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 can body take-away assembly for a can bodymaker with a vertically oriented, reciprocating, elongated ram assembly and a domer is provided. The take-away assembly includes a drive assembly and a can body transport assembly. The drive assembly includes a motor and a support member. The take-away assembly motor is operatively coupled to the support member and structured to move the drive assembly support member in a generally horizontal direction. The can body transport assembly includes a number of gripping assemblies. Each gripping assembly is coupled to the drive assembly support member. Each gripping assembly includes a number of pairs of opposed gripping members sized to grip a can body. The gripping assemblies are structured to travel across the path of the ram assembly and to selectively grip a can body.

A can body take-away assembly for a can bodymaker with a vertically oriented, reciprocating, elongated ram assembly and a domer is provided. The take-away assembly includes a drive assembly and a can body transport assembly. The drive assembly includes a motor and a support member. The take-away assembly motor is operatively coupled to the support member and structured to move the drive assembly support member in a generally horizontal direction. The can body transport assembly includes a number of gripping assemblies. Each gripping assembly is coupled to the drive assembly support member. Each gripping assembly includes a number of pairs of opposed gripping members sized to grip a can body. The gripping assemblies are structured to travel across the path of the ram assembly and to selectively grip a can body.

The present invention is directed to a system and method for transferring specimen containers between detection instruments. The method may include transporting a specimen container in a locator well to a container transfer station in a first automated detection apparatus; sensing the specimen container at the container transfer station using a first sensor; transferring the specimen container from the container transfer station of the first automated microbial detection apparatus to an automated loading mechanism of a second automated microbial detection apparatus; detecting that the specimen container is positioned over the automated loading mechanism of the second automated microbial detection apparatus using a second sensor; and releasing the specimen container onto the automated loading mechanism of the second automated microbial detection apparatus.

A plurality of workpiece-holding spindles is arranged, each engaging an article being processed, and a plurality of trays, each removably engaging a plurality of said spindles. The trays are moved along a feeding line extending along a feeding path passing near a decoration module. By a transfer assembly, the spindles carrying the articles are transferred from the trays on the feeding path, to the decoration module. A decorative treatment is applied to the articles carried by the spindles, in correspondence with at least one treatment unit (40, 41, 42) operating along the decoration module. In correspondence with a painting module operatively connected with the feeding line, the articles carried by the spindles are painted.

A device for selecting and discarding pucks (2,3) for holding bottles (1) with a support and travel plane (110), a plurality of teeth (120) where the teeth (120) are arranged in the plane (110) to form a routing path towards a discarding path (OUT2) for discarding empty pucks (2) without a bottle (1) and a routing path towards an exit path (OUT3) for outputting full pucks (3) containing a bottle (1).

A retention and movement unit of at least one component and at least one container is described. The unit has a moving retention member including, in turn, a frame and a first gripping device with a first retention element, the gripping device having a first configuration for selectively retaining the at least one component by the first retention element. In a first alternative, the first gripping device has a second configuration, different from the first configuration, for selectively retaining the at least one container. In the second alternative, the moving retention member further includes a second gripping device, including a second retention element, the second gripping device having a second configuration, different from the first configuration, for selectively retaining said at least one container.

A capsule mass measuring device includes conveyer roller 10 and measurement device 20 having measurement plate 30. Conveyer roller 10 is provided with protrusions 12 and accommodation parts 13 formed between adjacent protrusions 12, and each of which accommodating the capsule such that a longitudinal direction of the capsule is arranged along rotation axis 11a. Measurement plate 30 is provided with groove part 32 and the measurement plate is arranged such that the capsule in accommodation part 13 is supplied to groove part 32, by a rotation of the conveyer roller, during a period after the capsule passes through the lowest point until rotating 45 degrees, and the capsule of which the mass has been measured is discharged from measurement plate 30 by contacting one of protrusions 12, which is defined as one protrusion, due to the rotation of conveyer roller 10.

Proposed is a transport device for transporting a carrier in the form of a foil for producing electrodes for energy accumulators, in particular electrodes for lithium-ion batteries, having at least two rollers on which the carrier is able to be borne, and of which at least one of the rollers is provided with a drive so as to, by rotation of the driven roller, move the carrier along the longitudinal extent thereof, and transport the carrier from roller to roller. Provided for improving the manufacturing quality is a drive device for generating an additional force which facilitates transport and which for generating an alternating magnetic field has an alternating field generator that generates a temporally changing magnetic field so as to induce eddy currents in the carrier, and so as to exert a Lorentz force on the charges flowing in the carrier as a consequence of the eddy currents.