A cosmetic sponge drying and storage container has a plurality of components, including at least a first component and a second component, the first component being moveable with respect to the second component to position the container in at least an open condition and a closed condition. At least one of the first component or said second component is perforated with perforations. A cosmetic sponge may be placed within the container when in the open condition and the perforations provide at least 10% ventilation when the container is in the closed condition. Preferably, both the first and second components are perforated to provide for cross-ventilation. In addition, a base may be provided to support the first and second components, and most preferably the base may be perforated.

A cosmetic sponge drying and storage container has a plurality of components, including at least a first component and a second component, the first component being movable with respect to the second component to position the container in at least an open condition and a closed condition. At least one of the first component or said second component is perforated with perforations. A cosmetic sponge nay be placed within the container when in the open condition and the perforations provide at least 10% ventilation when the container is in the closed condition. Preferably, both the first and second components are perforated to provide for cross-ventilation. In addition, a base may be provided to support the first and second components, and most preferably the base may be perforated.

A portable dryer and disinfection device includes a container having an interior for receiving one or more electronic components for drying and disinfection. A lid is configured to be removably secured to an upper portion of the container. An ultraviolet light source is attached to a bottom portion of the lid, wherein ultraviolet light generated by the ultraviolet light source is directed into the interior of the container below the lid. A power source is disposed in the lid for providing electrical power to the ultraviolet light source. A tray is disposed within the interior of the container on which the one or more electronic components are placed for drying and disinfection. The tray includes holes that provide air flow communication through the removable tray. A removable desiccant holder is disposed at least partially within the interior of the container below the tray.

Embodiments of the present disclosure disclose a multipurpose ultraviolet (UV) floor curing device. The device includes a mobile carriage, a UV panel, and a control device. The mobile carriage is configured to move on a floor applied with a photocurable coating. The UV panel is coupled to the mobile carriage and removably secures a plurality of radiation units configured to emit UV light of a predetermined intensity capable of curing the photocurable coating. The UV panel is configured to transition between a floor configuration and a non-floor configuration. The control device configured to drive the UV panel for the plurality of radiation units to project the UV light towards the ground substantially underneath the UV panel in the floor configuration and towards elevated surfaces proximate to the ground in the non-floor configuration.

A damp cap management system (DCMS) for receiving, storing, drying, and transporting caps, coverings, and other applicable items. The DCMS may have a clam shaped case that can lay flat opened or be snapped shut securely. Inside flaps may be adjusted and stand at different angles, or lay flat, so caps can be installed on them to dry. The case and flaps may have apertures for ventilation and continuous air circulation even when the case is closed. The case may have internal motorized fan(s) for faster drying of the cap(s). The case may have a utility loop attached at the top and internal pocket(s). The flaps may be attached to a cross bar that runs across the length of the case at the bottom and is connected to stop plugs that fit into slots to enable the flaps to stand vertically when the case is opened and laid flat.

Embodiments herein include devices adaptable to dehydrate articles, including foods. Embodiments are shown which can be compacted for reduced storage, and/or shipping requirements and/or for other purposes. Embodiments include simple, inexpensive means for controlling dehydrating conditions, including airflow. Various article holding devices, including devices to hold foods being dehydrated, are also shown. Such devices include vertical, diagonal, and horizontal panels to secure articles. Embodiments shown have variations which include the use of non-motorized convection airflow, as well as devices which incorporate motor driven air movement means. Embodiments are shown which may be used for preparing articles, including foods, for dehydration, including slicing such articles.

A liquid removal device is for removing a liquid from a surface. The liquid removal device includes a chassis comprising a handle and an absorber drum and an extractor drum both rotationally coupled with the chassis. The absorber drum includes a cylinder, where an absorbent layer is positioned on an outer drum surface of the absorber drum. The extractor drum includes a reservoir configured to retain the liquid absorbed from the surface, an outer extractor surface, and a plurality of apertures defined by the outer extractor surface in fluid communication with the reservoir. The extractor drum is movable between a first position and a second position. In the first position, at least a first portion of the plurality of apertures are in contact with the absorbent layer. In the second position, the first portion of the plurality of apertures are not in contact with the absorbent layer.

A portable drying system. The portable drying system may include a base plate; one or more holder frames disposed on a first side of the base plate, wherein each of the one or more holder frames may define an airflow channel therethrough, each airflow channel may extend through the base plate; and an attachment mechanism, wherein the attachment mechanism may be configured to attach the portable drying system to another structure.

A liquid removal device is for removing a liquid from a surface. The liquid removal device includes a chassis comprising a handle and an absorber drum and an extractor drum both rotationally coupled with the chassis. The absorber drum includes a cylinder, where an absorbent layer is positioned on an outer drum surface of the absorber drum. The extractor drum includes a reservoir configured to retain the liquid absorbed from the surface, an outer extractor surface, and a plurality of apertures defined by the outer extractor surface in fluid communication with the reservoir. The extractor drum is movable between a first position and a second position. In the first position, at least a first portion of the plurality of apertures are in contact with the absorbent layer. In the second position, the first portion of the plurality of apertures are not in contact with the absorbent layer.

The present disclosure discloses a vacuum drying tank, including a shell and a pumping device. The shell includes a first shell part, a second shell part, and a third shell part; the second shell part has an accommodating cavity provided with an opening in the top; an air pumping hole is formed in the accommodating cavity; the first shell part is, hermetically covered at the opening; the third shell part is arranged below the second shell part; the pumping device is arranged in the third shell part and is communicated with the air pumping hole; and the pumping device is used for pumping out air in the accommodating cavity from the air pumping hole, so that the accommodating cavity is in a vacuum state.