RU2831879C1 - Tropot-1 orthopaedic device-exerciser - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, namely to orthopaedic devices-exercisers and can be used for prevention and treatment of locomotor apparatus, as well as for such diseases as flat feet. Orthopaedic exerciser comprises supports, springs, fixation belts. Arc-shaped plate is rigidly fixed on the lower side of the shoe on the sole on the outer side of the L-shaped support, the rear end of the plate is positioned with the ability to move in mirror-symmetric grooves. At least one spring is installed between the arc-shaped plate and the support. L-shaped support has holes for fixation to the sole, and is also equipped with front and rear fixing boards, in which there are holes for tying laces.

EFFECT: more effective prevention and treatment of the musculoskeletal system with elimination of pain in the foot.

5 cl, 4 dwg

Description

The invention relates to medical equipment, namely to orthopedic training devices and can be used for the prevention and treatment of the musculoskeletal system, as well as for diseases such as flat feet.

Signs of flat feet are quite easy to notice. Although the deformation is insignificant and no visible changes are observed, there are indirect symptoms of the pathology - after standing or walking for a long time, the legs begin to hurt. The foot is the most loaded part of the human body. Even a small change in the structure of the foot leads to a disruption of the structure of the entire body. Symptoms and treatment of flat feet largely depend on its type.

In any case, the cause of flat feet is most often a long stay of the foot in excessive tension. For example, in women, the disease can be caused by wearing high-heeled shoes. Flat feet are sometimes caused by professional activity: people who have to stand for a long time due to their work must periodically give their feet a rest. An exception to the causes of the disease can be called a hereditary factor: if the parents had this ailment, then it is almost always found in children.

If we consider the foot as a whole, then due to the vertical position of the human body, the foot is the final support, which, having an area of only a few centimeters, can withstand its weight of several tens of kilograms. All elements and mechanisms of the foot are adapted for this purpose, as well as for moving the body in space. The degree of displacement of its individual elements in relation to each other is minimal. To perform the supporting, spring and balancing functions, the foot has a dome-shaped arched structure, inherent only to humans. The transverse arch is built like a semi-dome, the inner edge of which is raised above the ground by 50-60 mm, and the outer one almost entirely rests on it. This arch is created by the shape of the bones, the complex of which forms a solid base of the foot. The arch of the foot is fixed by longitudinal and transverse passive and active ties. Passive ligaments are powerful ligaments, located in several layers and ending with the strongest and most elastic superficial plantar aponeurosis, running along the entire foot from the calcaneal tubercle to the heads of the metatarsal bones. In case of pathology of the aponeurosis or the 1st metatarsal bone, the foot will not fully perform the supporting function. Active ligaments are numerous muscles that are attached at different levels of the foot, throwing themselves over its joints. The arch of the foot, generally convex upward, is concave from the side of the sole in two directions: from front to back - the longitudinal arch and from the inner to the outer edge - the transverse arch. The general longitudinal arch of the foot consists of 5 rays. At the back, they all converge through the tarsus to the calcaneus, and at the front, each rests on the corresponding head of the metatarsal bone. The highest and longest ray of the arch is the second, running in the middle of the foot along the 2nd metatarsal, intermediate cuneiform, through the middle of the navicular and talus to the calcaneus. This ray bears the greatest load, it is most susceptible to pathology and in this case the foot does not perform the spring (shock-absorbing) function. The shortest and lowest is the fifth ray.

The transverse arch is well expressed only in the forefoot and at the level of the metatarsal heads, which are the support points for the rays of the longitudinal arch, as if connecting all its rays from the front. It bears the greatest load when losing balance, and in case of pathology the foot does not perform the balancing function.

Thus, the foot is a two-arm lever with the support points at the back on the calcaneal tuberosity (its internal protrusion), and at the front on the heads of the 2nd and 5th metatarsal bones. The toes of the foot usually do not perform a supporting function, but they acquire this function if you stand "on your toes" (the foot becomes a one-arm lever). The basis of the arch of the foot is the talus, which transfers the force load falling on it to the other points of the foot. The arches of the foot are functionally variable. The stability of the arches of the foot can be determined by measuring the height in a standing position and sitting on a chair. In a standing position, with increasing pressure on the foot, the arches somewhat flatten and expand due to the fan-shaped divergence and forward movement of the heads of the metatarsal bones. These fluctuations ("arch play") can normally reach 5 mm. A change in height of more than 5 mm indicates weakness of the arches due to pathology in the ligament, muscle or joint mechanisms of the foot and, consequently, flat feet in one form or another. In a sitting or lying position, the foot takes on its original state. The foot also has age and individual characteristics. With age, the foot flattens. The shape of the foot is affected by functional overload, sports and profession. In obese people and in people who stand or run for a long time, the arch of the foot gradually flattens. In this case, the shape of the foot and the presence of flat feet are determined not only by the height of its arches, but also by its general proportions.

With timely assistance, children in most cases fully recover. Unfortunately, adults cannot get rid of the disease, but can only stop its development. Treatment is most often conservative.

Exercise therapy exercises are prescribed individually to each patient, because only a doctor knows how to get rid of flat feet quickly and completely. Much attention is paid to massage and hydromassage of the feet. In combination, all measures allow to correct defects and return the patient to normal life.

There are a number of orthopedic devices produced by prosthetic and orthopedic companies. They are divided into orthopedic shoes and orthopedic inserts. We offer an orthopedic shoe trainer.

The most radical corrective effect is provided by specially designed orthopedic footwear. However, being a one-off product, it is very difficult to manufacture and expensive, which is why the patient is limited in its variety and change, for example, for aesthetic reasons.

The proposed form and principle of operation of the shoe insert changes the very mechanics of the device's impact on the deformed joint, thereby softening the healing process. The arch of the foot is adjusted more gently and gradually, thereby painlessly increasing the time indicator of daily use of shoes, regardless of weather conditions.

At any stage of the disease, orthopedic shoes, special inserts and insoles, bandages, which should be selected individually, will have an effective effect. They correctly distribute the load and have a shock-absorbing effect.

An instep support is a cushion on the sole inside the shoe to support the weakened longitudinal arch of the foot. What is it for? Of course, to support the longitudinal arch of the foot. However, such foot support redistributes the load and improves the general condition, but is in a static position and therefore does not train the foot muscles.

It is known to use a gymnastic balance beam for the prevention of flat feet, as well as for the development of coordination and balance in children. The balance beam is a massive narrow wooden block about 1 meter long, equipped with legs. The block has a lining of foamed polyethylene covered with vinyl leather. The training consists of walking on a narrow block, which improves the flexibility of the foot and ankle joint, and is a prevention of flat feet (http://www.tdkaleidoskop.ru/sport-i-otdykh/sportivnye-tovary/oborudovanie-dlya-sportzalov-shkol/turniki-brusya-stoiki-perekladiny/brevno-gimnasticheskoe-sledy-dlina1m). However, this device is not effective enough for valgus flat feet, since it does not have an inclination of the lateral surfaces necessary for effective prevention of flat feet.

A log is known for preventing flat feet and other musculoskeletal disorders, made of two pipes installed on floor stands, which can use plastic or cardboard pipes (www.obruch.ru/index.php%3Fid%3D8%26n%3D92%26r%3D12%26s%3D234). The author of the publication, G. Skobina, points out that walking on one or two logs straight and sideways prevents posture disorders and flat feet, as well as trains the vestibular apparatus. At the same time, the device is intended for children's institutions, has a significant length and is inconvenient to use.

It is known that an effective method for preventing flat feet is walking on a sloping surface with support on the outer edge of the foot. Two types of exercise machines are described for this purpose. One of them consists of two boards connected at a right angle. The hypotenuse of the exercise machine is installed on the floor. The child walks along the legs, along the length of the exercise machine, stepping with his feet (http://www.e-reading.mobi/chapter.php/110143/130/Atilov%2C Ivanova-_Stroiinost%27_s_detstva_kak_podarit%27_svoemu_rebenku_krasivuyu_figuru.html). The other exercise machine has two boards, hinged together, mounted on stands and forming inclined surfaces. The surface of the boards has protruding platforms (http://howmake.in.ua/poleznoe-i-vrednoe-dlya-detei/ploskostopie-u-detei.html).

The publication (GB 1225178 A, SKRIVRIT A.V., 1971) describes a log-type exercise machine, part of the cylindrical surface of which is mounted on a longitudinal axis with the ability to swing. However, when walking on a log, additional skill is required to perform exactly the specified exercise with the feet tilted inward.

A balance trainer is known (RU Patent for Invention No. 2311214, IPC class A63B 22/16, published on 27.11.2007), the body of which is made in the form of an elliptical 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. The support platforms for the feet are mounted with the possibility of rotation relative to the vertical axis and are provided with tilt angle limiters and platform fixation relative to the initially set horizontal position. The platforms are located along the edges of the concave structure, one from another mainly at a distance of the width of the shoulders. The support platforms can be made in an oval elliptical, convex or concave shape. The tilt angle limiter and fixation of each support platform can be made in the form of a holder sleeve, a ball joint, a threaded pair or a U-shaped eccentric stop.

A soft floor gymnastics balance beam is known, which is intended for use in preschool institutions. The semicircular wooden frame is covered with several layers of isolon for softness, and covered with a cover made of artificial leather. The length of the beam is 1500 mm. The beam has legs (http://favoritsporta.ru/katalog/brevno_detskoe_mjagkoe_15_m_napolnoe).

There is a device for therapeutic gymnastics for flat feet in children, which contains a vertical climbing column with holes made on the outer surface of the column and placed at a selected pitch, and the holes are made blind in the form of a quarter of a sphere facing upwards, with a depth of 50-90 mm (RU Patent No. 1 731245).

All the above mentioned training devices have disadvantages related to the fact that they are adapted for stationary use. They cannot be taken with you on a regular walk, over long distances.

Usually, insoles are used for flat feet, however, such insoles, with prolonged use, disrupt blood circulation in the foot, cause profuse sweating, and sometimes lead to rapid fatigue of the legs.

Our device allows in such cases to quickly remove the mechanism from the shoe, and also quickly install it to the shoe.

The prototype is Russian patent No. 2 670 679, which contains supports, springs, straps for fixation and heel clamps.

The objective of the present invention is to create an orthopedic training device that allows for increasing the effectiveness of prevention and treatment of the musculoskeletal system by acting on a person's foot in certain places (along a certain strip of the foot), but at the same time reducing or completely eliminating pain and discomfort that arise during long-term use.

The technical result is the achievement of positive dynamics of changes in the arch of the foot, partial or complete elimination of pain in the foot.

The stated problem is solved and the claimed technical result is achieved by the fact that on the bottom side of the shoe on the sole the arched plate is rigidly fixed mainly on the outside on the L-shaped support and on the other side the arch is arranged in mirror-symmetrical grooves with the possibility of movement, and between the arched plate and the support there are springs installed in an amount of at least one piece, while the L-shaped support has openings for fixing to the sole and/or fixing elements with fasteners on top of the shoe. Rigid fastening on the bottom side of the shoe on the sole of the arched plate mainly on the outside on the L-shaped support and on the other side the arch with the possibility of movement located in mirror-symmetrical grooves and with a spring between the arched plate and the support in an amount of at least one piece allows the arch to act on the sole softly and flexibly with subsequent action on the human foot, which has a beneficial effect on the massage of the entire, mainly lateral surface of the foot. Increasing the number of springs not equal to one, for example up to three, monotonously and dynamically smooths out the massage effect on the foot. The possibility of longitudinal movement of the free end of the arc along the grooves prevents it from slipping in different directions when obstacles appear (stones, holes, curved road surface) while walking. Making the support under the sole in the form of an L-shape increases the stability of the structure. It should be noted that mirror-symmetrical grooves are located mainly on the back side of the support on the soles of shoes. All this allows to increase the effectiveness of prevention and treatment of the musculoskeletal system.

The width of the arched plate, equal to within 1/4 - 1/3 of the width of the shoe sole, located on the outer side of the shoe, improves the sensitivity of the dynamic load by locally affecting mainly the outer arch of the foot, on the reflexes of this zone. With a larger width, the sensitivity of the dynamic load decreases due to the effect on other areas of the foot.

The springs fixed in the semi-cones 7, formed by bending the partially cut support surface, make it possible to replace them, which is necessary in some cases with hypersensitivity of individual patients. Notches can be made on the surfaces of the semi-cones 7 for tight installation of the spring links in them.

The plate can be made of titanium nickelide, which exhibits the effect of superelasticity. However, this does not provide constant ease of use, since the loads in the static and dynamic phases will always be constant.

In our case, it is possible to change these loads by successively changing the stiffness and elasticity of the springs during their use.

Sometimes, for variety during walking, depending on how the patient feels, the patient himself, on an orthopedic basis, can mechanically change the height of the internal longitudinal or transverse arch of the foot with a fixed small step of raising or lowering, achieving precise observance of the congruence (coincidence) of the bone arch of the foot, while providing cushioning (amortization) of the arch, as well as restoration of the balancing and support functions.

The design can additionally be equipped with indicator lights (green-red) with a battery (not shown in the pictures). This will be an additional incentive for training the correct gait, allowing the user to independently evaluate and correct the gait. Contacts are installed inside the springs, which, when pressed, turn on the green light, if there is no contact, the red one will be on. It turns out that the red ones are for opening, the green ones are for closing. The simulator removes excess load on the feet due to geometry and begins to train the muscles that did not work due to the disappearance of the arch of the foot. Since the simulator cannot always be rigidly fixed, the dynamic load on the foot correctly and smoothly trains the foot, correcting flat feet.

The proposed design of the orthopedic training device is shown: in Fig. 1, a top view at an angle; in Fig. 2, with one spring on the shoe; in Fig. 3, with three springs on the shoe; in Fig. 4, a side view, but from the opposite side.

The orthopedic training device comprises an L-shaped support 1 (1a - a branch of the support 1), springs 2, straps for fixation 3 and rear 4 and front 5 fixing sides, an arched plate 6 rigidly fixed mainly from the outside on the L-shaped support 1, and on the other side, an arc 6 (6a) with the possibility of movement is located in mirror-symmetrical grooves 8 and 9, wherein between the arched plate 6 and the support 1, springs 2 are installed in an amount of at least one piece, wherein the support 1 can have holes 10 for fixation to the sole 12 during continuous long-term walking. Fixing elements (holes) 11 are intended for tying laces with subsequent tension over the shoe. Springs 2 with the possibility of replacement are fixed in half-cones 7, formed by bending partially cut from the supporting surface 1. In the proposed design, the branch of the support 1a increases the stability of the structure of the support 1. Indicator lights can be installed on the front sides 5: green 15 and red 16, as well as a compartment 17 for placing a battery. The orthopedic training device is used as follows. Take shoes with a flexible sole 12 and install them on the training device, fix the shoes 17 with the back 4 and front 5 sides, fixation belts (not shown) and / or Velcro fasteners (not shown) and / or laces 14. For long-term use, the trainer can be fixed to the sole using screws through the holes 10.

The use of such an orthopedic training device promotes a high level of moisture and air exchange inside the shoe and ensures maximum comfort, which provides: support mainly on the outer arch of the foot, redistribution of the load mainly on this area of the sole, prevention of the development of pathologies of the musculoskeletal system on the joints of the lower extremities, maximum comfort when walking. The authors see the socio-economic effect of using the claimed design in improving the condition of a patient with foot pathology, which combines a corrective effect, reduced pressure on soft tissues, improved blood circulation and reduced pain.

The proposed training device can be used for winter and demi-season shoes.

Thus, the use of the proposed training device contributes to the positive dynamics of changes in the arch of the foot, partial or complete elimination of pain in the foot.

Claims (5)

1. An orthopedic training device containing supports, springs, and straps for fixation, characterized in that an arched plate is rigidly fixed to the bottom of the shoe on the sole on the outer side of the L-shaped support, the rear end of which is placed in mirror-symmetrical grooves with the possibility of movement, and at least one spring is installed between the arched plate and the support, while the L-shaped support is made with holes for fixation to the sole, and is also equipped with front and rear fixing sides, in which holes are made for tying laces. 2. An orthopedic training device according to item 1, characterized in that the width of the arched plate is equal to within 1/4 - 1/3 of the width of the shoe sole. 3. An orthopedic training device according to item 1, characterized in that the springs are fixed in half-cones with the end sections resting on the supporting surface. 4. An orthopedic training device according to item 1, characterized in that the fastening straps are made in the form of Velcro fasteners and/or laces. 5. An orthopedic training device according to item 1, characterized in that indicator lights with a battery are installed on the front fixing sides.