RU2789383C1 - Orthopedic liner for compensation of shortening of the lower limb - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: the invention relates to medicine. Orthopedic liner for compensation of shortening of the lower limb, the length and width of which correspond to the length and width of the sole in the corresponding areas, the height is determined by shortening, and through holes are made in the thickness of which. Through holes are made in the sides of the liner, which have a rounded shape. On the side of the liner facing the sole, incisions are made along the through holes until they are connected to them. The liner is equipped with an element of elastic fixation of compression and stretching. Therefore, the foot, being in constant motion, does not experience additional loads, which ensures comfort when walking and does not cause pain, since the biomechanical parameters of walking are optimized and the spine occupies an upright position.

EFFECT: the possibility of changing the mechanics of the impact of the foot on the liner, which provides mobility to the liner along with the foot when walking.

8 cl, 8 dwg, 6 ex

Description

Orthopedic liner to compensate for shortening of the lower limb refers to prosthetic and orthopedic (rehabilitation) products and can be used in the creation of various elements of lift therapy: for the manufacture of the sole of new shoes; for additional inserts for increasing the height already in finished shoe soles; to increase the flexibility of the insole, etc. in the manufacture of shoes for a wide range of purposes (for example, indoor shoes, gym classes, yoga, ballet and ballroom dancing) for all age groups of users.

Known orthopedic liner to compensate for the shortening of the lower limb (utility model patent, RU 187728, IPC A41V 7/00, pub. 03/15/2019), including a rigid orthopedic part, while it is made in the form of a solid sole, the length of which corresponds to the length of the foot, and the height from the side of the heel is equal to the difference in the lengths of the legs (i.e., it is made with a bevel), while the part of the liner in the shank part of the foot is made with through holes, the diameter of which and the distance between the centers of the holes are determined by the weight of the person.

However, the beveled insert does not compensate for the shortening along the entire length of the foot and has insufficient bending deformation, as a result of which the sole on the shorter leg does not stretch in proportion to the size of the shortening, the foot does not bend as much as possible identically to the foot on the long leg, which significantly reduces the rehabilitation characteristics: gait (“pulling” the leg, overloading the toe of the foot) and posture (transfer of support, leaning forward), as well as the choice of shoes and movements in a person with shortening is significantly reduced, which negatively affects all areas of life in general, in particular, his psycho-emotional state, may affect the performance and choice of profession.

Known adopted as a prototype orthopedic liner for a shortened lower limb, made of plastic, the length and width of which correspond to the length and width of the sole in the respective areas, and the height is determined by shortening, while on the entire flat surface of the liner, vertical through holes with a diameter of 12-20 mm are made, matching in size (cellular technology) (https://www.pinterest.com, Honeycombing Service | Basic shoes, Legs, Orthopedic). Instep modifications for different leg lengths using honeycomb technology allow for shortening along the entire length of the foot and make the shoe lighter in weight and more flexible.

However, as in the above analog, the liner adopted as a prototype does not have sufficient bending deformation, as a result of which it has the same disadvantages: the sole on a shorter leg does not stretch in proportion to the size of the shortening, and the foot does not bend, gait is disturbed (leg pulling ) and posture (support transfer), which also significantly reduces the choice of shoes and movements in a person with a shortening.

The present invention solves the problem of developing an insert design for making shoes for lift therapy more flexible, while reducing the difference in weight between the soles on the long and short legs, which leads to a better restoration of the anatomical functions of the foot and the body as a whole when walking and moving.

The problem is solved by creating an orthopedic insert to compensate for the shortening of the lower limb, the length and width of which correspond to the length and width of the sole in the respective areas, the height is determined by the shortening, and in the thickness of which through holes are made, the novelty of which lies in the fact that the through holes are made in the sides liner, and have a rounded shape, and on the side of the liner facing the sole, cuts are made along these through holes until they are connected to them, while the liner is provided with an elastic fixation element for compression and stretching.

The element of elastic fixation of compression and stretching can be located both inside the liner and/or along its outer surface.

If it is necessary to strengthen its functions or the insufficient qualities of the material at hand, it can be arranged in one or more rows or layers.

For similar tasks, the element of elastic fixation of compression and stretching can be made of one or more of any materials that have the specified function.

Textile or dense shoe elastic, elastic jeans, leather, rubber, etc. can be taken as the material of the element of elastic fixation of compression and stretching.

Notches to through holes can be made at an angle to them.

To create space for reverse bending, additional slots are made at the places where the incisions are made, while maintaining the protective function of the rounded surface of the adjacent through hole.

To lighten weight and increase flexibility, for example, with a large shortening of the leg and / or a large shoe size, a second or more row of holes can additionally be made in the side surface of the liner, which can be both through and blind.

To lighten the weight and increase the flexibility of the top layer while maintaining the rigidity of the liner, non-through holes (recesses) can be additionally made on its upper side with the removal of the liner material, not reaching the through holes through the side surfaces.

The technical result of the claimed invention is the possibility of changing the mechanics of the impact of the foot on the liner, which ensures the mobility of the liner together with the foot when walking. Thus, the foot, being in constant motion, does not experience additional loads, which ensures comfort when walking and does not cause pain, since the biomechanical parameters of walking are optimized and the spine takes a vertical position.

An analysis of known technical solutions allows us to conclude that the proposed invention is not known from the state of the art, which indicates its compliance with the criterion of "novelty".

The essence of the present invention for specialists does not follow explicitly from the prior art, which allows us to conclude that it meets the criterion of "inventive step".

The possibility of making the liner using standard tools with the achievement of the task at hand indicates the compliance of the invention with the criterion of "industrial applicability".

On FIG. 1 is a photograph showing the principle of opening and operation of the rounded through holes of an insert made in accordance with the invention.

On FIG. 2 shows a photo demonstrating the flexibility of the proposed liner in the foot fold zone during a step (without external elastic fixation) with a load of 6 kg

On FIG. 3 shows the internal elastic fixation element

On FIG. 4 shows a photo of the insert with notches applied at an angle (side view).

On FIG. 5 shows a photo of a natural rubber liner with additional slots at the cuts.

On FIG. 6 is a photo showing the curling of the liner from photo 5.

On FIG. 7 shows a photo of the insert, on the side surface of which the second row of holes is made.

On FIG. 8 shows a comparison of the flexibility of the proposed liner (A) and the prototype with "honeycomb holes" (B) at a load of 6 kg

The following examples confirm, but do not limit, the present invention.

materials

The liner material can be any solid material that will allow the invention to be carried out. Ethylene vinyl acetate (EVA) is currently the most commonly used for lift therapy. Natural rubber, dense foam sports shoes, leather, etc. can be used.

Textile or dense shoe gum, elastic jeans fabric, leather, rubber, etc. can be taken as the material of the elastic compression fixation element.

Tools

Holes, recesses and cuts are made with standard screwdriver bits and a construction or shoe knife.

Example 1. Manufacture of an insert with through holes in the sides and the location of the element of elastic fixation of compression and tension inside the insert.

A workpiece of the required size and height is created from a solid material, which is taken as ethylene vinyl acetate (EVA) and through holes with a diameter of 5 mm are made on its side at a distance of 1.5 cm from each other. At the same time, to increase the life of the liner, the holes are positioned so that at least 1 cm remains to the edge of the workpiece. After that, vertical cuts are made along these through holes on the side of the liner facing the sole until they are connected to them.

To supply the liner with an elastic compression and tension fixation element located inside the liner, a through horizontal slot is made in the liner for the width of the elastic fixation element and a specified element is inserted into it, which is taken as a dense shoe gum and its ends are fixed in the made slot.

Incisions and holes, additionally fixed with wide reinforced rubber bands, allow the sole to open during the step (see Fig. 1, which demonstrates the principle of opening the liner and the operation of rounded through holes) and immediately return to its original position. Through transverse rounded holes in the side surface prevent the EVA material from tearing and additionally lighten the weight of the liner itself.

The resulting liner has increased flexibility in the fold of the foot during stride, as evidenced by the photo showing its flexibility with a load of 6 kg (Fig. 2). The location of the elastic fixation element inside the liner is shown in Fig. 3.

As can be seen from the above photos, the resulting orthopedic liner has maximum flexibility, compared with the prototype, achieved by lengthening the surface of the liner of the proposed design.

The element of elastic fixation of compression and stretching is also made from the outside of several materials, for example, thinner and lighter textile elastic and elastic leather.

Example 2 Production of a natural rubber liner with notches at an angle to the through holes.

Just as in example one, a blank of the desired size and height is created from a solid material, which is taken as natural rubber. After that, on the side of the liner facing the sole, cuts are made at a distance of 0.9 cm from each other at an angle to the through holes in the side surface of the workpiece with a diameter of 3 mm until they are connected to them.

To locate the elastic fixation element inside the liner, the liner can be assembled piece by piece like a puzzle, or printed on a 3D printer.

This implementation of the liner (Fig. 4) allows you to increase its flexibility.

For more reliable protection of the openings from excessive stretching, protection from water and dirt, as well as a more aesthetically good appearance when opening and greater lateral twisting, the incision lines can be applied not strictly parallel to the surface, but at an angle to each other, not strictly vertically, but diagonally, and also quite often along the entire length of the liner.

Example 3 Manufacture of a natural rubber liner with additional slits at the incisions.

The same as in example 1, only for the possibility of using an insert for shoes that allows you to bend the foot “away from you”, as in ballet and gymnastics, to create space for reverse bending at the places where the incisions are made, additional slots are made while maintaining the protective function of the rounded surface of the adjacent through holes (Fig. 5), allowing the liner to be easily twisted in a spiral (Fig. 6).

Example 4. Manufacture of an insert with the location of the element of elastic fixation of compression and stretching both inside and along its side surface.

The same as in example 1, only the element of elastic fixation of compression and stretching is located both inside and along its lateral surface and is made of an elastic band of suitable width, length, color and density. The material is glued from the outside so that the glue does not interfere with the opening of the workpiece in the places of cuts.

The elastic will close all cuts and holes from dirt, provide contraction in the places of cuts and create an aesthetically pleasing look.

The use of leather, the same type and color as the shoe itself, smoothes out the externally extended part, and also makes it easier to care for the shoes.

Example 5. Manufacture of an insert with a second row of holes in its side.

The same as in example 1, only to lighten the weight with a large shortening of the leg and / or a large shoe size, a second row of holes is additionally made in the side surface of the liner with a height of 45 mm (Fig. 7), which can be both through and deaf. The removal of the material reduces the overall weight of the liner, which has a positive effect on the load on all parts of the foot and gait. If necessary, the number of rows on the side of the insert can be increased.

Example 6

The same as in example 1, only on the upper side of the liner, non-through holes (recesses) are additionally made with the removal of the liner material, not reaching the through holes through the side surfaces and to the element of elastic fixation of compression and tension of 5-10 mm.

The presence of voids not only reduces the overall weight of the liner, which has a positive effect on the load on all parts of the foot and gait, but also allows the upper layer to compress inward at the recesses during the step, which increases the elasticity of this layer.

As can be seen from the above examples, the resulting orthopedic liner has maximum flexibility compared to the prototype, achieved by lengthening the surface of the liner of the proposed design, which is also illustrated in Fig. 8, which compares the flexibility of the proposed liner (A) (elastic band inside and out, straight cuts, notches, hole diameter 6 mm) and a prototype with "honeycomb holes" (B) at a load of 6 kg (EVA shore hardness, size and height are identical). The difference in weight between the earbuds is 34 grams.

The proposed design of the liner has been used to make the sole of shoes for a wide range of purposes, such as indoor shoes, gym activities, ballet, ballroom dancing, aerobics, yoga, indoor jumping and running, stair walking for all age groups of users and tested on volunteers .

The tests carried out showed: corns go away, the uniform distribution of the load is confirmed by the ability to stand on one foot, as well as a decrease in the uneven abrasion of the insole.

This achieves the following goals:

- correct formation of the articular surfaces of the musculoskeletal system

- construction of anatomically correct reference axial lines

- Adjustment of muscle tone and improved feedback

- balance and posture control

- increasing physical endurance and relieving stress from constant adaptation, both physical and psycho-emotional.

Thus, the foot, being in constant motion, does not experience additional loads, which ensures comfort when walking and does not cause pain, since the biomechanical indicators of walking are optimized, the occurrence of pain in adjacent joints and the spine is excluded, the spine occupies a vertical position.

Claims (8)

1. Orthopedic liner to compensate for the shortening of the lower limb, the length and width of which correspond to the length and width of the sole in the respective areas, the height is determined by the shortening, and in the thickness of which through holes are made, characterized in that the through holes are made in the sides of the liner and have a rounded shape , and on the side of the liner facing the sole, cuts are made along these through holes to connect with them, while the liner is provided with an elastic fixation element for compression and stretching. 2. Orthopedic liner according to claim 1, characterized in that the element of elastic fixation of compression and stretching is located inside the liner and/or along its outer surface. 3. Orthopedic liner according to claim. 1, characterized in that the element of elastic fixation of compression and stretching is located in at least one row or layer. 4. Orthopedic insert according to claim. 1, characterized in that the element of elastic fixation of compression and stretching is made of at least one material that has the specified function. 5. Orthopedic insert according to claim 4, characterized in that textile or shoe gum, fabric, leather, rubber can be taken as the material of the elastic fixation element for compression and stretching. 6. Orthopedic liner according to claim 1, characterized in that additional slots are made at the incision sites while maintaining the protective function of the rounded surface of the adjacent through hole. 7. Orthopedic liner according to claim 1, characterized in that a second or more row of holes is additionally made in the lateral surface of the liner, which can be both through and deaf. 8. Orthopedic liner according to claim 1, characterized in that, additionally, non-through holes can be made on its upper side with the removal of the liner material, not reaching the through holes through the side surfaces.

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