Systems and methods described herein are optimized for cutting sealing elements on packages using optical radiation. Packages can pass through a cutting device that applies the optical radiation to damage, vaporize, or cut the sealing element (e.g., tape) on the package. The systems and methods control several aspects of the cutting process to adjust throughput, improve efficiency, and reduce line stoppages. Systems can include an in-feed conveyor that orients packages and rejects packages that are out of specification, which can lead to issues such as jamming or damage to the equipment. Systems can include a variable-speed cut conveyor controlled by a computing system to dynamically adjust the speed of packages based upon historical cut quality, environmental measurement data, and height data related to a vertical dimension of the package.

A roller conveyor, comprising: a plurality of rollers (2) each of which has a cylindrical external surface (21), arranged to enable an object to be transported to rest; a motor (3); a transmission element (4), which kinematically connects the motor (3) to the rollers (2). The transmission element (4) is placed in contact with the external surface (21) of the rollers (2), or in contact with a portion of the rollers (2) which has the same diameter as the external surface (21), and in the same position as the contact point of the external surface with the element to be transported.

A roller conveyor, comprising: a plurality of rollers (2) each of which has a cylindrical external surface (21), arranged to enable an object to be transported to rest; a motor (3); a transmission element (4), which kinematically connects the motor (3) to the rollers (2). The transmission element (4) is placed in contact with the external surface (21) of the rollers (2), or in contact with a portion of the rollers (2) which has the same diameter as the external surface (21), and in the same position as the contact point of the external surface with the element to be transported.

A sorting module including two groups of transportation rollers, the two groups of transportation rollers include at least one group of irregular rollers, the other group of transportation rollers are regular rollers or irregular rollers, each group of transportation rollers include at least one row of transportation rollers, each row of transportation rollers include at least one transportation roller; the rotation center lines of each row of transportation rollers are on one straight line, and the rotation center lines of the two groups of transportation rollers are generally perpendicular to each other. A conveying device including the sorting module is simple in structure and low cost.

A conveyance device and a planar conveyance apparatus capable of carrying out an article in any direction. The conveyance device includes an energizing mechanism unit configured to energize and move an article and a rotation mechanism unit configured to rotate the energizing mechanism unit itself, and is capable of changing a moving direction of the article by rotating the energizing mechanism unit with the rotation mechanism unit. The energizing mechanism unit includes an energizing mechanism side motor, and the energizing mechanism side motor includes a coil on a center side and an outer body surrounding the coil, and is an outer rotor type motor in which the outer body rotates. The energizing mechanism side motor is disposed such that a central shaft of the outer body is in a substantially horizontal posture, and the outer body energizes the article by coming into contact with the article directly or through a freely-rotating rotor interposed therebetween.

A conveyance device and a planar conveyance apparatus capable of carrying out an article in any direction. The conveyance device includes an energizing mechanism unit configured to energize and move an article and a rotation mechanism unit configured to rotate the energizing mechanism unit itself, and is capable of changing a moving direction of the article by rotating the energizing mechanism unit with the rotation mechanism unit. The energizing mechanism unit includes an energizing mechanism side motor, and the energizing mechanism side motor includes a coil on a center side and an outer body surrounding the coil, and is an outer rotor type motor in which the outer body rotates. The energizing mechanism side motor is disposed such that a central shaft of the outer body is in a substantially horizontal posture, and the outer body energizes the article by coming into contact with the article directly or through a freely-rotating rotor interposed therebetween.

A movement apparatus for objects configured for receiving an object from an infeed station and moving the object towards an outfeed station, comprising a movement surface comprising movement cells positioned on in a matrix fashion, positioned to operate with the object, wherein each movement cell has a direction of movement which can be individually controlled; a control system configured for defining a conveying trajectory in the movement surface for conveying the object from the infeed to the outfeed station; identifying trajectory cells belonging to the conveying trajectory and directing the direction of movement of each trajectory cell to move the object in the conveying trajectory; identifying, between the movement cells, convergence cells, defining a convergence zone adjacent to the conveying trajectory and, for each convergence cell, directing the direction of movement towards a central line of the conveying trajectory to maintain of the object inside the conveying trajectory.

A movement apparatus for objects configured for receiving an object from an infeed station and moving the object towards an outfeed station, comprising a movement surface comprising movement cells positioned on in a matrix fashion, positioned to operate with the object, wherein each movement cell has a direction of movement which can be individually controlled; a control system configured for defining a conveying trajectory in the movement surface for conveying the object from the infeed to the outfeed station; identifying trajectory cells belonging to the conveying trajectory and directing the direction of movement of each trajectory cell to move the object in the conveying trajectory; identifying, between the movement cells, convergence cells, defining a convergence zone adjacent to the conveying trajectory and, for each convergence cell, directing the direction of movement towards a central line of the conveying trajectory to maintain of the object inside the conveying trajectory.

A roller conveyor, comprising: a plurality of rollers (2) each of which has a cylindrical external surface (21), arranged to enable an object to be transported to rest; a motor (3); a transmission element (4), which kinematically connects the motor (3) to the rollers (2). The transmission element (4) is placed in contact with the external surface (21) of the rollers (2), or in contact with a portion of the rollers (2) which has the same diameter as the external surface (21), and in the same position as the contact point of the external surface with the element to be transported.

A roller conveyor, comprising: a plurality of rollers (2) each of which has a cylindrical external surface (21), arranged to enable an object to be transported to rest; a motor (3); a transmission element (4), which kinematically connects the motor (3) to the rollers (2). The transmission element (4) is placed in contact with the external surface (21) of the rollers (2), or in contact with a portion of the rollers (2) which has the same diameter as the external surface (21), and in the same position as the contact point of the external surface with the element to be transported.