RU33316U1 - ORTHOPEDIC INsole - Google Patents

Description

Orthopedic Insole

The utility model relates to medical equipment and can mainly be used in orthopedics for the prevention and treatment of foot deformity.

Known orthopedic insole (DE 3439675 A1, 1986) in the form of a MULTILAYER base containing a leather case, a molded plastic insole placed therein and an elastic pad mounted on the upper surface of the molded plastic insole. However, the complexity of manufacturing this known orthopedic insole leads to its high cost, and the materials used in its construction do not provide sufficient cushioning properties, especially in the area of the heads of the metatarsal bones.

Known orthopedic insole (RU 2014043 C1, 1994, A 61 F 5/14, A 43 B 17/00) in the form of a multilayer base containing a leather case, a molded semi-insole made of polyamide resin placed therein, an elastic layer of foam rubber mounted on the top the surface of the molded half-insole, and an arch support made of rubber mounted on the rod of the half-insole in the transverse region

MPKA61R5 / 14, A43B7 / 28, A43B 17/00

arch of the foot, with perforation holes made in the upper layer of the leather cover.

Also known is an insole-arch support (RU 2120261 CI, 1998, A 61 F 5/14), which contains a leather soft insole glued to it from below a hard pad having a relief slightly exceeding the natural arch of a healthy foot, a layer of suede or soft skin glued from below to the hard lining, and located between the soft insole and the front of the hard lining, an oval insert, in contact with the distal sections and the heads of the second, third and fourth metatarsal bones.

The disadvantages of these known insoles are that they provide a rather rough effect on the foot, including in the area of the diaphysis of the metatarsal bones, and also do not allow support of the arch of the foot while unloading its metatarsal section. The functional orientation of these insoles is very limited, since they can be used for the prevention and treatment of only moderate static foot deformities. In addition, the presence in the design of these insoles of the molded half-insole or rigid lining does not allow unloading the heel of the foot.

Known supinated insole (RU 21010 U1, 2001, A 61 F 5/14, A 43 B 7/14) containing a rigid element in the form of an insert made of an elastic material, for example, food polyamide, modeled on the anatomical shape of the foot, with a seat in the area of the metatarsal bones for installing removable pelots and a through hole in the heel for installing the heel, pelot, heel of elastic material and a leather layer in the form of an insole or half-insole covering a rigid element with a pelot and heel. Due to the presence of a through hole in the rigid element in the heel area and a heel of elastic material installed in it, this known cinched insole provides unloading of the heel of the foot.

full-contact insoles, fulfilling both arch-supporting, and at the same time unloading function in relation to various parts of the foot. In addition, the skin used as the upper layer in contact with the foot of all of the above insoles does not have good hygienic properties and is deformed during operation.

The most used construction and function to the proposed utility model should be considered an orthopedic profiled insole for the prevention and treatment of foot diseases (RU 2181562 C2, 2002, A 61 F 5/14, A 43 B 7/28, A 43 B 17 / 00). This well-known insole contains a forming base with a pelot installed in the arch of the foot, which is made of materials with different elastic coefficients and the ability to form, the upper laminated layer having medical and hygienic properties, and the lower laminated layer. In this case, the profile of the formative base is maximally similar to the profile of the foot, and the shape of the pelota is designed in such a way as to form the arch of the foot in the region of the distal metatarsal bones by laying out the longitudinal and transverse arches of the foot at the level of the scaphoid, sphenoid bones and proximal heads of the spine bones.

Obtaining such a full-contact design of the profiled insole has become possible thanks to the use of a forming base from materials that cannot be thermomechanically molded during manufacture, but also have the ability to form according to the profile of the foot, especially in places of increased pressure directly during operation of this orthopedic insoles. This leads to an increase in the foot support area on the preformed profiled insole surface and therefore reduces the pressure of the foot on the foot surface. The same reasons give this well-known insole high shock absorbing properties. Therefore, this orthopedic insole is comfortable in use and highly effective therapeutic and prophylactic effects, which is also facilitated by the use of.

in its design, the upper laminated layer of a material having medical and hygienic properties, for example, adhesive,

antimycotic, antimicrobial, antiseptic, etc.

However, the use in the design of the insole of a forming base made of such materials having the ability to form in places of excessive pressure, such as foamed polyethylene, plastisot, evaplat or evalon without the use of internal reinforcing or reinforcing elements, makes its design insufficiently stable, which during operation leads to excessive reforming insoles. As a result of this, the effectiveness of the therapeutic and prophylactic effect of the orthopedic insole is reduced, and its service life becomes perfectly limited.

Therefore, the disadvantages of the orthopedic profiled insole for the prevention and treatment of foot diseases selected for the prototype are the decrease in the effectiveness of the therapeutic and prophylactic effects and a rather limited service life, due to its lack of stability.

The objectives of this utility model are to increase the effectiveness of the therapeutic and prophylactic effects and increase the service life of the orthopedic insole.

The tasks are solved, according to the utility model, in that the proposed orthopedic insole, containing, in accordance with the prototype, a shaping base that is similar in shape to the profile of the foot and made of material having the ability to form, is mounted on the shaping base in the region of the arch of the foot of the pelot and surface the layer covering the forming base differs from the prototype in that it is provided with a support base installed under the forming base from the rear edge of the orthopedic sky insole to the area of placement of the heads of the metatarsal bones of the foot, and a reinforcing layer installed between the forming base and the supporting base. In this case, the reinforcing layer can be made of thermoplastic sheet material, in the reinforcing layer in the region of the heel location it can be

A hole is made, the support base can be made of material having the ability to form, and the surface layer can be made of hygienic and / or insulation material.

The supply of the proposed orthopedic insole with a reinforcing layer installed between the forming base and the supporting base and made, for example, of thermoplastic sheet material, provides a form-resistant construction of the orthopedic insole, as a result of which during operation it does not overform. Therefore, the effectiveness of the therapeutic and preventive effects of the orthopedic insole is increased, and its service life is increased.

In this case, the supply of the proposed orthopedic insole with a support base installed under the forming base and made of a material having the ability to form, provides, firstly, the preservation of the necessary thickness of the orthopedic insole in the area of the rear part of the foot, and secondly, its high shock-absorbing properties, in thirdly, maintaining the ability to form in accordance with the profile of the foot in places of high pressure directly during its operation and, fourthly, good stability the stability of the orthopedic insole inside the shoe, and therefore the stability of the foot.

The installation of a support base under the forming base from the rear edge of the orthopedic insole to the area where the heads of the metatarsal bones of the foot are placed, and the reinforcing layer between the forming base and the supporting base leads to the fact that the reinforcing layer is also located from the rear edge of the orthopedic insole to the area of the heads of the metatarsal bones of the foot. This provides unloading of the metatarsal part of the foot and therefore contributes to an increase in the effectiveness of the therapeutic and prophylactic effects, as well as patient comfort during the operation of the insole.

The execution in the reinforcing layer in the area of the heel location of the hole leads to the fact that the heel area contains only shock-absorbing properties and the ability to form materials of the forming base and the supporting base, but does not contain the strengthening

layer. This allows you to unload the heel of the foot and increases comfort for the patient with orthopedic insoles.

The implementation of the surface layer of hygienic and / or insulation material enhances the effectiveness of the preventive effect and comfort for the patient.

The implementation of the reinforcing layer of thermoplastic sheet material allows, without complicating the technology of manufacturing the orthopedic insole by thermoforming, to obtain a sufficiently strong and durable adhesive connection of its main elements, such as the forming base, the reinforcing layer and the supporting base, which leads to an increase in the service life of the orthopedic insole.

The aforementioned testifies to the solution of the tasks declared by the utility model due to the presence of the listed distinctive features in the orthopedic insole.

In FIG. 1 shows a bottom view of the proposed orthopedic insole for the left leg, where 1 is the shaping base, 2 is the supporting base and 3 is the reinforcing layer.

In FIG. 2 shows a longitudinal section along A-A of the proposed orthopedic stalkn, where 4 is the pelot, 5 is the surface layer and 6 is the hole.

The proposed orthopedic stapka contains a forming base 1, the shape of its upper surface repeating the shape of the foot and made of material with the ability to form. In order to fill the forming base 1 by thermomechanical molding using a positive foot model, it is preferable to use thermoplastic 1-joint materials that are 3-5 mm wide with a molding temperature of 120-170 ° C, for example, foamed polyethylene, for example, Ortolux, Kolorfoam, Multiform and “Nora-lunasoft, or pedilina, etc. The proposed insole also contains a support base 2, which is installed under the forming base 1 from the rear edge of the orthopedic insole to the area of the metatarsal heads x bones of the foot and can be made of thermoplastic sheet material with a thickness of 4 to 10 mm.

for example, from the same as the forming base 1, as well as the reinforcing layer 3, installed between the forming base 1 and the supporting base 2 also from the rear edge of the orthopedic insole to the area of the head of the metatarsal bones of the foot. The reinforcing layer 3 can be made of an elastic thermoplastic sheet material with a thickness of 0.5-2.0 mm with a molding temperature of 90 to 220 ° C, for example, polypropylene, a thermoplastic based on polycaprolactone and polyurethane, for example, the brand Turbocast, low polyethylene pressure, for example, brands of TNCs, a copolymer based on polyethylene and polypropylene, for example, brands Thermoflex, etc. In the reinforcing layer 3, a hole with a diameter of 1.5-3.5 cm is filled in the area of the center of the heel. The insole also contains a pelot 4 which is installed below for forming base 1 in the region of the transverse arch of the foot and can be made, for example, from a sheet of microporous rubber preform 5-12 mm thick. The forming base 1 is covered with a surface layer 5, which is made of hygienic and / or warming material, for example, cotton fabric (flannel or flannels), wool, felt, fur or the like, and may have medical and hygienic properties, for example, adhesive , antimycotic, antimicrobial, antiseptic, etc.

The forming base G can be made by thermoforming using pressing equipment and a positive model of the patient’s foot. The forming base 1, the supporting base 2, the reinforcing layer 3, the pilot 4 and the surface layer 5 can be interconnected by gluing using glue and thermal pressing.

The proposed orthopedic insole is inserted into the shoes that are worn. At the same time, in the process of wearing, the orthopedic insole experiences the pressure of the patient’s leg and its shaping base 1, as well as the supporting base 2, are finally molded in places of increased pressure in accordance with the characteristics of the patient’s foot. The pelot 4 performs a supporting function for the transverse arch of the foot, and the forming support 1 provides contact between the insole and the plantar surface of the foot. The reinforcing layer 3 protects the forming support 1 and the supporting base 2 from excessive

Shaping, increasing the life of the insole. Since the edges of the reinforcing layer 3 and the supporting base 2 are located to the area of the heads of the metatarsal bones of the foot, the metatarsal region of the foot is unloaded. The hole 6 in the reinforcing layer 3 in the area of the heel allows you to unload the heel of the foot and provides comfort for the patient. The surface layer 5 is made of hygienic and / or insulating material and provides the patient with comfort and hygienic effects.

Thus, the proposed utility model provides an increase in the effectiveness of therapeutic and prophylactic effects and an increase in the duration of p. 11 of the orthopedic insole.

Claims (5)

1. An orthopedic insole containing a forming base, having the same shape as the profile of the foot and made of material having the ability to form, mounted on the forming base in the area of the arch of the foot of the pelot and a surface layer covering the forming base, characterized in that it is equipped with a support base installed under the shaping base from the rear edge of the orthopedic insole to the area where the heads of the metatarsal bones of the foot are located, and a reinforcing layer installed between the shaping azuyuschey base and the support base. 2. Orthopedic insole according to claim 1, characterized in that the reinforcing layer is made of thermoplastic sheet material. 3. The orthopedic insole according to claim 1, characterized in that a hole is made in the reinforcing layer in the area of the heel. 4. The orthopedic insole according to claim 1, characterized in that the supporting base is made of material having the ability to form. 5. Orthopedic insole according to claim 1, characterized in that the surface layer is made of hygienic and / or insulation material.