The invention relates to a method for managing a module for sorting units, which involves arranging said units loose in a reservoir; sorting said units according to a specific orientation into a batch inserted into a housing, by lifting from said reservoir towards an exit at an elevation speed; expelling said batch of sorted units from said outlet towards an entrance of a supply column, said expelled units passing through a circulation area situated between said exit and said entrance. The method comprising, at said circulation area, detecting the number of units expelled in each batch; accelerating or decelerating the elevation speed depending on said number of units detected. The invention also concerns a corresponding management device.

Telescopic conveyor with integrated indexing and measuring conveyor is described, the telescopic conveyor having a frame, at least one telescopic segment mounted so as to be extendable with respect to the frame and a transport conveyor, the transport conveyor is driven at a first conveying speed (v.sub.1) and is supported on the at least one telescopic segment and on the frame and wherein the indexing and measuring conveyor is arranged on a delivery side of the transport conveyor. The telescopic conveyor enables the packet items located thereon to be automatically separated while taking up as little space as possible. The indexing and measuring conveyor is mounted on the same frame and is driven at a second conveying speed (v.sub.2), the second conveying speed (v.sub.2) being greater than the first conveying speed (v.sub.1).

Telescopic conveyor with integrated indexing and measuring conveyor is described, the telescopic conveyor having a frame, at least one telescopic segment mounted so as to be extendable with respect to the frame and a transport conveyor, the transport conveyor is driven at a first conveying speed (v.sub.1) and is supported on the at least one telescopic segment and on the frame and wherein the indexing and measuring conveyor is arranged on a delivery side of the transport conveyor. The telescopic conveyor enables the packet items located thereon to be automatically separated while taking up as little space as possible. The indexing and measuring conveyor is mounted on the same frame and is driven at a second conveying speed (v.sub.2), the second conveying speed (v.sub.2) being greater than the first conveying speed (v.sub.1).

A side-by-side parcel separation method is provided. The side-by-side parcel separation method includes the following steps: dispersion: dispersing, by an angle difference existing in a conveying direction, parcels arriving at a dispersion device from a conveying line, wherein a gap is reserved between adjacent parcels; detection and recognition: photographing and recognizing detected parcels by a visual recognition device to obtain a three-dimensional size and real-time position data of each parcel; separation: applying different conveying speeds to the adjacent parcels by a separation device, arriving, by a first parcel-recognized to be at a front position, at a side-approaching device at a fast speed, and repeating the foregoing steps; and single-row queuing: forwardly conveying, in a single-row queuing mode, different parcels arriving at the side-approaching device in sequence. A separation device for implementing the side-by-side parcel separation method is also provided.

A side-by-side parcel separation method is provided. The side-by-side parcel separation method includes the following steps: dispersion: dispersing, by an angle difference existing in a conveying direction, parcels arriving at a dispersion device from a conveying line, wherein a gap is reserved between adjacent parcels; detection and recognition: photographing and recognizing detected parcels by a visual recognition device to obtain a three-dimensional size and real-time position data of each parcel; separation: applying different conveying speeds to the adjacent parcels by a separation device, arriving, by a first parcel-recognized to be at a front position, at a side-approaching device at a fast speed, and repeating the foregoing steps; and single-row queuing: forwardly conveying, in a single-row queuing mode, different parcels arriving at the side-approaching device in sequence. A separation device for implementing the side-by-side parcel separation method is also provided.

A feed unit for articles includes: a first feeding device; a second feeding device for individually picking up the articles from the first feeding device at a removal location at a predetermined time interval; and a synchronization device for receiving the articles from the first feeding device and to moving the articles into the removal location. A control system is also provided, to adjust the speed of the synchronization device in such a manner that each article reaches the removal location at the predetermined time interval in order to be picked up by the second feeding device.

A feed unit for articles includes: a first feeding device; a second feeding device for individually picking up the articles from the first feeding device at a removal location at a predetermined time interval; and a synchronization device for receiving the articles from the first feeding device and to moving the articles into the removal location. A control system is also provided, to adjust the speed of the synchronization device in such a manner that each article reaches the removal location at the predetermined time interval in order to be picked up by the second feeding device.

An automated system for singulating items is provided. The automated system includes a singulation apparatus. The singulation apparatus includes multiple conveyor modules and a vertical frame structure. Each of the multiple conveyor modules has an identical physical structure. The vertical frame structure provides multiple horizontal mounting locations, each at a different height along the vertical frame structure. Each of the conveyor modules is mounted to a different one of the multiple horizontal mounting locations.

An automated system for singulating items is provided. The automated system includes a singulation apparatus. The singulation apparatus includes multiple conveyor modules and a vertical frame structure. Each of the multiple conveyor modules has an identical physical structure. The vertical frame structure provides multiple horizontal mounting locations, each at a different height along the vertical frame structure. Each of the conveyor modules is mounted to a different one of the multiple horizontal mounting locations.

A multi-belt conveyor is described. The multi-belt conveyor comprises a base assembly comprising a base frame that extends along a length of the multi-belt conveyor. Further, the multi-belt conveyor comprises a conveyor bed having a plurality of cartridges positioned adjacently to each other and mounted to the base frame. In this regard, each cartridge of the plurality of cartridges comprises a set of conveyor belts configured to move in a direction along the conveyor bed at a defined speed. Further, in accordance with example embodiments, a cartridge of the plurality of cartridges is configured to be removed from the conveyor bed without removing an adjacent cartridge from the plurality of cartridges. Further, each cartridge of the multi-belt conveyor comprises an actuation assembly comprising: a drive pulley, a roller-slider bed comprising a plurality of rollers, and the set of conveyor belts mounted around the roller-slider bed and the drive pulley.