RU2670679C1 - Simulator for supination activation at planus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Device simulator for active supination with flat feet contains a base, two supports for the feet and compression springs. Each of the foot supports is attached to the base by edges designed to position the inner side of the feet, with the ability to change the horizontal position, dropping down the edges designed to position the outer sides of the feet. Compression springs are located between the base and the leg supports at the edges, designed to position the outer sides of the feet. Each foot support on the upper side has straps for fixing the feet and clamps for heels, and on the opposite side, on the edge intended for arranging the outer sides of the feet, has seating for mounting the upper parts of the compression springs. Base has seats for the lower parts of the compression springs.

EFFECT: invention provides active strengthening of the muscular-ligamentous apparatus of the feet, that makes it possible to avoid flat-footedness, removal of the load from the knee joints and the spine.

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Description

The invention relates to the field of medicine, in particular to devices for training the musculo-ligamentous apparatus of the foot in the treatment and prevention of flatfoot and can be used in sports medicine.

Currently, there are many methods and devices for the prevention of flatfoot. For example, mini-simulators for the prevention of flatfoot, made of scrap materials. These include massage bags filled with peas, beans, caps from felt-tip pens, chestnuts, ribbed tracks and mats made of various materials, mini-simulator from computer disks, etc. (see. Mini-simulators for the prevention of flatfoot in preschool children from scrap materials do it yourself. Author Kudryavtseva L. Open Edition. Access link: www.maam.ru). These training tools allow you to massage the active points on the soles of the feet, which has a beneficial effect on overall health.

Also, one of the devices includes the use of special individual insoles-instep supports that lift a flattened arch of the foot (see Popular Medical Encyclopedia. Tashkent. 1989, p. 483). The use of such special individual insoles-insteps, especially in childhood, allows you to hold the longitudinal arch of the foot in the anatomically correct position, to provide spring and balancing functions of the foot.

In addition, there is a device of an instep containing a liner, fixed between layers of a fit material, in the form of a plate made of titanium nickelide bent in the saggittal plane, showing an effect of super elasticity. The plate is divided into longitudinal fragments, the ends of which are bent in the direction opposite to the plate bending direction (see RF Patent 2202997 IPC A61F 5/14. Supinator. Scientific and Production State Small Enterprise “MIC” Tomsk Prosthetic Orthopedic Enterprise. Authors: V. Günther E., Savrasov, V.F., Proskurin, A.V., Tkachenko, OM, Published on April 27, 2003, Bull. # 12. Open Edition, Prototype).

The known device allows to improve the usability, due to the continuous regulation of loads in the static and dynamic phases while ensuring a long service life of the device. However, the disadvantage of this device is the impossibility of high-quality active training of the musculo-ligamentous apparatus, which is responsible for the longitudinal arch of the foot, namely the posterior tibial and muscle groups of the small tibialis. When using this device, the muscles and ligaments of the foot are inactive and do not develop enough, thus they are atrophied, which can later lead to thickening of the transverse arch of the foot, with the foot in contact with the floor of almost the entire foot area, depreciation is lost, in turn, leads to problems with the musculoskeletal system (increased stress on the knee joints, spine, etc.).

The objective of the proposed invention is the active strengthening of the muscular-ligamentous apparatus of the foot in order to maintain the internal arch of the foot in the anatomically correct position, reducing the load on the knee joints and spine.

The technical solution of the proposed invention is the use of a device comprising: a simulator base with fastening

two supports for the feet with straps for fixing the feet and clamps for the heels of the feet, two compression springs located in the seats of the supports for the feet and the base of the trainer, as well as a stop.

The technical result of the proposed invention is the active strengthening of the musculo-ligamentous apparatus of the feet, which allows to avoid flat-footedness, removal of the load from the knee joints and the spine.

The essence of the work of the device simulator for active supination with flat-footedness is that it contains a base, two supports for the feet and compression springs, each of the supports for the feet are attached to the base with edges designed to position the inside of the feet, with the ability to change the horizontal position, falling down the edges intended for the location of the outer sides of the feet, the compression springs are located between the base and the foot supports at the edges intended for the arrangement of the outer sides the foot, each foot support on the upper side has straps for fixing the feet and clamps for heels, and on the opposite side from the edge intended for arranging the outer sides of the feet has seating for mounting the upper parts of the compression springs, the base has seating for the lower ones parts of compression springs. Thus, an active training of the musculo-ligament apparatus of the feet is ensured.

The invention is illustrated in FIG. 1 and FIG. 2, which shows a diagram of a simulator for active supination with flat-footedness. The drawing shows the following notation: 1 - leg; 2 - straps for fixing the feet; 3 - compression spring; 4 - seat in the foot support; 5 - the base of the simulator; 6 - mount; 7 - foot supports; 8 - foot; 9 - stop; 10 - torso; 11 - lock for heels; 12 - seat at the base of the simulator.

The arrows indicate the direction of movement of the feet during supination and pronation, the arrows indicate the direction of compression and expansion of the compression springs.

For training the musculo-ligamentous apparatus, ensuring the correct position of the arch of the feet for the purpose of prevention (treatment) of flatfoot, a simulator is used, which includes in its composition the base of the simulator designed to attach to it the components of the simulator. The feet supports have straps for fixing the feet and clamps for the heels of the feet, which allow the feet to be firmly held on the supporting surfaces for the feet and fixed to the base of the simulator using fasteners. Foot supports have one degree of freedom and the ability to change the horizontal position. Holding the support, the body with the legs of a person is in the correct, vertical position, which excludes their inclinations in different directions (right, left, forward, backward) and the inclusion of other leg muscles in the work. Thus, in the workflow (training), it is those muscles that are responsible for the position of the longitudinal arch of the feet (posterior tibial and small tibial muscle groups). The upper part of the compression spring enters the seat of the foot support, and the lower part of the compression spring enters the seat at the base of the simulator, which ensures reliable attachment of the compression spring and the damping of the supports for the foot relative to the base of the simulator.

Depending on the level of fitness of the muscular-ligamentous apparatus, responsible for pronation of the feet, it is possible to use compression springs of various stiffness. With an increased level of fitness, the stiffness of the compression springs can be increased.

The operation of the device. During the training session of the muscular-ligament apparatus, feet 8, a person becomes each leg 1 on foot supports 7, connected by fixing 6 to the base of the simulator 5. Feet 8 and heels on foot supports 7 are fixed with straps for fixing the feet

2 and locks for the heels of the feet 11. Holding onto the stop 9, keeping the body in a vertical position 10, the force of the muscles of both feet 8 overcomes the force of the compression springs 3 during supination. Each compression spring 3, with its upper part, enters the seat in the foot support 4, and the lower part enters the seat at the base of the simulator 12. When these muscles relax, pronation of the feet 8 occurs, while the compression springs 3 unclench.

The proposed device allows for active training of the musculo-ligamentous apparatus - the posterior tibial and muscle groups of the small tibial, responsible for the longitudinal arch of the foot, thus providing an anatomically correct position of the foot, eliminating negative consequences for the musculoskeletal system.

Literature

1. Mini-simulators for the prevention of flatfoot in preschool children from scrap materials with their own hands. Author Kudryavtseva L. Open edition. Access link: www.maam.ru.

2. Popular medical encyclopedia. Tashkent. 1989 p. 483

3. RF patent 2202997 IPC A61F 5/14. The instep. Scientific and Production State Small Enterprise "MIC" Tomsk Prosthetic-Orthopedic Enterprise. Authors: Gunter V.E., Savrasov V.F., Proskurin A.V., Tkachenko OM. Publ. 04/27/2003, bullet. №12. Open edition.

Claims (1)

A simulator device for active supination with flat-footedness, containing a base, two supports for the feet and a compression spring, each of the supports for the feet are attached to the base with edges designed to position the inner side of the foot, with the ability to change the horizontal position, dropping down with the edges intended for the location of the outer sides of the feet, the compression springs are located between the base and the leg supports at the edges intended for the arrangement of the outer sides of the feet, each leg support with ver It has straps for fixing the feet and clamps for heels, and on the opposite side from the edge, intended for placing the outer sides of the feet, has seating for fastening the upper parts of the compression springs, the base has seating for the lower parts of the compression springs.