A particulate material supplying apparatus includes a hopper that stores a particulate material, a discharge gutter that dispenses the particulate material, a feeder that transports the particulate material to a weighing scale, the weighing scale that weighs the particulate material, a supply shutter that feeds the particulate material to a machine in the next process step at a predetermined timing, and a controller that controls the operations of these devices. The discharge gutter includes an inclined gutter portion having an opening in an upper surface thereof and a substantially U-shaped cross section. The controller controls the discharge gutter so that the particulate material in the hopper is dispensed to the feeder by causing the discharge gutter to perform a swinging motion in which a forward rotation and a backward rotation each to a predetermined angle are repeated while the opening in the inclined gutter portion faces upward.

A bin sweep system having a sweep auger and a brush, wherein the brush extends radially beyond the end of the sweep auger to contact the bin wall during operation of the bin sweep to sweep material away from the wall. The sweep auger rotates about a first axis and the brush rotates about a second axis.

In one aspect, the disclosure describes an apparatus comprising an auger section having an auger and a drive unit containing a motor for driving the auger. A collector ring housing containing a collector ring is positioned between the auger section and the drive unit. In another aspect, the disclosure describes an apparatus for attachment to a floor grate. The apparatus includes a pivot stand attached to a top surface of the floor grate, the pivot stand defining a vertical pivot axis. A collector ring has a first stationary portion and a second rotatable portion, with the stationary portion attached to the pivot stand. A housing surrounds the collector ring, and the housing and second rotatable portion of the collector ring rotate together about the pivot axis.

Aspects for a portable dust collection system are disclosed. In one aspect, an apparatus is disclosed, which includes a portable housing having a vacuum source and a filter component. The apparatus further includes an input component having at least one inlet and configured as a conduit between the portable housing and a silo. For this embodiment, the vacuum source is configured to provide a negative pressure within an interior portion of the silo by creating an air flow from the interior portion of the silo to the portable housing via the input component, whereas the filter component is coupled to the input component and configured to collect airborne dust removed from the silo by the negative pressure. Similar apparatuses are also disclosed to facilitate dust removal from a mixer, as well as dust removal from multiple dust sources.

The present invention provides a particle packing apparatus which can pack uniformly particles of catalyst, etc. without breaking the particles. The particle packing apparatus for packing particles into a vessel, comprises: a base held at a fixed position with respect to the vessel; a distributor which is rotational symmetrical to a central axis extended vertically and distributes the particles; a bearing fixed to the base and holding the distributor rotatably; a particle supplying unit fixed to the base, being rotational symmetrical to the central axis, having a bottom opening being smaller than an inner diameter of the bearing and supplying the particles to the distributor through the bottom opening; and a motor rotating the distributor.

The present invention provides a particle packing apparatus which can pack uniformly particles of catalyst, etc. without breaking the particles. The particle packing apparatus for packing particles into a vessel, comprises: a base held at a fixed position with respect to the vessel; a distributor which is rotational symmetrical to a central axis extended vertically and distributes the particles; a bearing fixed to the base and holding the distributor rotatably; a particle supplying unit fixed to the base, being rotational symmetrical to the central axis, having a bottom opening being smaller than an inner diameter of the bearing and supplying the particles to the distributor through the bottom opening; and a motor rotating the distributor.

A gravity-feed bin includes a generally hollow main bin having an open end, a storage reservoir and a dispensing chute. The dispensing chute has an opening disposed near a distal end. The bin includes a dispensing gate movable between open and closed positions. When the dispensing gate is in the closed position, the dispensing gate blocks the opening of the dispensing chute. The main bin includes a vertical front wall joined to planar first front surface that is disposed below the vertical front wall, at an angle relative to the vertical front wall so as to direct bulk material inwardly towards the interior of the storage reservoir. A second planar front surface is joined to the first front surface, and disposed at an angle relative to the first front surface, so as to direct the bulk material towards the dispensing chute.

In one embodiment, the present disclosure includes a cloud computing system for controlling a plurality of remote devices. The cloud computing system generates a set of instructions from a plurality of commands and corresponding operations to control the remote devices. In some embodiments, the system may be used to automatically produce an item, such as a food item.

A process and apparatus for depositing particulate material in a predetermined pattern onto a moving surface is disclosed. A particulate material may be fed under gravity from a hopper to a discharge zone containing a feed opening. A gas may be supplied, by a gas supply assembly, under pressure to the bulk of particulate material within the hopper discharge zone. The particulate material may be transferred through the feed opening to the surface of a transfer device, which contains a pattern of particulate-receiving recesses. The transfer device may rotate to a deposition zone and transfer the particulate material to a carrier layer.

An auger system for removing particulate material from an interior of s storage bin having a bin floor with a center and a periphery. The auger system may comprise an outflow auger for positioning from the center of the bin floor to the periphery of the bin floor to move the particulate material from the center to the periphery, an inflow auger for positioning from the periphery of the bin floor to the center of the bin floor to move the particulate material toward the center of the bin floor to feed particulate material to the outflow auger; and a movement assembly configured to move the inflow auger with respect to the outflow auger. The system may also include a lift assembly configured to lift the inflow auger upwardly with respect to the bin floor from a lowered operational position to a raised, clearing position.