WO2023059217A1

WO2023059217A1 - Orthopaedic insole

Info

Publication number: WO2023059217A1
Application number: PCT/RU2021/000509
Authority: WO
Inventors: Заурбий Хамидович ХАМОКОВ; Виктор Геннадиевич ПРОЦКО; Эльмар Маисович СУЛТАНОВ
Original assignee: Заурбий Хамидович ХАМОКОВ; Виктор Геннадиевич ПРОЦКО; Эльмар Маисович СУЛТАНОВ
Priority date: 2021-10-08
Filing date: 2021-11-16
Publication date: 2023-04-13

Abstract

The invention relates to light industry and can be used in the manufacture of insoles for sporting, therapeutic and day-to-day footwear, which alleviate pressure in blister and callus formation regions on the underside of the foot. The desired technical effect, consisting in the creation of an insole that provides improved prophylactic and treatment efficacy by alleviating pressure on blister and callus formation regions on the underside of the foot while also being comfortable to wear, is achieved in an orthopaedic insole comprising an upper layer of a material acting as an upper coating of the orthopaedic insole, and a lower layer that is either flat or in the form of a contoured bed of the orthopaedic insole, in addition to an intermediate layer containing polygonal cells arranged flush with one another and glued to the upper or lower layer by a mild adhesive that allows for the removal of one or more cells in blister and/or callus formation regions on the underside of the foot where pressure relief is required, or for the replacement of cells with cells of the same shape but of a lesser density or a greater thickness.

Description

Orthopedic insole

The invention relates to light industry and can be used in the manufacture of insoles for sports, medical and casual shoes, providing relief from calluses and corns on the plantar surface of the foot.

Known collapsible shoes [RU 63185, Ul, A43V 3/24, 27.05.2007], containing the sole and upper, made in the form of detachable parts with attachment means, and the sole is made transformable with the possibility of changing the size, and the upper consists of two parts, connected, for example, by Velcro.

The disadvantage of this technical solution is the relatively low prophylactic and therapeutic efficiency, since it does not provide unloading of calluses and corns zones of the plantar surface of the foot.

Also known is an insole [RU 2729536, Cl, A43V 3/24, 08/07/2020], cut from chrome leather with various coatings, while the insole corresponds in shape to the main insole, improves the appearance of the inner surface of the shoe, is hygienic and protects the foot from irregularities of the main insole, and includes a model of the interaction of the foot and the insole with a built and defined friction force connecting them, providing a regulated expansion of the arch and stopping the movement of the forefoot in a given range, processing the established zones of the surface of the insole by methods of ruffling and impact nonequilibrium low-temperature plasma

SUBSTITUTE SHEET (RULE 261 to achieve the calculated values of the coefficients of friction, allowing the program of movement of the forefoot on the cushioning insole, and preventing the entire foot from slipping on the insole.

The disadvantage of this technical solution is also a relatively low prophylactic and therapeutic efficiency, since it does not provide unloading of calluses and corns zones of the plantar surface of the foot.

The closest technical solution to the proposed one is a universal insole [RU 2104664, Cl, А43В 17/06, 20.02.1998], containing the lower and upper plates, between which, with the possibility of static preload, an elastic element is installed in the form of a system of twisted springs, moreover, the upper plate it is cut and made up of patterns of orthopedic templates of typical sections of the sole of the foot, the patterns are sewn to the bottom plate with the formation of corrugations of different heights and pitches, equidistantly displaying the profile of the sole of the foot in the aggregate, the corrugations are divided by perpendicularly stitched lines into square-nested elements, and the twisted springs are made conical , coils of different heights with equal stiffness and individually and with the same static preload, are placed in square nested elements, while the side of the square nested element is equal to the diameter of the large base of the conical spring.

The disadvantage of the closest technical solution is the relatively low prophylactic and therapeutic efficiency, since it does not provide unloading of calluses and corns zones of the plantar surface of the foot, which differ in size and position on the foot, and, in a number of practical cases, change their position on the foot.

The objective of the invention is to develop a universal orthopedic insole, which is characterized by high prophylactic and therapeutic efficiency and provides relief in the areas of calluses,

SUBSTITUTE SHEET (RULE 26) corns and other defects on the plantar surface of the foot, differing in size and location.

The desired technical result is to increase the preventive and therapeutic effectiveness of the insole.

The problem is solved, and the required technical result is achieved by the fact that in the orthopedic insole, containing the upper layer of the material of the upper cover of the orthopedic insole, and the lower layer, made either flat or in the form of a shaping frame of the orthopedic insole, according to the invention, an interinsole layer is introduced, containing multifaceted cells placed tightly to each other and glued to the upper or lower layer with moderate fixation adhesive, which allows one or more cells to be removed in the areas of calluses and / or corns of the plantar surface of the foot necessary for unloading, or replaced with cells of the same shape, but with less density or greater thickness.

In addition, the required technical result is achieved by the fact that the polyhedral cells have either a trihedral, or a tetrahedral, or a five-sided or a six-sided, or a seven-sided, or an octagonal shape.

In addition, the required technical result is achieved by the fact that the dimensions of the faces of the polyhedral cells have dimensions from 3 mm to 20 mm.

In addition, the required technical result is achieved by the fact that the thickness of the multifaceted cells is from 2 mm to 8 mm.

In addition, the required technical result is achieved by the fact that multifaceted cells are made from an ethylene-vinyl acetate copolymer.

The drawing shows an example of an orthopedic insole for a particular case of performing an insole layer of hexagonal cells.

The orthopedic insole contains a lower layer 1 with an applied adhesive film and an upper layer 2 with a special cellular intersole layer 3 glued onto it.

SUBSTITUTE SHEET (RULE 26) moderate fixation, which makes it possible to remove multifaceted cells 4 in the zones 5 of callosities and/or corns of the plantar surface of the foot necessary for unloading, and after removing the cells, the layers are glued to each other. Polyhedral cells 4 may have, mainly, or trihedral, or tetrahedral, or five-sided or hexagonal, or seven-sided, or octagonal shape, and the intersole layer can be made from a combination of polyhedral cells of various shapes. The dimensions of the faces of the polyhedral cells range from 3 mm to 20 mm, and the thickness of the polyhedral cells ranges from 2 mm to 8 mm.

The polyhedral cells themselves can be made from ethylene-vinyl acetate copolymer, and various types of adhesives with high residual tack can be used as a medium-hold adhesive, for example, Art. OCRA TWIN SET KST 19000 or Art. TWINKIT Verde KST 5123B manufactured by ALC Tecnologie Adesive s.r.l (Italy). High residual tack is characterized by the fact that the surfaces to be glued are fixed to each other firmly enough for the layers to hold together under mechanical action, but not so strongly that, if necessary, these layers can be separated from each other manually.

An orthopedic insole is used as follows.

The orthopedic insole is intended for use in footwear. If there are calluses and/or corns or other damages and violations of the surface structure on the plantar surface of the foot in zone 5, the user can remove multifaceted cells 4 in these zones 5 in order to unload these zones or use an insole with already removed cells. Thus, unloading is achieved by placing a special inter-insole layer in the finished or individual orthopedic insole, which is located between the flat bottom layer or the shaping frame (layer) on the underside and the material of the upper covering of the orthopedic insole.

SUBSTITUTE SHEET (RULE 26) The intersole layer consists of cells of triangular, tetrahedral, five-sided, hexagonal and seven-sided, octahedral and more complex shapes. The dimensions of the edges can vary from 3 mm to 20 mm. The thickness of the material can also be different and range from 2 mm to 8 mm. The intersole honeycomb layer can be made from an ethylene-vinyl acetate (EVA) copolymer.

Polyhedral cells 4 are located close to each other. Cells are glued with glue providing moderate fixation. This fixation allows you to remove one or more cells in the places necessary for unloading the foot. Removing the cells creates space under the problem area of the foot. Free space minimizes the detrimental pressure effect of a person's weight when walking on the area of corns or calluses and creates the prerequisites for the healing of problem areas of the plantar surface. In place of the removed cells, if necessary, it is possible to place cells of the same shape, but with a lower density of the cell material, which will provide more gentle unloading of the problem area.

If it is necessary to raise a certain section of the foot, one or more previously prepared cells of the same shape, but with a greater height, can be placed in place of one or more removed cells.

Such a wide variability of unloading makes this insole universal.

The orthopedic insole can be supplied separately, when the top and bottom layers of the insole are included separately. A special intersole cellular layer in one version can be glued to the upper material, and the bottom layer is covered with an adhesive film. The special inter-insole cellular layer in the second version is glued to the bottom material, and the top layer in this version is covered with an adhesive film. After removing the cells from the inter-insole layer at the unloading points, the upper and lower material is glued together.

SUBSTITUTE SHEET (RULE 26) The package of insoles may include a transverse insert with an applied adhesive film. If it is necessary to support the transverse arch of the foot, it is necessary to remove the paper protective layer, place the insert in the projection of the transverse arch of the foot and glue by pressing the insert to the bottom layer of the insole. The package of insoles with an unloading inter-insole layer includes:

Execution variant 1. Separately, the upper insole with an inter-insole cellular layer glued on it and the lower layer with an adhesive film applied.

Version 2. Separately, the upper insole with an adhesive layer applied and the lower insole layer with an inter-insole cellular layer glued on it.

The top cover is predominantly made from natural vegetable tanned leather or artificial materials approved for use as contact with the surface of human skin. The adhesive coating, depending on the version, is located between the upper insole and the paper protective layer, or between the lower protective layer and the paper protective layer. After removing the paper layer, it is necessary to glue the insole by pressing the adhesive side against the inter-insole layer. After gluing the layers together, the product is ready for use. It can be inserted into shoes and worn, enjoying the feeling of comfort and painlessness.

Thus, in the proposed technical solution, the required technical result is achieved, which consists in increasing the preventive and therapeutic effectiveness of the insole, which ensures unloading or increasing the load in the areas of calluses, awns, corns and other defects on the plantar surface of the foot, which differ in size and position on the foot.

SUBSTITUTE SHEET (RULE 26)

Claims

Claim

1. An orthopedic insole containing an upper layer of the material of the upper covering of the orthopedic insole, and a lower layer made either flat or in the form of a shaping frame of an orthopedic insole, characterized in that an interinsole layer is introduced containing polyhedral cells placed tightly to each other and glued to the upper or lower layer with an adhesive with moderate fixation, which allows one or more cells to be removed in the areas of calluses and / or corns of the plantar surface of the foot necessary for unloading, or replaced with cells of the same shape, but with a lower density of the cell material or with a greater thickness .

2. Orthopedic insole according to claim 1, characterized in that the polyhedral cells are either triangular, or tetrahedral, or pentagonal, or hexagonal, or seven-sided, or octagonal in shape.

3. Orthopedic insole according to claim 1, characterized in that the dimensions of the faces of the polyhedral cells have dimensions from 3 mm to 20 mm.

4. Orthopedic insole according to claim 1, characterized in that the thickness of the multifaceted cells is from 2 mm to 8 mm.

5. Orthopedic insole according to claim 1, characterized in that the multifaceted cells are made from an ethylene-vinyl acetate copolymer.

SUBSTITUTE SHEET (RULE 26)