An automatic floor-disinfection robot for floors of hospital rooms, including a moving device, a alarm and a disinfection device. The moving device is a disc-shaped robot, and includes a chassis moving mechanism, a support plate and a top plate arranged successively from bottom to top. The disinfection device includes a disinfection assembly and a baffle. The disinfection assembly includes a liquid supply mechanism, a liquid spray mechanism and a fan.

Proposed is a disinfection device for automatically disinfecting a transport container intended for transporting one or more inspection objects through an inspection apparatus and non-destructively inspecting them in the inspection apparatus, the disinfection device including: an input point connected to a pick-up point, an output point connected to a lay-up point, and at least one return device extending from the input point to the output point, and at least one automatic disinfection device arranged at the return path for disinfecting the emptied transport containers.

A case is provided for holding one or more contact lenses. The case is configured to receive an inner pod, and the case includes an upper part and a lower part. The upper part is structured to move relative to the lower part from an open configuration wherein the upper and lower parts are at least partially separated to a closed configuration wherein the upper and lower parts are together. The upper part is also structured to move relative to the lower part from a disengaged position to an engaged position wherein, in the disengaged position, the case is movable between the open and closed configurations and in the engaged position, the case is locked in the closed configuration.

The cleaning device for small parts has a treatment container which is permanently attached to a carriage and is rotatably mounted on the carriage. It can be docked with a treatment station while remaining on the carriage.

Provided are a mist generator and a washing machine. The mist generator can provide mist having small enough particles. The mist generator includes: a housing having a discharge part; a mist generation unit having a mist spraying nozzle for spraying a mist and causing the mist sprayed from the mist spraying nozzle to collide in the housing to generate a mist with particles smaller than those of the sprayed mist; and a discharging unit for generating an airflow toward the discharging opening in the housing, so that in case of nonuse of a blowing fan, the mist with smaller particles generated by the mist generation unit is discharged from the discharging opening along with the airflow.

Provided is a sticky cleaner for antimicrobial treatment capable of removing organic dirt deposited on an article surface and of providing antimicrobial properties to the surface. The sticky cleaner according to this invention comprises a dirt-collecting member that collects organic dirt as it comes in contact with the article surface. The dirt-collecting member comprises a PSA in an area that comes in contact with the article surface, with the PSA providing antimicrobial properties to the article surface upon contact with the surface. The PSA comprises a base polymer and an antimicrobial agent.

A system for the sterile filling of containers for pharmaceutical products, which includes a device for sterilizing containers and a machine for filling sterilized containers, wherein the device for sterilizing containers includes at least one autoclave, and wherein the system includes an automated container-accumulation device and means for automatically transporting the containers sterilized in the autoclave from said autoclave to the container-filling machine via said container-accumulation device.

Embodiments disclosed include autonomous robotic systems and methods for disinfecting an environment. An autonomous disinfecting system comprises, in a housing, a first unit comprising a first plurality of UV-C lamps attached to a first wireless base comprising a plurality of wheels. Preferably, the first unit further comprises a docking port for a second unit comprising a second plurality of UV-C lamps attached to a second wireless base, and a motion sensor configured to send a signal to a processing unit comprised in the autonomous disinfecting system wherein the processing unit is configured to shut down the system when it receives a signal indicating a detected movement.

A medical device having a time-controlled start function and a control unit, which enables user-friendly operation of the medical device, is described. The medical device has a control unit, which is equipped for automatic start-up of the medical device at a predetermined point in time and for checking on whether, after start-up of the medical device, a predetermined event has occurred, and has a display screen for display of information when the check reveals that the event has not occurred. Furthermore, a corresponding process for user-friendly operation is described.

A self-cleaning suction device has a user's suction end that self-sanitizes externally and internally before and after use, as well as self-sanitizes internally during use. A cover opens to reveal the user's suction end within a containment unit. As the cover opens, the suction end travels from a lower chamber, proceeds through a middle chamber of a sanitizing agent, and is presented for use. After suction is complete, the suction end retracts through an upper chamber with, a scraping feature that removes debris from the outer surface of the mouthpiece, and proceeds down through the middle chamber of a sanitizing agent and a scraping feature that removes debris and the sanitizing agent from the outer surface of the user's suction end. Upon the sealing closure of the cover, the upper and middle chambers are flushed with a sanitizing agent, which is suctioned away along with any collected debris. The user's suction end resides within a lower chamber and can be decontaminated by a UV-C light entering into the lower chamber and/or corresponding chambers. The suction device can also include a liquid-hydration delivery system.