Curved magnetic guide for guiding the chain of a conveyor chain along a curvilinear transport direction including a pair of first guide profiles arranged spaced apart and extending in a continuous manner along a respective development direction concentric to the curvilinear transport direction, a support structure for supporting the first guide profiles having a plurality of box-shaped bodies, the box-shaped bodies being arranged in succession one after the other and spaced apart from one another along the curvilinear transport direction, where each of the box-shaped bodies houses at least one magnetic body and has an upper surface and a lower surface opposite one another, where the upper surface is provided with a pair of first constraining projections that are spaced apart and faced with distances between centers substantially equal to the distance between the development directions where the first constraining projections of the plurality of box-shaped bodies define two rows of first constraining projections that extend, spaced apart from one another, along a respective the development direction, where each of the first guide profiles is coupled with the first constraining projections aligned along one of the two rows, where the guide defines a forward guide for guiding the forward branch of the chain, the forward guide having a forward channel adapted for receiving the hinging portions of the links and which is laterally delimited by the first guide profiles of the at least one pair, where the first guide profiles each defines a sliding surface for the plate-shaped portion of the links to slide thereon, and where the magnetic bodies interact with the links to attract the links of the chain with the part of their plate-shaped portions against the sliding surfaces defined by the first guide profiles.

A sortation system uses short conveyors or transporter units on a lift to move products or packages to totes in a storage rack. The lift may be a carousel. Automated components remove the totes from the rack and place them on outfeed conveyors. The system to remove the totes can include a transfer vehicle. The sortation system may be modular.

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.

Systems and methods are provided for an apparatus for moving objects along a predetermined path. A system includes plurality of conveying units, each conveying unit being connected to two other conveying units. A particular conveying unit includes a first link unit configured for connection to a first neighbor conveying unit. A second link unit is configured for connection to the first link unit, the second link unit further being configured for connection to a first link unit of a second neighbor conveying unit. A cup is detachably connected to the second link unit.

A modular pulley assembly for a continuous belt conveyor can be assembly from a plurality of modular pulley disks that can be axially aligned and abut against each other to provide pulleys of differing lengths per demand. The modular pulley disks can be made from a non-metallic material such as a polymer and can manufactured by a suitable molding process. Making the modular pulley disks from non-metallic materials enables the disks to be formed with structural geometries such that the assembled pulley is structurally more rigid and can better distribute torsional loads and momentum from the belt to the support shaft.

The present disclosure relates to an automatically adjustable smart shelf, a cargo storing method, and an unmanned logistics system. The automatically adjustable smart shelf includes a shelf outer frame and a control unit. A first movable shelf layer and a second movable shelf layer provided on the shelf outer frame and respectively movable along a first direction and a second direction intersecting with each other. A control unit can control the first movable shelf layer and the second movable shelf layer to move along the first direction and the second direction respectively, so as to form various sizes of storage space for storing various cargos accordingly.

An endless conveyor device comprises a conveyor unit having at least one endless conveyor, which is configured to convey items; a drive roller assembly, which is drivable by a drive belt and configured to drive the endless conveyor and has a support element; a deflecting roller assembly and an intermediate body, disposed between the drive roller assembly and the deflecting roller assembly, as well as between a conveying strand and a return strand of the endless conveyor. The endless conveyor device further comprises a drive unit comprising the drive belt, a motor and a support device, which is configured to engage with the support element. The drive belt is relaxable by pivoting the conveyor unit relative to the drive unit about a rotation axis of the drive roller assembly in a first direction. A method for removing a conveyor unit from an endless conveyor device is also provided.

Embodiments herein describe a chute for temporarily buffering packages when, for example, a container disposed at the end of the chute has been removed. The chute includes a flap that activates to hold packages in an accumulation area when the container is removed. In one embodiment, the flap is disposed at an end of the chute at a decline so that during normal operation packages slide off the flap into the container. An actuator can rotate the flap from a decline position into a vertical position such that the flap serves as a stop to prevent packages from sliding off the chute when containers are being swapped out. Once a new container is disposed at the end of the chute, the actuator can rotate the flap back to the decline position so that any accumulated packages are then ejected into the container.

A conveyor module 1, adapted to be releasably attached to at least one other conveyor module 1 to form a conveyor assembly 15. Each conveyor module 1 includes a substantially longitudinal main frame 4, said main frame 4 being adjustable between a first position (FIG. 3), in which said module 1 is compacted for transportation, and, a second position (FIG. 4), in which said module 1 is expanded for conveyor operation. A plurality of support legs 17 is provided to support said conveyor module 1 upon a substrate surface, each support leg being adjustable to facilitate adjustable alignment of said module 1. Conveyor componentry 12 is housed substantially within said main frame 1. The conveyor module 1 is preferably formed from or built to standardised shipping container (ISO) specifications.

A conveyor conversion kit includes a plurality of conveyor brackets for converting a conveyor frame to accommodate a new conveyor belt. Each bracket includes a base, a plurality of wearstrip seats for mounting wearstrips forming a carryway for the conveyor belt without tools and side guard seats for mounting side guards to contain the conveyor belt on the carryway without tools.