The present invention provides a blank on-line water blowing device. The blank on-line water blowing device includes a frame, a lift cylinder, bearing seats A, linear bearings, guide shafts, a support, a servomotor, a lifting frame, a speed reducer, a bearing seat B, a bearing, a rotating shaft, a synchronous pulley A, a synchronous belt, a gland, a base, a base plate, a flange, springs, copper sleeves, floating columns, an air supply pipe, air amplifiers and a mounting rack. The blank on-line water blowing device provided by the present invention can meet the requirement of blank water blowing, and meanwhile, has the characteristics of simple structure, convenience in manufacturing, stable performance and capability of meeting the precision machining requirement.

A dryer device for drying plastics pouches, the device comprising a main air admission pipe having a plurality of dryer heads including outlet orifices, each outlet orifice forming an air knife, the dryer heads being associated in pairs so as to define a plurality of passages for plastics pouches, each passage being adapted to dry plastics pouches passing therethrough by applying two opposing air knives.

A carrier plate for inserting containers filled with a medical, pharmaceutical or cosmetic substance into a freeze dryer, wherein the carrier plate comprises a plurality of receptacles that are configured to each receive a container. Furthermore, the present application relates to a carrier plate arrangement having a plurality of such carrier plates. Furthermore, the present application relates to a loading system for a freeze dryer, wherein the loading system comprises one or more handling devices and one or more such carrier plates or the carrier plate arrangement. Furthermore, the present application relates to a loading system and to a freeze-drying system having such a loading system.

The present invention provides a substrate treating apparatus. The substrate treating apparatus includes: a liquid treatment chamber configured to treat a substrate with a liquid; a drying chamber configured to dry the liquid-treated substrate; a transfer robot configured to transfer the substrate between the liquid treatment chamber and the drying chamber, and including a hand which is movable along an X-axis, a Y-axis, and a Z-axis and is rotatably driven based on the Z-axis, and on which the substrate is placed; an optical system configured to photograph a form of a liquid film of the substrate, in which when the substrate is transferred from the liquid treatment chamber to the drying chamber, the substrate is wetted with a chemical liquid and is transferred by the transfer robot in a state of being formed with a liquid film formed; and a controller configured to measure the form of the liquid film photographed by the optical system.

Example aspects of a drying rack, a rotatable drying rack, and a method of drying wet objects are disclosed. The drying rack can comprise a base and a plurality of mounting post assemblies mounted to the base, each of the mounting post assemblies comprising at least one mounting post. The mounting post assemblies can comprise inner post assembly comprising an inner post and an outer post assembly comprising a primary outer post and a secondary outer post, wherein each of the inner post, primary outer post, and secondary outer post are configured to support an object above the base.

A drying device according to an embodiment dries a surface of an article by blowing hot air, and includes a drying chamber including a hot air supply port that blows the hot air, an infrared camera acquiring temperature distribution information that is information related to a temperature distribution inside the drying chamber, and a controller controlling a drying condition inside the drying chamber. The controller acquires corrected temperature distribution information by performing lock-in analysis of the temperature distribution information to remove noise from the temperature distribution information, and controls the drying condition based on the corrected temperature distribution information and based on a temperature distribution model that is a model related to the temperature distribution inside the drying chamber and is pre-generated using machine learning.

A dryer includes piezoelectric elements powered by oscillatory voltage. The unique piezoelectric elements are placed on the conveyor system or drums moving with the wet material. The oscillating voltage is uniquely connected to the moving piezoelectric elements. The vibration of the piezoelectric elements extracts liquid from the wet material in the form of a cold mist that can be vented, captured, reclaimed, or drained.

The invention relates to an automatic cleaning process, carried out during cleaning sequences during which all or at least part of an element to be cleaned is cleaned, each element to be cleaned being positioned inside a controlled atmosphere booth belonging to a coating facility. The cleaning sequences of the element(s) are programmed during imposed production stoppages of the facility.

The invention also relates to a drying station, intended to be positioned inside a booth with a controlled atmosphere belonging to a coating facility, this drying station being dimensioned to receive all or part of a spraying robot, comprising a moving arm at the end of which a handle and a sprayer attached on the handle are provided.

A foam drying apparatus is provided. The apparatus is configured to pass air, and in some cases heated and/or dried air, through a quantity of foam. This air passing through the foam absorbs or otherwise carries moisture out of the foam, drying it. The apparatus may utilize a pressure differential on opposite sides of the foam, causing air on the higher pressure side to pass through the foam. Typical applications may include the drying of foam assemblies which use water based adhesives to accelerate drying of the adhesive and/or removal of water from the foam assembly, and packaging of the foam assembly.

The present invention is directed to an improved lyophilization process wherein a plurality of vials is not in contact with the shelf of the lyophilization device. The present invention is further directed to lyophilization cake and intermediate cake obtainable according to the process of the invention.