A powder-mixed-gas generator (20) includes a chamber (42) for containing powder (47) (the chamber being constituted of a vessel body (23) and a lid (24)), a gas injector (25) located within the chamber (42) for injecting a gas (54), and a mixture-gas discharger (26) for discharging a mixture gas (55) in which the gas and the powder (47) is mixed to the outside. The gas injector (25) injects the gas (54), thereby forming a circulation stream (52) that circulates inside the space (53). The mixture-gas discharger (26) has a mixture-gas suction port (49) for receiving the mixture gas (55). The mixture-gas suction port (49) has an opening that faces a direction in which the circulation stream (52) flows.

Various systems, methods, and devices are provided for focusing particles suspended within a moving fluid into one or more localized stream lines. The system can include a substrate and at least one channel provided on the substrate having an inlet and an outlet. The system can further include a fluid moving along the channel in a laminar flow having suspended particles and a pumping element driving the laminar flow of the fluid. The fluid, the channel, and the pumping element can be configured to cause inertial forces to act on the particles and to focus the particles into one or more stream lines.

A mounting and support mechanism for a rotary feeder gear motor having an adjusting housing, wherein the adjusting housing includes a support flange adjacent the gear motor, a hollow adjusting housing and a support flange adjacent a stationary feeder end cover. Contained within the adjusting housing is a carrier extension wherein the carrier extension at one end encases a stationary bushing, the stationary bushing houses an adjusting shaft to provide movement of a rotor assembly axially, and at the opposite end the carrier extension connects to a bearing carrier mechanism.

The invention relates to a device (1) for conveying an operating material, comprising a filling chamber (3) with an inlet (4) for filling the filling chamber (3) with the operating material, a conveying section (6) for conveying the operating material to an outlet (5), a transition element (7) between the filling chamber (3) and the conveying section (6) which can be switched between an open position and a closed position. The operating material which is introduced via the inlet (4) in the filling chamber (3), in the open position of the transition element (7), can be transferred in the conveying section (6) by means of a gaseous transport medium, and the operating material can be discharged from the outlet (5) from the conveying section (6) by means of a gaseous transport medium.

Process for operating a hot particle rotary valve having a rotor and a casing. The process includes subjecting the hot particle rotary valve to an internal temperature increase treatment in which the inside of the rotary valve is heated during the start-up of the particle rotary valve.

The invention relates to a conveying device for conveying granular material that is stored in a source (10), for example polyamide 6 (PA6) granules, to multiple receiving points (11, 12, 13, . . . ), the conveying device having a number of injectors (11, 12, 13, . . . ) corresponding to the number of receiving points. Also disclosed is a method for conveying granular material, for example PA6 granules, from a source (10) to multiple receiving points.

A method for conveying goods to be conveyed with a cellular wheel sluice, wherein in a housing, the goods to be conveyed are conveyed with rotor blades of the rotating cellular wheel, and sealing lips of the rotor blades abut against at least one sealing surface of the housing. During the transport of certain goods to be conveyed, such a sealing surface and/or sealing lips can be used which are formed from an abrasive material that is contained in the goods to be conveyed.

An adhesive melter and a method for operating the melter enables predictive maintenance of an exhaust air filter used to remove pressurized air flow that delivers solid adhesive particulate from a fill system into the melter. To this end, the fill system repeatedly actuates to refill a receiving space, and a controller monitors a duration of each fill system cycle. When changes in a calculated average duration of a plurality of fill system cycles exceed a maintenance threshold, an alert is emitted at a user interface to prompt maintenance or replacement of the exhaust air filter before a complete shutdown of the fill system is caused by clogging of the exhaust air filter. Consequently, unplanned downtimes caused by clogged exhaust air filters in the adhesive melter can be minimized, regardless of any variable conditions occurring at the melter.

To provide a levitation air plate that can be easily manufactured and can float a substance being conveyed such as a glass while maintaining its high rigidity and controlling a floating amount in high accuracy. A levitation air plate 1 provided with: a top plate 2 in which a plurality of air ejection holes 2c and suction holes 2d penetrating from an upper surface 2a to a lower surface 2b are arranged in alternating fashion as viewed from the upper surface, the top plate 2 having a counter-bored portion 2e on the lower surface side of each of the plurality of air ejection holes; an orifice sheet 3 having a plurality of orifices 3c penetrating from an upper surface 3a to a lower surface 3b in positions corresponding to the counter-bored portions of the top plate, and having communicating holes 3d communicated one-to-one with the suction holes of the top plate and penetrating from the upper surface to the lower surface; and bottom side plates 4, 5 having an air supply channel 4c and an air supply hole 5c for supplying air to all of the orifices drilled in the orifice sheet, and an air suction channel 4d and a suction hole 5d for suctioning air from all of the communicating holes communicated with the suction holes.

A method of transferring objects onto a substrate, or a moving substrate, the objects to be transferred being placed in a transfer area including an inlet and an outlet spaced apart from one another by two lateral edges opposite one another, and holding a carrier liquid forming a conveyor, the objects being held by a compact film of particles floating on the carrier liquid of the transfer area, in which the objects are moved with the particle film to be transferred onto the substrate when they reach the outlet.