CN112314637A - Sterilization spray formula - Google Patents

Abstract

The invention relates to a sterilization spray formula, which comprises the following components: plant essential oil aqueous solution, bacteriostatic gel sustained-release aqueous solution and long-acting photoreaction photocatalyst aqueous solution; wherein the plant essential oil water solution accounts for 20-70 percent; wherein the antibacterial gel slow-release aqueous solution accounts for 10-40 percent; wherein the long-acting photoreaction catalyst aqueous solution accounts for 20-40%. The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting light reaction catalyst aqueous solution can be used for effectively sterilizing to further enhance the sterilization effect, and the sterilization time and the sterilization effect are controlled by selecting the plant essential oil aqueous solution, the antibacterial gel slow-dilution aqueous solution and the long-acting light reaction catalyst aqueous solution in different proportions, so that different sterilization environments are matched.

Description

Sterilization spray formula

Technical Field

The invention particularly relates to a spray formula, and particularly relates to a sterilization spray formula.

Background

In the present life, a large amount of pathogenic microorganism particles are floated and moved in the air, causing infectious diseases and infectious diseases of the human body.

Pathogenic biological particles in the air mainly come from droplets and dust, and microorganisms in the mouth are dispersed in the air in a droplet manner when people speak and sneeze.

Viruses and pathogenic bacteria in the air can be spread by means of air circulation, a central air conditioner and a fresh air system, and the pathogenic viruses and the pathogenic bacteria which invade mucous membranes of nasal cavities, oral cavities, eyes and the like are harmful to human bodies, so that the life, the study and the work of people are influenced, and even the life is endangered.

The natural plant essential oil mainly contains part of components, particularly eucalyptus essential oil, and has the function of quickly sterilizing, but the plant essential oil is quickly volatilized, and the sterilization timeliness is short.

The conventional antibacterial material can inhibit the growth of bacteria and pathogenic microorganisms with lower concentration, and the main principle is that inorganic salt metal ions participate in destroying the cell wall structure of the bacteria, but the reaction efficiency is lower and the sterilization efficiency is low, particularly for the cell wall structure formed by lipid molecules, the metal ion permeation efficiency is low, and the destructive power is reduced.

The conventional photochemical decomposition, especially the photocatalyst catalysis of the decomposition in the visible light region, has high sterilizing capability, but the required luminous flux is in direct proportion to the wavelength component, radiance and illumination time of ambient light. Is suitable for long-acting sterilization. Meanwhile, for quick sterilization and medium-long time bacteriostasis, the two components are required to be combined.

Disclosure of Invention

The invention aims to provide a sterilization spray formula which can effectively solve the technical problems.

In order to achieve the purpose of the invention, the following technical scheme is adopted: a germicidal spray formulation comprising: plant essential oil aqueous solution, bacteriostatic gel sustained-release aqueous solution and long-acting photoreaction photocatalyst aqueous solution;

wherein the plant essential oil water solution accounts for 20-70 percent;

wherein the antibacterial gel slow-release aqueous solution accounts for 10 to 40 percent

Wherein the long-acting photoreaction catalyst aqueous solution accounts for 20-40%.

Preferably, the plant essential oil aqueous solution accounts for 70%, the bacteriostatic gel slow-release aqueous solution accounts for 10%, and the long-acting photoreaction catalyst aqueous solution accounts for 20%.

Preferably, the plant essential oil aqueous solution accounts for 60%, the bacteriostatic gel slow-release aqueous solution accounts for 20%, and the long-acting light reaction catalyst aqueous solution accounts for 20%.

Preferably, the plant essential oil aqueous solution accounts for 50%, the bacteriostatic gel slow-release aqueous solution accounts for 10%, and the long-acting reaction photocatalyst aqueous solution accounts for 40%.

Preferably, the ratio of the plant essential oil aqueous solution to the bacteriostatic gel slow-release aqueous solution is 20%, and the ratio of the long-acting photoreaction catalyst aqueous solution to the bacteriostatic gel slow-release aqueous solution is 40%.

Preferably, the aqueous solution of plant essential oil comprises water and plant essential oil; wherein the plant essential oil accounts for 2-10 percent;

the bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 2-10 percent;

the long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 2% -10%.

Preferably, the plant essential oils comprise: one or more of eucalyptus essential oil, mint essential oil and lavender essential oil, wherein the eucalyptus essential oil accounts for at least 80%.

Preferably, the bacteriostatic gel comprises: the nano silver is mixed with one or more of copper oxide or zinc oxide through one or more of citric acid, ethylene glycol or ethylene diamine tetraacetic acid;

wherein the nano silver accounts for at least 50 percent;

wherein one or more of copper oxide and zinc oxide accounts for 20-30%.

Preferably, the long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-crystallites doped with trace carbon and nitrogen atoms;

wherein, the anatase titanium dioxide accounts for at least 95 percent;

wherein the specific size of the anatase titanium dioxide is 5-20 nanometers.

Compared with the prior art, the invention has the following beneficial effects:

the plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the bacteriostatic gel slow-dilution aqueous solution can be continuously sterilized to improve the sterilization efficiency, the long-acting light reaction catalyst aqueous solution can be used for strongly sterilizing to further enhance the sterilization effect, and the sterilization time and the sterilization effect are controlled by selecting the plant essential oil aqueous solution, the bacteriostatic gel slow-dilution aqueous solution and the long-acting light reaction catalyst aqueous solution in different proportions, so that different sterilization environments are matched.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the embodiments of the present invention.

Example 1:

a germicidal spray formulation comprising: the antibacterial plant essential oil water solution comprises 70% of plant essential oil water solution, 10% of antibacterial gel slow-release water solution and 20% of long-acting photoreaction catalyst water solution.

The plant essential oil water solution comprises water and plant essential oil; wherein the plant essential oil accounts for 2 percent.

The plant essential oil is eucalyptus essential oil.

The bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 2 percent.

The bacteriostatic gel comprises: the nano silver is mixed with the zinc oxide by citric acid, and the nano silver accounts for 50 percent.

The long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 2 percent.

The long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-micro crystals doped with trace carbon and nitrogen atoms;

wherein, the anatase titanium dioxide accounts for 96 percent.

Wherein the specific size of the anatase titanium dioxide is 20 nanometers.

Wherein, the anatase titanium dioxide is doped with trace carbon and nitrogen atoms, thereby changing the photoresponse wavelength range to the visible light range, improving the photochemical catalysis reaction effect and enhancing the sterilization effect.

The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting photoreaction catalyst aqueous solution can be effectively sterilized, the sterilization effect is further enhanced, and the proportion is suitable for the requirement of quick sterilization.

Example 2:

a germicidal spray formulation comprising: the antibacterial plant essential oil water solution comprises 20% of plant essential oil water solution, 40% of antibacterial gel slow-release water solution and 40% of long-acting photoreaction catalyst water solution.

The plant essential oil water solution comprises water and plant essential oil; wherein the plant essential oil accounts for 3 percent.

The plant essential oil adopts eucalyptus essential oil and mint essential oil, wherein the proportion of the eucalyptus essential oil is 80%.

The bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 3 percent.

The bacteriostatic gel comprises: the nano silver is mixed with zinc oxide and copper oxide through citric acid and ethylene glycol, and the nano silver accounts for 55 percent.

The long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 3 percent.

The long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-micro crystals doped with trace carbon and nitrogen atoms;

wherein the anatase titanium dioxide accounts for 95 percent.

Wherein the specific size of the anatase titanium dioxide is 5 nanometers.

Wherein, the anatase titanium dioxide is doped with trace carbon and nitrogen atoms, thereby changing the photoresponse wavelength range to the visible light range, improving the photochemical catalysis reaction effect and enhancing the sterilization effect.

The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting photoreaction catalyst aqueous solution can be used for strongly sterilizing to further enhance the sterilization effect, and the component distribution ratio is suitable for being antibacterial in the environment for a medium and a long time. .

Example 3:

a germicidal spray formulation comprising: the antibacterial plant essential oil water solution comprises 60% of plant essential oil water solution, 20% of antibacterial gel slow-release water solution and 20% of long-acting photoreaction catalyst water solution.

The plant essential oil water solution comprises water and plant essential oil; wherein the plant essential oil accounts for 5 percent.

The plant essential oil is eucalyptus essential oil, mint essential oil and lavender essential oil, wherein the eucalyptus essential oil accounts for 85% of the total weight of the essential oil.

The bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 5 percent.

The bacteriostatic gel comprises: the nano silver is mixed with zinc oxide and copper oxide through citric acid, ethylene glycol and ethylene diamine tetraacetic acid, and the nano silver accounts for 50 percent.

The long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 5 percent.

The long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-micro crystals doped with trace carbon and nitrogen atoms;

wherein, the anatase titanium dioxide accounts for 97 percent.

Wherein the specific size of the anatase titanium dioxide is 10 nanometers.

Wherein, the anatase titanium dioxide is doped with trace carbon and nitrogen atoms, thereby changing the photoresponse wavelength range to the visible light range, improving the photochemical catalysis reaction effect and enhancing the sterilization effect.

The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting light reaction catalyst aqueous solution can be used for effectively sterilizing and further enhancing the sterilization effect, and the formula is suitable for long-term bacteriostasis in a low-pollution environment.

Example 4:

a germicidal spray formulation comprising: the antibacterial plant essential oil water solution comprises 50% of plant essential oil water solution, 10% of antibacterial gel slow-release water solution and 40% of long-acting photoreaction catalyst water solution.

The plant essential oil water solution comprises water and plant essential oil; wherein the plant essential oil accounts for 10 percent.

The plant essential oil is eucalyptus essential oil, mint essential oil and lavender essential oil, wherein the eucalyptus essential oil accounts for 85% of the total weight of the essential oil.

The bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 10 percent.

The bacteriostatic gel comprises: the nano silver is mixed with zinc oxide and copper oxide through citric acid, ethylene glycol and ethylene diamine tetraacetic acid, and the nano silver accounts for 50 percent.

The long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 10 percent.

The long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-micro crystals doped with trace carbon and nitrogen atoms;

wherein, the anatase titanium dioxide accounts for 96 percent.

Wherein the specific size of the anatase titanium dioxide is 12 nanometers.

Wherein, the anatase titanium dioxide is doped with trace carbon and nitrogen atoms, thereby changing the photoresponse wavelength range to the visible light range, improving the photochemical catalysis reaction effect and enhancing the sterilization effect.

The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting photoreaction catalyst aqueous solution can be used for strong sterilization to further enhance the sterilization effect, and the composition is suitable for long-acting bacteriostasis in the medium-low microbial pollution environment.

Example 5:

a germicidal spray formulation comprising: the antibacterial plant essential oil water solution comprises 30% of plant essential oil water solution, 35% of antibacterial gel slow-release water solution and 35% of long-acting photoreaction catalyst water solution.

The plant essential oil water solution comprises water and plant essential oil; wherein the plant essential oil accounts for 8 percent.

The plant essential oil is eucalyptus essential oil, mint essential oil and lavender essential oil, wherein the proportion of the eucalyptus essential oil is 90%.

The bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 8 percent.

The bacteriostatic gel comprises: the nano silver is mixed with zinc oxide and copper oxide through citric acid, ethylene glycol and ethylene diamine tetraacetic acid, and the nano silver accounts for 60 percent.

The long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 8 percent.

The long-acting photoreaction catalyst comprises: anatase type titanium dioxide nano-micro crystals doped with trace carbon and nitrogen atoms;

wherein, the anatase titanium dioxide accounts for 96 percent.

Wherein the specific size of the anatase titanium dioxide is 15 nanometers.

Wherein, the anatase titanium dioxide is doped with trace carbon and nitrogen atoms, thereby changing the photoresponse wavelength range to the visible light range, improving the photochemical catalysis reaction effect and enhancing the sterilization effect.

The plant essential oil aqueous solution can be quickly sterilized, the sterilization efficiency is improved, the antibacterial gel slow-dilution aqueous solution can be continuously sterilized, the sterilization efficiency is improved, the long-acting light reaction catalyst aqueous solution can be used for strong sterilization to further enhance the sterilization effect, and the formula is suitable for medium-long-acting bacteriostasis under the condition of medium-low microbial environmental pollution.

Claims (9)

1. A germicidal spray formulation comprising: plant essential oil aqueous solution, bacteriostatic gel sustained-release aqueous solution and long-acting photoreaction photocatalyst aqueous solution;

wherein the plant essential oil water solution accounts for 20-70 percent;

wherein the antibacterial gel slow-release aqueous solution accounts for 10 to 40 percent

Wherein the long-acting photoreaction catalyst aqueous solution accounts for 20-40%.

2. The bactericidal spray formulation of claim 1, wherein the plant essential oil aqueous solution is 70%, the bacteriostatic gel sustained-release aqueous solution is 10%, and the long-acting photoreaction catalyst aqueous solution is 20%.

3. The bactericidal spray formulation of claim 1, wherein the plant essential oil aqueous solution comprises 60%, the bacteriostatic gel sustained-release aqueous solution comprises 20%, and the long-acting photoreaction catalyst aqueous solution comprises 20%.

4. The bactericidal spray formulation of claim 1, wherein the plant essential oil aqueous solution is 50%, the bacteriostatic gel sustained-release aqueous solution is 10%, and the long-acting reaction photocatalyst aqueous solution is 40%.

5. The bactericidal spray formulation of claim 1, wherein the plant essential oil aqueous solution is 20%, the bacteriostatic gel sustained-release aqueous solution is 40%, and the long-acting photoreaction catalyst aqueous solution is 40%.

6. The germicidal spray formulation according to claim 1, wherein the aqueous solution of plant essential oil comprises: water and plant essential oils; wherein the plant essential oil accounts for 2-10 percent;

the bacteriostatic gel slow-release aqueous solution comprises: water and bacteriostatic gel, wherein the bacteriostatic gel accounts for 2-10 percent;

the long-acting photoreaction catalyst aqueous solution comprises: water and long-acting photo-reaction catalyst, wherein the long-acting photo-reaction catalyst accounts for 2% -10%.

7. The germicidal spray formulation according to claim 6, wherein the plant essential oil comprises: one or more of eucalyptus essential oil, mint essential oil and lavender essential oil, wherein the eucalyptus essential oil accounts for at least 80%.

8. The germicidal spray formulation according to claim 6, wherein the bacteriostatic gel comprises: the nano silver is mixed with one or more of copper oxide or zinc oxide through one or more of citric acid, ethylene glycol or ethylene diamine tetraacetic acid;

wherein the nano silver accounts for at least 50 percent;

wherein one or more of copper oxide and zinc oxide accounts for 20-30%.

9. The germicidal spray formulation according to claim 6, wherein the long-acting photo-reactive catalyst comprises: anatase type titanium dioxide nano-crystallites doped with trace carbon and helium atoms;

wherein, the anatase titanium dioxide accounts for at least 95 percent;

wherein the specific size of the anatase titanium dioxide is 5-20 nanometers.