A traveling roller includes a left roller, a right roller, a support shaft, a driving device and a sealing device, wherein the traveling roller may also include an intermediate roller; the support shaft is provided on an axis of the left and right rollers; inner walls of the left and right rollers are respectively connected to support plates; an outer ring of each of the support plates is provided with a notch for dust to flow out; the driving device includes an outer rotor motor sleeved on the support shaft; transmission devices are provided between two end cap seats of a rotor body of the outer rotor motor and the support plates; pawl members of the transmission devices are fixedly sleeved on the end cap seats, or driving planetary gears of the transmission devices are fixed to the rotor body.

A traveling roller includes a left roller, a right roller, a support shaft, a driving device and a sealing device, wherein the traveling roller may also include an intermediate roller; the support shaft is provided on an axis of the left and right rollers; inner walls of the left and right rollers are respectively connected to support plates; an outer ring of each of the support plates is provided with a notch for dust to flow out; the driving device includes an outer rotor motor sleeved on the support shaft; transmission devices are provided between two end cap seats of a rotor body of the outer rotor motor and the support plates; pawl members of the transmission devices are fixedly sleeved on the end cap seats, or driving planetary gears of the transmission devices are fixed to the rotor body.

Apparatuses, methods and systems comprising element in-built diverts for motorized conveyor rollers are provided. An example conveyor roller can include a housing that forms a cylindrical tube. The conveyor roller includes a plurality of element in-built diverts disposed on an exterior surface of the housing. The plurality of element in-built diverts are reconfigurable between one or more orientations with respect to the housing to divert an item an angle with respect to the housing.

Various embodiments are directed to reconfigurable motorized conveyor rollers and methods of using the same. In various embodiments, a reconfigurable motorized conveyor roller comprises a housing assembly defining a roller width defined between a first lateral end and a second lateral end opposite the first lateral end; and a housing adjustment assembly disposed within the housing assembly that is operable to adjust the roller width by facilitating a configuration of the housing assembly between a nominal configuration and an expanded configuration; wherein the housing assembly comprises a plurality of coaxial housing components configured for movement relative to one another in one or more lateral directions, and wherein the housing adjustment assembly is operable to cause at least a portion of the plurality of housing components to move in the one or more lateral directions to selectively configure the housing assembly between the nominal configuration and the expanded configuration.

Apparatuses, methods and systems comprising integrated motorized conveyor rollers are provided. The example integrated motorized conveyor roller comprises: a housing; a motor assembly and a drive assembly at least partially disposed within the housing that are configured to cause rotation of at least a portion of the integrated motorized conveyor roller; at least one sensing element operatively coupled to the integrated motorized conveyor roller; and a controller component in electronic communication with the at least one sensing element, the motor assembly and the drive assembly, wherein the controller component is configured to obtain operational data via the at least one sensing element.

Apparatuses, methods and systems comprising integrated motorized conveyor rollers are provided. The example integrated motorized conveyor roller comprises: a housing; a motor assembly and a drive assembly at least partially disposed within the housing that are configured to cause rotation of at least a portion of the integrated motorized conveyor roller; at least one sensing element operatively coupled to the integrated motorized conveyor roller; and a controller component in electronic communication with the at least one sensing element, the motor assembly and the drive assembly, wherein the controller component is configured to obtain operational data via the at least one sensing element.

A conveyor assembly is provided for use with a mobile vehicle. The conveyor assembly includes a conveyor module. The conveyor module includes a first roller assembly. The first roller assembly includes a first rotatable roller body and a second rotatable roller body. The first and second roller bodies are interconnected to each other in such a manner as to share a first rotational axis yet be at least substantially rotationally independent of each other, such that each of the first and second roller bodies can rotate without causing or interfering with rotation of the other of the first and second roller bodies.

A conveyor assembly is provided for use with a mobile vehicle. The conveyor assembly includes a conveyor module. The conveyor module includes a first roller assembly. The first roller assembly includes a first rotatable roller body and a second rotatable roller body. The first and second roller bodies are interconnected to each other in such a manner as to share a first rotational axis yet be at least substantially rotationally independent of each other, such that each of the first and second roller bodies can rotate without causing or interfering with rotation of the other of the first and second roller bodies.

A system and an apparatus capable of independently driving movers are described herein. The system and apparatus includes: a track that forms a path for movers; a plurality of movers movably mounted on the track for moving along the path; and a plurality of drive elements fixedly arranged along the track. The drive elements each have a surface that is oriented to contact a driven member of the movers. The drive elements are configured to sequentially engage the driven member of a plurality of the movers to provide controlled independent motion of the movers along the track. The drive elements may be driven by rotary motors. A method of independently driving movers is also described herein.

A system and an apparatus capable of independently driving movers are described herein. The system and apparatus includes: a track that forms a path for movers; a plurality of movers movably mounted on the track for moving along the path; and a plurality of drive elements fixedly arranged along the track. The drive elements each have a surface that is oriented to contact a driven member of the movers. The drive elements are configured to sequentially engage the driven member of a plurality of the movers to provide controlled independent motion of the movers along the track. The drive elements may be driven by rotary motors. A method of independently driving movers is also described herein.