RU2130747C1 - Insert inner sole for shoe (versions) - Google Patents

Abstract

FIELD: light industry, in particular, production of special-purpose man's shoes. SUBSTANCE: according to first version, insert inner sole has upper and lower layers manufactured from natural fabric, with linen proving to be best as fabric with high moisture absorbing and hygienic characteristics. Continuous layer of peatmoss ground to powder state is positioned between layers of woven materials. Upper and lower layers are stitch-quilted. According to second version, inner sole is further provided with layer of heat-insulating material metallized at both sides and having mirror reflecting surface. EFFECT: simplified construction, increased moisture absorbing capacity, improved antiseptic characteristics and low heat conductivity. 3 cl, 2 dwg

Description

 The group of inventions relates to light industry, namely to shoe production, and may find application in the manufacture of insulated insoles.

 As you know, the main functions of the insole are moisture absorption of foot perspiration and thermal insulation. Therefore, materials with hygroscopic properties and heat-insulating properties are widely used for the production of insoles.

 A two-layer insert insole for shoes (1) includes a layer of wool heat-insulating material and a layer of cork. The latter serves as the basis that gives the insole the necessary rigidity and elasticity. However, it is well known that the moisture absorption of wool is small and amounts to 60% of its own weight.

 Three-layer removable hygienic shoe insole / 2 / has an upper reinforcing layer of woven polypropylene strips. As a moisture-absorbing layer in the insole, a composition of cellulose and polypropylene fibers is used. The lower layer, consisting of a copolymer of polyethylene and vinyl acetate, is applied in the form of a melt to a moisture-absorbing layer, which, in turn, is applied in the form of a melt to the upper one. The moisture absorption of cellulose fibers is 60-70%, and the fibers themselves are in a form associated with polymers. Thus, the hygroscopic ability of cellulose is not fully used and amounts to less than 60-70%.

 Unlike the above analogues, the three-layer insole / 3 / does not contain a reinforcing layer, because a thin wooden sheet used as a moisture-absorbing layer in it has sufficient operational stiffness. However, the moisture absorption of a wooden sheet is only 50-60%.

 The jute used in the insole / 4 /, woven with twill weave in a cotton base, has higher hygroscopic properties. Both materials used absorb moisture well. The main disadvantage of this insole is its creasing when worn.

 Activated carbon used in the insole / 5 / possesses even higher hygroscopic properties (moisture absorption up to 80%). However, its sorption properties are significantly reduced due to the fact that it is applied to the base of the insole with an adhesive mass that partially covers the pores of the coal granules.

 Thus, from the description of the above analogues it is seen that in the manufacture of insoles a variety of materials with hygroscopic properties are used. The following contradictions are obvious: either the /1.3/ materials used have relatively low moisture absorption, but high strength characteristics, or the /2.5/ materials, which initially have high moisture absorption capacity, are in a state associated with polymers, which leads to a decrease in their hygroscopic properties, or the construction of the insole / 4 /, containing material with high moisture-absorbing properties, does not have the necessary strength and rigidity.

 These contradictions are resolved by an insole for shoes / 6 /. The insole is made of three layers. The upper and lower layers are made of cotton fabrics (calico, severity), between which a moisture-absorbing layer is placed. Granular alumina (powder), the pores of which are filled with calcium chloride, is used as a moisture-absorbing material. 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.

 In this insole, special materials are used, subjected to additional chemical-technological processing. Moreover, they provide a relatively small amount of moisture absorption, which is only 45%. Unbound moisture (sweat) accumulates in the enclosed volume of the boot and undergoes decomposition, which further impairs the hygienic properties of the shoe. In addition, the increased flowability of granular alumina makes it necessary to use special means for its retention and fixation in a single design. The use of a composition of aluminum oxide and calcium chloride, inorganic materials of relatively high thermal conductivity as a moisture-absorbing material, reduces the initial heat-shielding properties of the insole.

 The closest analogue of the invention is an insole for shoes, comprising two layers of moisture-absorbing material bonded to each other, between which a moisture-absorbing natural material is placed, made in the form of a uniformly loosened canvas made of long-fiber peat moss sphagnum (DE 3032941, A 43 B 13/40, 1982) .

 The basis of the invention is the complex task of creating insoles for shoes of the simplest design with high moisture absorption, initially low thermal conductivity and having antiseptic properties.

 The problem is solved in that in the insole for shoes, comprising two layers of moisture-absorbing material bonded to each other, between which a moisture-absorbing powder material is placed, according to the invention, crushed sphagnum moss in the form of a continuous saturated layer is used as said powder material.

 The problem is also solved by the second variant of the insert insole, including two layers of moisture-absorbing material bonded to each other, between which the moisture-absorbing powder material is placed, in the insole, according to the invention, an additional layer of heat-insulating bilaterally metallized material with a mirror reflecting surface is additionally contained, and crushed as the specified powder material is used sphagnum moss in the form of a continuous poured layer.

 The group of inventions is illustrated by drawings, in which: FIG. 1 is a first embodiment of the inventive insole: a top view and a longitudinal section, FIG. 2 - second option (winter): longitudinal section.

 The first version of the insole (Fig. 1) includes a top layer 1 made of natural fabrics. The best result in moisture absorption and hygienic properties is ensured by the use of linen fabrics. The lower layer 2 can also be made of natural woven materials with high wear resistance. As such a material, linen fabric can be used with the best result. Between layers 1, 2 there is a continuous layer 3 of sphagnum moss, crushed to a powder state. Top layer 1 and bottom layer 2 are quilted with stitching 4.

 The second version of the insole (Fig. 2) in addition to the above layers 1-3 contains an additional layer 5 of heat-insulating bilaterally metallized material with a mirror reflective surface. As the basis of such a layer, for example, polyethylene foam can be used.

 The insole can be supplemented with layers of perforated leather to increase its frictional properties and wear resistance.

 During the operation of the insole according to the first and second variants, its upper layer 1 transports moisture of perspiration of the foot to the moisture-absorbing layer 3. The developed surface of the crushed moss actively absorbs moisture. At the same time, 1 g of the initial powder absorbs up to 25 g of moisture, which is 50 times higher than the same indicator of the prototype. It was experimentally established that moss crushed to a powder state absorbs moisture emitted by the foot 1.5-2.0 times faster than unmilled. The high rate of moisture absorption does not allow perspiration to accumulate in the boot volume and thereby eliminates the possibility of their decomposition. The antiseptic properties of moss neutralize sweat products accumulated inside the insole.

 The thermal insulation properties of layer 3 as a material of plant origin is significantly higher than that of the prototype. In this case, the efficiency of thermal insulation of the insole is maintained in the process of moisture absorption up to the regeneration (drying) of the insole.

 The flowability of moss powder is significantly lower than that of granular alumina. This allows it to be used without the use of special means of localization and to fix the sprinkled layer with only rare quilting of the upper and lower layers.

 During the operation of the second version of the insole (winter), the advantages of the first version are preserved and new ones are introduced. The heat-shielding ability of the layer 5 is supplemented and enhanced by its bilateral metallization with the formation of a mirror reflective surface. This provides a return of radiant energy released by the foot in the range of 95-98%.

 Due to these properties, insoles can be used in men's shoes for special purposes.

Used sources
1. Application of France 2614184, MKI A 43 B 17/10.

 2. Application EPO 0272690, MKI A 43 B 17/10.

 3. German application 4323399, MKI A 43 B 17/00.

 4. Copyright certificate of the USSR 82829, MKI A 43 B 17/10.

 5. German application 3716303, MKI A 43 B 17/00.

 6. RF application 2045923, MKI A 43 B 17/00.

Claims (2)

 1. Inserted insole for shoes, including two layers of moisture-absorbing material bonded to each other, between which a moisture-absorbing material is placed, for which sphagnum moss is used, characterized in that the sphagnum moss is crushed to a powder state and used as a continuous poured layer.  2. Inserted insole for shoes, including two layers of moisture-absorbing material bonded to each other, between which a moisture-absorbing material is placed, used as sphagnum moss, characterized in that it additionally contains a layer of heat-insulating two-sided metallized material with a mirror reflecting surface, and moss sphagnum made crushed to a powder state and used in the form of a continuous poured layer.

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