Far infrared anion nanometer solution

Abstract

The invention discloses a far infrared anion nanometer solution. The far infrared anion nanometer solution is composed of the ingredients of, by weight, 100 parts of anion powder, 400 parts to 600 parts of distilled water, 6 parts to 8 parts of sodium polyacrylate, 12 parts to 15 parts of dodecyl polyglucoside, 4 parts to 6 parts of ethylene glycol, 10 parts to 12 parts of ethyleneurea, 4 parts to 6 parts of citric acid, 6 parts to 8 parts of zirconia, 12 parts to 15 parts of dodecyl dimethyl betaine, 15 parts to 18 parts of tert-butyl acetate, and 10 parts to 15 parts of alkoxy type titanate coupling agent. The ingredients are mixed and soaked for 2 days to 3 days, and then placed into a ball mill to be subjected to low-speed ball milling for 2 hours to 3 hours and high-speed ball milling for 40 minutes to 60 minutes, and the far infrared anion nanometer solution is obtained. According to the far infrared anion nanometer solution, a permanent nanoscale anion film is formed on the surface of a pollution source to decompose formaldehyde before formaldehyde escapes into the air, formaldehyde is prevented from causing harm to human bodies, anion release can be triggered only by slight changes of temperature and pressure without light irradiation under any room temperature states to decompose formaldehyde, and because the far infrared anion nanometer solution is colorless and odorless, the surfaces of furniture are not damaged.

Description

technical field [0001] The invention relates to the field of air purification coating liquid, in particular to a far-infrared negative ion nano liquid. Background technique [0002] With the improvement of people's living standards, interior decoration has spread throughout urban and rural areas, but various decorative materials used for decoration, such as: plywood, paint, plastic products, floors, cement, etc., contain volatile harmful substances to varying degrees, and the main indoor air pollution is toxic. Harmful molecules include formaldehyde, benzene, ammonia, etc. Indoor pollution has become one of the top killers of human health. Therefore, how to purify indoor air in an all-round way in the shortest possible time has become a top priority. At present, the measures to purify the air include: negative ion generator dust removal technology, high-voltage electrostatic purification, activated carbon adsorption technology and ozone purification technology. Combining t...

AI Technical Summary

Problems solved by technology

Based on the above air purification technologies, generally only harmful substances can be adsorbed and stored, but cannot be converted. Some measures such as negative ions and high-voltage electrostatic purification technologies can remove smoke and dust well, but it is difficult to purify pollution caused by chemicals and microorganisms.

For example, the catalytic active system in the photocatalyst adopts slurry impregnation and gel sol process to make TiO 2 Nanoparticles or films are loaded on the surface of the carrier and in the voids to form a composite nanophotocatalyst, which is fixed on a UV lamp with a wire mesh to form a catalytic reactor. Although it can remove harmful gases in the room well, its use is limited and its function It only works in a certain part of the indoor space, and it cannot quickly solve the problem of eliminating formaldehyde, benzene, ammonia and other harmful gases in the living room.

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