A conveyor system integrates lane dividers to form a plurality of product lanes across a conveyor belt carryway while providing conduits enabling transverse fluid flow across the carryway. Each lane divider includes a body defining edges of adjacent conveyor belt lanes and hinge elements or other attachment means for integrating the lane divider into a modular conveyor belt. The body has lateral conduits to allow transverse fluid flow therethrough.

Systems and devices are provided for loading a transportation unit. The system includes a pallet rack unit. The pallet rack unit is configured to receive and support loaded pallets. The pallet rack unit is configured to be loaded into the transportation unit with other pallet rack units that are substantially identical to the pallet rack unit. The pallet rack unit and the other pallet rack units, together, substantially fill a length and a width of the transportation unit. The pallet rack unit includes a base configured to receive a first loaded pallet. The pallet rack unit is further configured to be forkliftable. The pallet rack unit includes a plurality of posts coupled to the base and at least one height adjustable shelf coupled to the posts. The at least one height adjustable shelf is configured to receive and support a second loaded pallet. Additional shelves may be used to handle additional loaded pallets.

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 some 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.

A joint connector for track sections of a conveyor wherein the track sections comprise a feature that requires alignment, the joint connector including: a first segment for attachment to an attachment feature of a first track section of the conveyor; and a second segment for attachment to an attachment feature of a second track section of the conveyor, wherein the second segment is configured to be adaptive to non-alignment of the attachment features of the first and second track sections in order to maintain alignment of the feature after installation of the joint connector.

There is provided a conveyor assembly for sorting merchandise items. In one form, the conveyor assembly includes: a merchandise identification module; sortation modules each comprising a multi-directional sorting portion with two sets of rollers, a first wing including a third set of rollers, a second wing including a fourth set of rollers, and a controller configured to receive an IP address; a first, disassembled state of the sortation modules; a second, assembled state of the sortation modules; a merchandise database; and a control circuit configured to receive identifying information about an unsorted merchandise item, assign a unique IP address to each sortation module corresponding to the position of the sortation module, determine a sortation destination for the unsorted merchandise item, determine the sortation module corresponding to the sortation destination; and instruct the controller of the corresponding sortation module to divert the unsorted merchandise item to the sortation destination.

The present invention provides a storage system comprising a storage grid comprising vertical column profiles defining a plurality of grid columns, the grid columns comprise storage columns, in which storage containers can be stored one on top of another in vertical stacks, the storage grid comprising at least one rail grid at the upper ends of the column profiles, a first container handling vehicle and a second container handling vehicle, the first and the second container handling vehicles each comprising at least one wheel base unit (2) and a first container handling module (13) or a second container handling module (12 or 14), respectively, connected to the wheel base unit 82), each wheel base unit (2) having a wheel arrangement for movement of the wheel base unit in two perpendicular directions upon a rail grid of the storage system, and a horizontal periphery fitting within the horizontal area defined by a grid cell of the rail grid such that wheel base units may pass each other on any adjacent grid cells of the rail grid, each of the wheel base units comprises an upper surface configured as a connecting interface for connection to any of the first and second container handling modules, and the first container handling module is a different type of container handling module to the second container handling module.

A conveying device includes a plurality of conveying zones having conveying elements, each conveying zone having at least one conveying drive for the conveying elements of the zone in question and being associated with a control unit that controls the conveying drive of the conveying zone, with the conveying device being designed having a support structure. Each conveying zone is formed by an individual independent conveying module that is fastened on the support structure as a complete individual unit and forms the entirety of the conveying device with additional adjacent conveying modules.

The present invention relates to conveyors, comprising at least one circulating conveyor strand (7, 8), wherein the conveyor strand has at least one clamping connection (1), wherein at least one sensor (2) is arranged in the clamping connection (1), a transmitter (3) for wirelessly transmitting data is arranged on the conveyor strand (7, 8), the sensor (2) is connected with the transmitter (3), and a receiver (4) for receiving the data transmitted by the transmitter (3) is provided.

Two part sprocket wheel (1) adapted to engage modular belt modules in a conveyor belt, where said two part sprocket wheel (1) comprises: two periphery elements (10,11), each periphery element (10,11) having an outer edge (13) and inner edge (12) and a web body (9) there between, where sprocket teeth (15) are provided on the outer edge (13), and where the inner edge (12) has an engagement surface, and where each periphery element (10,11) has means (16) for being connected and fastened to and adjacent periphery element (10,11), such that the two periphery elements' outer edges (13) form a full circle, said circle being arranged in a common plane, wherein centrally in the sprocket wheel (1) an aperture (20) is provided, said aperture (20) being dimensioned to accommodate a substantially rectangular axle, where the longitudinal axis of the axle is perpendicular to the common plane of the two part sprocket wheel (1), where each part of the sprocket wheel (10,11) has four engagement ridges (21, 22, 23, 24), which engagement ridges (21,22,23,24) when the sprocket wheel is mounted around the axle will engage the axle, where a first pair of ridges (21,22) are arranged orthogonal to each other, and where a bent out section (25), connects the two engagement ridges (21,22), where a second pair of engagement ridges (23,24) is mirrored the first pair (21,22), such that the two engagement ridges (22,23) of different pairs being in the same plane are separated by a cut-out (26), and where parallel to the inner edge, a certain distance away from the aperture (20), assembly flanges (27,28) are provided, where each assembly flange is provided with an aperture (30) on either side of the web (9), where said aperture (30) is surrounded by an upstanding circumferential ridge (31), said ridge on its distal end being provided with centering and engagement means (32), such that as two sprocket wheel parts (10,11) are assembled to a sprocket wheel (1), the centering and engagement means (32) on a first sprocket wheel part (10) engages and centers the corresponding centering and engagement means (32) on the second sprocket wheel part (11), whereby the apertures (30) on the first and second sprocket wheel parts (10,11) overlap, and assembly bolts (33) may be inserted in order to connect and fix the two parts of the sprocket wheel to each other.

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 in 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.