The utility model discloses an EEFIT-based electromagnetic wave energy conducting equipment, having an enclosure, a skeleton, main emission sources, conveying devices and a PLC. The skeleton is arranged in the enclosure, the main emission sources are arranged on the skeleton, the conveying devices are arranged beside the main emission sources, and the conveying devices are electrically connected with the PLC. Each conveying device has a conveyor belt and limit rods. Two limit rods are arranged on each conveyor belt. The limit rods are respectively driven by two independent stepping motors. The EEFIT-based electromagnetic wave energy conducting equipment has the advantages of wider application range, more functions and lower cost, can be applicable to the irradiation of common or fragile materials, and can handle the materials on the same equipment according to different references. The manufacturing and maintenance costs are lower, and the failure rate is smaller as well.

An ultraviolet (UV) light sanitizing system includes an electromagnetic interference (EMI) reducing cover configured to couple to a housing of a UV lamp assembly having a UV light source that is configured to emit UV light through a light outlet of the housing. The EMI reducing cover is further configured to be disposed one or more of within, below, or over the light outlet. The EMI reducing cover includes one or more grids including beams and light openings defined between the beams. The light openings provide open areas through which the UV light emitted from the UV light source passes, and wherein the EMI reducing cover includes at least 90% open space. In at least one embodiment, the beams include at least one surface that is transverse to a direction of the UV light that is to be emitted from the UV light source. In at least one embodiment, wherein the EMI reducing cover includes an interior grid and an exterior grid.

The present disclosure relates to methods and system for disinfecting surfaces within an area by forming peracids in a reaction layer in situ on the surfaces to be disinfected. Aqueous compositions comprising peracid reactant compounds, particularly hydrogen peroxide and acetic acid, are sequentially dispersed into the area, preventing peracids from being formed until the two peracid reactant compounds contact each other on the surface to be disinfected. Additionally, aqueous compositions containing peracid reactant compounds can further comprise ethanol to both decrease the surface tension of the droplets and enhance the reactants' biocidal activity. Peracid reactant compounds can be sequentially dispersed as electrostatically-charged droplets, so that droplets of a first aqueous composition containing at least one peracid reactant compound are dispersed with a polarity opposite that of a subsequently-applied second aqueous composition containing at least one peracid reactant compound, driving formation of a peracid on the surface in situ.

A container treatment system (1, 13) that has at least two working areas (AP). Each of the working areas (AP) respectively comprises at least one exchangeable working tool (2) and/or one adaptable format part. Furthermore, the container treatment system (1, 13) comprises at least one automatic exchange machine (10) which is movable, in particular drivable, to the at least two working areas (AP), which automatic exchange machine (10) can be connected selectively to any of the respective working areas (AP), in particular using centering means (22, 32), and which automatic exchange machine (10) comprises tools for exchanging the working tools (2) and/or for adapting the format parts of the respective working area (AP). The invention further relates to an automatic exchange machine (10) for exchanging working tools (2) and/or for adapting the format parts of at least two different working areas (AP) of a container treatment system (1, 13).

A valuable media sanitizing/cleansing cassette is provided for sanitizing/cleansing surfaces of valuable media dispensed to a consumer during a dispense transaction at a transaction terminal. Dispensed media is urged from one or more media cassettes within the terminal along a transport path. The transport path is altered to pass the media through the sanitizing/cleansing cassette where the top and bottom surfaces of the media are illuminated with Ultraviolet (UV) radiation to eradicate any bacteria or virus that may be adhered to the top or the bottom surfaces of the media. Once the media passes through the sanitizing/cleansing cassette, the now sanitized/cleansed media is urged along a remainder of the transport path and dispensed from a media interface of the terminal to the consumer. In an embodiment, media deposited at the terminal is also sanitized/cleansed by passing through the sanitizing/cleansing cassette before being stored in the appropriate media cassettes.

The utility model discloses an EEFIT-based electromagnetic wave energy conducting equipment, having an enclosure, a skeleton, main emission sources, conveying devices and a PLC. The skeleton is arranged in the enclosure, the main emission sources are arranged on the skeleton, the conveying devices are arranged beside the main emission sources, and the conveying devices are electrically connected with the PLC. Each conveying device has a conveyor belt and limit rods. Two limit rods are arranged on each conveyor belt. The limit rods are respectively driven by two independent stepping motors. The EEFIT-based electromagnetic wave energy conducting equipment has the advantages of wider application range, more functions and lower cost, can be applicable to the irradiation of common or fragile materials, and can handle the materials on the same equipment according to different references. The manufacturing and maintenance costs are lower, and the failure rate is smaller as well.

The invention relates to a perioperative cobotic system designed to monitor, assess, and manage bioburden in real-time within operating room environments during surgical procedures and turnover phases. The system includes a mobile base equipped with a drive mechanism for maneuverability, a camera to capture image data, an actuator for camera movement, and a biosensor for direct bioburden assessment.