Sterilization and virus killing method based on flexible glass

A flexible glass and virus-killing technology, applied in the field of virus-killing and sterilization, can solve problems such as secondary contamination of objects with germs and viruses, ineffective direct contact with chemical sterilization drugs, etc.

Inactive Publication Date: 2020-10-30
慧智宇光电科技(珠海)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In related technologies, the common way to kill fungi is to apply some chemical bactericidal drugs on the parts containing fungi; since fungi often exist in the form of colonies, each colony contains many different fungi, therefore, when using chemical bactericidal When using drugs to kill fungi, it is necessary to smear corresponding chemical bactericidal drugs for different fungi; however, when chemical bactericidal drugs are used, there may be a variety of fungi in the form of colonies in the same part, so the applied chemical bactericidal drugs are often Overlapping each other, resulting in the inability of chemical fungicides to effectively directly contact the fungi that they can kill
But distortion is the way to kill bacteria and viruses on the surface of the object, and the remaining chemicals on the surface of the object will also pose a potential threat to the human body
At the same time, this method can only temporarily kill the bacteria and viruses on the surface of the object. When the chemical drugs fail, it will cause the risk of secondary contamination of the objects with bacteria and viruses. There is room for improvement.

Method used

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  • Sterilization and virus killing method based on flexible glass
  • Sterilization and virus killing method based on flexible glass
  • Sterilization and virus killing method based on flexible glass

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] See attached Figure 1~3 , A method for sterilization and virus killing based on flexible glass, comprising flexible glass 1, said flexible glass 1 comprising a substrate layer 101, a glass outer layer 102, a protective film 103, and the substrate layer 101 is PE, or PI, or PA Material, the thickness of the substrate layer 101 is 0.05-0.4mm, the glass layer 102 is glass or glass fiber, the thickness of the glass layer 102 is 0.025mm, and the glass layer 102 is provided with two layers, and the two glass layers 102 are respectively provided on the substrate layer On the upper and lower surfaces of 101, a protective film 103 is provided on one of the glass layers 102;

[0040] The sterilization and virus killing methods are as follows:

[0041] S1, proportioning ion exchange liquid, the ion exchange liquid is a mixture of stock solution and water, among which the stock solution is Cl - Ionic solution, and the original solution is a positively charged solution, that is, the ...

Embodiment 2

[0065] See attached Figure 5 , A sterilization and virus-killing method based on flexible glass, the method is basically the same as that of the first embodiment, and the point is that:

[0066] In S2, an ultrasonic generator is installed in the closed chamber, and the ion exchange liquid containing the flexible glass 1 is properly treated by the ultrasonic generator to improve the activity of cations in the ion exchange liquid and accelerate the cations into the surface of the flexible glass 1 In the gaps between silicon dioxide atoms, work time is reduced and work efficiency is improved. In addition, the ion exchange solution can be used as the electroplating solution, and the flexible glass can be used as the cathode for the workpiece, and the cations in the ion exchange solution can be electroplated into the gaps between the silicon dioxide atoms on the surface of the flexible glass by electroplating. This electroplating method is highly efficient and the cations cover the s...

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Abstract

The invention discloses a sterilization and virus killing method based on flexible glass. The invention relates to the technical field of sterilization and virus killing. A piece of flexible glass isput into ion exchange liquid, and vacuumizing, heating, assisted ultrasonic oscillation and electroplating are carried out to embed cations into gaps among silicon dioxide atoms on the surface of theflexible glass, and the cations are stably fixed on the surface of the flexible glass through ultraviolet curing. In this way, a cation sterilization and virus killing layer for sterilization and virus killing is formed on the surface of the flexible glass. The other side of the flexible glass is electroplated to form a conductive layer coating film, the conductive layer coating film is connectedwith an external power supply, the flexible glass is heated, the temperature of the flexible glass is rapidly increased to 60 DEG C or above, the temperature is kept at 65-75 DEG C for a certain period of time in real time, and high-temperature sterilization and virus killing are achieved. Finally, die cutting and plastic molding are carried out on the flexible glass to form shapes suitable for different products. By means of the two modes, sterilization and virus killing can be efficiently conducted for a long time, and the risk of secondary contamination of germs and viruses is avoided.

Description

Technical field [0001] The invention relates to the technical field of sterilization and virus killing, in particular, it relates to a method for sterilization and virus killing based on flexible glass. Background technique [0002] At present, in the field of microorganisms, there are many ways to kill microorganisms, and the use of chemical drugs to kill fungi is a common sterilization method. [0003] In related technologies, the common way to kill fungi is to apply some chemical bactericidal drugs on the parts containing fungi; because fungi often exist in the form of colonies, each colony contains many different fungi, so chemical sterilization is used When using drugs to kill fungi, it is necessary to apply corresponding chemical bactericidal drugs for different fungi; however, when chemical bactericidal drugs are used, there may be multiple fungi in the same part in the form of colonies. Therefore, the chemical bactericidal drugs applied often They overlap each other, and t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B32B17/10B32B27/32B32B27/34B32B27/28B32B17/06B32B17/02B32B33/00C03C21/00C03C17/10C03C25/601C03C25/46C03C25/12C03C25/16A61L9/00A61L9/16
CPCB32B27/32B32B27/34B32B27/281B32B27/12B32B33/00B32B17/02C03C21/001C03C17/002C03C17/10C03C25/601C03C25/46C03C25/12C03C25/16A61L9/00A61L9/16C03C2217/70C03C2218/115B32B2262/101B32B2307/7145
Inventor 陆永刚
Owner 慧智宇光电科技(珠海)有限公司
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