A kind of air sterilization disinfectant

Abstract

The invention discloses an air sterilization disinfectant, which comprises: 9.3-9.79% of water, 4.3-4.53% of triethylene glycol, 4.3-4.53% of propylene glycol, 45.61-48.02% of isopropanol, 2.34-2.47% of hydrogenated castor oil, Propane 21.13~23.75%, HFC‑152A 6.49~8.49%, fragrance 2.45~2.58%. Preferably contains: water 9.53%, triethylene glycol 4.41%, propylene glycol 4.41%, isopropanol 46.74%, hydrogenated castor oil 2.4%, propane 22.5%, HFC‑152A 7.5%, fragrance 2.51%. The disinfectant provided by the invention has a super strong bactericidal ability, and at the same time maintains a constant natural fragrance in the air, can maintain the effect of sterilization and disinfection for a long time and efficiently, and has the characteristics of being easy to use and popularize.

Description

Technical field [0001] The present invention relates to a disinfectant, in particular to an air sterilization drug. Background technique [0002] Air bactericidal disinfection refers to microbes in the air, bacteria for disinfecting. Air is an important spread path of microorganisms such as bacteria and viruses, in our work and life venues, always facing the hazards from viral and harmful bacteria in the air. Clean and fresh air is the foundation of life. Even in the industrial field, microbial content in air is usually low, such as raw materials and food storage, processing, and packaging processes have such requirements. [0003] Traditional methods of air sterilization include ultraviolet disinfection, ozone disinfection, and formaldehyde, but currently have problems in most air sterilization process mainly disinfection, or secondary pollution. Moreover, the above-mentioned common methods have their own defects, such as the ultraviolet rays sterilizing in optical wave radiatio...

AI Technical Summary

Problems solved by technology

[0003] The traditional methods of air sterilization and disinfection include ultraviolet disinfection, ozone disinfection and formaldehyde fumigation, etc. However, most of the current air sterilization and disinfection processes have problems mainly due to incomplete disinfection or secondary pollution.

Moreover, the above several commonly used methods also have their own defects, such as: ultraviolet rays sterilize by light wave radiation, light waves propagate in a straight line, and its irradiation intensity is inversely proportional to the square of the distance. , and the bactericidal ability of all ultraviolet rays weakens with the increase of use time

The main problem of ultraviolet sterilization is that its penetrating ability is small, and the disinfection effect is not good in places where ultraviolet rays cannot be irradiated. costly

Ozone sterilization has a strong medicinal smell and cannot be discharged naturally, requiring the air conditioner to replace fresh air for a long time, thus increasing energy consumption

At the same time, there is also the problem of secondary pollution. The fumigation time is long, and there are secondary pollutants, which are harmful to the human body.

Formaldehyde fumigation sterilization also has a strong medicinal smell and cannot be discharged naturally, requiring the air conditioner to replace fresh air for a long time, thereby increasing energy consumption

At the same time, there is also the problem of secondary pollution. The fumigation time is long, and there are secondary pollutants, which will cause great harm to the human body, and the input cost is relatively high.