RU220434U1 - Orthopedic insole with perforation - Google Patents

Abstract

The utility model relates to the field of medicine, namely orthopedics. The utility model is designed to prevent and prevent pathological deformation, redistribution of impact load on the foot, as well as reducing the risk of fungal and bacterial diseases of the feet when using orthopedic insoles due to increased fogging of the surface of the foot and lack of air circulation. The objective of the technical solution is to increase the effectiveness of preventive and therapeutic measures for correcting the arch of the foot in terms of creating favorable conditions when using the orthopedic insole by the patient. The technical solution makes it possible to reduce the risk of fungal and bacterial diseases of the feet when using orthopedic insoles due to increased fogging of the surface of the foot and lack of air circulation. The technical essence of the proposed solution is shown in figure 1, which shows an orthopedic insole with perforation, which consists of a base 1 made of wear-resistant material; base 2, made of silicone with a thickness of 1 mm to 2.5 mm, monolithic with base 1; additional base 4, made of silicone with a thickness of at least 3 mm; silicone supports 3, made of silicone with a height difference, where the highest support is no more than 30 mm, monolithically with base 1, base 2 and additional base 4. Along the perimeter of base 1 and base 2 there are ventilation holes 5. In the toe area there are additional ventilation holes 5. 1 ill.

Description

The utility model relates to the field of medicine, namely orthopedics. The utility model is designed to prevent and prevent pathological deformation, redistribution of the impact load on the foot, as well as reducing the risk of fungal and bacterial diseases of the feet when using orthopedic insoles due to increased fogging of the surface of the foot and lack of air circulation.

Orthopedic insoles are known from the prior art, which are intended for the treatment and prevention of flat feet in children and adults, to prevent pathological deformation and various disorders of the musculoskeletal system, as well as to normalize blood flow of the lower extremities, reduce pain and heaviness in the legs, to redistribute the shock load of the foot (utility model patent No. 210518 RU “Universal orthopedic insoles”2, IPC A61F 5/14, A43B 17/00, published 04/19/2022).

A corrective insole is known from the prior art (patent No. 159613 RU “Corrective insole”1, IPC A43B 17/00, published 12/10/2016). The said insole contains a silicone base and silicone supports, made monolithically with the silicone base and located on its lower side, where the height of each silicone support is no more than 30 mm and is calculated based on the degree of deformation of the foot; also, the insole contains an additional layer of lining artificial leather, located on the upper side of the silicone base and an additional layer of leatherette, which in total is no more than 1 mm.

An individual orthopedic insole was chosen as a prototype (patent No. 218090 RU “Individual orthopedic insole”3, MPC A43B 17/00, published 05/05/2023). Said insole contains a base made of wear-resistant material and a base made of silicone with supports made on it, made in the shape of a polygon with a difference in heights and an additional base made of silicone.

The disadvantage of analogues and the prototype of these insoles is the lack of holes to prevent fogging of the foot when using the insoles.

The objective of the technical solution is to increase the effectiveness of preventive and therapeutic measures for correcting the arch of the foot in terms of creating favorable conditions for the use of the orthopedic insole by the patient.

This problem is solved due to the fact that throughout the entire area of the individual orthopedic insole there are holes for air circulation and reducing the risk of the formation of fungal and bacterial diseases of the feet when using the orthopedic insole.

The technical solution makes it possible to reduce the risk of fungal and bacterial diseases of the feet when using orthopedic insoles due to increased fogging of the surface of the foot and lack of air circulation.

The technical essence of the proposed solution is shown in Fig. 1.

In fig. 1 shows an orthopedic insole with perforation, which consists of a base 1 made of wear-resistant material; base 2, made of silicone with a thickness of 1 mm to 2.5 mm, monolithic with base 1; additional base 4, made of silicone with a thickness of at least 3 mm; silicone supports 3, made of silicone with a height difference, where the highest support is no more than 30 mm, monolithically with base 1, base 2 and additional base 4. Along the perimeter of base 1 and base 2 there are ventilation holes 5. In the toe area there are additional ventilation holes 5.

The placement of ventilation holes 5 and additional ventilation holes 5 in the toe area reduces fogging of the surface of the base 1 and base 2 in contact with the skin of a person’s foot and creates conditions for air circulation during operation. In the case of intensive use (for example, during sports) and due to effective air circulation, foot fogging is significantly reduced, thereby reducing the risk of bacteria and fungi formation during the use of orthopedic insoles with perforations, and also creating favorable and comfortable conditions when wearing shoes.

The size of the base made of wear-resistant insole material is made in accordance with the declared foot size.

The orthopedic insole is industrially applicable, can be manufactured at specialized light industry enterprises, as well as at enterprises for the production of orthopedic products, including from inexpensive environmentally friendly materials in any size, color, with a wide range of products in a variety of designs, for the most different needs - both aesthetic and medical.

An example of the implementation of the claimed utility model, showing the possibility of obtaining a technical result in the above intervals:

The thickness of the silicone base over the entire surface of the insole ranges from 1 to 2.5 mm. This interval is obtained by industrial testing within the specified height limit and beyond the height limits. When the thickness of the silicone base is less than 1 mm thick, when using an orthopedic insole, there is a high risk of breakthroughs in the base, especially in the places of silicone supports under heavy loads both on the arch of the foot and on the entire base of the insole. When the thickness of the silicone base is more than 2.5 mm, the insole becomes less elastic and makes it difficult to fit the orthopedic insole at the junction of the additional base.

“Additionally there is a base with a thickness of at least 3 mm” - means that on the surface of the base of the orthopedic insole in the area of the arch of the foot there is an additional base with a thickness of at least 3 mm. This parameter was also determined industrially when testing an orthopedic insole under load. When the thickness of the additional base was less than 3 mm, the wear resistance parameters of the orthopedic insole improved slightly. Starting with an additional base thickness of 3 mm, the wear resistance parameters were significantly improved. With an additional base thickness of 5.5 mm or more, the wear resistance of the orthopedic insole did not increase, but the fitting of the orthopedic insole became significantly more difficult due to the lack of elasticity and bendability.

Sources of information taken into account

1. Patent for utility model No. 159613 RU “Corrective insole”, (MPK A43B 17/00, published 12/10/2016).

2. Utility model patent No. 210518 RU “Universal orthopedic insoles,” (MPC A61F 5/14, A43B 17/00, published 04/19/2022).

3. Patent for utility model No. 218090 RU “Individual orthopedic insole”3, (MPK A43B 17/00, published 05/05/2023).

Claims (1)

Orthopedic insole with perforation, containing a base made of wear-resistant material forming the upper side of the insole, a base with a thickness over the entire surface of the insole from 1 mm to 2.5 mm, made monolithically with a base made of wear-resistant material, an adjacent additional silicone base with a thickness of at least 3 mm and silicone supports, made in the shape of a polygon with a difference in heights and monolithically with a base made of wear-resistant material, a silicone base and an additional silicone base, characterized in that there are holes throughout the entire area of the orthopedic insole for air circulation and reducing the risk of fungal and bacterial diseases of the feet.