RU2027747C1 - Cleaning paste - Google Patents

Abstract

FIELD: cleaning of contaminated surface. SUBSTANCE: cleaning paste contains 80-90% by weight of abrasive base and 10-20% by weight of surfactant. Abrasive base contains high-concentration ceramic binding suspension with 10-15% -moisture content, which is prepared by wet grinding of quartz sand in ball mill. EFFECT: increased efficiency and wider operational capabilities.

Description

 The invention relates to the field of production of detergents, namely to abrasive cleaning compositions.

Known cleaning powder composition containing, wt.%:
Abrasive base
silicon dioxide 96.8%
Surface-active substance
(dodecylbenzene sulfonate) 2.5
Whitening and disinfecting
general supplement (lithium hypochlorite) 0.5
Fragrance 0.2
The disadvantage of this tool is its ability to spray during manual cleaning, which causes environmental pollution and can cause allergic diseases. In addition, during the cleaning process, it is necessary to add water to the powder, the optimum amount of which is difficult to withstand at home, which usually leads to an overspending of the cleaning agent. This tool is mainly suitable for removing old deposits, since when cleaning thin deposits, the scratching effect of sand particles causes damage to enameled surfaces.

Closest to the claimed solution is a paste for cleaning hard surfaces, containing, wt.%:
Nonionic surfactant
substance syntamide-5 2-5
Ethylene Glycol 3-7
Kaolin 4-8
Abrasive 44-65
Fragrance 0.2-0.5
Alkaline saponification product
polyacrylonitrile 3-5
Water Up to 100
This product is not sprayed when it is used, the scratching effect of sand particles is smoothed out, the paste consumption is more economical than the powder consumption, however, the paste has a complex composition and, as a result, a complicated preparation method, as well as insufficient cleaning ability, especially with the use of cold water. In addition, its viscosity properties are not stable, the paste settles with the compaction of the lower layers, with the release and drying of water in the upper layers, which also leads to a decrease in its cleaning properties.

 The purpose of the invention is to increase the cleaning ability of the paste, including the cleaning efficiency when working with cold water.

 This goal is achieved by the fact that a cleaning paste containing an abrasive base and a detergent surfactant (MPAS), as an abrasive base contains a highly concentrated ceramic binder suspension (HCBS) of 10-15% moisture, obtained by wet grinding quartz sand in a ball mill (fineness of grinding 200-300 mezh), and the proportion of HCBS is 80-90%, and the proportion of MPAW is 10-20% of the total mass of the paste.

New features of the proposed solutions are:
the implementation of the abrasive base of the paste in the form of a highly concentrated ceramic binder suspension of 10-15% moisture obtained by wet grinding quartz sand in a ball mill with a fineness of grinding 200-300 inter;
the implementation of the quantitative composition of the paste in the following ratio, wt.%: highly concentrated ceramic binder suspension of 80-90%, detergent surfactant 10-20%.

The implementation of the abrasive base of the paste in the form of a highly concentrated ceramic binder suspension of 10-15% moisture obtained by wet grinding quartz sand in a ball mill with a fineness of grinding 200-300 inter allows the following:
to increase the efficiency and economy of paste consumption due to its high plastic properties and hiding power (spreadability), which are provided by the lubricating properties of the colloidal component of polysilicic acids adsorbed on the surface of the mineral particles of the paste during wet grinding of quartz sand in a ball mill.

To prevent paste sedimentation and its intensive drying due to the kinetic connection of water molecules with mineral particles of the paste;
to increase the efficiency of pasta cleaning in cold water due to the fact that during cleaning there is a local “peeling” of the surface colloidal layer of mineral particles of the paste and broken bonds appear on their surface, while the chemical bonds are rearranged, the electrical surface relief is formed and other chemical relaxation processes occur. At this point, adhesive (polymerization) contacts of the paste particles with the particles of contaminants occur, which facilitates the removal of these contaminants from the surface being cleaned.

 The implementation of the quantitative composition of the paste in the aforementioned ratio ensures the effectiveness of both cleaning and washing properties. Also, with this ratio, the surfactant stabilizes the initial qualities of a highly concentrated ceramic binder suspension by enveloping the surface of the mineral particles of the suspension, while maintaining their specific layer of the colloidal component.

 The invention is illustrated by the following examples.

 The mixer is loaded with a highly concentrated ceramic binder suspension of 10-15% moisture, obtained by wet grinding of quartz sand in a ball mill with a fineness of 200-300 milling, and various types of detergent surfactant in the ratio indicated above. The mixture is stirred for 15 minutes, after which the resulting paste is ready for use.

 A comparative check of the cleaning ability of the examples of pastes according to the application and prototype below was determined by the method based on rubbing the samples of pastes into a contaminated enameled surface. Cleaning was carried out by ten times reciprocating manually with a foam sponge with applying a paste sample to its surface and then washing it off from the surface to be cleaned with room temperature water.

Examples of cleaning pastes on request:
1. Composition 1,%:
Highly concentrated kera -
mastic astringent suspension
10-15% humidity obtained
method of wet grinding quartz
sand in a ball -
prostrate
grinding 200-300 mezh (HCBS) 85.5
Nonionic MPAV (washing
surface active
Sustainability): Neonol AF9-12 14.3
Fragrance 0.2
The cleaning ability is 77%.

Composition 2,%:
VKVS 85
Nonionic MPAS: syntamide-5 14.8
Fragrance 0.2
The cleaning ability is 76%.

Composition 3,%:
VKVS 85
Nonionic MPAS: poly-
stearic glycol ether
new acid 14.8
Fragrance 0.2
The cleaning ability is 77%.

Composition: 4%:
HCBS 89.7
Anionic MPAS:
soap (sodium palminate) 9
Ethylene tetrasodium salt
dialine tetraacetic acid 1
Fragrance 0.3
The cleaning ability is 78%.

Composition: 5%:
HCBS 89.7
Anionic MPAS: tetra-
sodium propylene benzosulfonate 10
Fragrance 0.3
The cleaning ability is 78%.

Composition 6,%:
VKVS 80
Cationic MPAW:
alkali chloride 20
The cleaning ability is 76%.

Composition 7,%:
VKVS 85
Amphoteric MPAS: dodecyl-
aminodiethylimidoglycerol 15
The cleaning ability is 76%.

Prototype cleaning paste:
Structure, %:
Nonionic surfactant
substance: syntamide-5 3
Ethylene Glycol 5
Kaolin 6
Fragrance 0.3
Abrasive 55
Alkaline saponification product:
polyacrylonitrile 4
Water 26.7
The cleaning ability is 71%.

 Thus, the proposed composition improves the efficiency and economy of consumption of cleaning paste.

Claims (1)

CLEANING PASTE containing an abrasive base and a detergent surfactant, characterized in that the paste contains a highly concentrated ceramic binder suspension of 10-15% moisture obtained by wet grinding quartz sand in a ball mill, in the following ratio of components, wt. %:
Surfactant - 10 - 20
Specified abrasive base - 80 - 90