The present disclosure features systems and devices for robotic debridement and perforating of finger- and toenails, as well as methods of use of the same. The systems and devices may be used for in the treatment of fungal infection of the nail, as well as for cosmetic uses, e.g., pedicure and manicure.

Surface disinfection for enclosures with Ultra-Violet (UV) light and illuminating such enclosures with visible light. Particular embodiments relate to limiting the transmission of viruses and bacteria in the interior space of an aircraft, such as a lavatory, through the use of UV light application, while providing visible light to passengers of such lavatory, both in a safe and compliant manner. This disclosure provides a lighting system and method that combines a visible light emitter and a UV light emitter into a single light system module. Although UV light is a preferred method of neutralizing pathogens, its use is not safe for human exposure. Accordingly, the disclosed lighting system is capable of detecting the presence of an occupant within an enclosure or defined space and only allows the visible light emitter to function (and prevents the UV light emitter from functioning) while people or animals are present within the electromagnetic range for the lighting system. The lighting system can then detect the absence of an occupant within an enclosure or defined space, prior to activating the UV light emitter, and once absence is detected, the UV light emitter can be activated by a controller.

A secure box for receiving packages is described. The secure box includes a rectangular container with a top, a bottom, a front, a left, a right, and a back. A front door forms part of the front when in a closed position, the front door having at least one hinge allowing it to move to an open position by swinging outward at a top end. A top cap with one or more photovoltaic panels formed therein, the top cap adapted to securely fasten onto the top. A package sensor senses a package placed in the rectangular container to initiate a decontamination process. A controller is electrically coupled to one or more photovoltaic panels, and the controller is communicatively coupled to the package sensor to control a decontamination system for decontaminating the package which has been sensed. The decontamination system includes at least one of ultraviolet light source, a chemical spray, or both.

An assembly for redirecting light emitted by an end-emitting optical fiber into an inner lumen of a body is provided. According to one implementation, the body includes one or more surfaces disposed on or in the body onto which the light is configured to impinge when the end emitting optical fiber is activated, the one or more surfaces being configured to alter the trajectory of the light so that the light is directed to impinge on a light reflector of a cap removably attached to the body, the light reflector of the cap being configured to redirect the light distally into the inner lumen of the body.

A method of sterilizing an article includes receiving the article in a sterilization chamber. The method also includes applying a vacuum to a first pressure less than 100 torr. The method also includes introducing a sterilant into the sterilization chamber. The method also includes maintaining the first pressure in the sterilization chamber for a first period of time. The method also includes venting the sterilization chamber to a second pressure less than 100 torr. The method also includes maintaining the second pressure. The method also includes venting the sterilization chamber to a third pressure. The method also includes maintaining the third pressure. The method also includes venting the sterilization chamber to atmospheric pressure. The method further includes between venting and maintaining steps applying a vacuum to a fourth pressure less than 100 torr, introducing additional sterilant, and maintaining the fourth pressure.

A system and method for a UV disinfection device configured to be disposed to direct UV energy through an exit interface toward a target surface of a device. The UV disinfection device may be configured for low-profile distribution of UV energy toward the target surface.

The automatic air conditioner drain system sanitizer may comprise a pump, a controller, a solution reservoir, and a power source. The automatic air conditioner drain system sanitizer may be configured to dispense a drain clearing solution from the solution reservoir into a drain line of an air conditioning system periodically in order to prevent growth of microorganisms within the drain line. The microorganisms may be referred to as white slime and may comprise bacteria, algae, mold, mildew, fungus, or any combination thereof. As non-limiting examples, the drain clearing solution may be white vinegar, bleach, chlorine tablet dissolved in water, or a liquid drain line clearing product. The quantity of the drain clearing solution dispensed and the dispensing interval may be selected and may vary based upon the drain clearing solution used.

The use of plasma to clean or sterilize items can be particularly advantageous for items that cannot be readily washed or cleaned by standard methods. The toxicity and complications generating sufficient plasma makes it hard to use for such purposes. The subject invention addresses the problem by generating a minimal amount of highly reactive plasma to sterilize an item. This is achieved by reducing the amount of space and ambient air around and within the item. In this way, the plasma generated fills only the required volume of the item to be cleaned and the plasm is directed at the object, not directed at or released into non-target areas.

A device for cleaning a handle, includes a handle including a gripping surface to be disinfected, an application member for applying a cleaning liquid to the gripping surface, and cleaning liquid supply including at least one reservoir for receiving cleaning liquid and distributing it to the application member. The application member includes at least one buffer reserve arranged in contact with the gripping surface. The device includes a unit for actuating the application member, including a driver configured to move the buffer reserve and/or the gripping surface relatively with respect to one another so as to apply cleaning liquid to substantially the entire gripping surface during this movement.

The invention relates to a facility which has a dirty facility area and an adjacent clean facility area, baskets for receiving the dirty articles, and a wall separating the dirty area from the clean area, the dirty area including an entry door for receiving the dirty articles, pre-processing stations with tables for the pre-washing and/or sorting by a human operator, or even by a robotic operator, of the dirty articles and for arranging the pre-washed and/or sorted articles in the baskets, pick-up points at the pre-processing stations for pick-up of the baskets with the pre-washed and/or sorted articles, a plurality of washers, eg. machines operating in a manner similar to a dishwasher, positioned along the dividing wall, for washing the pre-washed and/or sorted articles arranged in the baskets, the washers having an inlet opening in the dirty area and an outlet opening for washed articles in the clean area, the clean area including processing stations with tables for processing by a human operator, or even a robotic operator, of the washed articles. One or more unmanned vehicles are configured for travelling on the floor of the dirty area at least between pick-up points and an inlet opening of the respective washers, each vehicle including a base with a front end and a rear end, an upper part with a loading platform configured for supporting the baskets, an on-board control device for receiving and executing mission information, each pre-processing station including a first type control device for direct or indirect communication with one or more of the vehicles, each washer including a respective second type control device for direct or indirect communication with the one or more vehicles and/or for direct or indirect communication with the first control devices, each first control device being for calling a vehicle to the pick-up point and/or for dispatching a vehicle from the pick-up point.