RU2041679C1 - Antislip shoe sole - Google Patents

Abstract

FIELD: footwear industry. SUBSTANCE: sole has abrasive particles on support surface and consists of at least two layers of one and the same material. The layer of the support surface is a mixture of this material with abrasive particles uniformly distributed throughout the thickness of the layer. The grain size of said particles is 60-600 microns. EFFECT: efficient fixing of abrasive particles in shoe sole and longer retention of antislip properties of sole. 1 dwg

Description

 The invention relates to the shoe industry, and in particular to devices for protecting shoes from slipping.

 A well-known sole (Renno D. Molding of parts and products in the shoe and leather goods industry. M. Light Industry, 1979, p. 87-88, Fig. 50), which allows to reduce the slip due to the presence of corrugations on the running surface.

 However, as a result of even slight wear of the corrugations of the running surface, the anti-slip properties of the known sole sharply decrease. To create a rough surface during ice, sand is scattered on the sidewalks, but the use of this method is irrational both in terms of labor costs and in terms of the cleanliness of streets and sidewalks.

 Another well-known technical solution (AS USSR N 991995, class A 43 B 13/22, 1983) is a sole that protects shoes from slipping and has abrasive particles fixed with an adhesive on its running surface, with adhesive with abrasive particles applied in the form strips horizontally located in the heel and toe-gelenkoy plot.

 A disadvantage of the known sole is a short shelf life of anti-slip properties, caused by poor adhesion of the adhesive to the elastic running surface of the sole, periodically bent, and therefore the known sole was not widely used both when new shoes were produced and when they were repaired.

 The closest is the technical solution, according to which abrasive particles are evenly distributed in the sole layer forming the running surface, the sole layers consist of different materials interconnected by gluing.

 However, the presence of a large interval in the sizes of the abrasive particles prevents their reliable attachment to the sole material layer, as a result of which the abrasive particles will crumble from the sole and it will lose its anti-slip properties. The presence of an adhesive joint connecting the layers of the sole of different materials prevents their reliable connection with each other, which reduces the durability of the known sole.

 The purpose of the invention is to increase the shelf life of the anti-slip properties of the sole, increase the fastening strength of abrasive particles in the sole material, increase the adhesion of the layer with abrasive particles to the material layer without abrasive particles.

 To achieve this goal, the sole for preventing shoes from slipping contains at least two layers of material. The layer forming the running side of the sole is equipped with abrasive particles uniformly distributed in it along the layer thickness, the size of which is 60-600 microns. Layers of the sole are made of one material.

 The drawing shows a portion of the sole to protect the shoes from slipping, cut.

 The sole for protecting shoes from slipping consists of an upper layer 1 of material 2 without abrasive particles 3 and a lower layer 4 of material 2 in the form of a running surface of the sole with abrasive particles 3 uniformly distributed over the thickness of this layer. The particle size is 60-600 microns.

 The sole for protecting shoes from slipping of the proposed design works as follows.

 When the running surface of the sole of the proposed construction comes in contact with the icy surface, local pressures of abrasive particles 3 are created both directly on the icy surface, as a result of which the particles are pressed into ice, and through the film 5 of material 2 of layer 4, enveloping particles 3 from all sides, due to which conditions that prevent slipping of shoes. The grain size of the abrasive particles 3, selected in the range of 60-600 μm, is the most optimal size, which provides a stronger retention compared to the prototype of the abrasive particles 3 on the running surface of the sole in the material 2. Despite this, the soles will be ultimately, the abrasive particles 3 will also crumble, but their uniform distribution over the layer 4 of material 2 ensures the constant presence of these particles on the running surface, and this means a guarantee of preservation for a long time term of antiskid properties of this sole. Increasing the adhesion of layer 1 to layer 4 also allows you to increase the shelf life of the anti-slip properties of the sole. The necessary increase in the adhesion of both layers to each other is achieved through the use of one material, both for layer 1, which consists exclusively of this material, and for layer 4, where this material is already a binder for abrasive particles 3.

 The proposed sole for protecting shoes from slipping can be made as follows. The sole layer 4, representing the running surface, is made by mixing the material 2 with the abrasive particles 3 until they are evenly distributed in the total mass. The resulting mixture is further duplicated with sheets consisting of material 2 without abrasive particles 3. As a result of the duplication operations, a preform consisting of at least two layers 1 and 4 is obtained, after passing through a series of subsequent technological operations, this plate can be used in the manufacture of the sole to protect shoes from slipping.

 The proposed sole makes it possible to provide stronger abrasive particles 3 in comparison with the prototype in the layer 4 of material 2, increase the adhesion of layers 1 and 4 to each other, and increase the shelf life of the anti-slip properties of the sole to protect the shoes from slipping.

Claims (1)

 SOLE FOR PROTECTING FOOTWEAR FROM SLIDING, containing at least two layers of material, the layer forming the running side of the sole provided with abrasive particles evenly distributed throughout the thickness, characterized in that the size of the abrasive particles is 60 600 μm, and the sole layers are made of one material.

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