Enclosed herein are embodiments of a product transfer module and product transfer systems. In one embodiment, a product transfer module comprises a first shuttle, the first shuttle including a plurality of rollers, wherein the plurality of rollers are connected by one or more belts and includes a plurality of driven rollers and at least one driving roller; a second shuttle, the second shuttle including a plurality of rows of pulleys and a pulley drive positioned beneath the plurality of pulleys; and a cam system for raising and lowering the first and second shuttles; wherein the first shuttle directs product flow along a first flow path and the second shuttle directs product flow in a second flow direction.

An order fulfillment system is disclosed in which objects to be collected into orders are provided in output totes. The system includes a primary sortation system that includes a loop conveyance system that moves objects around a closed loop that includes a plurality of primary sortation exits, each of which leads to a location inside the closed loop, and a secondary sortation system that includes a plurality of secondary conveyances, each of which receives an object at one of the plurality of primary sortation exits, and conveys the object to one of a plurality of totes, the plurality of totes being within the closed loop of the primary sortation system.

A conveyor system for conveying electrically conductive articles such as aluminum bottles or cans. The conveyor system comprises a plurality of coils below the top surface of an electromagnetic conveyor at a junction between an infeed conveyor and a discharge conveyor. The coils propagate electromagnetic flux waves that induce currents in the electrically conductive articles that force the articles to follow a conveying path from the infeed to the discharge conveyor. Dead spots on the electromagnetic conveyor can be eliminated by adjusting the coil drive waveforms. And a long electromagnetic conveyor driven by a train of narrow pulses is used to singulate electrically conductive articles.

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.

A typing off-loading and article sorting system to automatically separate different parcel types includes an feed conveyor, receiving conveyor, sorting conveyor, cameras and photoelectric eye. The overhead cameras detect the item size and whether it is cubic in nature and type and size of its footprint. An in-line slide sorter having alternating conveyor rollers and pop-up belts pass through to, or divert articles from, a downstream conveyor. The vision based system may also be used to detect space between articles and insert articles in the unoccupied space.

A typing off-loading and article sorting system to automatically separate different parcel types includes an feed conveyor, receiving conveyor, sorting conveyor, cameras and photoelectric eye. The overhead cameras detect the item size and whether it is cubic in nature and type and size of its footprint. An in-line slide sorter having alternating conveyor rollers and pop-up belts pass through to, or divert articles from, a downstream conveyor. The vision based system may also be used to detect space between articles and insert articles in the unoccupied space.

A conveying device (1) has conveying carts (2) arranged one behind another and spaced apart by an interspace (4). One conveying cart (2) has a cover (6) and another has a cross-belt conveyor (8) for conveying material transverse to the conveying direction. The cover (6) covers the interspace (4) between the conveying carts (2) so that the cover (6) of the one conveying cart (2) is under the upper run (21) of the transverse belt (10) of the other conveying cart (2). When negotiating curves, the cover (6) engages between an underside (22) of the upper run (21) and a first support plane (20) to hinder the transverse belt (10) from moving in the transverse conveying direction. When travelling straight ahead the cover (6) engages between the first support plane (20) and a second support plane (24) to permit movement of the transverse belt (10) in the transverse conveying direction.

A conveying device (1) has conveying carts (2) arranged one behind another and spaced apart by an interspace (4). One conveying cart (2) has a cover (6) and another has a cross-belt conveyor (8) for conveying material transverse to the conveying direction. The cover (6) covers the interspace (4) between the conveying carts (2) so that the cover (6) of the one conveying cart (2) is under the upper run (21) of the transverse belt (10) of the other conveying cart (2). When negotiating curves, the cover (6) engages between an underside (22) of the upper run (21) and a first support plane (20) to hinder the transverse belt (10) from moving in the transverse conveying direction. When travelling straight ahead the cover (6) engages between the first support plane (20) and a second support plane (24) to permit movement of the transverse belt (10) in the transverse conveying direction.

A conveyor is described. The conveyor includes: a conveyor frame having a sidewall and a roller. In some examples, the roller can be mounted on the conveyor frame so that a first portion of the roller extends beyond the sidewall of the conveyor frame. In this regard, the first portion of the roller is the portion that includes a bearing assembly of the roller and the sidewall is that portion of the conveyor frame that guards a conveying surface of the conveyor. The conveyor also includes a strip belt-mounted over a second portion of the roller. The second portion is a portion of the roller that is defined adjacent to the first portion of the roller. In some examples, the strip belt is mounted over the roller so that the strip belt is positioned adjacent to the sidewall on the conveyor.

A material handling apparatus includes a first pop-up belt abutting a first cam. The first pop-up belt is configured to facilitate movement of a package between a first conveyor and a second conveyor. a separator wall abuts a second cam. The separator wall is configured to control movement of the package between the first conveyor and the second conveyor. In response to the camshaft rotating in a first direction, the first cam causes the first pop-up belt to extend out from the first conveyor. The second cam causes the separator wall to move to a first position. I in the first position, the separator wall allows the package to move from the first conveyor to the second conveyor. In response to the camshaft rotating in a second direction, the first pop-up belt move to a retracted position while the separator wall to move to a second position.