A sterilization cabinet for use in an autoclave. The sterilization cabinet includes one or more filtered vents permitting sterilization agent to enter and exit the interior space of the cabinet during a sterilization cycle. Each vent is occluded by a cover plate. The cover plate contains a latch configured to accept a rod extending from the center of the vent and engage a notch disposed thereon. The floor of the cabinet is shaped to direct the liquid contained within the cabinet to flow into the drain port disposed within the floor. The drain assembly is used to expel the liquid from the cabinet while preventing microbes and contaminants from entering the cabinet. The hinges connecting the door to the cabinet can be used to adjust an angle of inclination, a horizontal position, and a vertical position of the door.

An air-disinfecting photocatalytic device includes a housing, an air-permeable porous carrier with at least two sides, a fan, and a light source. The air-permeable porous carrier contains a photocatalyst material, and the light source activates the photocatalyst material in air-permeable porous carrier. The housing, the air-permeable porous carrier, and the fan together form an air chamber. The fan operates to either increase or deplete the air in the air chamber, resulting an air pressure difference between the air inside and outside the air chamber, and causing the air to pass through the air-permeable porous carrier from the high air pressure side of the air-permeable porous carrier to the low air pressure side of the air-permeable porous carrier. As the air passes through the air-permeable porous carrier, airborne pathogens are trapped on the surface of the air-permeable porous carrier, on which light-activated photocatalyst material kills the pathogens trapped thereon.

An air-disinfecting photocatalytic device includes a housing, an air-permeable porous carrier with at least two sides, a fan, and a light source. The air-permeable porous carrier contains a photocatalyst material, and the light source activates the photocatalyst material in air-permeable porous carrier. The housing, the air-permeable porous carrier, and the fan together form an air chamber. The fan operates to either increase or deplete the air in the air chamber, resulting an air pressure difference between the air inside and outside the air chamber, and causing the air to pass through the air-permeable porous carrier from the high air pressure side of the air-permeable porous carrier to the low air pressure side of the air-permeable porous carrier. As the air passes through the air-permeable porous carrier, airborne pathogens are trapped on the surface of the air-permeable porous carrier, on which light-activated photocatalyst material kills the pathogens trapped thereon.

A vacuum assisted dehydration system including a vacuum chamber, a gas compressor, a heating coil, and a vacuum pump is provided. A sealing member removably attached to an opening of the vacuum chamber is opened to introduce one or more instruments into the vacuum chamber. The gas compressor, in fluid communication with the vacuum chamber, recirculates a pressurized gas into the vacuum chamber. The heating coil within the vacuum chamber heats the recirculating gas, which contacts the instruments positioned therein and transfers heat energy into interstitial cavities and to surfaces of the instruments or onto other moist components, for example, hands to vaporize moisture present therein. The vacuum pump, in fluid communication with the vacuum chamber, creates a negative gas pressure in the vacuum chamber to exhaust the vaporized moisture entrained in the heated recirculating gas from the vacuum chamber to dehydrate the instruments or the moist components.

A vacuum assisted dehydration system including a vacuum chamber, a gas compressor, a heating coil, and a vacuum pump is provided. A sealing member removably attached to an opening of the vacuum chamber is opened to introduce one or more instruments into the vacuum chamber. The gas compressor, in fluid communication with the vacuum chamber, recirculates a pressurized gas into the vacuum chamber. The heating coil within the vacuum chamber heats the recirculating gas, which contacts the instruments positioned therein and transfers heat energy into interstitial cavities and to surfaces of the instruments or onto other moist components, for example, hands to vaporize moisture present therein. The vacuum pump, in fluid communication with the vacuum chamber, creates a negative gas pressure in the vacuum chamber to exhaust the vaporized moisture entrained in the heated recirculating gas from the vacuum chamber to dehydrate the instruments or the moist components.

The present application relates to a garment care device (1) comprising a housing (2) and a chamber (5) within the housing (2) to receive at least one garment. The chamber (5) comprises an air inlet (17) and an air outlet (18). An air channel (15) links the air inlet (17) and the air outlet (18). The garment care device (1) further comprises a fan (19) for circulating an air flow between the chamber (5), the air outlet (18), the air channel (15) and the air inlet (17), and a heater (14) for heating the air flow. The air inlet (17) is configured such that air entering the chamber (5) flows along a first direction (A1, A2). The air outlet (18) is configured to draw the air in the chamber (5) along a second direction (B) transverse to the first direction (A1, A2).The garment care device further comprises a second fan (32) and an extraction channel (31) linking the chamber (5) with the second fan (32). The second fan (32) is configured to selectively draw an air flow out of the chamber (5) and into the extraction channel (31). The garment care device (1) allows improving the drying and sanitizing of garments.

Consumer product compositions comprising hydrophobically modified urea ethers.

A device for selectively providing an odor-rich environment includes a housing and a cover. The housing includes a central cavity and a plurality of chambers configured to store a predefined fragrance therein and having a respective outlet formed on an outer wall of the housing. The cover includes an exterior surface having at least one vent formed on the exterior surface. The exterior surface includes an interior sidewall and an exterior sidewall forming an inner chamber that slidably engages the housing such that the cover is configured to move between an open position and a closed position. Responsive to the cover being in the open position, the at least one vent is generally adjacent to the outlet of at least one of the plurality of chambers of the housing. The odor-rich environment can assist in preventing and/or treating postoperative delirium (POD) postoperative cognitive dysfunction (POCD), and/or pain in a subject.

A volatile composition dispenser includes a housing having opposing first and second walls that are joined along their peripheries to one another. The first wall has an aperture and the second wall has a plurality of apertures. Within the housing, rests a volatile composition cartridge and a gap, which exists between the cartridge and a bottom surface of the housing, wherein said bottom surface is formed from a joinder of a base portion of one or both of the first and second walls, and wherein, upon activation, the exposure percentage of the dispenser is from about 40% to about 90%; wherein at least about 60% of the total surface area of the plurality of apertures results from individual apertures of said plurality that each have an area of at least 30 mm.sup.2 and an aspect ratio of at least about 1:2. Dispenser of a similar housing, cartridge, and gap when is activated by a user and thirty days after said activation, exhibits about 70% to 90% weight loss of said volatile composition of a partially exposed membrane of a fully exposed membrane.

A method of use of a compound of formula (I) ##STR00001##
in the form of any one of its stereoisomers or a mixture thereof as a perfuming ingredient to impart to a perfuming composition or perfuming consumer product an odor note of woody, cedar/ambery character optionally having a thujonic aromatic character.