps, and the fastener on the sides has welded rings, to which hand training equipment can be attached.

However, the described simulator, chosen as a prototype, is not safe for children and some categories of adults, and also does not provide high training efficiency, which is due to the following. The user can be secured with several straps, only one of which provides a secure yet comfortable fixation, namely the belt in the waist area. Other belts that can fix the body of a child (adult) are located in the area of \u200b\u200bthe knees and chest; while the user's feet are free on the footboard, and the user's hands hold on to the suspension rings. Such fixation of the user (knees and chest) is extremely uncomfortable, creates a feeling of stiffness and does not allow the user to group properly when swinging the suspension device, which is absolutely contrary to the principles of development of the vestibular apparatus. Attempts to provide relative freedom of the user's body (by removing the fixing straps in the knee and chest area) increase the risk of the user falling due to the lack of sufficient muscle strength to independently hold on while swinging, as well as the heavy weight of the user (for example, adolescents over 14 years old and adults). In addition, holding on to the rings, the user can lean forward and to the sides, which generally negatively affects the formation of correct posture and is extremely traumatic when rolling with a large amplitude and speed (due to the inertia of movement). In addition to the above, the suspension device can only swing (up to 180°), i.e. cannot rotate around the horizontal beam of the frame, which significantly limits the possibilities of the training process and, consequently, reduces the effectiveness of training.

Thus, the technical problem is to create a reliable and safe simulator for the development of the vestibular apparatus with a high degree of training efficiency.

The technical result consists in increasing the reliability of fixing the user.

The technical result is achieved by the fact that the simulator for the development of the vestibular apparatus, including a frame and a suspension device pivotally connected to the frame, a means of fixing the user in the waist section, according to the utility model, is equipped with a means for fixing the feet and a means for fixing the hands.

The claimed utility model is illustrated by drawings, where in Fig. a general view of the simulator for the development of the vestibular apparatus is presented.

The simulator for the development of the vestibular apparatus comprises a frame 1, a suspension device 2 pivotally connected to the frame 1, and user fixation means: a fixation device 3 in the waist section, a fixation device for 4 feet, and a fixation device for 5 hands.

Frame 1 is made in such a way that ensures the stability of the entire simulator when swinging with large amplitudes and speeds, for example, in a shape close to a triangular trapezoid. As shown in FIG. , frame 1 contains a metal base 6, on which inclined side posts 7 are fixed, coupled with a horizontal shaft 8 by means of connecting plates 9.

The suspension device 2 is hinged on the frame 1, namely on the shaft 8 by means of a bearing assembly 10, one flange of which is rigidly fixed to the shaft plate 8, the other flange of which is rigidly fixed to the plate of the suspension device 2. The suspension device 2 can rotate around the shaft 8, and also around its own axis (clockwise or counterclockwise).

The simulator can be installed both outdoors and indoors. For installation in an open area, four anchors 11 are made, concreted into the ground and bolted to the corners of the side posts 7. Eyelets 12 are installed in the upper part of the side posts 7, to which extensions 13 (chains with lanyards) are attached, connected to anchors 14 concreted into the ground. Stretching 13 provides structural rigidity, eliminating the slightest rocking of the upper part of the simulator. For installation in enclosed spaces, the base 6 is provided with plates (not shown in Fig.) of considerable thickness, which are included in the holes of embedded parts mounted in the floor of the room. In this case, a variant of the wall installation of the simulator is possible, when one side of the frame 1 is attached to the load-bearing wall.

A handlebar 15 (diameter 800-1200 mm) is installed on the frame 1, which allows rotating the shaft 8 and, accordingly, the suspension device 2. For more convenient and safe control of the training process, the simulator is equipped with a platform 16 with removable steps and a protective screen.

Suspension device 2 is a frame made of a metal pipe, in the lower part of which a platform 17 is installed with a means of fixing 4 feet placed on it. Means for fixing 4 feet is made in the form of a block made of frost-resistant material, rigidly installed on the platform 17, which has straps in the nose and heel area adjustable for the size of the shoe and fastening in the form of a Velcro strap in the middle part of the block. 3-point foot bracing ensures complete safety for the user while exercising

On the side (vertical) elements 18 of the suspension device 2, a means of fixation 3 in the waist section and a means of fixation 5 of the hands are installed.

The means of fixation 3 in the lumbar region is a strong wide belt (lounge), adjustable depending on the volume of the user's waist, and adjustable in height (vertically).

The means of fixing 5 hands is a wristband for the wrist joint on each vertical element of the suspension device 2. The wristbands can be made in the form of leather straps or in the form of slings, stitched with nylon threads, with Velcro.

To connect the elements of the simulator, reliable means of fastening are used: bolts with washers, climbing carabiners, butterfly nuts, etc.

The simulator for the development of the vestibular apparatus is used as follows.

The user stands on the platform 17 of the suspension device 2. The body is fixed by means of fixation means 3, 4 and 5, providing a fixed, but at the same time comfortable position of the body. In this case, the user rests on the vertical elements 18 of the suspension device. The trainer (who has undergone special training) with the help of the steering wheel 15 begins to swing the suspension device 2 (up to a full turn around the shaft 8), as on a conventional swing. After the suspension device 2 deviates from the vertical, the user shifts the center of gravity due to the rotation of the shoulders and a slight tilt of the upper body to the right or left, ensuring the rotation of the suspension device 2 around its vertical axis (clockwise or counterclockwise). The coach instructs the user to "twist to the right" or "Shift the center of gravity to the left". The trainer uses the manufacturer's recommendations (guidelines).

Depending on the level of fitness of the vestibular apparatus, it is possible to vary the intensity of rotation and oscillation of the suspension device 2, providing a progressive load and highly effective training.

Claims (1)

A simulator for the development of the vestibular apparatus, including a support frame, a suspension device pivotally connected to the support frame, made in the form of a frame with vertical side elements, when it is fixed on a horizontal shaft coupled with the upper ends of the side posts of the support frame with a steering wheel for rotating this shaft with the possibility of rotation around its axis and around the horizontal shaft, on the side vertical elements of the suspension device, a means for fixing the user in the waist section and a means for fixing hands are installed, and in the lower part of the frame of the suspension device connecting the vertical side elements, a platform with a means for fixing the feet is installed on it.

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