One or more techniques and/or systems are disclosed for a dry-type lubricant for use in a dry product hopper to help improve dry product flow and to improve anti jamming properties of the dry product. The example lubricant can comprise a hydrophilic fiber, such as cellulose, having a width to length aspect ratio that provides a thin fiber. A plurality of hydrophobic particles are deposited on the surface of the fiber, resulting in a fiber surface exhibiting amphiphobic properties. Further, the fiber can operably absorb water, and then releases the absorbed water to the surface of the fiber under mechanical stress, such as when mixed with a product in a hopper. This can result in the water being disposed on the surface of the fiber, to provide lubrication to a product in a hopper to improve flow and anti jamming characteristics of the product in the hopper.

One or more techniques and/or systems are disclosed for a dry-type lubricant for use in a dry product hopper to help improve dry product flow and to improve anti jamming properties of the dry product. The example lubricant can comprise a hydrophilic fiber, such as cellulose, having a width to length aspect ratio that provides a thin fiber. A plurality of hydrophobic particles are deposited on the surface of the fiber, resulting in a fiber surface exhibiting amphiphobic properties. Further, the fiber can operably absorb water, and then releases the absorbed water to the surface of the fiber under mechanical stress, such as when mixed with a product in a hopper. This can result in the water being disposed on the surface of the fiber, to provide lubrication to a product in a hopper to improve flow and anti jamming characteristics of the product in the hopper.

A system for transferring parcels made in accordance with the present invention includes: a first conveyor for conveying a bulk flow of parcels; a second conveyor positioned adjacent to the first conveyor; a robot positioned adjacent to the first conveyor and the second conveyor; and a rejection member. The robot engages and transfers select parcels in the bulk flow of parcels on the first conveyor to the second conveyor. The rejection member is positioned as to receive parcels offloaded from the first conveyor and/or the second conveyor and directs such parcels out of the system. Parcels within the bulk flow of parcels with characteristics which make it difficult for one or more of the components of the system or downstream systems to handle or process can be directed to the rejection member by operation of the first conveyor and/or the second conveyor to reduce system processing delays and stoppages.

A system for transferring parcels made in accordance with the present invention includes: a first conveyor for conveying a bulk flow of parcels; a second conveyor positioned adjacent to the first conveyor; a robot positioned adjacent to the first conveyor and the second conveyor; and a rejection member. The robot engages and transfers select parcels in the bulk flow of parcels on the first conveyor to the second conveyor. The rejection member is positioned as to receive parcels offloaded from the first conveyor and/or the second conveyor and directs such parcels out of the system. Parcels within the bulk flow of parcels with characteristics which make it difficult for one or more of the components of the system or downstream systems to handle or process can be directed to the rejection member by operation of the first conveyor and/or the second conveyor to reduce system processing delays and stoppages.

A shock-absorbing conveyor boom includes a proximal portion and a distal portion, hingedly connected to the proximal portion, the proximal and distal portions supporting a laterally flexible endless conveyor belt. The distal portion is pivotal in a generally horizontal plane, and is biased toward longitudinal alignment with the proximal portion, whereby physical shock applied to the distal portion can be absorbed by lateral deflection of the distal portion.

A shock-absorbing conveyor boom includes a proximal portion and a distal portion, hingedly connected to the proximal portion, the proximal and distal portions supporting a laterally flexible endless conveyor belt. The distal portion is pivotal in a generally horizontal plane, and is biased toward longitudinal alignment with the proximal portion, whereby physical shock applied to the distal portion can be absorbed by lateral deflection of the distal portion.

A bucket elevator adjustable guide system for efficiently transferring and dispensing particulate material from a bucket elevator includes a head housing connected to the bucket elevator, an adjustable guide member disposed therein, an extendable and retractable adjustment member connected to the guide member, a remotely controllable drive unit coupled to the adjustment member, and a remote control. The head housing receives buckets of particulate material to be dispensed from the bucket elevator. The guide member extends in a curved arc over the buckets to engage and guide discharged particulate material into a discharge chute. Remote controls enable the drive unit to be manually or automatically controlled to cause the adjustment member to extend or retract to adjust the position and configuration of the guide member and affect the transfer and dispensing of the particulate material without physically accessing the adjustment member.

A bucket elevator adjustable guide system for efficiently transferring and dispensing particulate material from a bucket elevator includes a head housing connected to the bucket elevator, an adjustable guide member disposed therein, an extendable and retractable adjustment member connected to the guide member, a remotely controllable drive unit coupled to the adjustment member, and a remote control. The head housing receives buckets of particulate material to be dispensed from the bucket elevator. The guide member extends in a curved arc over the buckets to engage and guide discharged particulate material into a discharge chute. Remote controls enable the drive unit to be manually or automatically controlled to cause the adjustment member to extend or retract to adjust the position and configuration of the guide member and affect the transfer and dispensing of the particulate material without physically accessing the adjustment member.

A sorting facility for sorting articles by a plurality of connected conveyance carriages. The sorting facility includes a supervisory controller managing a position of each of the conveyance carriages, a trigger sensor detecting each of the conveyance carriages, and a belt conveyor provided on each of the conveyance carriages. The supervisory controller identifies each of the conveyance carriages that should deliver the articles to the chute based on the managed position of each of the conveyance carriages. The supervisory controller instructs the belt conveyor provided in each of the conveyance carriages identified to start a delivery operation of each of the articles at timing when each of the conveyance carriages identified is detected by the trigger sensor.

A system for forming horizontally stacked groups of containers includes an infeed screw set, an orienting screw set, and a grouping mechanism. Containers are presented to the infeed screw in a vertical orientation, and are progressed from the infeed screw set to the orienting screw set via a transitioning pocket defined by overlapping pockets of the infeed and orienting screw sets. As containers are progressed through the orienting screw the containers are rotated via a series of orienting pockets to a horizontal orientation and progressed via a series of nesting pockets to form a series of horizontally nested containers. The series is discharged to a grouping mechanism which separates a predefined number of containers from the series to form a horizontally stacked group, which is outfed from the stacking system.