The present invention relates to a transportation system for transporting products in a transportation direction. The transportation system comprises a conveyor unit for transporting the products in the transportation direction from a first end of the conveyor unit towards a second end of the conveyor unit, and a drive unit for driving the conveyor unit. The drive unit comprises a drive means and a first magnetic clutch component for transmitting torque to the conveyor unit. The conveyor unit comprises a second magnetic clutch component for receiving torque from the drive unit. The transportation system further comprises supporting means which includes first and second supporting elements with the first supporting elements arranged at the drive unit and the second support elements arranged at the conveyor unit, for supporting the conveyor unit such that at least the first magnetic clutch component and the second magnetic clutch component are aligned to each other, and for supporting torque transmitted from the drive unit to the conveyor unit. The present invention further relates to a drive unit as well as a conveyor unit, both adapted for use in a transportation system.

Exemplary embodiments provide a sorting system using the principles of linear motors to move a magnetized mat in multiple directions. The sorting system uses a series of stator coils in particular patterns to direct the magnetized mat along predefined looping pathways such that the magnetized mat can move articles in a desired direction. Embodiments include the use of multiple magnetized mats to improve package sorting rates. The magnetized mat is comprised of a plurality of magnetized and non-magnetized tiles which are connected using flexible tabs that form a living hinge. The living hinge flexes and allows the mat to travel along the predefined looping pathways. The sorting system may be used as a node in a larger grid sorting system and may be connected to conveyors, chutes, or other means for moving articles.

Exemplary embodiments provide a sorting system using the principles of linear motors to move a magnetized mat in multiple directions. The sorting system uses a series of stator coils in particular patterns to direct the magnetized mat along predefined looping pathways such that the magnetized mat can move articles in a desired direction. Embodiments include the use of multiple magnetized mats to improve package sorting rates. The magnetized mat is comprised of a plurality of magnetized and non-magnetized tiles which are connected using flexible tabs that form a living hinge. The living hinge flexes and allows the mat to travel along the predefined looping pathways. The sorting system may be used as a node in a larger grid sorting system and may be connected to conveyors, chutes, or other means for moving articles.

Methods and systems are provided for a conveyor system. In one example, a system may include a drive carriage comprising a plurality of magnets configured to magnetically couple to a conveyor pan. The plurality of magnets may be configured to maintain the conveyor pan in a fully locked position as the drive carriage actuates the conveyor pan.

Methods and systems are provided for a conveyor system. In one example, a system may include a drive carriage comprising a plurality of magnets configured to magnetically couple to a conveyor pan. The plurality of magnets may be configured to maintain the conveyor pan in a fully locked position as the drive carriage actuates the conveyor pan.

Systems, methods, and apparatuses are disclosed for automated securing and releasing of items on shuttles. In one embodiment, an example item sortation system may include a shuttle having a conveyor, a first gate portion having a second width that is about half a first width of the conveyor, a second gate portion having the second width, an optional third gate portion having the second width, and an optional fourth gate portion having the second width, wherein the third gate portion and the fourth gate portion are disposed at a second side of the conveyor. The first gate portion, the second gate portion, the third gate portion, and the fourth gate portion may be configured to: (i) secure the at least one item on the conveyor during transport, and (ii) guide the at least one item along the conveyor when the item is unloaded.

Systems, methods, and apparatuses are disclosed for automated securing and releasing of items on shuttles. In one embodiment, an example item sortation system may include a shuttle having a conveyor, a first gate portion having a second width that is about half a first width of the conveyor, a second gate portion having the second width, an optional third gate portion having the second width, and an optional fourth gate portion having the second width, wherein the third gate portion and the fourth gate portion are disposed at a second side of the conveyor. The first gate portion, the second gate portion, the third gate portion, and the fourth gate portion may be configured to: (i) secure the at least one item on the conveyor during transport, and (ii) guide the at least one item along the conveyor when the item is unloaded.

Exemplary embodiments provide a sorting system using the principles of linear motors to move a magnetized mat in multiple directions. The sorting system uses a series of stator coils in particular patterns to direct the magnetized mat along predefined looping pathways such that the magnetized mat can move articles in a desired direction. Embodiments include the use of multiple magnetized mats to improve package sorting rates. The magnetized mat is comprised of a plurality of magnetized and non-magnetized tiles which are connected using flexible tabs that form a living hinge. The living hinge flexes and allows the mat to travel along the predefined looping pathways. The sorting system may be used as a node in a larger grid sorting system and may be connected to conveyors, chutes, or other means for moving articles.

Exemplary embodiments provide a sorting system using the principles of linear motors to move a magnetized mat in multiple directions. The sorting system uses a series of stator coils in particular patterns to direct the magnetized mat along predefined looping pathways such that the magnetized mat can move articles in a desired direction. Embodiments include the use of multiple magnetized mats to improve package sorting rates. The magnetized mat is comprised of a plurality of magnetized and non-magnetized tiles which are connected using flexible tabs that form a living hinge. The living hinge flexes and allows the mat to travel along the predefined looping pathways. The sorting system may be used as a node in a larger grid sorting system and may be connected to conveyors, chutes, or other means for moving articles.

Methods and systems are provided for a conveyor system. In one example, a system may include a drive carriage comprising a plurality of magnets configured to magnetically couple to a conveyor pan. The plurality of magnets may be configured to maintain the conveyor pan in a fully locked position as the drive carriage actuates the conveyor pan.