RU2311214C1 - Exerciser-balancing apparatus - Google Patents

Abstract

FIELD: exerciser, in particular, balancing equipment facilitating in recovery and reinforcement of posture and other motor functions natural to healthy person.

SUBSTANCE: exerciser-balancing apparatus has casing formed as elliptical ring at top view, as concave arc of circle at frontal view, and as convex arc of circle at side view. Supporting platforms for feet are mounted for rotation relative to vertical axis and are provided with platform inclination angle and fixing angle restricting device for fixing of platforms relative to initial horizontal position. Platforms are extending along edges of concave structure, in spaced relation to one another, said space preferably corresponding to shoulder width dimension. Supporting platforms may be made oval-shaped, or may be concave or convex in their shape. Inclination angle and fixing angle restricting device for each supporting platform may be formed as bushing-holder, spherical support, threaded pair or U-shaped stop-eccentric.

EFFECT: wider range of exercises to be done and convenient usage.

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Description

The invention relates to the field of simulators, in particular to balancers - prophylactic agents that contribute to the restoration and consolidation of the inherent to a healthy person posture and other motor functions.

To focus attention, develop posture, strengthen the muscles of the back, the well-known gymnastic ball simulator with a diameter of 50-80 cm, made of elastic material and filled with air, is used. See the brochure "Exercises with a gymnastic ball" LLC "PasTer" St. Petersburg, St. Ordzhonikidze, 42.

On such a ball simulator, a person sitting on it, according to its creators, corrects posture, strengthens the muscles of the back, stabilizes and normalizes the position of the spine.

However, since the ball does not have a fixed position on the floor, its vertical axis always has the possibility of unforeseen movement along the plane after the center of gravity of a person sitting on it, changing its place. When turning or rolling the ball and shifting the vertical axis, a person can simply fall from it, and most of the person’s attention is spent on restoring the equilibrium state by moving the feet of the foot uncomfortable for a person after the moving ball. When chasing the ball, the spine experiences unforeseen curvatures and loads. At the same time, when the ball rolls to an insignificant distance, the person sitting on it repeatedly has to move the whole body to a new point of support of the ball, which leads to additional ineffective energy costs and a loss of time, as with the initial placement on the ball.

A more advanced device is known, see Decision on the grant of a patent for an invention according to the application of the Russian Federation No. 2005107125/12 (008611), "Balancing simulator", А63В 22/16, comprising a housing made in the form of a concave arc with parallel mounted edges of the housing, mainly at a distance of shoulder widths from each other by at least two support platforms for feet, eliminating the listed disadvantages of the ball simulator and giving the product new qualities, while support platforms for feet are made convex in shape with alternating concave sections between them forms relative to the longitudinal axis of each of the sites, as well as the simulator-balancer is equipped with a removable central supporting concave surface with massage elements.

The closest analogue of the claimed invention is a balancer simulator containing a body made in the form of a concave structure placed at the edges, preferably at a distance of shoulder width from each other, by at least two support platforms for feet (US No. 5496248, class A63B 22 / 16, 1996).

The disadvantages of the prototype include the inability to use the device by people with various kinds of violations of posture, musculoskeletal system and low technological capabilities.

The objective of the present invention is to eliminate the disadvantages of the prototype, in particular giving the simulator additional, not complex and most effective motor functions that contribute to the prevention of posture disorders and the restoration of the correct functions of the spine, legs, preventing distraction of unproductive movements and strengthening the necessary muscles of movement.

The technical result of the invention is to expand the range of exercises and increase the convenience of their implementation.

The specified technical result is also achieved by the fact that in the known simulator-balancer containing the body, made in the form of a concave structure placed at the edges, mainly at a distance of shoulder width from each other, by at least two supporting platforms for feet, according to the invention, the body is made in the form of an ellipse ring when viewed from above, in the form of a concave arc when viewed from the front and in the form of a convex arc when viewed from the side, while the support platforms for the feet are mounted with the possibility of rotation and inclination of each relative the vertical axis and are equipped with limiters for the angle of inclination and fixation of the support areas relative to the originally installed horizontal position.

Support pads can be made oval, ellipse, convex and concave.

The limiter of inclination of the support pads can be made in the form of a sleeve-holder fixed relative to the longitudinal axis at the ends of the housing, with the axis of the support pad mounted in it, which is rigidly fixed to the lower surface of each support pad.

Each supporting platform is mounted on the body of the balancer simulator with the help of a ball bearing, fixed on one side in the center of the lower surface of the supporting platform, and on the other hand, in the housing sleeve-holder.

The limiter of the angle of inclination and fixation of each of the sites is made in the form of a threaded pair - a threaded sleeve - a nut, while the threaded sleeve is rigidly mounted at the ends of the housing, and the nut is made with a supporting surface, with the possibility of contact with the lower surface of the supporting platform.

The limiter of the angle of inclination and fixation of the pads is made in the form of a U-shaped stop-eccentric pivotally mounted on the sleeve-holders of each supporting platform, and the branches of the U-shaped stop are mounted on both sides of the sleeve-holder with the possibility of contacting the upper part with the lower part in working condition the surface of the supporting platform and locking it.

The design features of the balancer simulator body in the form of an ellipse ring when viewed from above, in the form of a concave arc when viewed from the front and in the form of a convex arc when viewed from the side, while the support platforms for the feet are mounted with the possibility of rotation and inclination of each relative to the vertical axis and equipped with angle limiters tilt and fixation of supporting platforms relative to the originally established horizontal position - are signs of new, significant, non-obvious, industrially feasible and aimed at achieving Applicants' invention of the problem more effectively preventive effect on the human body in a direction to eliminate violations human postural development and fixing correct movement during the prophylactic use-balance simulator and thereafter.

Signs of the implementation of the support platforms oval, ellipse, concave or convex, as well as the implementation of the limiter of the inclination of the support areas in the form of a sleeve-holder, mounted relative to the longitudinal axis at the ends of the housing, with the axis of the support platform mounted in it, which is rigidly fixed on the lower surface of each supporting platforms, each supporting platform is mounted on the body of the balancer simulator with the help of a ball bearing mounted on one side in the center of the lower surface of the supporting platform, and on the other hand about the sleeve-holder of the housing, and the implementation of the limiter of the angle and fixation of each of the platforms in the form of a threaded pair - a threaded sleeve - a nut, while the threaded sleeve is rigidly mounted at the ends of the housing, and the nut is made with a supporting surface, with the possibility of contact with the lower surface of the supporting platforms, or the limiter of the angle of inclination and fixation of the sites is made in the form of a U-shaped stop-eccentric pivotally mounted on the sleeve-holders of each supporting platform, and the branches of the U-shaped stop are mounted on both sides ons from the sleeve-holder and the upper part in working condition are in contact with the lower surface of the supporting platform by locking it - they are additional features aimed at the specific design of each of the main features and the disclosure of the invention, explaining the possibility of its practical implementation. So, the implementation of the limiter of the angle of inclination and fixing of the support platforms relative to the originally set position of each of the sites in the form of a threaded pair - a threaded sleeve - a nut allows, if necessary, to adjust the amount of inclination of the support platforms up to fixing the support platforms in a predetermined position. Turning the bearing pads in a horizontal plane in the forward and reverse directions allows you to maximize the use of the proposed simulator-balancer to restore posture and musculoskeletal functions of a person. The implementation of the body of the simulator-balancer in the form of an ellipse ring when viewed from above, in the form of a concave arc when viewed from the front and in the form of a convex arc when viewed from the side allows you to optimize the manufacturing technology of the body, increase its strength characteristics and, due to changes in the radii of curvature of the body, make various modifications of the simulators - balancers. The mechanism for fixing and limiting the angle of inclination of the pads in an alternative embodiment in the form of a U-shaped stop-eccentric pivotally mounted on the sleeve-holders of each supporting platform, and the branches of the U-shaped stop are mounted on both sides of the sleeve-holder and the upper part in working condition , as well as using a threaded sleeve-nut pair, it is possible to fix the bearing pads in a predetermined position and to set a predetermined angle of their inclination in any direction.

When lowering one side of the simulator until the platform touches the floor, the top line on the contact surface of the foot with the platform remains either parallel to the other and the foot, due to the convex shape of the platform, always takes up the load under the initial exposure conditions, and the height by which the second leg rises , exceeds the usual one exactly to the height of the leg lifting at a normal step, or at an angle in the horizontal plane, for example, the left platform is fixed at an angle of -45 degrees, and the right one is fixed at an angle of +45 degrees, increasing the degree of "t of ore ”exercises on the simulator by reducing the supporting surface in the direction perpendicular to the longitudinal axis of the simulator-balancer. Those. there is a loaded, balanced pendulum movement of the entire musculoskeletal system, depending on the pitch and setting the angle of rotation and inclination of the support sites.

Performing the height of the concave arc of the body equal to the height to which the person’s leg rises while walking allows you to use almost all of the muscles and joints of the person during prophylactic action that are involved in normal walking, and when lowering one of the supporting platforms before touching the floor, the other leg rises to a height exceeding the height to which a person’s leg rises when walking, which allows more efficient use of the musculoskeletal system in the forward and reverse directions from normal.

On figa presents the proposed simulator-balancer - front view, on figb - side view, on figs - top view.

The balancer simulator consists of a housing 1 made in the form of an ellipse ring when viewed from above (Fig. 1c), in the form of a concave arc (Fig. 1a) when viewed from the front and in the form of a convex arc when viewed from the side (Fig. 1b), at least at least two support platforms 2 for feet with mechanisms for fixing and limiting the angle of inclination of the support platforms relative to the originally installed, for example, horizontal position. Each supporting platform 2 is mounted on the housing 1 with the help of a ball bearing 3 and sleeve holders 4 located at the ends of the longitudinal axis of the housing 1 of the balancer simulator. The number of sites 2 can be two or more, which can be made both convex and concave in shape and in combination. To prevent slipping of the feet on the outer surface of the supporting platforms 2 fixed carpet. The height of the arc of the body is made equal to the height of the leg of a man’s step. A threaded nut 5 is installed on the threaded sleeve 4 of the locking mechanism and limiting the angle of inclination of the support pads, which, as it rotates and rises as the threaded sleeve 4 is rotated along the height of the upper support surface, limits the inclination of the support pads to the right or left, back and forth and at any angle side. With the maximum rise of the nut 5 to contact with the lower surface of each support pad 2, the support pad is fixed in a predetermined position.

The proposed simulator-balancer works as follows. A patient with deviations in posture or motor functions of the body initially undergoes examination and after detecting deviations in posture from normal ones (see Figs. 2-4), the patient, for a preventive effect on him, becomes on site 2 of building 1 of the proposed balancer simulator. In this case, the patient’s weight is distributed evenly over two sites 2, and the main load on each site is perceived along the upper tangent line of each site.

Moving the center of gravity from one leg to another, as the body 1 of the balancer simulator tilts, the patient constantly strives to maintain balance, and the upper tangent line, which receives the main load on both sites, smoothly shifts to the opposite side, from the tilt of the balancer simulator body, keeping the initial set pose and position of the feet on the sites 2 of the balancer simulator.

Performing exercises on the balancer simulator when installing parallel-oriented feet in concave support platforms creates alternating loads with respect to convex platforms.

When the exercises are complicated by changing the angle of rotation of the support platforms, for example, at an angle of up to -90 degrees for the left support platform and at an angle of up to +90 degrees for the right support platform, the healing effect of posture correction is enhanced, since more muscles are involved in the work and the entire musculoskeletal system of a person. At the same time, perceiving new elements of movements, the patient’s body erases the stereotypes of previously formed movements and new ones begin to be developed. During the alternate lifting and lowering of the platforms of the balancer simulator to a predetermined height, the movements of the entire human body and its musculoskeletal system are corrected, and in the absence of fixation of the support platforms, the possibilities of tilting the latter increase significantly and the patient needs not only to maintain balance but also seek to stay on the support sites, which enhances the effect of restoring posture and motor functions of the human body.

The implementation of the fixation mechanism and limiting the angle of inclination of the pads in an alternative embodiment in the form of a U-shaped stop-eccentric allows, depending on the required angle of inclination of the supporting pads, by turning the eccentric to provide the specified recovery mode.

After the patient’s preliminary adaptation to the balancing simulator, an examination is again carried out for 5-15 minutes, which shows how much the initial preventive effect of the balancer simulator affected the changes in posture, zone and coordinates of the center of gravity wandering. Then the patient is offered a set of exercises, taking into account the identified trends in the body's response to such loads that must be performed on the balancer simulator for 3-4 weeks (see the appendix to this description). If necessary, for a more effective preventive effect of the balancer simulator, the patient is additionally prescribed a massage.

Currently, the authors have developed a methodology, technical documentation and produced an experimental batch of simulators-balancers of the proposed design, which successfully pass complex tests. The preventive effect of the proposed balancer simulator was noticed even after the first ten minutes of working on it, and after 10 days of training on the balancer simulator, the patient developed a stable complex of altered and correct movements that affect the person’s posture.

After certification of the simulator-balancer and the end of the tests, it is planned to carry out the second release of the experimental batch of simulators.

Claims (8)

1. The balancer simulator, comprising a body made in the form of a concave structure placed at the edges, preferably at a distance of shoulder width from each other, by at least two support platforms for feet, characterized in that the body is made in the form of an ellipse ring when top, in the form of a concave arc - when viewed from the front and in the form of a convex arc when viewed from the side, while the support platforms for the feet are mounted with the ability to rotate and tilt each relative to the vertical axis and are equipped with limiters for the angle of inclination and fixation of the op relatively polar sites originally specified horizontal position. 2. The simulator-balancer according to claim 1, characterized in that the supporting pads are made of oval ellipse shape. 3. The balancer simulator according to claim 1, characterized in that the supporting pads are made convex. 4. The simulator-balancer according to claim 1, characterized in that the supporting pads are made concave. 5. The balancer simulator according to claim 1, characterized in that the tilt limiter of the support platforms is made in the form of a sleeve-holder fixed relative to the longitudinal axis at the ends of the housing, with the axis of the support platform mounted in it, which is rigidly fixed to the lower surface of each support platform . 6. The balancer simulator according to claim 1, characterized in that each supporting platform is mounted on the body of the balancer simulator using a ball bearing mounted on one side in the center of the lower surface of the supporting platform, and on the other hand, in the housing sleeve-holder. 7. The balancer simulator according to claim 1, characterized in that the limiter of the angle of inclination and fixation of each of the sites is made in the form of a threaded pair - a threaded sleeve - a nut, while the threaded sleeve is rigidly mounted at the ends of the housing, and the nut is made with a supporting surface with the possibility of contact with the lower surface of the supporting platform. 8. The simulator-balancer according to claim 1, characterized in that the limiter of the angle of inclination and fixation of the platforms is made in the form of a U-shaped stop - an eccentric pivotally mounted on the sleeve-holders of each supporting platform, and the branches of the U-shaped stop are mounted on both sides from the sleeve - the holder and the upper part in working condition are in contact with the lower surface of the supporting platform, locking it.

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