Canon kabushiki kaisha (20240157011). DEVICE FOR TREATMENT WITH ACTIVATED OXYGEN AND METHOD FOR TREATMENT WITH ACTIVATED OXYGEN simplified abstract

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DEVICE FOR TREATMENT WITH ACTIVATED OXYGEN AND METHOD FOR TREATMENT WITH ACTIVATED OXYGEN

Organization Name

canon kabushiki kaisha

Inventor(s)

TAKUMI Furukawa of Shizuoka (JP)

MASAKI Ozawa of Shizuoka (JP)

KAZUHIRO Yamauchi of Shizuoka (JP)

KENJI Takashima of Kanagawa (JP)

MOTOTERU Goto of Shizuoka (JP)

SHOTA Kaneko of Tokyo (JP)

DEVICE FOR TREATMENT WITH ACTIVATED OXYGEN AND METHOD FOR TREATMENT WITH ACTIVATED OXYGEN - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240157011 titled 'DEVICE FOR TREATMENT WITH ACTIVATED OXYGEN AND METHOD FOR TREATMENT WITH ACTIVATED OXYGEN

Simplified Explanation

The treatment device described in the patent application uses active oxygen for treatment purposes. It includes an ultraviolet transmission member, a first chamber with an ozone generator for accommodating a treatment target, and a second chamber with an ultraviolet light source for irradiating the surface of the treatment target with ultraviolet light. The distance between the ultraviolet transmission member and the treatment target's surface can be adjusted to 10 mm or less.

  • Ultraviolet transmission member separating first and second chambers
  • First chamber with ozone generator for treatment target
  • Second chamber with ultraviolet light source for irradiation
  • Adjustable distance between transmission member and treatment target

Potential Applications

The technology can be used in medical settings for disinfection and sterilization of equipment and surfaces. It can also be applied in water treatment processes to eliminate harmful microorganisms.

Problems Solved

This technology helps in effectively treating surfaces and equipment by combining the disinfecting properties of ozone and ultraviolet light. It provides a versatile and efficient method for sterilization and decontamination.

Benefits

The treatment device offers a safe and environmentally friendly way to eliminate pathogens and contaminants. It is easy to use and can be adjusted to suit different treatment needs. The combination of ozone and ultraviolet light ensures thorough disinfection.

Potential Commercial Applications

This technology can be utilized in hospitals, laboratories, food processing facilities, and other industries where sterilization and disinfection are crucial. It can also be marketed to water treatment plants and research institutions.

Possible Prior Art

One possible prior art could be devices using either ozone or ultraviolet light separately for disinfection purposes. However, the combination of both in a single device with adjustable settings may be a unique innovation.

Unanswered Questions

How does this technology compare to traditional disinfection methods?

This article does not provide a direct comparison between this technology and traditional disinfection methods. It would be interesting to know the efficiency, cost-effectiveness, and time required for disinfection in comparison to conventional methods.

What safety measures are in place to protect users from exposure to ozone and ultraviolet light?

The article does not mention specific safety features incorporated into the device to prevent potential harm from ozone or ultraviolet light exposure. Understanding the safety protocols and mechanisms in place would be essential for potential users.


Original Abstract Submitted

a treatment device using active oxygen, the treatment device comprising: an ultraviolet transmission member; and a first chamber and a second chamber adjacent to each other separated by the ultraviolet transmission member, wherein the first chamber is capable of accommodating a treatment target and comprises an ozone generator, the second chamber comprises an ultraviolet light source, the ultraviolet light source is capable of irradiating a surface of the treatment target, which is accommodated in the first chamber, with ultraviolet light, and a distance between the ultraviolet transmission member and the surface of the treatment target can be adjusted to 10 mm or less.