Apparatus and method for drying thermoplastic resin prior to molding into plastic parts comprises a continuous loop liquid circuit for furnishing liquid at a prescribed temperature to a mold in which the plastic parts are fabricated; a continuous loop air circuit for passing heated dry air through a hopper containing the thermoplastic resin thereby drying the thermoplastic resin to a prescribed level of dryness; and a coupling thermally connecting the two circuits for heat transfer from the liquid to the drying air; the liquid is selected from the group comprising water and ethylene glycol; microprocessor control facilitates generation and retention of custom water temperature and resin dryness/temperature optionally based on machine learning principles.

A display module terminal cleansing device includes a wiper assembly and a gas blower assembly. The gas blower assembly is first operated to blow away particle foreign substances located on a terminal area to be cleansed. And, then, the wiper assembly is operated to wipe off foreign substances remaining on the terminal area. The display module terminal cleansing device may achieve an effect of cleansing where water droplet angle on the surface of the cleansed terminal area is less than 15 and also prevents a potential issue of scratching and damaging the display module during the process of cleansing. Also disclosed is a display module terminal cleansing method.

A system for dehydration of organic material comprises a housing structure having an interior chamber, a supply duct, a dual trunk structure, a dry air intake, a central recirculation duct, and a plurality of side recirculation ducts. The side recirculation ducts each have a return plenum extending downward from a top recirculation duct and are configured to recirculate interior air contained in the chamber. The interior air enters the side recirculation ducts through the return plenums and is pushed upward and outward through the top recirculation ducts and back into the interior chamber. The interior chamber has a plurality of exhaust vents positioned in the upper region of its walls. A plurality of portable platforms positioned inside the interior chamber are configured to hold the organic material. The floor of the housing structure can include a plurality of tracks for loading, unloading and positioning the portable platforms.

A drying device H is provided with: a heating roller part 10 that guides a printed object X and is capable of heating the rear surface of the printed object X; a hot air blowing part 11 for blowing hot air to the printed surface of the printed object X; a chamber 15 in which the heating roller part 10 and the hot air blowing part 11 are housed; a first plate frame 1 and a second plate frame 2 that are installed on two sides of the chamber 15; a supply-use air blower D1 for supplying air to the hot air blowing part 11; an exhaust-use air blower D2 for exhausting air inside the chamber 15; and a stage 5 on which the supply-use air blower D1 and the exhaust-use air blower D2 are mounted.

A drying device that includes a series of hollow tube sections connected sequentially end-to-end to form a helical-shaped manifold. Each hollow tube section includes a plurality of apertures used for producing air jets. The apertures fluidly connect internal passages in the hollow tube sections to an external region surrounding the manifold. The apertures are oriented to direct the air jets toward a center region of the manifold. Each hollow tube section is oriented at an oblique angel relative to a respective reference plane to produce the helical-shaped manifold.

A shoes care device includes a first management device, a second management device, a steam generator, and a controller. Each of the first management device and the second management device may be configured to include an inner cabinet, a connection path, a blowing part, and a dehumidifying part. A supply degree of steam, a dehumidification degree by a dehumidifying part, and a flow degree of air circulated in a connection path can be different between the first management device and the second management device, and as a result, the shoes can be managed under different conditions in the first management device and the second management device.

A kiln for drying and processing lumber packages is provided. The kiln generally includes at least one end chamber, a drying chamber adjacent to the end chamber, a first lumber conveying line configured to transport the lumber packages in a first direction through the end chamber and the drying chamber, and a second lumber conveying line configured to transport the lumber packages in a second direction through the end chamber and the drying chamber. The conveying lines may be countercurrent or uniflow. The kiln may further include a heat distributor in the end chamber to distribute heat into the end chamber in addition to heat from the drying chamber along the first and second lumber conveying lines. The heat distributor may include a distribution duct receiving heat from a drying chamber distribution duct or a heater inlet duct, a heat exchanger, a radiative heating element, or a combination thereof.

A drying cabinet has a housing; a door; a carousel drying rack rotatably mounted within the housing; a heat protecting cap; a heating element; a blower mounted in a diagonal configuration; and a controller. The housing includes a top surface with a hole, a base, a front wall with a loading opening, a rear wall, and two sidewalls, forming an inner chamber. The door is hingedly mounted to the front wall, to close the loading opening. The drying rack is a ring having an upper surface, a lower surface, a perimeter, and suspension appendages extending from the lower surface. The cap has a handle and is removably mounted within the top hole. The controller is mounted within one of the sidewalls and has a user interface to selectively operate the heating element and/or the blower. The blower outputs air at a predetermined angle to spin the hair while drying it.

A nozzle includes a slit-shaped discharge port at tip ends of a pair of nozzle walls arranged to face each other at a predetermined interval and a plurality of protrusions protruding toward the facing nozzle walls at tip end sides of the nozzle walls.

A shoes care device includes an inner cabinet having an accommodation space configured to accommodate shoes; a outlet formed on a bottom of the inner cabinet so as to suck air inside the inner cabinet; a connection path forming a flow path through which air in the accommodation space is discharged from the inner cabinet through the outlet and then introduced back into the accommodation space; a blowing part disposed in the connection path and configured to ventilate air; a dehumidifying part disposed in the connection path and configured to dehumidify air; and a main shelf installed to cover the bottom of the inner cabinet and having an upper surface on which the shoes can be settled.