RU2654651C1 - Individual orthopedic insole and method of its manufacture - Google Patents

Abstract

FIELD: personal usage items.

SUBSTANCE: invention relates to a method for manufacturing an individual orthopedic insoles, so that the blank insole is prepared, the geometric parameters of which are suitable for the shoe chosen by the person, in the corresponding area of which a pocket is formed and filled with a polymerizable composition, after which the received blank insole is placed in the selected footwear, and a human foot is placed on it and a foot is fixed in this shoe, maintaining it in this position for the time necessary to polymerize the composition, forming a support in the finished insole to maintain the corresponding portion of the foot.

EFFECT: technical result of the invention consists in simplifying the method and reducing the manufacturing time of individual orthopedic insoles characterized by increased performance properties.

9 cl, 3 dwg

Description

The group of inventions relates to medicine, namely to orthopedics, as well as to the shoe industry, and can be used in the manufacture of individual orthopedic insoles with the support of both longitudinal and transverse arch of the foot, both in orthopedic clinics and directly in specialized shoe stores.

A known method of manufacturing an individual model of the foot, providing for the formation of negativity and positiveness of the sole surface from a loose molding material enclosed in an elastic airtight shell under vacuum hardening with individual consideration of the influence of the shape of the inner supporting surface of specific shoes on the anatomical correction of the arch of the foot (RU 2064295, class A61F 5 / 14, published on July 27, 1996).

The aforementioned method of manufacturing insoles is rather laborious, long-lasting, and in the described form effective in relation to cases of fixed deformations of the feet.

This method is very difficult to use in cases of less pronounced pathology, for prophylactic purposes, and also if necessary, the replication of products.

Known orthopedic insole arch support containing a support element in the middle part of the insole along its longitudinal axis, made of thermoplastic polymer and poured onto a flexible, pre-softened polymer plate through the sprue channel of the mold (RU 148057, class A61P 5/14, published 20.11 .2014).

This solution provides a reliable design of the insole, but is only feasible within the production process, requiring special equipment, in particular injection molds, which significantly increases the cost of the entire insole manufacturing process.

In addition, the well-known insole does not provide for individual characteristics of the feet of the consumer, in particular, it does not provide treatment for longitudinal flat feet.

At the same time, an orthopedic training insole for treating patients with longitudinal flatfoot is known, containing a spring tubercle made of an elastic resilient filler (RU 66191, class A61F 5/14, published September 10, 2007).

This insole can help patients with longitudinal flat feet, but it is also performed without taking into account the individual characteristics of their feet.

An individual orthopedic insole and method of its manufacture are also known, in which the blank of the insole is heated to a plastic state and modeled on the user's foot until it completely hardens (RU 2306118, class A61F 5/14, published on September 20, 2007).

A disadvantage of the known solution is the need for a special operation to soften the material of the insole blank before modeling it on the user's foot, which, accordingly, requires the presence of special equipment and lengthens the process of manufacturing the insole. In addition, this solution does not adequately support the longitudinal arch of the user's foot.

The objective of the invention is to provide the ability to produce orthopedic insoles, taking into account the individual anatomical and functional features of the feet of the patient for a relatively short time without the use of time-consuming and overall equipment.

The technical result for the object "method" is to simplify the process and reduce the manufacturing time of individual insoles.

The technical result for the object "insole" is to increase its operational properties and ensure durability.

The proposed method for manufacturing an individual orthopedic insole consists in selecting a blank for the insole, the geometric parameters of which are suitable for shoes chosen by a person. A pocket is formed in the corresponding region of this insole, which is filled with a polymerizable composition. After that, the obtained insole blank is installed in the selected shoes, and a person’s foot is placed on it and the foot is fixed in this shoe, keeping it in this position for the time necessary for the polymerization of this composition to form a support in the finished insole to support the corresponding part of the foot.

Filling the pocket of the insole blank with a polymerizable composition is carried out using a syringe containing two separately located components of this composition.

The installation of the insole blank and the location and fixation of the foot in the shoe are carried out as quickly as possible, mainly within 1-2 minutes.

Fixation of the foot in the shoe is carried out using the fasteners of the shoes chosen by the person, such as: laces, buttons, buckles, etc.

The foot holding time in the shoe is the polymerization time of the composition, approximately 10-15 minutes.

In the proposed method, a blank of the insole can be used, the pocket of which is formed in its gelena region or jointly in its gelena and calcaneal regions.

If necessary, in order to obtain a more uniform structure, the insole obtained is passed through a roller press.

The proposed individual orthopedic insole is obtained by the above method, at least a portion of the upper layer of the insole facing the foot and forming the wall of the pocket is made of elastic material, and the lower layer of the insole is made of wear-resistant, more rigid than the upper layer material.

The invention is illustrated in the drawing, where in FIG. 1 is a schematic illustration of an insole according to a first embodiment; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is an insole according to a second embodiment.

The contour of the finished insole 1 has a standard appearance. A pocket 2.1 (Fig. 1) or 2.2 (Fig. 3) having an inlet with an adapter valve 3 for connecting with a syringe is formed in its middle (gelenic) region. The adapter valve is made of flexible polyurethane or silicone.

Pocket 2 on the one hand is limited by the inner edge of the insole, and on the other, it can have a different configuration (shown by a dashed line in the drawing) depending on the pathology of the feet of the person (patient). In addition to the gel area, the pocket cavity may include the heel area of the insole (Fig. 3).

As a result of filling the pocket with a polymer composition, such as foamed polyurethane, on the surface of the insole facing the human foot, an elastic-elastic support 4 (Fig. 2) of polyurethane foam is formed, which in the process of solidification of the polymer composition takes the form of the sole of the foot. In the future, when operating shoes, this support helps support the foot, for example, its longitudinal arch.

In an embodiment, insoles with a pocket, including and in the heel region, in the process of implementing the proposed method after curing the polymerizable composition in this area forms a deep heel cup, firmly holding the foot and allowing the heel to be in the correct position.

The upper layer of the proposed insole, facing the foot, can be made of materials such as: natural or artificial leather; or dense, such as cotton, fabric; or non-woven artificial material with a density of 30-80 kg / m ³ ; or natural cork with a density of 40-80 kg / m ³ ; or foamed latex with a density of 40-80 kg / m ³ or others.

The upper layer of the proposed insole may be a combination of two materials. So, for obvious reasons, the part of this layer that forms the wall of the pocket 2 is made of a more elastic (tensile) material than the rest of this layer.

The bottom layer of the insole is made of a flexible and durable artificial material, partially performing a frame function in shoes, such as, for example: a polymeric material, with a hardness of 20-50A Shore and a density of 1-1.07 g / cm ³ ; or foamed polyurethane, with a density of 100-400 kg / m ³ ; or non-woven artificial material with a density of 100-400 kg / m ³ , or others.

The insole can be made of the two above-mentioned layers or have an additional intermediate layer made of a porous elastic material with moisture-absorbing properties, such as, for example, foam rubber. For the first embodiment of the insole, this material is located mainly in the forefoot 5 and calcaneal 6 regions of the insole (Fig. 2), for the second embodiment, it is mainly in the forefoot area of the insole.

In practice, the proposed insole can be made in specialized shoe stores equipped with blanks of insoles of the proposed design for shoes of various types and syringes with components of the polymer composition, or in orthopedic clinics.

In an orthopedic clinic, the proposed method is as follows.

An orthopedic surgeon, having studied the patient’s medical file and familiarized with the individual characteristics of his foot, places the patient on a chair, placing the patient’s legs at right angles to the floor. Then he selects the most suitable piece of orthopedic insole for the patient’s personal shoes. Further, based on the individual characteristics of the foot and the patient’s indications, the orthopedic surgeon selects a syringe with a suitable polymer composition in density and connects it to the adapter valve installed in the inlet of the insole blank pocket. To start the polymerization process, the orthopedic surgeon, with one long press on the piston, squeezes both components of the polymerizable composition separately located in the syringe into the cavity of the insole pocket. Both of these components are mixed together in a syringe before injecting them into the insole pocket. Having disconnected the syringe from the insole adapter valve, the doctor must have time to insert the insole blank into the inside of the shoe within two minutes. The foot of the patient is placed on top of the insole and the shoes are fastened. After ten minutes, you can release the patient’s foot from the shoe. The insole for the second foot of the patient is made in a similar manner.

The manufacturing time of the set of the proposed insoles is 25-30 minutes.

The density of the components of the polymer composition is selected at the place of manufacture of the insole, based on the characteristics of the body weight and structure of the human foot. Two components of the polymer composition are located separately in the syringe to provide mobile operation in any conditions and their longer storage until use. When implementing the method, they are mixed, forming a single composition.

After making both insoles, a person is asked to comment on the sensations received.

The proposed orthopedic insole comprehensively allows you to cope with the problem of “corns”, “spurs”, “bones” and omitted longitudinal and transverse arches of the foot, as well as blocking and / or tucking of the foot.

A correctly selected insole is able to change the biomechanics of the foot, forcing the "right" muscles involved in the formation of the correct gait and posture.

Special correction using the proposed insoles allows you to eliminate violations of the axial deviations of the musculoskeletal system due to the proportional distribution of the person’s weight on both legs, and also relieves pain in the knees, lumbar, thoracic and cervical spine.

The proposed orthopedic insole can be used by children and adults for both therapeutic and prophylactic purposes, and is also suitable for people who spend a long time on their feet. It is suitable for use in seasonal, model, sports and other types of shoes. In practice, the period of use of such insoles without significant changes in their design is 1.5 years or more.

Claims (10)

1. A method of manufacturing an individual orthopedic insole, which consists in selecting a blank of the insole, the geometric parameters of which are suitable for shoes chosen by a person in the corresponding region of which a pocket is formed, filling the pocket with a polymerizable composition, after which the resulting blank of the insole is installed in the selected shoes, and they place the foot of a person and fix the foot in this shoe, keeping it in this position for the time necessary for the polymerization of this composition to form I eat in the finished insole support for the maintenance of the relevant part of the foot. 2. The method according to p. 1, characterized in that the filling of the insole blank pocket is carried out using a syringe containing two separately located components of the polymerizable composition. 3. The method according to p. 1, characterized in that the installation of the insole blanks and the location and fixation of the foot in the shoes is carried out within 1-2 minutes. 4. The method according to p. 1, characterized in that the fixation of the foot in the shoes is carried out using shoe fasteners. 5. The method according to p. 1, characterized in that the aging time of the foot in the shoes is 10-15 minutes. 6. The method according to p. 1, characterized in that they use a blank of the insole, a pocket in which is formed in its gelena area. 7. The method according to p. 1, characterized in that they use a blank of the insole, a pocket in which is formed in its gel and heel areas. 8. The method according to p. 1, characterized in that the resulting insole is compacted by passing it through a roller press. 9. Individual orthopedic insole obtained by the method according to paragraphs. 1-8, at least part of the upper layer of which is facing the foot and  forming the wall of the pocket is made of elastic material, and the bottom layer is made of wear-resistant, more rigid than the top layer material.

Images