SU1590064A1 - Sole with antislipping properties - Google Patents

Abstract

The invention relates to the shoe industry and can be used in the manufacture of soles of winter shoes of all age and sex groups. The aim of the invention is to improve the anti-skid properties of the sole. The sole consists of two layers with vacuum suction cups formed by two communicating chambers. In this case, the chamber is made in the form of a hemisphere in the inner layer, and in the outer layer - in the form of a cone, the base of which is located on the outer surface of the sole. Vacuum suction pads are placed in cross sections corresponding to functionally active areas of the foot, which are determined from the most prominent point of exact rounding and are equal to 0.9 L

0.73L

0.68L

0.5L and 0.18L, where L is the length of the sole. The profile of the outer surface of the sole is formed by equilateral triangles closed between themselves, forming strips perpendicular to the axis of symmetry of the sole, with the vertices of two adjacent triangles in the respective strips directed in opposite directions from the base. In the center of each triangle there is an oval groove. The supporting part of the outer layer of the sole has a side projecting above the surface of the profile by 0.05H, where H is the height of the edge of the sole. The inner layer of the sole is made of a porous elastic material. 3 hp ff, 5 ill.

Description

The invention relates to shoe manufacturing and can be used in the manufacture of winter footwear with increased slip resistance.

Figo 1 shows the sole, side view; fig 2 is the same, bottom view; in FIG. 3 — node I in FIG. 1; FIG. 4 shows node II in FIG2; Fig, 5 is a section aa on Fig, 4

The sole I consists of two layers: inner 2 and outer 3 (fig), the supporting surface of the sole 1 ()

made strictly horizontally and around the perimeter is bordered by a side 4, cutting off the toe 5 and the exact 6 parts, on which there is a pattern with frequent grooves, in contrast to the main, supporting portion of the sole where the pattern is located in the wilted inclined equilateral triangles 7, the plane of each triangle has oval groove -Bo Vacuum Suction Cups 9 (FIGURES) are recesses consisting of two communicating chambers: spherical 10,

four

ten

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to

31590064

1: base 2, and conical 11, located in the outer layer of base 3, vacuum suckers 9 are softened in strictly defined sections Q, 9Lj 0.73L; 0.68L} 0.5L; 0.18L, where L is the length of the gusha, corresponding to the anatomical points of rolling of the stor, in which the concentration of the greatest pressure of the foot on the supporting structure occurs.

The pattern of the support part, the soles (Figs. 4 and 5) is bordered with a side 4, made in the form of equilateral triangles 7 tilted in opposite directions and creates conditions for which the anti-slip properties of the sole are the same in all four directions: forward, called. hell, to the left, to the right. The spherical surface of the recess 8 works as a mini-transceiver of the surface of each triangle 7 to the reference plane.

The height of the side 4 is at the level of the design of the toe and foot parts of the sole and the level of the pattern of the support portion of the sole protrudes by 0.05 Hj where H is the height of the sole edge This will allow a tight fit of the outer surface of the sole to the supporting plane of the 1FI phase of the entire surface soles.

Vacuum suction cup 9 works as follows,

When loading the area above the chamber in the form of a hemisphere 10, it spreads out and pushes out the air in it, which contributes to a tight fit: this section of the outer part, the floor to the dd reference plane. The implementation of the inner layer of the sole of a porous elastic material, for example, foamed polyurethane, is capable of

25

thirty

35

the pattern of inclined equilateral triangles with hemispheres and the overall edging of the sole support portion protruding over the whole pattern contribute to a multiple increase in the effect. Moreover, the inner sole layer made of expanded polyurethane facilitates the weight of the sole, creates an elastic support for the foot and contributes to The heat-shielding properties of shoes due to the porous structure of the material. The use of thermo. elastoplast for the outer sole layer - Ensures an improvement in slip resistance and an increase in shoe life due to good frictional properties of the material and resistance to abrasion. In addition, the use of these materials in different color combinations will allow to obtain multi-variant, two composite soles.

F

about rmu l invention

1. A sole with anti-slip properties, consisting of two layers with supporting vacuum suction cups, formed by two interconnected chambers, each of which is located in the corresponding layer, about which it is, and with the aim of neither anti-slip properties, the chamber of the inner layer is made in the form of a hemisphere, and the chamber of the outer layer. .ch layer - in the form of a cone, the base of which is located on the outer surface of the sole, while the suction pads are placed in cross sections corresponding to functionally active areas of the foot, defined from the most prominent point of rounding and equal to 0.9L; 0.73L

easy compression and ejection of air-45 0.5L and 0.18L, where L is the length

0

15

to

the pattern of inclined equilateral triangles with hemispheres and the overall edging of the sole support portion protruding over the entire pattern contribute to a multiple increase in the effect obtained. Moreover, the inner sole layer made of polyurethane foam facilitates the weight of the sole, creates an elastic support for the foot and contributes. improvement of heat-shielding properties of shoes due to the porous structure of the material. The use of thermo. elastoplast for the outer soleplate - Ensures an improvement in slip resistance and an increase in shoe life due to good frictional properties of the material and resistance to abrasion. In addition, the use of these materials in various color combinations will allow to obtain multivariate, two-composite soles.

F

about rmu l invention

Claims (1)

1. A sole with anti-slip properties, consisting of two layers with supporting vacuum suction cups, formed by two interconnected chambers, each of which is located in the corresponding layer, with a t-lash and so on. ,; neither anti-slip properties, the chamber of the inner layer is made in the form of a hemisphere, and the chamber of the outer layer. .ch layer - in the form of a cone, the base of which is located on the outer surface of the sole, while the suction pads are placed in cross sections corresponding to functionally active areas of the foot, defined from the most prominent point of rounding and equal to 0.9L; 0.73L ;, ha in the process of loading teaching: weights of suction over vacuum suction cups. The lower part of the vacuum suction cup, which is a truncated cone that operates according to the principle of the suction cup, is made of a denser material - a thermoplastic elastomer, which has good frictional properties. The advantage of the proposed sole design is in the STAND | | STANDARD anti-slip properties, moreover, as if relying on the entire surface. the soles of the individual and its active points The combination 0 five soles 2 o Sole under item 1 ,. This means that the profile of its outer surface is formed by equilateral triangles closed between each other, forming strips perpendicular to the axis of symmetry of the sole, while the vertices of two adjacent triangles in the respective strips. base, and in the center of each square is an oval shape. .3, Sole on Po1, characterized in that the supporting part five the outer layer of the sole has a liter protruding above the surface by 0.05 N, where H is the height of the sole // 4о Sole in polypropylene, I - 3, about the t with the fact that the inner layer of the sole is made of a porous elastic material  f ue.l Octi g ten Fig.Z ag Make € 1l N. Radina Editor L. Gratillo Tehred L. Oliynyk Order 2592 Circulation 370 VNISH1I State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow., Zh-35, 4/5 Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 / fKorrektor L. Beskid Subscription