Abstract: The invention discloses a portable ultraviolet sterilization container, which comprises a sterilization container body, the sterilization container body has an article storage cavity and a cover, and the sterilization container body is further provided with an illumination device, a heating air duct and a control system. The control system is electrically connected to the illumination device and the heating air duct for controlling the illumination device and the heating air duct to release ultraviolet light and hot air to the article storage cavity, wherein the illumination device comprises a plurality of light-emitting devices which are fixed to a plurality of cavity walls of the article storage cavity. The inner circulation of the heating air duct is from the article storage cavity, through the interior of the cavity wall of the article storage cavity, and then to the article storage cavity.
Abstract: An intelligent sterilization method and a sterilization container are disclosed, the intelligent sterilization method comprising: after an intelligent sterilization instruction is issued, the sterilization container sequentially performs the following steps: a sterilizing and drying step, releasing sterilization medium and hot air to an article storage cavity containing a sterilized article, and sterilizing and drying the sterilized article; and a constant temperature aseptic storing step, continuously releasing a small amount of hot air and a small amount of sterilization medium to the article storage cavity to maintain the sterilized article in the article storage cavity at a preset constant temperature and an aseptic condition; wherein the constant temperature is defined as when the sterilized article is in contact with the human body, the human body feels warm and not uncomfortable.
Abstract: An intelligent drying method and an ultraviolet sterilization container are applied to an ultraviolet sterilization container for drying a sterilized article, the method comprising: that the sterilization container sequentially executes the following steps after receiving a drying instruction: releasing hot air to an article storage cavity; when an initial drying time is reached, collecting the intracavity temperature of the article storage cavity; automatically obtaining an extended drying time corresponding to the intracavity temperature of the article storage cavity; and continuously releasing hot air to the article storage cavity until the extended drying time is reached. The ultraviolet sterilization container includes: an article storage cavity, a heating air duct, a microprocessor, and a memory storing a computer readable program executable by the microprocessor. When the computer readable program is executed by the microprocessor, the sterilization container performs the above steps.