RU2775321C1 - Anti-slip composition for shoes - Google Patents

Abstract

FIELD: anti-slip agents.

SUBSTANCE: invention relates to the field of anti-slip agents, in particular to agents that improve the adhesion of shoe soles to an icy surface. The anti-slip composition for shoes contains a copolymer formed by alkyd-styrene or acrylic resins - 5÷23%, a solvent - 65÷70%, a highly dispersed silicon dioxide powder with additives of silicon carbide and rosin - 10%, and a plasticizer dibutyl phthalate - no more than 5%.

EFFECT: invention makes it possible to create a composition having increased grip on ice, providing a convenient application method, high curing speed and high coating efficiency on the sole surface.

1 cl, 3 ex, 1 tbl

Description

The invention relates to the field of anti-slip agents, in particular to agents that improve the adhesion of shoe soles to an icy surface.

Every year, tens of thousands of people are injured as a result of falls on ice. This is due to the loss of a stable position of the legs and insufficient grip of the sole of the shoe with the ice surface. In order to avoid injuries, means are used to increase grip on ice, for example, winter shoes with a pronounced tread that forms reefs and camels to drain water and snow. The sole designed in this way should provide increased grip on snow crust, sidewalks, roads. However, when walking, a water layer appears between the sole and the road, which significantly reduces the coefficient of friction on ice.

Removable anti-slip shoe pads with a sole having a horseshoe-shaped recess are known from the field of technology [utility model patent RU 181879 U1, IPC A43C 15/00, application No. 2017140271 dated 11/21/2017, publ. 07/26/2018 in Bull. No. 21]. The base of the overlay is made of elastic material, with loop fasteners in the toe and heel. In the middle part there is an overlay with spikes fixed on it. The main disadvantages of the invention are the loss of aesthetic appearance, the weighting of shoes, the impossibility of comfortable use in urban environments. Walking on spikes contributes to rapid fatigue and increased stress on the ligaments and muscles of the foot.

Closest to the proposed invention is an abrasive paste with anti-slip properties applied to the surface of the sole [patent SU 1 065 442 A1, IPC C08J 5/14, application No. 3494979 dated 30.09.1982, publ. 01/07/1984]. The abrasive component is a mineral filler, consisting of silicon dioxide, furnace black and silicon carbide, of various dispersions. The main disadvantage is the laborious process of obtaining and the long curing time of the coating (up to 24 hours).

Although the above devices can increase traction on ice by fixing or applying to the sole of the shoe, they are not very effective. Removable anti-slip pads cause discomfort when walking, spoil the appearance of shoes and are unproductive in conditions of thin ice crust. The use of abrasive paste in everyday life is limited by manufacturing technology and the complexity of application.

The technical result of the proposed technical solution consists in the development of an agent for increasing grip on ice, which provides a convenient method of application, high curing speed and high coating efficiency on the surface of the sole.

The technical result is achieved by the fact that the anti-slip composition for shoes contains a copolymer formed by alkyd-styrene or acrylic resins, a solvent, a highly dispersed silicon dioxide powder with additives of silicon carbide and rosin, and a plasticizer dibutyl phthalate in the following ratio, wt.%:

copolymer formed by alkyd-styrene or acrylic resin 15:23 solvent 65÷70 dibutyl phthalate no more than 5 highly dispersed silica powder with additives of silicon carbide and rosin ten

To increase the friction characteristics in the composition, a filler is used, consisting of finely divided silicon dioxide with the addition of silicon carbide and rosin with a dispersion of 40 to 75 microns.

The modifying additive (plasticizer dibutyl phthalate) provides an increase in elasticity, frost resistance and crack resistance of the coating at low temperatures. The proportion of the modifying additive does not exceed 5% of the total weight of the anti-slip composition.

The industrial applicability of the claimed anti-slip composition is confirmed by the following examples.

Example 1

The composition of the anti-slip composition is obtained in the following ratio of components, wt.%:

copolymer of butyl methacrylate, methyl methacrylate fifteen ethyl acetate 70 dibutyl phthalate 5 highly dispersed silicon dioxide powder (IV) ten

Take a mixture of dry granules of acrylic copolymer, loaded into a conical mixer. A paddle mixer is set in motion and ethyl acetate solvent is added at a rotation speed of 300-400 rpm and a temperature of 20°C. Homogenization of the composition and complete dissolution of the granules of acrylic copolymers occurs within 2 hours. The introduction of the plasticizer dibutyl phthalate is carried out in equal portions during the mixing of the composition.

The introduction of the abrasive powder of silicon dioxide is carried out at the final stage. Immediately before the intended use, the composition is mixed with a mixer.

Example 2

The composition of the anti-slip composition is obtained in the following ratio of components, wt.%:

copolymer of butyl methacrylate, methyl methacrylate fifteen butyl acetate 70 dibutyl phthalate 5 highly dispersed silicon dioxide powder (IV) ten

Take a mixture of dry granules of acrylic copolymer, loaded into a conical mixer. A paddle mixer is set in motion and at a rotation speed of 300-400 rpm and a temperature of 20°C, butyl acetate solvent is added. Homogenization of the composition and complete dissolution of the granules of acrylic copolymers occurs within 2 hours. The introduction of the plasticizer dibutyl phthalate is carried out in equal portions during the mixing of the composition.

The introduction of the abrasive powder of silicon dioxide is carried out at the final stage. Immediately before the intended use, the composition is mixed with a mixer.

The use of these formulations of the composition makes it possible to increase the coefficient of friction of rubber on an ice surface from 0.05 to 0.95, i.e. 19 times.

Example 3

The composition of the anti-slip composition is obtained in the following ratio of components, wt.%:

alkyd-styrene resin containing 40 wt.% styrene 23 o-xylene 65 dibutyl phthalate 2 highly dispersed silicon dioxide powder (IV) ten

The process of preparing the composition is similar to that described in the previous examples.

Application of the composition to the soles of shoes and other polymeric and elastomeric coatings is possible manually: with a brush, spatula or using an aerosol can.

High efficiency and curing speed of the obtained anti-slip composition are characterized by the parameters shown in the table.

Table - Properties of anti-slip compositions

Index Example 1 Example 2 Example 3 Analogue (patent
EN 181879 U1) Adhesion strength, score according to GOST 31149-2013 one one one - Friction coefficient 0.95 0.95 0.88 0.54 Film drying speed to touch GOST 19007-73, min 1.0 1.0 1.5 -

Claims (2)

An anti-slip composition for footwear containing a copolymer formed by alkyd-styrene or acrylic resins, a solvent, a highly dispersed silicon dioxide powder with additives of silicon carbide and rosin, and a plasticizer dibutyl phthalate, in the following ratio, wt.%: copolymer formed by alkyd-styrene or acrylic resin 15-23 solvent 65-70 dibutyl phthalate no more than 5 highly dispersed silica powder with additives of silicon carbide and rosin ten