RU174658U1 - Shoe insole for shoes - Google Patents

Abstract

The utility model relates to the shoe industry. A footbed insole for shoes will have a base with a lay-out of the longitudinal arch of the foot located in the area of the arch of the foot, and inserts located under the phalanges of the fingers and the heel region, respectively. The base is made flat, and the calculation of the longitudinal arch of the foot is made in the form of instep support and is mounted on a flat base. The insert in the heel region is made with a centrally located hole. The base is made of foamed latex on a one-sided self-adhesive base having the effect of "slow drowning", with the adhesive layer located on the side of its gluing to the surface of the footprint of the shoe, the laying and inserts on the base are made of foamed latex on a one-sided self-adhesive base having the effect of "slow drowning" for attaching the adhesive side to the base. The calculation and inserts on top are covered with material directly in contact with the foot of a person. 2 ill.

Description

The utility model relates to the footwear industry, namely to the designs of insoles that are designed for any shoe, both casual and sports. In addition, the utility model may also relate to medical equipment, in particular to the prosthetic and orthopedic industry, and relates to the manufacture of inset therapeutic and preventive insoles with elements of orthopedics.

The human foot is a structure consisting of 26 bones, 33 joints, about 20 muscles, 107 ligaments, many cartilages and tendons. There are only two large bones in the foot - the heel and the talus. They form a vault. All bones are connected to each other in the joints. Doctors distinguish between the ankle connecting the shin and foot, the subtalar joint - from the heel to the talus of the leg (it provides our ability to turn the foot in and out), similar to the subtalar, sphenoid-shaped joint, metatarsophalangeal joints, interphalangeal joints. All bones and joints envelop the tendons and muscles. Flexion and extension of the limbs occurs with their help. Healthy tissues are elastic and strong. They have the ability to stretch. As you can see, the foot is a cushioning system for the whole body. Failure or malfunction of any element of the system can lead to various diseases and even to a loss of ability to move.

The first sign of the disease is pain in any part of the leg, which is worse when walking. It can be accompanied by swelling and inflammation of both the foot and the entire leg. The most common diseases of the foot: calluses (often formed on the feet and toes, appear under the influence of large loads and strong pressure), corns (inherently similar to calluses, are formed on the foot, heels, big toe and plantar surface of the foot), flat feet ( this pathology of the arches of the foot, in which they experience discomfort during movement and weight), the heel spur (formed as a result of salt growths in the calcaneus), As a result of inflammation of the connective tissue in the head region of the first Metatarsal bones appear sharp pain when walking or standing), colloquially - a bone (hallux valgus deformity of the thumb, deformity of the foot, in which the thumb is deformed and begins to move to the side). The reasons are different - narrow shoes, mechanical stress, diseases. In any case, there is pain in the foot and discomfort during exertion.

Biomechanics of the foot significantly depends on the design of its arches. Distinguish longitudinal arches and transverse arch. A high or low longitudinal arch can be a variant of the norm, or it can be a sign of flat feet. But there may be a flattening of the arch of the longitudinal arch, while the foot “falls” onto the inner arch, the heel deviates back and out, which creates a torque that is transmitted to the ankle and knee joints. That is why flat feet is accompanied not only by discomfort in the foot, but also by unpleasant sensations in the ankle joint and in the knee.

Orthopedic insole is an orthopedic product, a modified insert insole for shoes, designed to maintain arches and to correct biomechanical foot disorders. All modern orthopedic insoles are built approximately the same. In the area of the inner arch, the arch support is modeled, a recess under the heel is modeled, the roll zone is raised, in the area of the transverse arch the metatarsal pillow is carefully formed.

For example, US 7322130 describes an insole containing a base with an arch support located in the arch area of the foot, and inserts in the forefoot and calcaneal region.

RU 2306118 describes a blank for an individual orthopedic insole cut out of flat material and provided with a wave-like protrusion to support the inner longitudinal arch of the foot, can be equipped with an insert for correcting the transverse flatfoot located in the front of the blank, also supplemented with a heel corrector located on the inside of the heel parts.

RU 137180 describes an orthopedic insole containing a silicone base with ventilation channels, equipped with silicone elements for unloading the calcaneus and forefoot, more elastic than the base.

In RU 35596, A61F 5/14, publ. 01/27/2004, an orthopedic insole for patients with diabetes mellitus is disclosed, comprising a base with an instep located in the area of the arch of the foot, and inserts located in the region of the heads of the metatarsal bones and the calcaneal region, respectively, with different inserts insoles made of materials having different elastic coefficients and with the ability to form, and the base with instep and inserts are made of silicone in the form of a monolithic body (this decision was made as a prototype).

The orthopedic insole for patients with diabetes mellitus contains a base with an arch support located in the area of the arch of the foot, and an insert. In front of the insole has a constant thickness less than the thickness of the insert in the heel region, and the inserts are located in the region of the heads of the metatarsal bones and the heel region, respectively. The inserts are made of silicone, have different elastic coefficients and have the ability to form. As the silicone from which the base is made, a silicone composition can be used, for example, “Waker”, “Rhodia”, “Bayer”.

The preheated silicone composition is placed in the mold during vulcanization. The inserts are made of materials with different coefficients of elasticity. In the manufacture of the insole, the mass is heated to a temperature at which the ductility of the insole blank materials and their adhesion to each other are achieved. In mass production, the silicone composition of predetermined elasticity prepared for the manufacture of insoles is poured into the appropriate technological equipment, which is then placed in a vulcanization cabinet for vulcanization at a temperature of 80-120 ° C, depending on the desired result, for 15-30 minutes.

The disadvantage of manufacturing any insole, consisting of a base on which the inserts are fixed (arch support in the area of the arch of the foot and inserts in the area of the heads of the metatarsal bones and calcaneus), is the complexity of the operations of bonding dissimilar materials. In the solution according to the prototype, heating, pouring, polymerization are used for this, it is necessary to withstand certain technological conditions and have specialized equipment for this. Another disadvantage is that to simplify the manufacturing process, generally accepted and accessible materials are used, which, having some properties, for example, elasticity, are not suitable for use in the product due to the fact that these properties are short-lived or do not fully meet the properties declared by the manufacturer. For example, the use of silicone as inserts due to its elasticity and elasticity in reality leads to the fact that the rate of decrease of the elastic component is so high that when using the user feels the insert, but does not feel its elasticity. In fact, such an insert turns into an elastic support, which, deforming in the insole under the load of the foot, shifts itself and takes a position that is convenient for it, and not for the user.

This utility model is aimed at achieving a technical result, which consists in increasing the durability of the insole and enhancing comfortable sensations during its operation due to the optimal distribution of the load over the entire area of the foot and giving cushioning qualities.

The specified technical result is achieved by the fact that in the insert insole for shoes containing the base with the laying of the longitudinal arch of the foot located in the area of the arch of the foot, and the inserts located under the phalanges of the toes and the heel region, respectively, the base is flat and the layout of the longitudinal arch of the foot is made according to the shape of the instep and fixed on a flat base, the insert in the heel region is made with a centrally located hole, while the base is made of foam latex on one-sided an adhesive base having the effect of "slow drowning", with the adhesive layer on the side of gluing to the surface of the shoe trace, the laying and inserts on the base are made of foam latex on a one-sided self-adhesive base having the effect of "slow drowning" for the adhesive side to be attached to the base, and the laying and inserts on top are covered with material directly in contact with the foot of a person.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

This utility model is illustrated by a specific example of execution, which clearly demonstrates the possibility of achieving the desired technical result.

In FIG. 1 - general view of the insole, top view; in FIG. 2 is a side view of the gluing.

According to this utility model, the proposed multilayer anatomical insole with preventive elements of orthopedics allows you to optimally distribute the load over the entire foot area, improve the cushioning properties of the shoe and create a comfortable feeling during its operation.

In general, a footbed insole for shoes comprises a base with a lay-out of the longitudinal arch of the foot located in the region of the internal longitudinal arch of the foot, and inserts located under the phalanges of the toes and the heel region, respectively. The base is made flat, and the calculation of the longitudinal arch of the foot is made in the form of instep support and is mounted on a flat base. The insert in the heel region is made with a centrally located hole. The base is made of foamed latex on a one-sided self-adhesive base with the effect of "slow drowning", with the adhesive layer on the side of its gluing to the surface of the shoe trace, the laying and inserts on the base are made of foamed latex on a one-sided self-adhesive base having the effect of "slow drowning" , for attaching the adhesive side to the base. The calculation and inserts on top are covered with material directly in contact with the foot of a person.

Example of insole construction (Figs. 1 and 2).

The first layer 1 is the base and has a thickness of 2 mm, allows you to soften the inner surface of the shoe over the entire track.

The second layer consists of three parts that are glued to the soft base of the insole according to the marking, ensuring their correct location in the problem areas of the foot. This is the insertion and layout:

- the subdigital roller 2 2 mm thick is located under the interphalangeal joints of the fingers of the forefoot:

- heel cuff 3 with a round central hole 2 mm thick creates a recess for the heel of the foot, provides a comfortable heel position, relieves stress on the heel spurs and cushioning when walking;

- laying 4 of the longitudinal arch of the foot with a thickness of 5 mm raises the longitudinal arch of the foot, removing the load from it during the operation of the shoe.

Third layer 5. The material of this layer, directly in contact with the foot of a person, can be: natural lining leather, villi, natural or artificial fur with a wool content of at least 80%. The material of the upper layer is selected depending on the purpose and period of shoe wear - summer, winter, autumn, spring.

Insoles with an upper layer of lining genuine leather for shoes are glued into open and closed shoes on the leather lining with glue, which allows the insole to be fixed in the correct position, to avoid its displacement during operation. Insoles with a top layer of nap and fur are fixed on a layer of thin cardboard and stitched along the edge with a seam on a sewing machine. An additional layer of cardboard and a stitch will not allow the insole to move when worn, and if necessary, it can be easily removed from shoes and dried.

The design feature of this insert insole is that the base, inserts and laying are made of latex on a one-sided self-adhesive base, which has the effect of "slow drowning". This is a new modern material, which is produced in Europe as a filler using DuPont technology (Italy): 100% new polyesterfiber, 7 tex / 32 mm, EXTRA siliconised, marketed under the brand name "PIUMA". It has high dimensional stability and reduced shrinkage. It has the effect of “slow drowning”, that is, when a load is applied, the material slowly deforms for some time, taking an orthopedic shape along the load trace (Nobel website, “Materials used: PIUMA CHIPS”, http://nobelsofa.ru/polezny- e-materialy / ispol-zuemy-e-materialy-piuma-chips /).

The same “slow drowning” effect has the “Memory Foam” material - a special structure material that adapts to the shape of the body (polyurethane foam with additional chemicals, low-resilience polyurethane). Memory Foam is the invention of the NASA space program. This material proved to be in space flights - Memory Foam reduced the load of astronauts. Now the Memory Foam material has found application in the domestic sphere (the Nobel website, “Materials Used: MEMORY FOAM”, http://nobelsofa.ru/polezny-e-materialy/ispol-zuemy-e-materialy-memory-foam /). Memory Foam - environmentally friendly (controversial statement), hypoallergenic material is able to remember the shape of the body. Memory Foam adapts to the silhouette of a person lying on the mattress and, “remembering” it, does not push it out, does not exert reciprocal pressure on the body. As a result, an effect like “weightlessness” appears - a complete sense of comfort and the absence of any problems with the lack of blood supply to the vessels, which nothing squeezes. Memory Foam material has a porous structure - it consists of many cells. The open shape of the cells allows them to shrink. Under the influence of human weight and heat, the cells are compressed, and the material assumes the anatomical shape of the body. When this action is stopped, the material still retains the shape of the body contours for 3-4 s, and after 10 s it returns to the reverse state. This is how memory cells work.

Thus, a new effect is laid in the insole - the effect of an instantaneous reaction of an elastic and elastic material to a load, which leads to a quick deformation of this material and the need for it to leave the load in zones with less loading, and the effect of a delayed change in shape by the material, in which the material exhibits elastic resistance, it loads a person’s foot. This allows you to solve many serious problems, in particular, to solve the problem of adequate loading of the foot in dynamic mode.

In addition, the method of manufacturing insoles is greatly simplified, since the operations of heating and heating materials, polymerization, etc. are not required. Production time is reduced, and there are opportunities to increase the accuracy of positioning of inserts and laying on the insole due to the fact that each element has an adhesive (self-adhesive) side. The exact positioning of the inserts and calculations requires the exact position of the insole in the shoe, the exclusion of its displacement, which is achieved by gluing the insole according to the position of the foot in the footprint of the shoe. The durability of the insole is increased and the comfort sensations during its operation are increased due to the optimal distribution of the load over the entire foot area and giving depreciation qualities.

When moving or in a sitting position, the foot dynamically changes its position relative to the insole, then rising, then falling down on it completely or with fragments of the foot (fingers, heel). This is a natural movement of the foot, in which the load on the insole or on its surface parts varies and decreases (even at the moment of position or weight transfer from one leg to another). At the moment the load is weakened, the material of the base and inserts straightens and begins to press the foot, creating resistance, with an increase in the load, the foot is slowly drowned in the insole. This leads to a permanent effect on the foot, including massage. Such effects not only correct the position of the bones in the foot, but also have a positive effect on the blood circulation of the legs.

This utility model is industrially applicable and can be manufactured not only industrially, but also by manual labor in the manufacture of individual insoles.

Claims (2)

1. A footbed insole for shoes, comprising a base with a lay-out of the longitudinal arch of the foot located in the region of the internal longitudinal arch of the foot, and inserts located under the phalanges of the fingers and the heel region, respectively, characterized in that the base is flat and the layout of the longitudinal arch of the foot is made according to the shape of the instep support and is fixed on a flat base, while the base is made of deformable and takes the form of a trace of the applied load of foamed latex on a one-sided self-adhesive base with the adhesive layer located on the side of gluing to the surface of the footprint of the shoe, the laying and inserts on the base are made of deformable and taking the shape of the applied load of foamed latex on a one-sided self-adhesive base for gluing the adhesive side to the base, and the laying and inserts on top are covered with material, directly in contact with the foot of a person. 2. Insole according to claim 1, characterized in that the insert in the heel region is made with a centrally located hole.

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