RU2523470C2 - Anti-glaze composition (versions) and method of its manufacturing - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: each version of a composition contains a chemical component for snow and ice melting and an abrasive component for adhesion of a vehicle wheels and pedestrians' shoes to the road. The abrasive component of the composition is composed of dosed by weight dry groups of fractions of sand, granite chips or marble chips in their different combinations and proportions.

EFFECT: anti-glaze composition ensures an increase of efficiency of its impact on reduction of the road surface slipperiness and harmful effect on the environment.

15 cl

Description

This group of inventions relates to means for increasing the traction of wheels of vehicles and pedestrian shoes with a road surface having icy, snowy or other slippery surfaces. The slippage is reduced by using abrasive components mixed with chemical components, and these components contribute to the accelerated melting of snow and ice on the surface of the road surface. The invention is intended for use in the field of roads and sidewalks in the winter season.

Known mixtures, compositions or compositions composed mainly of two or more components using a chemical material or chemical composition for melting snow and ice and abrasive or frictional inorganic materials such as river sand or building sand, all kinds of crumbs - granite, marble and others .

Known anti-icing composition, including chloride and alkali metal carboxylates, characterized in that it contains sodium carboxylates in an amount of 83-95 wt.%, While the composition contains sodium formate and sodium formate and sodium glycolate in the following ratio of ingredients, wt.%: sodium formate - 73-87; sodium glycolate - 4-13; sodium chloride - 5-17, and the composition contains a mixture of salts from the evaporation of an aqueous solution of salts - waste production of chloroform by the method of alkaline cleavage of chloral (RU 2135540 C1, publication date 08/27/1999). This mixture has fractions that provide the minimum abrasion properties, which, as they are on the road, lose these properties.

Known anti-icing granular product based on potassium formate, containing 0.1-1% wt.% Water and containing 0.5-5 wt.% A water-soluble anti-caking agent selected from potassium carbonate and potassium hydroxide and having an affinity for water corresponding to equilibrium humidity is lower than the equilibrium 16% relative humidity at 22 ° C for potassium formate (RU 2284216 C1, 03.20.2005). The result of the invention: obtaining modifying and anti-caking agents for potassium formate in achieving its flowability under conditions of practical storage and processing.

Known anti-icing composition containing sand and sodium chloride in the composition, wt.%: NaCl - 14-16; iron chloride - 1-2; carbamide - 2-4; river sand - the rest (RU 2285712 C1, 10.20.2006).

Known anti-icing composition containing 22.5-45.0% calcium chloride, 50.0-77.0% zeolite or natural sand, 0.5-5.0% triethanolamine (RU 2294352 C1, 02.27.2007). Effect: increasing the efficiency of removing ice from the road surface by changing the mode of action, reducing the degree of corrosion with significant savings of calcium chloride, the composition is environmentally friendly.

Known anti-icing composition for preventing ice on the roads, containing a base - river sand and an additive - salt, characterized in that as an additive it contains a salt of organic low molecular weight acid and an alkali and / or alkaline earth metal and additionally it contains a stabilizer - a water-soluble cellulose derivative in the following the ratio of components, wt.%: additive - salt of organic low molecular weight acid and alkaline and / or alkaline earth metal - 5-20; stabilizer - a water-soluble derivative of cellulose - 0.1-5.0; again - river sand - the rest (RU 98101338 A, 07.20.1999).

Known anti-ice composition comprising a mixture of urea and additional ingredients, characterized in that the composition contains sodium formate in an amount of 85-95%, urea in an amount of 4-10% and potassium carbonate in an amount of 1-5%, while the composition further comprises river sand , the ratio of the mixture of salts and river sand in the composition is in the range, wt.%: 15:85 - 25:75, the composition additionally contains water, and the concentration of the mixture of salts in water is 15-30% (RU 2002123905 A, 03/20/2004) .

In the known method of removing snow-ice cover of road surfaces, including the spreading of an anti-icing preparation on the surface of the snow-ice cover, granules of a mixture of sodium and potassium chlorides are used as anti-icing preparation, using granules obtained by pressing a mixture of sodium and potassium chlorides at a pressure of 100,200 MPa, followed by crushing to granules from 1 to 5 mm, moreover, sodium and potassium chlorides in the form of granules are selected in the following ratio of components, wt.%: Potassium chloride - 45-75; sodium chloride - 24-50; crystallization water and inert impurities are 1-5, and the granules are made with a size of from 0.1 to 10 mm (RU 2044118 C1, 09/20/1994).

The technical solutions described in RU 2002123905 A, RU 2044118 C1 and RU 2006116728 A provide for spreading the mixture in its wet or wet state, which is associated with the use of sophisticated spreader equipment and additional costs.

Known anti-icing preparation used for winter maintenance of road surfaces in the road and municipal services in order to remove snow and ice formations from the carriageway of roads, which contains a mixture, wt.%: Nitrate-sulfate salt 16-32; a modifying additive - double superphosphate 2-3; sand - the rest (RU 2027731 C1, 01/27/1996). For technological reasons, this sand-salt mixture is prepared immediately before its distribution on road sections subject to icing, which significantly reduces the versatility of the mixture.

In the known method for preparing the anti-icing reagent composition for treating road and airfield coatings, calcium chloride is mixed with water, after which magnesium chloride solution is added to the calcium chloride aqueous solution, and a low-freezing glycol component is introduced into the resulting mixture in the ratio, wt.%: Calcium chloride - 10 6-22.0; magnesium chloride - 5.3-12.0; low-freezing glycol component - 4.0-30.0; water is the rest. The result is a reagent with melting properties at a low temperature, which has a low degree of corrosion that does not adversely affect the environment (RU 2211235 C1, 08.27.2003).

Known anti-icing composition for preventing and removing ice formations, as well as for melting snow on any surface, including on roads and building structures, and the composition contains, wt.%: Sodium formate - 85-95, urea - 4-10; potassium carbonate - 1-5; river sand with a ratio of a mixture of salts and river sand - 1: 5-1: 3; water at a concentration of a mixture of salts in a concentration of 15-30% (RU 2221002 C1, 10.01.2004). The composition has a low eutectic temperature (-35 ° C), provides the prevention of ice formation. It is assumed that it reduces the consumption of funds for melting snow and ice and does not lead to environmental pollution.

A known composition for preventing frost on roads, containing river sand, magnesium chloride and / or formate and / or sodium and / or calcium acetate (RU 2141500 C1, 11/20/1999).

Coated abrasive grain, a method for producing such grain and its use are also known, the grain is coated with a fine-grained inorganic powder, and the basis of the binder shell with grain is aluminosilicate, water glass and water (RU 2008140983 A, B24D 3 / 00, 04/20/2010). These grains in the shell are used in the manufacture of materials processing materials.

By close technical solutions presented in the Industry Road Standards, it is provided that granules more than 10 mm are excluded in anti-icing materials composed of chemical and friction materials, while granules less than 1 mm in the material should contain no more than 15%, granules with a size of 5 mm or more up to 10 mm, anti-icing material should contain 5-15%, and friction material, granules of which have sizes from 1 to 5 mm, should contain at least 75% (Internet, Industry road standards ODN 218.2.027-2003 “Requirements for anti-ice mat series ").

Another close known technical solution is an anti-icing composition or composition containing calcium chloride and zeolite or natural sand, characterized in that the composition of the composition comprises sodium, potassium, calcium, magnesium chlorides, sodium and calcium formates and acetates in the form of separate salts or mixtures thereof, and instead of zeolite or sand contains a stable friction base: natural non-metallic materials - crushed stone, coarse river sand, granite and marble chips, opal-cristobalite, shungite, gypsum in the following ratio components, wt%: component salt - 5,0-50,0;. stable friction base - 50.0-95.0, as well as water - 0-17.0 (RU 2006116728, 11/20/2007).

Anti-icing compositions are known from foreign patent documentation, in particular, a reagent for improving snow melting is known, which includes charcoal, river sand and crushed rocks with particles smaller than 5 mm (JP 2006143981 A, C09K 3/18, 06/08/2006) .

A defrosting composition is known comprising alkali and / or alkaline earth metal chlorides, for example, NaCl or CaCl ₂ , rock salt, phosphates, sand and gravel (GB 1308780 A, C09K 3/18, 03/07/1973).

Known reagent for removing snow and / or ice and preventing slipping, the reagent is made in the form of a mixture consisting of an abrasive in the form of pumice in granular form, calcium chloride and aerated concrete, the reagent comprising 20 to 40% calcium chloride, a mass of crushed aerated concrete with grain sizes 0.8 from the grains of calcium chloride, and the particle size of the crushed aerated concrete and pumice is from 1 to 4 mm (EP 0083695 A1, C09K 3/18, 07/20/1983).

Known composition for melting ice containing coated solids, abrasives and absorbents, while the coating composition includes calcium chloride, urea, sodium chloride, sand, gravel, slag as abrasives, calcined diatomite was used as absorbent (WO 9710311 A1 , C09K 3/18, 03.20.1997).

An analysis of the known technical solutions described above shows that the known anti-icing compositions contain chemical components for melting snow and ice and abrasive (or frictional) components to increase the road adhesion of vehicle wheels or pedestrian shoes.

A known method of manufacturing a deicing composition, characterized in that the composition is obtained by mixing a chemical component and an abrasive component, and alkali chloride is used as a chemical component, and alkaline earth metal silicate is used as an abrasive component in the form of a water-soluble powder, as an environmentally friendly means of long-time deicing (EP 0506984 A1, 10/07/1992), as well as other similar methods, the main features of which are action vii aimed at mixing the components. The specified method does not meet the requirements of an effective impact on the slippery of the road surface and does not adequately meet the environmental requirements.

Of the known technical solutions, close to the variants of the anti-icing composition presented in this description is an anti-icing composition containing a chemical component and an abrasive component, and the chemical component contains sodium, potassium, calcium, magnesium chlorides, sodium and calcium formates and acetates in the form of separate salts or their mixtures, and the abrasive component contains natural non-metallic materials - crushed stone, coarse river sand, granite and marble chips, opal cristobalite, shungite, while the composition has traveling ratio of these components, wt.%: chemical salt component - 5.0-50.0; abrasive component - 50.0-95.0, water - 0-17.0 (RU 2006116728, 11/20/2007).

The prototype (RU 2006116728) has the following disadvantages. During storage, transportation of the anti-ice composition, the particles or granules of the chemical component come into contact with each other. In view of the natural moisture content of the composition (with a water content of 0% in the composition) or other humidity (with the indicated content in the composition of water from 0% to 17%), the particles of the chemical component in contact are caked together. This leads to the formation of lumps of particles of the chemical component. When the composition spreads onto the road, these lumps of the chemical component fall on ice and snow, which leads to uneven distribution of the chemical and abrasive components on the road surface and negatively affects the uniformity of the slippage of the road.

Another significant drawback of the known composition is that during its manufacture, the effective combination and interaction of the granules of the chemical material with the fractions of the abrasive material is not fully achieved due to the fact that the issues of the interaction of the particles of the components in this composition, as in other compositions, are not solved. As a result, the composition, the particles and granules of which are approximately the same in size, is ineffective, because after they are scattered on the road, they essentially work separately from each other. As a result, the main part of the granules and fractions falls on the snow and ice of the road surface separately from each other. This leads to a separate effect of chemical granules and abrasive fractions on the ice and snow of the road surface, an increase in the time of melting of snow and ice, and an increase in the time of formation of roughness on the snow and ice crust of the road surface. The increase in the time of melting snow and ice leads to the need to increase the proportion of the mass of the chemical component in the total mass of the anti-icing composition, which leads to a significant decrease in its environmental friendliness.

Also, a significant drawback of anti-icing compositions composed of solid granules of a chemical material and solid fractions of an abrasive material is that large fractions of an abrasive material ranging in size from 2 mm to 10 mm, having sharp edges, have relatively high kinetic energy in the process of their scattering by centrifugal spreaders. When the working body of the spreader is adjusted correctly, then the indicated energy of the fractions is a positive factor for their introduction into the snow and ice cover of the roadway. However, when the spreader's working body is not adjusted correctly, or when road irregularities contribute to the skewing of the spreader's working body from its design position, the indicated energy of the particles of the mixture is a negative factor, leading to damage to the car body coatings parked on the roadsides, as well as to injuring passers-by.

Another disadvantage of the prototype is that it does not provide for the form of fractions of the abrasive component, which would exclude the impact of sharp edges of the abrasive on the surface of the road surface and on the surface of environmental objects, including shoes of passers-by and car tires. All this leads to the fact that microscopic sharp edges of the fractions leave subtle cuts and chips on these surfaces, leading to their growth during operation and, over time, to the destruction of these surfaces. Moreover, during the interaction of the sharp edges of the fractions of the abrasive component with the road and the tire, especially in the braking and acceleration modes of the car, the sharp edges of the fractions work like the edges of the grains of emery cloth, which leads to accelerated wear of car tires and road surfaces.

Together, the above disadvantages of the known anti-icing compositions reduce the effectiveness of the impact on slippery roads and at the same time have a harmful effect on the environment.

The technical result of the invention is to increase the effectiveness of the anti-icing composition by reducing the slippery of the road surface and the harmful effects on the environment.

To obtain the technical result, depending on the humidity, air temperature, road surface and the degree of its slippage, the following composition options are used.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand fractions dosed by weight of dry groups, in the first of which fractions selected in the range from 0.1-2.0 mm, in the second group fractions were selected in the range 2.0-5.0 mm, in the third group fractions were selected in the range of 5.0-10.0 mm, these groups of fractions in total the mass of sand is, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - NSOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Sand - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of dosed fractions of marble chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group fractions are selected in the range 2.0-5.0 mm, in the third group fractions are selected in the range of 5.0-10.0 mm, these groups of fractions in total mass of marble to Oshki comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - NSOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected, wt.%: Marble chips - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of granite fractions framed by weight of dry groups, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group fractions are selected in the range 2.0-5.0 mm, in the third group fractions are selected in the range of 5.0-10.0 mm, these groups of fractions in total mass of granite to Oshki comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KC1, magnesium chloride - MgC1 ₂ , sodium formate - HCOONa, potassium formate - НСООК, urea - (NH ₂ ) ₂ CO, moreover, the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Granite chips - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - НСООК, and / or urea - (NH ₂ ) ₂ CO, moreover, the ratio of these components of the anti-icing composition is selected in the proportion, wt.%: Abrasive component - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total mass of sand comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - calcium chloride - CaCl ₂ , and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - potassium chloride - KCl, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - magnesium chloride - MgCl ₂ , and the ratio of the components of the anti-icing composition is selected in the proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - sodium formate - HCOONa, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - potassium formate - NSOOK, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - urea - (NH ₂ ) ₂ CO, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component 5-95; chemical component - 95-5.

Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble chips fractions dosed by weight of dry groups, and / or granite chips, in the first of which fractions are selected in the range of 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0 -10.0 mm, indicated groups fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, and / or potassium formate - NSOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in the proportion, wt.%: Abrasive component - 5-95; the chemical component is 95-5, while the particles of the abrasive component are located in a shell made of a chemical component.

The specified technical result was obtained by a method of manufacturing an anti-icing composition, characterized in that the composition is made by mixing the abrasive and chemical components, and before mixing the particles of the abrasive component are divided into fractions into groups, then the wet abrasive component groups are dosed, and they are fed sequentially to the mixer, in which they are mixed particles of an abrasive component with a chemical component until they adhere to each other, and at the same time during mixing Ia abrasive component particle components with a coating made of a chemical component, composed of one or more chemical materials. Particles of the abrasive component are coated with the chemical component in the dry or wet state of the latter.

The composition is made on the production line, at its first post the abrasive component is screened, this component is sieved through sieves and divided into fractions into groups.

Fractions of the second and third groups of the abrasive component with dimensions of 2 mm or more are doused, the cutting edges of each particle of the fraction are dulled by the interaction of the edges of the particles with the cutting edges of other particles. Next, each group of abrasive component is dried separately from each other and set the desired humidity of each group of abrasive component. Set the desired humidity of the chemical component. The groups of the abrasive component and the chemical component are dosed, their metered masses of the components are fed into the mixer chamber and the components are mixed in predetermined proportions with each other. The components are mixed in the mixer chamber, which provides the specified mixing mode, in which it is possible for small particles of the chemical component to adhere to the surfaces of the particles of the abrasive component. In this embodiment of the method, the chemical components are mixed with the particles of the abrasive component and provide the possibility of cladding each particle of the abrasive component with particles of the chemical component. To do this, before mixing the components give the desired moisture to the particles of the components and the process of adhesion of the dry particles of the chemical component to the wet particles of the abrasive component is controlled by their predetermined humidity.

In another embodiment of the method, the solid particles of the abrasive component located in the mixer chamber are brought into a fluidized state by supplying a stream of heated air to the chamber. Then spray the chemical component in a dry or wet state in the mixer chamber. The chemical component is sprayed in the form of a solution, suspension or dust. As a result, the particles of the chemical component cover the particles of the abrasive component. After the end of the process, each particle of the abrasive component is covered with a thin film or crust in the dry state of the coating. Solid particles of the abrasive component are fed into the chamber and subjected to their fluidization - a stream of hot air, which helps the particles to mix with each other in the suspended state of the particles. The chemical component is fed into the chamber by spray nozzles in the opposite direction of the air flow, which ensures maximum interaction of the particles of the chemical component with the particles of the abrasive component.

They withstand the process of mixing and coating for a predetermined period of time during which a given dryness of the particles of the composition and predetermined particle sizes of the anti-icing composition are obtained. The resulting finished composition is removed from the mixer chamber, cooled and packaged in a special package. All described operations of coating particles of an abrasive component are combined with operations of mixing the components of the composition, i.e. these operations are performed for one period of time, in one chamber.

The anti-icing composition works as follows. According to a special technique, one of the options for the anti-icing composition is selected depending on the temperature, air humidity and slippery road. The selected version of the composition is scattered with a mechanical spreader or manually on the road surface of the carriageway or sidewalk, covered with snow and ice. Particles of abrasive and chemical components are introduced into the massifs of snow and ice. Particles of the chemical component melt crystals of snow and ice and form holes under themselves filled with liquid from water and a chemical component, and particles of the abrasive component create a roughness on the surface of ice and snow. Particles of the abrasive component, having a size of up to 2 mm in interaction with smaller particles of the chemical component, form the bulk of the composition of high permeability in snow and ice. Moreover, the patency of the particles, characterized by the growth rate of the volume of the hole in ice or snow under the particle, depends on the mutual influence on the ice and snow crystals of particles of the chemical and abrasive components of the composition. It is established that the closer the particles of the components are located to each other, the higher their combined passability. Particles of an abrasive component having a size of more than 2 mm, after the formation of these holes are located in them and work to destroy the structural bonds of ice and snow, while they perform their main function - increase the adhesion of tire wheels of cars or soles to slippery roads. If the particles of the abrasive component are rounded and have rounded edges, then when pressed with a tire or sole of a shoe, it is pressed into the tire and sole without their micro-cuts. Dents from the rounded edges of the particles are restored due to the elasticity of the surfaces of the tires and soles. All variants of the composition can reduce its consumption by accelerating the melting of snow and ice. Acceleration of the melting process accelerates the process of formation of roughness on the surface of ice and snow, which reduces road slippage less depending on the proportion of the chemical component in the composition, reduces the consumption of the composition, due to the above effect promotes faster melting of snow and ice on the road, reduces wear on the road surface, tires and shoes, and also improves the environmental friendliness of the composition.

An increase in the speed of melting ice and snow was obtained due to the choice of the qualitative and quantitative composition of the chemical component in combination with the structure of the abrasive component. This is achieved due to the fact that the above compositions of chemical and abrasive components are composed from the condition of increasing their permeability in snow and ice. During the work of any of the composition options, a grid (conditionally) of particles of a chemical component with melting points under each particle of the chemical component is created around the particles of the abrasive component. After the formation of the chemical component of the holes under the particles, this mass of particles makes it possible to place the abrasive component in the holes of the particles. Since the abrasive component is composed of its dosed groups having established size limits, and each group in the total mass of the abrasive component has a predetermined mass fraction, the interaction of the mass of the chemical component with the mass of the abrasive component provides the possibility of increasing the throughput of particles in an ice and snow mass, their accelerated loosening and melting.

The work of the composition, in which a particle of the abrasive component is clad in a film or crust made of a chemical component, is carried out as follows. The composition falls on snow or ice and is embedded in their massifs. First, the process of melting snow and ice begins from the action of the chemical component of the particle, and a hole is formed under the particle, filled with a liquid consisting of water and the chemical component dissolved in it. Then the particle sinks to the bottom of the well under the action of its own mass. The process of lowering the abrasive particles into the hole is repeated continuously until the particle reaches the surface of the pavement and the hole above the particle is filled with the indicated liquid. As a result, the bonds between the particles of ice and snow are destroyed, the liquid is absorbed by the peripheral mass of ice and snow, which is also destroyed, while the snow and ice are loosened, and the road surface is cleared at a higher speed.

As a result, the process of destruction of the ice and snow massif is significantly optimized with respect to the composition of the composition, the melting of snow and ice is accelerated with a reduced proportion of the chemical component in the total mass of the composition. During the work of this composition, the surface of the particle of the abrasive component is cleaned of the film or peel of the chemical material, the particle of the abrasive component begins to work for its intended purpose - it creates roughness on the remnants of ice, snow and on the surface of the road surface, which significantly accelerates melting, increases roughness and reduces slippage the roads.

When a particle of the abrasive component is coated with a film (crust) with a tire or the sole of a pedestrian shoe, the film is destroyed, crushed, and the destroyed particles of the film are mixed with adjacent particles of the abrasive component.

The wide ranges of ratios of abrasive and chemical components, obtained experimentally, provided ample opportunity to choose a composition depending on the various climatic conditions of its application, meaning temperature and humidity, as well as slippery roads. Due to the selected ratios, the melting time of snow and ice was reduced, which allowed to reduce the proportion of the mass of the chemical component in the total mass of the anti-icing composition. This allowed to significantly increase the environmental friendliness of the composition in conjunction with its other above-mentioned qualities, aimed at reducing the harmful effects on the environment.

Other sources of information

US 4444672, 04.24.1984; US 5709812, 01.20.1998; US 2011180637 A1, July 28, 2011; US 6673261 B1, January 6, 2004; US 7556742 B1 07/07/2008; US 4,388,203 A, 06/14/1983; US 4,668,416 A, 05/25/1987; US 4855071 A, 08/08/1989; EP 0375214 A1, 06.16.1983; RU 2123082 C1, 12/10/1998; RU 2237774 C1, 10/10/2004; RU 2239687 C2, 11/10/2004; RU 2251603 C2, 12/10/2004; RU 2283336 C1, 09/20/2006; RU 2331729 C2, 08.20.2008; RU 2009116194 A, 11/10/2010.

Claims (15)

1. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of wheels of vehicles or pedestrian shoes to the road, and the abrasive component is made up of sand fractions dosed by weight of dry groups, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group of fractions are selected in the range of 5.0-10.0 mm, these groups of fractions in the total mass of sand make up, wt. %: first group - 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - HCOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Sand - 5-95; chemical component - 95-5. 2. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is made up of fractions of marble chips, dosed by weight of dry groups, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0-10.0 mm, these groups fractions in the total mass of marble crumbs are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - HCOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Marble chips - 5-95; chemical component - 95-5. 3. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of granite fractions framed by weight of dry groups in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range 2.0-5.0 mm, in the third group, fractions are selected in the range of 5.0-10.0 mm, these groups fractions in the total mass of granite crumbs are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - HCOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Granite chips - 5-95; chemical component - 95-5. 4. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of the abrasive component are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, potassium formate - HCOOK, and / or urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in proportion, wt.%: Abrasive component - 5-95; chemical component - 95-5. 5. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is made up of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of sand are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5. 6. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of the abrasive component are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - calcium chloride - CaCl ₂ , and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5. 7. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of the abrasive component are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - potassium chloride - KCl, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5. 8. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of the abrasive component are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - magnesium chloride - MgCl ₂ , and the ratio of the components of the anti-icing composition is selected in the proportion, wt.%: abrasive component - 5-95 ; chemical component - 95-5. 9. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated group Py fractions in the total mass of the abrasive component are, wt.%: the first group is 0.1-25; the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - sodium formate - HCOONa, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5. 10. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated gru nN fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - potassium formate - HCOOK, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component - 5-95; chemical component - 95-5. 11. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated gru nN fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of granular material - urea - (NH ₂ ) ₂ CO, and the ratio of the components of the anti-icing composition is selected in proportion, wt.%: abrasive component 5-95; chemical component - 95-5. 12. Anti-icing composition, characterized in that it contains a chemical component to accelerate the melting of snow and ice and an abrasive component to increase the adhesion of the wheels of vehicles or pedestrian shoes to the road, and the abrasive component is composed of sand and / or marble fractions dosed by weight of dry groups chips and / or granite chips, in the first of which fractions are selected in the range from 0.1-2.0 mm, in the second group, fractions are selected in the range of 2.0-5.0 mm, in the third group, fractions are selected in the range of 5 , 0-10.0 mm, indicated gru nN fractions in the total weight of the abrasive component comprise, in weight%: the first group - 0.1-25;. the second group is 99.8-50 and the third group is 0.1-25, the chemical component is composed of a mixture of granular material - sodium chloride - NaCl, calcium chloride - CaCl ₂ , potassium chloride - KCl, magnesium chloride - MgCl ₂ , sodium formate - HCOONa, and / or potassium formate - HCOOK, urea - (NH ₂ ) ₂ CO, and the ratio of these components of the anti-icing composition is selected in the proportion, wt.%: Abrasive component - 5-95; the chemical component is 95-5, while the particles of the abrasive component are located in a shell made of a chemical component. 13. A method of manufacturing an anti-icing composition according to claims 1-12, characterized in that the composition is made by mixing the abrasive and chemical components, and before mixing the particles of the abrasive component are divided into fractions into groups, then the wet abrasive component groups are dosed, and they are fed sequentially to the mixer in which the particles of the abrasive component are mixed with the chemical component to the state of their adhesion to each other, and at the same time during the mixing of the components of the particles of the abrasive component The component is coated with a shell made of a chemical component composed of one or more chemical materials. 14. The method according to item 13, wherein the particles of the abrasive component are coated with a chemical component in the dry state of the latter. 15. The method according to item 13, wherein the particles of the abrasive component are coated with a chemical component in the wet state of the latter.