Systems and methods are provided for conveyor operation and maintenance that employ one or both of a “smart shoe” technology where one or more conveyor shoes incorporate features, such as an RFID tag, and a “missing pin detection” technology where one or more pin components of conveyor shoes incorporate features, such as an RFID tag, allowing selective wireless tracking and identification capability. A conveyor system comprises a shoe management system allowing interactions directly with one or more RFID readers, which can detect, store and/or monitor information associated with “smart shoe” and/or “missing pin detection” RFID tags, where interface between this application and the reader can be implemented via a socket interface. An open platform communications (OPC) wrapper can be created around the interface so that a Human Machine Interface (HMI) could interact directly with shoe management system.

An article sorting apparatus includes an article support body, article lateral pushing bodies, a rectilinear-movement guide body, a sliding guide body having a sliding guide surface, and a diverting mechanism. The sliding guide surface is disposed so as to be spaced apart from the diverting mechanism in a main transport direction across a separation region, and the separation region is provided so as to include a contact start region that is a region in the main transport direction where each of the article lateral pushing bodies initially comes into contact with a target article.

A conveyor that includes a conveyor frame, a first guide rail assembly, a divert unit having a switch assembly, and an alignment key is described. In this regard, the first guide rail assembly is positioned on a first portion of the conveyor frame such that rails of the first guide rail assembly extends along a length of the conveyor. In some examples, the first guide rail includes a first guide rail and a second guide rail positioned parallel to the first guide rail. Further, the first guide rail defines a groove along a length of the first guide rail assembly. Furthermore, according to some examples, the switch assembly defines a key slot. The key slot is adapted to enable the alignment key to pass through the key slot and further into the groove of the first guide rail, thereby, aligning the switch assembly on the first guide rail.

Systems and methods are provided for conveyor operation and maintenance that employ one or both of a “smart shoe” technology where one or more conveyor shoes incorporate features, such as an RFID tag, and a “missing pin detection” technology where one or more pin components of conveyor shoes incorporate features, such as an RFID tag, allowing selective wireless tracking and identification capability. A conveyor system comprises a shoe management system allowing interactions directly with one or more RFID readers, which can detect, store and/or monitor information associated with “smart shoe” and/or “missing pin detection” RFID tags, where interface between this application and the reader can be implemented via a socket interface. System and method also or optionally provide for unique slat installation and removal.

An apparatus and method for manufacturing glass containers handles the containers individually after a hot forming process and annealing to prevent glass-to-glass contact. By handling the containers individually and preventing glass-to-glass contact damage to the containers in the form of checks and scratches is avoided. To prevent contact of the containers and damage arising from the contact, the equipment including conveyors, pushers, starwheels, shuttles, and transfer heads that move the glass containers through the apparatus maintains the glass containers in uniform spaced relationship at each stage of container processing until the containers are packaged.

A sorting device for packages includes a fifth wheel mounted on a support structure and rotatable around a vertical axis; a conveyor belt mounted on the fifth wheel and able to rotate therewith about the vertical axis; and at least one sliding surface placed below the plane of the conveyor belt, to close the openings which, during the rotation of the fifth wheel and of the conveyor belt around the vertical axis, are created between the sorting device and the conveyor belts adjacent to it.

Systems and methods are provided for conveyor operation and maintenance that employ one or both of a “smart shoe” technology where one or more conveyor shoes incorporate features, such as an RFID tag, and a “missing pin detection” technology where one or more pin components of conveyor shoes incorporate features, such as an RFID tag, allowing selective wireless tracking and identification capability. A conveyor system comprises a shoe management system allowing interactions directly with one or more RFID readers, which can detect, store and/or monitor information associated with “smart shoe” and/or “missing pin detection” RFID tags, where interface between this application and the reader can be implemented via a socket interface. System and method also or optionally provide for unique slat installation and removal.

A method, electromagnetic switch, controller and program product, when energizing an electromagnetic coil to urge a selected shoe into a diverting path downstream of the electromagnetic switch, reverse current flow during at least a portion of the time that the electromagnetic coil is energized to recover energy from the electromagnetic coil.

A discharging station of a conveyor for deposit tables disposed to be movable along a conveying path and having pushers which can move transversely to the movement direction of the deposit tables includes a frame, a rail arrangement having a first rail track and a second rail track extending in parallel therewith, along which the deposit tables are movably disposed, and a guide element disposed on the frame for guiding an entrainer of the pushers, with which the objects to be conveyed can be pushed down from the respective deposit table in the direction of at least one of the rail tracks. The guide element is fixed to the frame such that it can be lowered from an operational position into a decoupling position.

A shoe sorter is described. The shoe sorter can include a switch plate that supports movement of a shoe pin of a pusher shoe, a finger, and an actuation arm. In some examples, the finger can be configured to be moved in a first direction in response to a portion of the shoe pin contacting a portion of the finger. The actuation arm can be pivotably engaged to the finger so that a movement of the finger in the first direction can cause a movement of the actuation arm in a second direction. In this regard, the actuation arm in the second direction can cause a change in a signal outputted by the photoelectric sensor coupled to the shoe sorter. This change in the signal can be used by a processor to determine that the shoe pin is misaligned.