A dosing device for dosing a granular material containing a reservoir for storing the granular material, a dosing disc, and a suction device and a spraying device containing such a dosing device and a method for applying a granular material to a substrate.

A next generation painting robot with advanced fluid delivery system, enhanced kinematics and a service airlock compartment. The painting robot includes a fluid delivery system which places color changing valves and pumping hardware on the back side of the robot's mounting pedestal, where it can be serviced without a technician having to enter the spray booth. Additionally, the robot enables routine cleaning and maintenance to be performed without personnel entering the spray booth and without stopping the vehicle conveyor, due to simplified outer arm design, improved home positioning and an airlock booth adjacent to the robot pedestal. Service personnel can clean and service the applicator and other components on the outer arm from the airlock booth, while other robots continue painting parts moving on the conveyor, without allowing fume-laden vapors into the operator aisle.

A system and method for printing patterns on a substrate, including a substrate; a powder; a sealing coating; and a UV curable paint; wherein the powder, the sealing coating and the UV curable paint are deposited onto the substrate and heated and cured. The method is designed to make the substrate have a faux appearance with lower costs than manufacturing the real substrate it was meant to look like.

Described herein are industrial application systems for treating (e.g., forming protective coatings on) produce, agricultural products, or other items. An exemplary application system can include a bed comprising a plurality of rollers, one or more sprayers over a first portion of the bed, one or more blowers over a second portion of the bed, a mixing system configured to prepare a mixture comprising a coating agent in a solvent, and a liquid delivery system connected inline between the mixing system and the one or more sprayers. Items placed on the bed can have the mixture applied to their surfaces via the one or more sprayers, after which the one or more blowers can at least partially remove the solvent from the surfaces of the perishable items, thereby causing the protective coatings to be formed over the perishable items.

A developing device and a developing method are provided. The developing device includes a developing chamber, a conveyor table, and an air ejection member. A spraying member in the developing chamber sprays a developing agent onto a surface of a display device. The conveyor table moves the display device from outside of the developing chamber to inside of the developing chamber, and from inside of the developing chamber to outside of the developing chamber. The air ejection member ejects airflow onto the display device. The developing agent disposed on the display device can be prevented from flowing out of the developing chamber.

A treatment plant and method for treating workpieces, in particular for coating and/or drying vehicle bodies, having a treatment device with a housing in which a treatment space is accommodated. A conveyor system having a multitude of transport trolleys for conveying workpieces through the treatment space, wherein each transport trolley has a chassis and a fastening device for at least one workpiece, which are coupled together by means of a connecting device. Outside the treatment space, there is a guiding area with a travel space for the chassis. The travel space is connected to the treatment space via a connecting passage such that the chassis of a transport trolley can move in the travel space and at the same time the fastening device is entrained in the treatment space and the connecting device extends through the connecting passage. The travel space is defined by a travel space housing and a gas device is present to feed a throughflow gas, in particular air, to the travel space. At least a major part of the throughflow gas can again be discharged from the travel space as exhaust gas, without this throughflow gas reaching the treatment space through the connecting passage.

In the present invention, an infrared radiation apparatus is disposed at a position apart from a conveyor in a lower chamber. The infrared radiation apparatus performs heating treatment for a plurality of substrates placed on an upper surface of a belt by radiating infrared light upwardly from a plurality of infrared lamps. In a film forming chamber, a thin film is formed on the substrates placed on the upper surface of the belt by simultaneously performing the heating treatment of infrared radiation of the infrared radiation apparatus and mist spray treatment of a thin film forming nozzle.

A coating system includes coating robots configured to coat a vehicle, and an operation robot. The operation robot includes a first arm configured to turn around a first axis; a second arm configured to turn around a second axis parallel to the first axis; a third arm configured to turn around a third axis parallel to the first axis; a fourth arm configured to turn around a fourth axis perpendicular to the first axis; a fifth arm configured to turn around a fifth axis parallel to the fourth axis; and a tip jig is supported at the fifth arm and is configured to turn around a sixth axis. The sixth axis is selectively parallel to the fifth axis or perpendicular to a plane which includes the fourth axis and the fifth axis.

Machine for the surface processing of products (L) under controlled pressure conditions different than the ambient pressure, comprising • at least one sealed chamber (12, 13), provided with at least one opening (15, 16), that can be closed, for inserting and removing a plurality of products (L) to be processed, • a device (30) for adjusting the pressure inside said at least one chamber (12, 13), • in said at least one chamber (12, 13), a moving device (20) for vertically moving said products (L), so as to accumulate at least two said products on levels arranged over one another, • a horizontal moving device (19) for moving said products (L) from and towards said at least one opening (15, 16) when the products (L) are arranged at the same level of said at least one opening (15, 16) wherein, from an operational viewpoint, a plurality of said products (L) are inserted into said at least one chamber (12, 13), and at least two products of said plurality of products (L) are over one another for a span of processing, and wherein, once all the products to be processed have been inserted into said at least one chamber, (12, 13) said chamber (12, 13) is closed and the pressure inside is adjusted up to an operational processing pressure, and then said at least one chamber (12, 13) is opened again and the products (L) are removed therefrom.

In a film forming apparatus of the first embodiment, an infrared radiation apparatus and a thin film forming nozzle are separately disposed from each other so that heating treatment performed in a heating chamber and mist spray treatment performed in a film forming chamber are not affected by each other. The film forming apparatus of the first embodiment performs the heating treatment of infrared radiation of the infrared radiation apparatus in the heating chamber and then performs the mist spray treatment of the thin film forming nozzle in the film forming chamber.