A movable curtain disinfection device according to an embodiment of the present invention includes frames installed on an upper portion of a support, spaced apart from each other to face each other, and configured to define a disinfection space for a curtain provided between the frames, rotary rollers provided so that a pair of rotary rollers thereof is mounted on an inner surface of each of the frames, the rotary rollers being configured to rotate so that the curtain passes through the disinfection space, rotary belts each configured to surround an outer portion of each of the pairs of rotary rollers, the rotary belts being configured to guide a movement of the curtain while rotating in conjunction with rotations of the rotary rollers, and disinfection modules disposed between the pairs of rotary rollers and configured to disinfect the curtain passing through the disinfection space.

A movable curtain disinfection device according to an embodiment of the present invention includes frames installed on an upper portion of a support, spaced apart from each other to face each other, and configured to define a disinfection space for a curtain provided between the frames, rotary rollers provided so that a pair of rotary rollers thereof is mounted on an inner surface of each of the frames, the rotary rollers being configured to rotate so that the curtain passes through the disinfection space, rotary belts each configured to surround an outer portion of each of the pairs of rotary rollers, the rotary belts being configured to guide a movement of the curtain while rotating in conjunction with rotations of the rotary rollers, and disinfection modules disposed between the pairs of rotary rollers and configured to disinfect the curtain passing through the disinfection space.

A composition having molecular iodine in combination with a polyol can be used for control and treatment of microbes and infections on biological and non-biological surfaces. Compositions have a combination of molecular iodine (I2) and an acceptable source of iodate (IO3), and a buffering acid (inorganic or organic), in combination with a polyol in an amount of 3-50% by weight. The present compositions can also have prebiotic and probiotic properties on biological surfaces and membranes for the control and treatment of infection as well as the support of growth of commensal microbes and the control of pathogenic microbes.

Various implementations of the invention are directed toward a sanitizing door handle and/or components of such sanitizing door handle that sanitizes the door handle during use. Various implementations of the invention are directed toward a gravity-fed sanitizing door handle and/or components of such sanitizing door handle. Various implementations of the invention are directed to a hand sanitizing dispenser that dispenses a fluid, such as a sanitizing fluid, onto hand(s) of a user when the user operates or otherwise engages a door handle, such as, but not limited to, the sanitizing door handles discussed above. In some implementations of the invention, the fluid is dispensed directly onto the hands of the user. In some implementations of the invention, the fluid is dispensed onto the exterior of the sanitizing handle and is subsequently passed onto the hands of the user through contact with the sanitizing door handle.

Various implementations of the invention are directed toward a sanitizing door handle and/or components of such sanitizing door handle that sanitizes the door handle during use. Various implementations of the invention are directed toward a gravity-fed sanitizing door handle and/or components of such sanitizing door handle. Various implementations of the invention are directed to a hand sanitizing dispenser that dispenses a fluid, such as a sanitizing fluid, onto hand(s) of a user when the user operates or otherwise engages a door handle, such as, but not limited to, the sanitizing door handles discussed above. In some implementations of the invention, the fluid is dispensed directly onto the hands of the user. In some implementations of the invention, the fluid is dispensed onto the exterior of the sanitizing handle and is subsequently passed onto the hands of the user through contact with the sanitizing door handle.

The invention concerns a storage device for cleaning and charging portable X-ray detectors, and an X-ray system comprising such storage device. The storage device comprises a receiving unit for receiving at least one portable X-ray detector, a cleaning unit for cleaning the portable X-ray detector when being received by the receiving unit, and a charging unit for charging the portable X-ray detector, wherein the cleaning unit is configured for mechanically and/or chemically cleaning the portable X-ray detector. Further, the invention concerns a method of cleaning and charging a portable X-ray detector in a storage device.

The invention concerns a storage device for cleaning and charging portable X-ray detectors, and an X-ray system comprising such storage device. The storage device comprises a receiving unit for receiving at least one portable X-ray detector, a cleaning unit for cleaning the portable X-ray detector when being received by the receiving unit, and a charging unit for charging the portable X-ray detector, wherein the cleaning unit is configured for mechanically and/or chemically cleaning the portable X-ray detector. Further, the invention concerns a method of cleaning and charging a portable X-ray detector in a storage device.

A system which can be manually/automatically activated to ensure instant cleaning of decontamination liquid and gas placed into cylindrical pressure tubes against CBRN threats, wherein the system includes: a decontamination liquid/gas used for cleaning chemical, biologic, radiological and nuclear threats and minimizing effects thereof, a decontamination tube used for discharging decontamination liquid/gas placed therein, a decontamination pyrotechnic igniter-based on pyrotechnic used for ignition of the decontamination tube, a control unit providing manual or automatic operation of the system, and at the same time communication thereof with the hardware units in the system, and a control card located on the control unit, having printed circuit boards with embedded software developed for enabling the control.

A system which can be manually/automatically activated to ensure instant cleaning of decontamination liquid and gas placed into cylindrical pressure tubes against CBRN threats, wherein the system includes: a decontamination liquid/gas used for cleaning chemical, biologic, radiological and nuclear threats and minimizing effects thereof, a decontamination tube used for discharging decontamination liquid/gas placed therein, a decontamination pyrotechnic igniter-based on pyrotechnic used for ignition of the decontamination tube, a control unit providing manual or automatic operation of the system, and at the same time communication thereof with the hardware units in the system, and a control card located on the control unit, having printed circuit boards with embedded software developed for enabling the control.

A package comprises: a sterile barrier packaging film; self-sterilizing components comprising: a plurality of chlorite ions and water, wherein the self-sterilizing components are substantially free of an energy-activated catalyst and of an acid-releasing compound; a package interior formed by hermetically sealing the sterile barrier packaging film; and a headspace within the package interior comprising carbon dioxide present in an amount of greater than or equal to 5% by volume of the headspace. When the package is exposed to ultraviolet (UV) light having a wavelength of 254 nm, the chlorite ions react with the water to generate chlorine dioxide (ClO.sub.2), which is released into the headspace. In the absence of any UV light, there is not chlorine dioxide (ClO.sub.2) generation.