A loading system (e.g., in a warehouse or other item-fulfillment environment) can include a rotary hub that supports one or more chambers. In a first orientation of the rotary hub, one of the chambers may be in a first position aligned for item receipt (e.g., through an open top of the chamber by feeding from a conveyor belt or other feeding system). The rotary hub can rotate to a second orientation in which the chamber is in a second position aligned for item discharge (e.g., through an open end of the chamber and into a receiving zone of a packaging machine or other system).

A loading system (e.g., in a warehouse or other item-fulfillment environment) can include a rotary hub that supports one or more chambers. In a first orientation of the rotary hub, one of the chambers may be in a first position aligned for item receipt (e.g., through an open top of the chamber by feeding from a conveyor belt or other feeding system). The rotary hub can rotate to a second orientation in which the chamber is in a second position aligned for item discharge (e.g., through an open end of the chamber and into a receiving zone of a packaging machine or other system).

Provided a full-automatic wheel hub feeding-blanking system for intelligent production line of automotive wheel hubs, comprising: an intelligent material rack and a robot; the intelligent material rack comprises a bracket assembly, a turntable assembly and a bearing seat assembly; the turntable assembly being rotatable is mounted on the bearing seat assembly; the bracket assembly mounted on the turntable assembly comprises a base provided with at least one group of lifting devices, and each the group comprises three the lifting devices, and each of which an automotive wheel hub supporting plate assembly is provided on, central axis of the three automotive wheel hub supporting plate assemblies forming the angle of 120 degrees; the robot being mounted on one side of the intelligent material rack and comprises a robotic arm, and a manipulator is mounted on the robotic arm, and the manipulator is used for clamping the automotive wheel hub.

A method for distribution of supports impregnated with antibiotics includes a step of positioning of a plurality of tubular containers, each one containing a plurality of supports impregnated with antibiotics and stacked, in a corresponding plurality of seats of a dispenser. Extraction of at least a first support from a first container is performed using an extractor, the step of extraction being performed in correspondence of an upper end of the first container and comprising a movement of the first support between a first position inside of the first container and a second position extracted from the first container, said first position and said second position lying substantially in correspondence of an upper surface of the dispenser. Collection of the first support from the second position is performed using a collector. Transportation of the first support towards a culture plate by the collector is performed.

Apparatus for handling containers has a support which is rotatable about an axis of rotation (D), wherein a plurality of receiving discs are arranged on the support, wherein the receiving discs are each rotatable about axes of rotation and are suitable and intended for supporting the containers. The apparatus includes a drive, which is rotatable about predetermined axes of rotation are arranged on the support and which is coupled non-rotatably to the receiving discs, and arranged on the support, wherein the rotary discs can be removed from the drive, and the drive and/or the rotary discs have a coupling for transmitting torque between the drive and the receiving discs.

Apparatus for handling containers has a support which is rotatable about an axis of rotation (D), wherein a plurality of receiving discs are arranged on the support, wherein the receiving discs are each rotatable about axes of rotation and are suitable and intended for supporting the containers. The apparatus includes a drive, which is rotatable about predetermined axes of rotation are arranged on the support and which is coupled non-rotatably to the receiving discs, and arranged on the support, wherein the rotary discs can be removed from the drive, and the drive and/or the rotary discs have a coupling for transmitting torque between the drive and the receiving discs.

A material transfer system includes one or more of the following features: (i) a rotatable conveyor assembly is configured to enable adjustment of a radial position of the item guide surface of each item pocket for adjusting pocket depth; (ii) the rotatable conveyor assembly is configured to enable adjustment of an arcuate offset distance between the item guide surface and the item push surface of each item pocket; and/or (iii) the guide surface is formed, at least in part, by at least one flexible rail that is adjustable between multiple orientations and the flexible is configured to flex in a manner such that, in each one of the multiple orientations, the guide surface follows a substantially arcuate path with a set radius, wherein the set radius varies between the multiple orientations.

A specimen transporting apparatus and method are provided, in which a specimen container having a non-printed region and a printed region on a side surface of the specimen container is rotated intermittently, each time through a certain angle, during a first rotation. Information printed on the printed region is read during the first rotation, and the location of the non-printed region is identified based on the success or failure of the reading. Next, a second rotation is performed, in which the specimen container is rotated continuously. The information printed on the printed region is read during the second rotation, and the location of the printed region is identified based on the success or failure of the reading. Accordingly, the location of an end portion of the printed region is identified, and the orientation of a specimen bar code is aligned relative to a transfer destination rack.

An apparatus and a method for closing containers with closures is disclosed. The apparatus includes a transport wheel, a feed device, and a closing device. The transport wheel continuously transports the containers and includes a plurality of transport wheel receptacles. Each transport wheel receptacle is able to receive a container. The transport wheel is designed to be rotatable about a transport wheel axis. The feed device is capable of clocked feeding of the containers to the transport wheel in a feed region of the apparatus. The closing device is arranged to close containers while they are accommodated in the transport wheel receptacles of the transport wheel. A method for closing the containers includes feeding containers to the transport wheel and closing the containers with a closing device.

The disclosure relates to a diversion device for a transport device for transporting products. The diversion device comprises a first element mounted to be rotatable about a first axis of rotation and a second element mounted to be rotatable about a second axis of rotation, where the axes of rotation form an angle with one another and the first and the second elements overlap in a region so that the first and the second elements enclose a diversion region. A product supplied to the diversion region can be diverted in the diversion region by rotating the first and the second elements and can exit the diversion device after having passed the diversion region due to mass inertia.