A sortation conveyor is provided that can include a switch assembly that includes a switch plate, a divert plate, and a bridge plate. The switch plate includes a switch member that defines a switch guide path and a switch that can be mounted on the switch member. Further, the divert plate includes a divert member that defines a divert guide path on a first side and a non-divert guide path on a second side of the divert member. Furthermore, the bridge plate includes a bridge member that defines a first bridge guide path and a second bridge guide path. In some examples, the bridge plate is positioned between the switch plate and the divert plate so that the first bridge guide path connects the switch guide path to the divert guide path and the second bridge guide path connects the switch guide path to the non-divert guide path.

A diverter system includes a diverter arm operated by an actuator assembly. The actuator assembly moves the diverter arm between an extended dwell position and a retracted dwell position. The position of the diverter arm is monitored by a sensor. A control system derives a motion signature of the diverter arm based on the positions of the diverter arm measured by the sensor and evaluates the motion signature of the diverter arm to identify an abnormal operation of the diverter arm.

An automated product diverter for a reciprocally movable conveying device generally provides a stationary base; a reciprocally movable conveyor bed supported by the stationary base; a product diverter that moves in an arc along a product transporting surface of the reciprocally movable conveyor; and an actuator carried by the stationary base and which operatively communicates with the diverter arm, and the reciprocal movement of the conveyor bed and the diverter arm is isolated from the actuator carried by the stationary base.

The present disclosure is related to a device for aligning a number of packages including at least one bottom belt. In some embodiments, the at least one bottom belt may include a first end portion for receiving packages and a second end portion for exiting packages. In some embodiments, said at least one bottom belt may include a laterally declined portion facing a support surface arranged along a side of the at least one bottom belt, whereby in use, packages conveyed by the at least one bottom belt move laterally towards the support surface for alignment thereto due to the laterally declined portion and by means of gravity.

The disclosure relates to a conveying storage device for containers, said device comprising: a first conveyor/second conveyor which is drivable in a first direction/second direction; a transfer device for transferring containers from a first conveying surface to a second conveying surface; an additional element; and a separating element. Between the transfer device and the separating element is a passage region along a transition region between the first and second conveying surface. The transfer device is movable into an emptying position during an emptying process. The additional element is movable during the emptying process relative to the transfer device, is introducible into the passage region or is located in the passage region, and can move containers to the second conveyor.

An apparatus (5) for conveying long pasta (2) between at least one production station (3) and at least one weighing and packaging station (4), comprising at least one rectilinear conveyor belt (6) and at least one curved conveyor belt (7), the long pasta (2) being arranged directly on the belts (61, 71) orthogonally with respect to the advancing direction. (FIG. 3).

The invention relates to a chain link (1) for a chain conveyor for conveying small parts (17), in particular bottle closures, having a, in particular flat, support surface for small parts, wherein means (3) for fitting at least one carrier (14) are provided on opposite sides of the chain link. This allows the small parts to be conveyed without damage, on the other hand, the chain link (1) can be easily adapted to different types of small parts that differ in diameter and/or height. At least two carriers (14) are provided, each of which has a fastening part (15) which can be attached to a means (3) for fitting, and a gripping part (19) which is made of a softer material than the fastening part (15) and has one or more extensions (16) which, when the carrier (14) is in the fitted state, are aligned towards the respective other carrier (14).

An automated product diverter for a reciprocally movable conveying device generally provides a stationary base; a reciprocally movable conveyor bed supported by the stationary base; a product diverter that moves in an arc along a product transporting surface of the reciprocally movable conveyor, and an actuator carried by the stationary base and which operatively communicates with the diverter arm, and the reciprocal movement of the conveyor bed and the diverter arm is isolated from the actuator carried by the stationary base.

A hybrid diverter includes a base and a transfer assembly. The base includes a base frame and base rollers rotationally supported on the base frame to define a base path for passing the items therealong. The transfer assembly includes a transfer drive and a transfer bar. The transfer drive includes first and second independent drive tracks. The transfer bar has a fixed end connected to the first independent drive track and a slotted end movably connectable to the second independent drive track. The transfer bar is movable by the first and the second independent drive tracks along a variable transfer path about the base. The transfer bar has a surface for engagement with the items whereby, upon activation of the first independent drive track and the second independent drive track, the transfer bar selectively diverts the items away from the conveyor path.

The present disclosure relates to operation of a robotic system to transfer an object from a source to a destination. The robotic system may implement one or more motion plans or portions thereof to operate a picking robot to grip and lift the object and place a transfer tray under the lifted object. The robotic system may further implement the one or more motion plans or portions thereof to place the object on the transfer tray and laterally displace the transfer tray and the object thereon toward the destination. The robotic system may operate a placement mechanism to transfer the object from the transfer tray to the destination.