RU2260362C2 - Inner sole for insertion into shoes - Google Patents

Abstract

FIELD: light industry, in particular, shoe industry, more particular, manufacture of inner sole to be inserted into working, everyday and sportive shoes.

SUBSTANCE: inner sole for insertion into shoe has three layers secured with one another, with upper and lower layers being made from hydrophilic material and middle layer being made from moisture-absorbing material. Moisture-absorbing material is formed as pressed material of bog moss and loose waste paper added therein.

EFFECT: elimination of inner sole deformation, improved antiseptic and heat-insulating properties and prolonged service life.

2 dwg

Description

The invention relates to light industry, in particular to shoe production, and may find application in the manufacture of insoles for working, casual and sports shoes.

A known insole is known in which activated carbon is used as a moisture-absorbing material, having particles of a spherical or quasispherical shape ranging in size from 0.1 to 1.0 mm, which are fixed on the insole with adhesive with spot application (EP, item No. 0290895, A 43 B 17/10).

The disadvantage of this material is a decrease in the adsorption capacity due to the use of glue.

Known liner mainly for shoes, having a base of cellulose with double-sided packing, the back of which is equipped with a rubber coating (DE, p. No. 4111449, A 23 B 17/00).

The disadvantage of this insole is a small adsorption capacity and insufficient air exchange due to the presence of a rubber coating, leading to a violation of shoe comfort, manifested in a change in the moisture-temperature balance of the foot and footwear space. Low temperature and high humidity inside the shoes are ideal conditions for the development of fungal mycoses.

Known insert insole for shoes containing bonded upper and lower layers made of hydrophilic material, and the middle layer located between them has through interconnected cavities that are filled with moisture-absorbing material in the form of granular highly porous active aluminum oxide with chloride introduced into its pores calcium (RU, p. 2045923, A 23 B 17/10). The carrier of the powder (reinforcing agent) is either a loose non-woven material (synthetic winterizer), or a casting from a foam elastic material of a special form with internal cavities. Such insoles provide a relatively small amount of moisture absorption (about 45%). Inconsistent moisture (sweat) accumulates in the enclosed volume of the shoe and undergoes decomposition, which further impairs the hygienic properties of the shoe. The use of a composition of aluminum oxide and calcium chloride and inorganic materials of relatively high thermal conductivity as a moisture-absorbing material reduces initially the thermal protective properties of the insole.

The closest technical solution is an insert insole for shoes, including three layers bonded to each other, the upper and lower of which are made of hydrophilic material, for example linen fabrics, and the middle layer of moisture-absorbing material, which is used moss-sphagnum, crushed to a powder state used in the form of a continuous poured layer (RU, p. 2130747, A 23 B 17/10).

Due to the unique properties of moss, these insoles have bactericidal and adsorbing properties. However, the use of moss in crushed form without any means of localization and fixing it only with a rare quilting of the upper and lower layers of the insole accelerates the process of deformation of the insole with the formation of irregularities that create inconvenience to the owner of the shoe when walking.

The technical result of the present invention is the exclusion of deformation of the insole with giving it antiseptic and thermal insulation properties over a long period of operation.

The technical result is achieved by the fact that the insole for shoes contains three layers bonded to each other, the upper and lower of which are made of hydrophilic material, and the middle of the moisture-absorbing material, while the moisture-absorbing material is made in the form of a pressed material from moss-sphagnum with the addition of loose waste paper .

Made by pressing on vacuum presses from long-fiber moss and loose waste paper with the addition of a plasticizer, for example casein or alumina (TU 5471-203-0269312-03), the obtained moisture-absorbing material has a sufficiently strong, porous, plastic structure with the preservation of natural resistant antiseptic moss properties. Such a material is capable of eliminating the deformation of reusable products for a long time.

During the operation of the insole, its upper layer, made of a hydrophilic material, transports moisture from the perspiration of the foot into a moisture-absorbing layer, the porosity of which helps to absorb a significant amount of moisture and at the same time create an increased heat-insulating effect. A sufficiently strong, plastic, pressed moisture-absorbing layer, firmly bonded to the upper and lower layers of the insole, eliminates its deformation for a long time, and the antiseptic properties of the moisture-absorbing layer also prevent the development of fungal infections of various fungal diseases and create sanitary conditions for the feet in for a long time operating the insoles.

Figure 1 shows a General view of the insole.

Figure 2 is a section aa in figure 1.

The insole consists of three layers bonded together, the upper 1 and lower 2 of which are made of natural fabrics, such as cotton (flannel, boomazeya and others) or linen, as well as mixed fabrics. Between the upper and lower layers 1, 2, an intermediate layer 3 of moisture-absorbing pressed material from moss-sphagnum and loose paper is placed at a quantitative ratio of 1: 1. Layers 1, 2, 3 of the insole are fastened with short straight stitches 4 from 2.5 mm to 16 mm long, depending on the size of the insole with the location of the stitches according to FIG. 1. The edges of the insole are edged with a handlebar 5 made of mixed or cotton fabrics of a contrasting color.

The insole is made as follows.

They make cutting parts - layers 1, 2, 3 insoles on cardboard patterns of various sizes. At the same time, the intermediate part, the moisture-absorbing layer 3, is cut out from sheet or strip material with a thickness of 2 mm ± 0.1, manufactured in accordance with TU 5471-203-02698312-03, developed by the Institute of Water and Environmental Problems, Far Eastern Branch of the Russian Academy of Sciences.

Dissolved waste paper 49.12 kg and sphagnum moss in the amount of 49.12 kg are placed in a pulper, where the mixture is mixed and ground to a homogeneous mass with a dry matter concentration of 1.2-1.5%. The resulting mass is fed into an intermediate tank with a mixing device, into which, for example, bulk rosin 1.68 kg and alumina solution 0.08 kg are fed as a binder. In cases where the pH of the solution goes beyond (5.5-6.5), soda ash is added to it. From the intermediate tank, the resulting mass is piped to a vacuum press, where the products are molded in the form of a sheet or strip with the removal of free moisture from them. Molded products are placed on racks in a drying chamber, where they are dried at a temperature range of 120-140 ° C to a moisture content of 7 ± 2%.

Sewed parts are sewn and edged around the contour with a roll 5 of 3.5 cm wide, for example, on single-needle sewing machines with a shuttle stitch of 97 cells. O3LM 1597 03 LM, 415 of the Dzhuki company. Fasten the stitched details - layers 1, 2, 3 with short 1.5 cm fasteners 4 (Fig. 1), for example, on the machine for sewing a two-needle shuttle stitch SE 1162 of the company "Dzhuki" according to Fig. 1.

The claimed technical solution that allows you to create a comfortable, without deformation, with sanitary conditions for the legs for a long period of time, the insole for shoes, according to the author, will find wide industrial application.

Claims (1)

An insert insole for shoes containing three layers bonded to each other, the upper and lower of which are made of hydrophilic material, and the middle one is of moisture-absorbing material, characterized in that the moisture-absorbing material is made in the form of a pressed material from moss-sphagnum with the addition of loose paper.

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