The present invention relates to a self sanitizing door handle and a method of operating the same. The door handle comprising: a soft glass hollow membrane; one or more connectors; a central rod; and a plurality of lights on said central rod inside said hollow membrane protectively covered by said one or more connectors in an active state of sanitization in said self sanitizing door handle. Furthermore, the door handled is a self powered door handle based on a spring and rail with turbines mechanism which contracts and relaxes to generate desired amount of power required to drive the door sanitization system in the self sanitizing door handle.

Apparatuses, methods, and systems for a light kit assembly to disinfect a carrier between banking transactions of a drive-through banking system. Customers or bankers can activate the sanitization mode of operation to kill germs and viruses without removal of the carrier from the drive-through banking system. The sanitization mode of operation can be automatic. The carrier is positioned in the carrier pocket of a customer station in which a light kit assembly has been installed. An indicator light positioned exteriorly of the customer station indicates that the carrier is being sanitized by one or more UV lights attached to a mounting plate having two bi-folded wings that is positioned within the carrier pocket adjacent to the carrier. Two mounting plates in a mirror-image arrangement may be positioned in the carrier pocket to enable 360 degree application of UV light onto the carrier.

Apparatuses, methods, and systems for a light kit assembly to disinfect a carrier between banking transactions of a drive-through banking system. Customers or bankers can activate the sanitization mode of operation to kill germs and viruses without removal of the carrier from the drive-through banking system. The sanitization mode of operation can be automatic. The carrier is positioned in the carrier pocket of a customer station in which a light kit assembly has been installed. An indicator light positioned exteriorly of the customer station indicates that the carrier is being sanitized by one or more UV lights attached to a mounting plate having two bi-folded wings that is positioned within the carrier pocket adjacent to the carrier. Two mounting plates in a mirror-image arrangement may be positioned in the carrier pocket to enable 360 degree application of UV light onto the carrier.

An indoor gardening appliance includes a grow module positioned within a grow chamber for receiving one or more plant pods. The indoor gardening system includes a hydration and sanitization system that includes a water supply for providing a flow of water into a mixing tank that is periodically discharged through a discharge nozzle to hydrate and provide nutrients to plants. A sanitization assembly includes an electrolytic hypochlorous acid generator that is fluidly coupled to the mixing tank for selectively generating hypochlorous acid that helps sanitize plants within the grow chamber.

The modular insole system includes a base pad with a plurality forms releasably connected to the top surface thereof. The forms respectively correspond to orthotic support for the heel, arch, and ball portions of a foot. The forms are preferably releasably connected by hook and loop fastening material to the base pad and are made of foam. The forms are adjustable in any location on the top surface of the base pad to provide a custom configuration for a given user. The base pad and foam forms can be provided in different sizes, foam types, durometer hardness, and the like, and can be mixed and matched as needed to further customize the modular insole system for the given user. The forms have edges that complement each other so the insole can more closely simulate expensive custom insoles that are monolithic even when moved about on the base pad.

Methods and systems are provided for calibrating a UV lamp having a plurality of arrays or channels of light emitting diodes. The calibration involves adjusting a drive current applied to the UV lamp based on an actual irradiance output by its light-emitting diodes relative to a target irradiance. The calibration is selectively performed when a stabilized temperature condition of the lamp is met.

Methods and systems are provided for calibrating a UV lamp having a plurality of arrays or channels of light emitting diodes. The calibration involves adjusting a drive current applied to the UV lamp based on an actual irradiance output by its light-emitting diodes relative to a target irradiance. The calibration is selectively performed when a stabilized temperature condition of the lamp is met.

A sanitary method and system of providing touch interface experiences to users of public devices are disclosed. In one aspect, the system and method are configured to deploy a clean, protective barrier across a touchscreen for each user of the public device. The barrier includes a transparent membrane that permits the user to provide touch-based inputs to the touchscreen through the barrier. In cases where the touch interface is generated by a projector, the system and method are configured to deploy a membrane that serves as a disposable screen for the projected interface. Once each user completes their session, the system automatically replaces the used membrane with a fresh membrane, ensuring subsequent users are not exposed to contaminants or residue from previous user sessions.

A sanitary method and system of providing touch interface experiences to users of public devices are disclosed. In one aspect, the system and method are configured to deploy a clean, protective barrier across a touchscreen for each user of the public device. The barrier includes a transparent membrane that permits the user to provide touch-based inputs to the touchscreen through the barrier. In cases where the touch interface is generated by a projector, the system and method are configured to deploy a membrane that serves as a disposable screen for the projected interface. Once each user completes their session, the system automatically replaces the used membrane with a fresh membrane, ensuring subsequent users are not exposed to contaminants or residue from previous user sessions.

The present disclosure generally relates to a system for treating a surface, comprising an ultraviolet (UV) lighting arrangement configured to emit UV light towards the surface at a first and a second wavelength range to effectively reduce microorganisms at the surface.