A sterilizing method includes a preliminary decompression step (S200) of decompressing the inside of a chamber (11) with respect to an atmospheric pressure after a sterilization object wrapped with a wrapping member made from a material that absorbs ozone gas and hydrogen peroxide is housed in the chamber (11), an ozone adsorption step (S300) of injecting ozone gas to the inside of the chamber (11) under a decompressed state achieved in the preliminary decompression step (S200) to cause the ozone gas to be adsorbed to the wrapping member, and a sterilization step (S500) of sterilizing the sterilization object using the zone gas and hydrogen peroxide after the ozone adsorption step (S300).

A multifunctional physical store system with automatic sterilization and disinfection functions includes a central process device, and a disinfection device, an order device, a sterilization device, and a serve device that are coupled with the central process device. The system is applied to a physical store. The disinfection device is applied for carrying out the disinfection operation on the environment of the physical store. The sterilization device is applied for carryout surface sterilization on the people entering the store. The order device and the serve device are applied for people to order and acquire meals. Therefore, the application of various devices facilitates a nearly dust-free and sterile environment in the store, lowering the possibility of virus or bacterial infection between people in the operation area and the customers.

An oral sanitation system may include a case including: a support portion defining a lower end of the case; and a container portion extending from the support portion. The container portion may define a wall extending from the support portion to a top end of the container portion. The oral sanitation system may further include a closure including a lid formed with a peripherally-extending wall; a lower cavity defined by the wall of the container portion; an upper cavity defined by the peripherally-extending wall of the closure; and a light-guiding floor that is substantially transparent to UVC light, the light-guiding floor forming a bottom of the container portion that is surrounded by the wall.

An xenon lamp power supply, a purification device, and a refrigeration device are provided. The xenon lamp power supply comprises: an input circuit, a coupling assembly, an output circuit, and a control circuit. The input circuit comprises an alternating-current input end and a direct-current output end, and the input circuit is used for converting alternating current input by the alternating-current input end into direct current output by the direct-current output end. A first end of the coupling assembly is connected to the direct-current output end. The output circuit comprises a xenon lamp power supply circuit, and the xenon lamp power supply circuit is connected to a second end of the coupling assembly, so as to convert electric energy from the second end into direct-current power, and then supply power to a xenon lamp.

The present disclosure generally relates to oral care systems and devices. An oral care system includes a container defining an interior portion. The container includes a repository provided within the interior portion and configured to hold a fluid, and a barrier configured to maintain the fluid separate from the interior portion. The barrier is configured to be breached to expose the interior portion to the fluid. The system further includes a tube configured to slide in the interior portion of the container. The tube includes a distal end configured to breach the barrier when the tube is moved in a direction of the fluid in the repository.

A collapsible and assemblable container for sterilization, including but not limited to UV sterilization, of objected placed in the container. The container includes moveable panels with an electronic circuit board including one or more actuating elements such as UV LEDs. The electronic circuit board further includes sensors that prohibit the actuating elements from being activated unless the collapsible container is fully and correctly deployed, preventing any harmful exposure to the actuating elements that can lead to eye damage, skin cancer, etc. to the user. The electronic circuit board cooperates with switch elements that activate the actuating elements only when the collapsible container is fully and correctly deployed.

A device for steam disinfecting products includes a treatment chamber. An evaporation pan is arranged in the chamber and heated. A liquid contained in the pan evaporates. A drying air flow is generated by a fan unit and directed onto the evaporation pan via a fan duct. A non-return element is arranged in the fan duct and prevents liquid vapor from getting from the evaporation pan to the fan unit. During an evaporation process, the fan unit is switched off and the fan duct is blocked by a non-return element. During a subsequent drying process, the fan unit is switched on and the non-return element of the fan duct is opened for the drying air flow. During operation of the fan unit, the evaporation pan is heated to a temperature above the specified minimum temperature using a heating device.

A decontamination system for a device, such as a lumen device, is provided. The decontamination system includes a terminal package defining a device receiving area. The terminal package includes a fluid inlet through which sterilant fluid can be delivered to the device receiving area. An accumulator apparatus is provided that is configured to switch between trapping sterilant fluid delivered into the device receiving area and delivering sterilant fluid to the device receiving area based on pressure changes in the device receiving area.

A system and device for sterilizing gaming tokens stored in gaming equipment containers such as a tray having apertures for receiving gaining tokens in parallel rows. The system and device includes a sterilizing lid that can be positioned over a complementary tray having modular roller inserts inserted, the modular roller inserts operating in concert with the sterilizing lid to rotate the gaming tokens while the sterilizing lid emits a sterilizing light.

Methods, systems, and apparatuses involving devices with disinfecting illumination are provided. An example apparatus comprises a container comprising a first side and a second side, a first array of light emitters disposed on the first side and configured to emit a first light within a wavelength range of 380-420 nanometers (nm) and having a first intensity, and a second array of light emitters disposed on the second side and configured to emit a second light within the wavelength range of 380-420 nm and having a second intensity, wherein the first intensity comprises an intensity sufficient to initiate inactivation of micro-organisms, and wherein the first array of light emitters and the second array of light emitters are configured to collectively create a multi-dimensional space of disinfection.