The disclosure relates to a coating apparatus for applying a layer of particles to a receiving surface. The apparatus comprises a pressurized air source, an application chamber partially bounded by the receiving surface into which an air stream is delivered by the air source, an air return path for returning air from the application chamber to an intake of the air source to form an air circulation loop, a dosing device for introducing particles to be coated onto the receiving surface into the air circulation loop, and a controller serving to regulate the dosing device so as to maintain the particle concentration within predetermined limits. A method of applying a layer of particles is also provided, as well as printing systems benefiting from the present coating apparatus.

A method and devices for dispensing adhesive onto an elastic strand are configured to apply first, second, and third volumes of adhesive onto first, second, and third portions of the elastic strand, respectively. When the elastic strand is adhesively secured to a substrate to form a personal disposable hygiene product, the first and third portions of the elastic strand define opposing ends of the elastic strand, which are adhered with a larger amount of adhesive or a stronger adhesive material capable of limiting movement of the strand at the opposing ends. The method and devices advantageously use a module and nozzle which maintain separation between first and second adhesive streams received from different adhesive supplies at least until flow within the nozzle. This arrangement enables use of different adhesives to form the first, second, and third volumes, as well as wet-on-wet contact dispensing using multiple nozzle outlets.

An apparatus and associated methods for a pipe doping apparatus is disclosed. The apparatus may include a pump fluidly coupled to a reservoir and a dope manifold, the pump positioned to pump pipe dope from the reservoir to the dope manifold. The automated pipe doping apparatus may include an ejector coupled to the dope manifold, where the ejector positioned to supply a fixed volume of pipe dope from the dope manifold to a dope distribution line. The automated pipe doping apparatus may also include a pipe dope applicator, the pipe dope applicator fluidly coupled to the dope distribution line positioned to deposit pipe dope on a threaded connection.

A manufacturing facility is provided for manufacturing a product on a foil (FO). The manufacturing facility comprises a deposition zone (10) formed by a clean room wherein at least a first and a second deposition facility (21, 22) are arranged for depositing a layer of a material on the foil. The manufacturing facility further comprises at least one processing facility (31) for processing the deposited layer, said processing facility being arranged outside said deposition zone and comprising a processing trajectory with a first path (31a) away from said deposition zone, towards a turning facility (41) and with a second path (31b) from said turning facility back towards said deposition zone.

A coating apparatus for coating a perimeter surface of a pipeline. A frame selectively mounts a sprayer on the pipeline. The sprayer can spray fluid along a flow path in a spraying mode and preparation mode. In the preparation mode, a fluid diverter moves into the flow path to divert the fluid delivered from the sprayer away from the pipeline. In the spraying mode, the fluid diverter moves out of the flow path to permit the sprayer to coat the perimeter surface of the pipeline with a curable liquid. A vacuum system can draw a vacuum through the diverter to remove the fluid the sprayer sprays in the preparation mode. The flow path can be located in a spray shroud. The diverter can fluidly couple the vacuum system to the shroud interior in the spraying mode to remove overspray.

A stent holder for mounting and electrically charging a stent during coating of the stent using dry particles, the particles comprising inert polymers, pharmaceutical or biological agents, is provided. An assembly for supporting and electrically charging a stent during the coating of the stent using dry particles, the particles comprising inert polymers, pharmaceutical or biological agents, is provided. A chamber for creating an electrical field around a stent and for supporting, electrically charging, and exposing the stent to dry particles, the particles comprising inert polymers, pharmaceutical or biological agents, is provided. A method for creating an electrical field around a stent and for supporting, electrically charging, and exposing the stent to dry particles comprising inert polymers, pharmaceutical or biological agents is provided.

An application device for applying a coating medium onto a moving surface includes an application head which extends over an entire width of the moving surface. A linear guide is provided which extends in a width direction of the application device parallel to the application head and which is provided for mounting one or a number of cleaning elements for the application head.