An infrared (IR) light source drying apparatus (10, 100, 120) is disclosed as including a body (123), an airflow output device (14, 104, 122) for outputting an airflow from the body, and an IR lamp (108, 124) for emitting an IR light ray, the apparatus being without any heating element in the path of movement of the airflow through the body. The airflow outputted by the drying apparatus (10, 100, 120) and directed towards a target (T) is at the ambient temperature, and serves to cool the target. The present invention can provide waterproof functions when drying the target, operate with batteries and use significantly less power for powering the drying apparatus.

A hand-portable drying apparatus and method for use in a damp or waterlogged room, the apparatus including a housing having a carrying handle, the housing containing first and second airflow ducts arranged generally parallel to each other and having respective air inlet and air outlet ends, the apparatus further including means to force air through the ducts and to selectively heat it in at least one of the ducts, and valve means within the housing to selectively direct air from the first duct to the second duct whereby to move air from within the room received by the first duct back to the room via the second duct or to expel air from the room via the first duct to outside the room and draw in fresh air from outside the room via the second duct.

The present invention provides methods and systems for a portable modular drying device that includes a distributing manifold for receiving a blower device that distributes air through the device, and at least one drying manifold having a first end, a second end, and at least one opening between the first end and the second end for distributing the drying air selectively secured to the distributing manifold. The device further includes at least one drying hose or glove tube selectively secured to the at least one opening of the at least one drying manifold.

A cassette drying apparatus includes first to fourth blowing nozzles configured to respectively inject hot air along first to fourth side face portions of a substrate cassette, and an exhaust duct disposed in a central portion of a bottom face of the substrate cassette. The first to fourth blowing nozzles are each disposed in a direction to inject the hot air in a clockwise direction around the exhaust duct.

An environmentally sensitive container assembly for curing cannabis includes a jar that has cannabis positioned therein for the purposes of curing the cannabis. A disk is positionable on the jar for closing the jar. A humidistat is coupled to the disk to detect humidity levels in the jar. A thermometer is coupled to the disk to detect a temperature in the jar. A display is coupled to the disk, the display displays temperature indicia for communicating the temperature in the interior of the jar and the display displays humidity indicia for communication the humidity in the interior of the jar. A lid is removably coupled to the jar and compresses the disk against the jar to close the jar.

An environmentally sensitive container assembly for curing cannabis includes a jar that has cannabis positioned therein for the purposes of curing the cannabis. A disk is positionable on the jar for closing the jar. A humidistat is coupled to the disk to detect humidity levels in the jar. A thermometer is coupled to the disk to detect a temperature in the jar. A display is coupled to the disk, the display displays temperature indicia for communicating the temperature in the interior of the jar and the display displays humidity indicia for communication the humidity in the interior of the jar. A lid is removably coupled to the jar and compresses the disk against the jar to close the jar.

A system for supporting and drying personal protective equipment includes a ducting frame assembly, ventilated equipment racks connected to the frame assembly, and valves between the equipment racks and the ducting frame assembly. The system is supported by a base assembly, bracing, or a combination of a base and braces. A blower forces air through the frame assembly and may heat the air and add disinfecting or deodorizing substances to the air flow. Valves may be opened to direct the forced air into equipment racks and through ventilation apertures or openings in the racks. Personal protective equipment may be disposed upon the equipment racks, so that air is ventilated out of the racks and onto and around protective equipment on the racks.

The present invention provides an exchangeable-battery photocuring device, comprising a supporting frame, having a plurality of walls, wherein the plurality of walls constitutes a chamber having at least one opening; a UV LED module, disposed on the supporting frame; a outer housing, having an external opening corresponding to the opening of the supporting frame; a control module; an exchangeable battery module, disposed on the supporting frame, wherein the exchangeable battery module comprises a battery holder and a battery, and the exchangeable battery module is electrically connected to the control module, and a handle. The present invention applying an exchangeable battery module achieves that the photocuring device is used without being constrained by location and space. Furthermore, the present invention also provides an exchangeable-battery photocuring device with a slidable lid and a portable battery photocuring device with a slidable lid.

There is provided a washstand which may include a washing device that includes a bowl, a water-supply assembly that supplies water to the bowl, and a water-discharge assembly that drains water from the bowl, an inner cabinet provided below the bowl and having an inner space, a dryer configured to draw air through an air-intake hole opened toward a floor and to discharge air into the inner space of the inner cabinet, a utensil drying functional-module provided in the inner space of the inner cabinet and configured to dry utensils using air discharged from the dryer; and an outer cabinet covering an outer side of the inner cabinet. An external connection path may be defined between the inner cabinet and the outer cabinet, wherein the external connection path guides air discharged from the utensil drying functional-module toward the floor.

This application relates to a portable electronic device including a processor and an operational component assembly, the operational component assembly including a frame. The frame carries a sensor that is coupled to the frame, where the sensor is capable of (i) receiving an environmental stimulus, and (ii) subsequently, generating an environmental parameter based on the environmental stimulus. The operational components further include a speaker that includes a magnetic driver that is capable of generating a magnetic field in response to receiving the instructions, and a diaphragm that is capable of actuating in response to the magnetic field being generated by the magnetic driver. An opening is disposed at an external surface of the frame such that when an amount of moisture is present within the volume, the magnetic driver receives the instructions from the processor to generate a magnetic field that actuates the diaphragm so as to expel the moisture.