A sterilizing media cassette is described for docking with a self-service terminal or a docking terminal. The sterilizing media cassette has a body having a lower portion and four sides. The body is adapted to hold a stack of media items such as banknotes on support members positioned above the lower portion of the body. A lid is provided that couples to the body. The lid forms an enclosed inner space when coupled to the body. An ozone gas source and/or a heat source is mounted on an inner surface of the body or the inner surface of the lid. A controller activates the ozone gas source and/or a heat source to sterilize the stack of media items. This may be done for a predetermined fixed period of time after the sterilizing media cassette is docked with a self-service terminal or a docking terminal.

Provided is a portable IPL sterilizer comprising: a body partitioned into a central region and a peripheral region surrounding at least a portion of the central region; a xenon lamp light source for sterilization provided in the central region of the body; and a light-shielding comb part provided in the peripheral region of the body.

The invention relates to an item-to-be-cleaned carrier for the cleaning of items to be cleaned, which have at least one cavity, the cleaning being performed in a conveyor washer. The item-to-be-cleaned carrier can be used in particular for cleaning personal protective equipment. The item-to-be-cleaned carrier comprises at least one base element and at least one nozzle tube, which is connected to the base element. The nozzle tube has at least one inlet opening having at least one catching funnel . The nozzle tube has at least one outlet nozzle. The nozzle tube tapers, at least in parts, from the inlet opening to the outlet nozzle. The invention further relates to a cleaning system and to a method for cleaning items to be cleaned, which have at least one cavity, using the cleaning system.

A disinfecting assembly that enables large mobile objects (e.g., grocery carts, shopping carts, carry out carts, wheelchairs, mobility scooters, etcetera) to be disinfected in a simple and effective manner, including: (1) a ground-engaging frame sub-assembly; (2) an energy source; (3) a reservoir, wherein the reservoir contains disinfecting fluid; (4) an output spray nozzle, wherein the output spray nozzle is associated with ground-engaging frame sub-assembly; (5) a fluid displacement pump; (6) a first conduit, wherein the first conduit is associated with the reservoir and the fluid displacement pump; (7) a second conduit, wherein the second conduit is associated with the fluid displacement pump and the output spray nozzle; (8) a motion sensor, wherein the motion sensor detects objects moving within the disinfecting assembly; and (9) a control box having a programmable logic controller, wherein the programmable logic controller is in electrical communication with the energy source, the fluid displacement pump; and the motion sensor.

A portable modular sanitizing compartment is provided that is designed and configured to facilitate rapid sanitizing and drying of clothing articles placed within the compartment. The sanitizing compartment may include, an exterior housing, modular base controller and internal compartment defining an interior space, a plurality of air intake valves, a plurality tubular structure with plurality of apertures connected to hangers within the internal compartment, a plurality of modular UV lights, and a modular base control unit to form a treatment compartment. The use of treated atmospheric air, fragrance or atomized disinfectant instead of ozone to treat the clothing from the inside out through a structure of connected tubes placed within a closed compartment may provide the user with a better use case for users by limiting adverse health effects. The portable dry sanitizing compartment may also be controlled externally through a smart device.

In this invention it is disclosed a remote-controlled vehicle for operations in the extreme conditions (10) which comprises a base vehicle (100), a gripper (200), a manipulator arm (300), a mission module wherein base vehicle comprises front (110) and rear part (120), wherein on the front part of the base vehicle gripper is mounted and on the rear part of the base vehicle the manipulator arm is mounted and when in operation, the gripper and the manipulator arm are remotely operated. Also, it is disclosed whole system for remote operations comprising said remote-controlled vehicle and a control centre comprising a set of graphical user interfaces (GUI) and video displays (VD) arranged so that two way communication between the vehicle and control centre is established and wherein from GUI person can control and operate with the vehicle.

Antiseptic agent delivery systems and methods are provided, one such system comprising: a reservoir configured to store an antiseptic solution, wherein the antiseptic solution comprises an aqueous solution of hypochlorous acid; an ultrasound generator coupled to the reservoir, wherein the ultrasound generator vaporizes the antiseptic solution into an antiseptic vapor; a nozzle to direct the antiseptic vapor to an affected area; and a housing coupled to the reservoir and the nozzle, wherein the housing comprises a panel to control the ultrasound generator.

A photosensitizer formulation can be disposed on or in a mesh; net; netting; screen; curtain of strands, fibers, or monofilaments; substrate, personal protective gear, mask, or any other suitable object. The photosensitizer formulation, when in contact with molecular oxygen and activated by light or ultrasound, produces microbicidal singlet oxygen. A variety of different arrangements and applications are described. For example, an air flow device may also be included to generate a flow of air through or over the photosensitizer formulation. A fluorescent formulation may be included to monitor photobleaching. The photosensitizer formulation may be disposed in a concentration gradient to generate antigenic particles by damaging or destroying microbes.

Systems and methods for providing ultraviolet (UV) sterilization, disinfection and decontamination of electronic gaming machines (EGMs), gaming chips, dice, playing cards, currency, TITO tickets, etc. The ultraviolet sterilization, disinfection and decontamination may include a plurality of UV LEDs or RGB-UV LEDs of such wavelengths to be effective in reducing or eliminating viruses or the like. Pass through or planar arrays of UV or RGB-UV LEDs are mounted to or installed within a variety of gaming devices or equipment such as EGMs, chip trays, dice holders, automatic card shufflers, bill validators, magnetic card readers, currency counting or currency dispensing devices, printers, etc.

A free radical sterilization system having a chamber defining a region, and a generator for generating free radical reach effluent from a free radical electric generator and/or a vaporizer. A closed loop circulating system without a free-radical destroyer is provided for supplying the mixture of free radicals from the electric generator mixed with the hydrogen peroxide solution in the form of the effluent to the chamber. The free-radical sterilization system is used in sterilizing items in the chamber and, with an open-bottomed wound chamber, in treating wounds on a body.