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.

In one embodiment, the present disclosure includes a cloud computer system for controlling a plurality of remote devices comprising a cloud server including a cloud based operating system comprising a data model stored in a computer memory. The data model includes commands that may be performed by a plurality of remote devices in a remote system and, for each remote device, one or more operations for triggering processes executed by the remote device. The cloud based operating system generates a set of instructions from the plurality of commands and corresponding operations to control a portion of the remote devices to perform a task.

A sludge handling system includes a bin from which treated sewage sludge is discharged. A rotabable discharge device includes an arm for scraping the inside of the bin and a frusto-conical chute from which sludge is discharged through a gate to a waiting truck. A stationary scoop is provided mounted on the gate to scrape the interior wall of the chute of adhering sludge.

A sweep auger system having a driveshaft with auger fighting and a backboard extending a length from an inward end to an outward end. An input of a gearbox is connected to an outward end of the drive shaft and a sweep wheel having a plurality of notches, arms and feet is connected to an output of the gearbox. A drive shield is placed around a rearward side of the sweep wheel that forms a channel that is configured to capture grain agitated by the drive wheel. A guide plate is connected to the gearbox and covers a portion of the gearbox. The guide plate angles from an upper outward edge downward and forward to a lower inward edge that is configured to urge the grain captured within the channel of the drive shield to move in front of the sweep auger system reducing grain left in the grain bin.

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.

A bin sweep system for moving particulate material in a bin may comprise an elongated sweep apparatus having a particulate sweep structure configured to move particulate material on the floor beneath the sweep apparatus toward one end of the elongated sweep apparatus. The particulate sweep structure may include a plurality of interconnected paddles movable in a succession on a path along at least a portion of a length of the sweep apparatus and an endless loop member on which the paddles of the plurality of paddles are mounted at spaced locations for moving the paddles along the path. The path of the paddles on the endless loop may generally lie in a movement plane, and an orientation of the movement plane may be tilted such that the movement plane is not in a vertical orientation and not in a horizontal orientation.

A sludge handling system includes a bin from which treated sewage sludge is discharged. A rotabable discharge device includes an arm for scraping the inside of the bin and a frusto-conical chute from which sludge is discharged through a gate to a waiting truck. A stationary scoop is provided mounted on the gate to scrape the interior wall of the chute of adhering sludge.

In one embodiment, the present disclosure includes a solid dispenser comprising a dispensing element and a housing. The dispensing element includes a plurality of blades extending from a cylindrical base. In one example embodiment, the blades are separated by 90 degrees to form channels from an upper opening in the housing to a lower opening in the housing. A hopper for storing items to be dispensed may be configured on one side of the dispenser, and a trap for controlling the flow of dispensed items may be configured on the other side of the dispenser. In one embodiment, the dispenser is controlled by motors coupled to a server as part of a fully automated cloud controlled robotic food preparation system, where each dispenser may accurately deliver different quantities of ingredients for different orders.

A component supply device configured to output a predetermined number of components to be used in a work operation includes a fixing plate having a via-hole through which the components pass, the fixing plate being fixed to a housing, a movable plate having a storage hole penetrating through the movable plate in an up-down direction and having a size that allows the predetermined number of components to be stored, the movable plate being laminated on a top side of the fixing plate and configured to move such that the storage hole moves relative to the via-hole in a direction parallel to a top face of the fixing plate, a controller configured to control an operation of the movable plate, and an elastic member placed on a top side of the movable plate and configured to elastically deform in a direction parallel to a top face of the movable plate.

The present application relates to the field of mechanical engineering technologies, and particularly to an unloading device. The unloading device includes a power mechanism, a transmission mechanism, and an execution mechanism that are connected in sequence from top to bottom; wherein the execution mechanism includes a shafting assembly and a turntable assembly that are connected in sequence from top to bottom; wherein the turntable assembly includes an upper auxiliary fence, a middle main disturbance disk, and a lower reclaiming portion that are arranged in sequence from top to bottom. The unloading device provided by the present application is easy to control, and ensures the reclaiming reliability of the spherical materials and the stability of the sphere flow unloading, which can meet the requirements of long life and reliable operation of the unloading device under light load and low speed working conditions and achieve the convenient maintenance.