The invention relates to a robotic method for loading cases on a packaging line from cases contained in a closed parallelepiped container and wherein it is proceeded with the loading of the packaging line, after opening of the container (Ca) by: /d/ insertion of a first jaw (30) of the clamp between the first face (F1) of the container and the first case (Et1) of the row of cases and, insertion of a second jaw (31) of the clamp between the last case (Etd) of the row of cases and the second face (F2) of the container, and approach of the jaws until seizing up the row of cases, /e/ piloting of the robotic arm so as to extract the row of cases from the container grasped by the motor-driven clamp (3) and load the packaging line (Lg) with the row of cases.

A robotic system includes a robot having a picking arm to grasp an inventory item and a shuttle. The shuttle includes a platform adapted to receive the inventory item from the picking arm of the robot. The platform is moveable between a pick-up location located substantially adjacent to the robot and an end location spaced a distance apart from the pick-up location. The system improves efficiency as transportation of the item from the pick-up location to the end location is divided between the robot and the shuttle.

A component-handling device for removing components from a structured component supply and for depositing the removed components at a receiving device. A first turning device having a plurality of receiving units receives a component from the structured component supply at a dispensing point, to turn the received component by a first predetermined angle about the longitudinal or transverse axis of the received component, and to convey the same to a transfer point. A second turning device having a plurality of receiving units receives the component at the transfer point from a receiving unit of the first turning device, to turn the received component by a second predetermined angle about the longitudinal or transverse axis of the received component, and to convey the same to a depositing point.

A control unit executes first loading control is determined that a loaded article is not present above a loading surface region based on captured image information and second loading control if it is determined that it is uncertain whether the loaded article is not present above the loading surface region based on the captured image information. The first loading control causing a holding unit to release a target article when the target article is directly above the loading surface region and the lower surface of the target article is higher than the upper surface of the loading surface region by a first specified distance, and the second loading control causing the holding unit to release the target article when the target article is directly above the loading surface region and the lower surface of the target article is higher, by a second specified distance, than a specified height.

A carousel for transporting articles includes: a body rotated by a motor around a main axis, a stationary cam around the main axis and a plurality of transfer units mounted on the body to rotate around the main axis. Each unit includes a transfer element having a radially external portion to retain or release an article. The element is pivoted on the body around an auxiliary axis radial to the main axis and is coupled to the body to move along the auxiliary axis. The element is coupled to the stationary cam to rotate around the auxiliary axis. A pair of auxiliary cams is coupled to the element and integral with the body and auxiliary cam-followers are interposed between the element and the auxiliary cam to move on the auxiliary cams during rotation of the element around the auxiliary axis and move the element along the auxiliary axis.

A receiving device for components. The receiving device is designed to be adjusted in a controlled manner relative to a deposit point at least partly along a first, second, and/or third axis by at least one linear drive and/or move a support guided by the receiving device along one of the first and/or second axes by a drive. The receiving device has a position sensor which is paired with a component deposit point in order to detect a component which has only been partly deposited in a pocket of the support at the component deposit point, where the position sensor is connected to the receiving device laterally of the support such that the position sensor is moved directly together with the receiving device.

A robotic singulation system is disclosed. In various embodiments, sensor data including image data associated with a workspace is received. The sensor data is used to generate a three dimensional view of at least a portion of the workspace, the three dimensional view including boundaries of a plurality of items present in the workspace. A grasp strategy is determined for each of at least a subset of items, and for each grasp strategy a corresponding probability of grasp success is computed. The grasp strategies and corresponding probabilities of grasp success are used to determine and implement a plan to autonomously operate a robotic structure to pick one or more items from the workplace and place each item singly in a corresponding location in a singulation conveyance structure.

The current invention concerns a transfer head (24) configured for the transfer of a pad (6) from a pick-up location (26) to a drop-off location (62). According to the invention, the transfer head (24) comprises a support module (28) comprising a vacuum manifold, and a core module (30) comprising an elastic mean (32). The current invention also concerns a method of transferring pad (6) from a pick-up location (26) to a drop-off location (62). The current invention also concerns an apparatus for manufacturing an absorbent article using said method of transferring pad (6) from a pick-up location (26) to a drop-off location (62). The invention also concerns a method of manufacturing an absorbent articles using said method of transferring pad (6).

The invention relates to improvements in the technical field of supplying cannulas (2). For this purpose, there is proposed, inter alia, a supply device (1), the removal carriage (4) of which includes at least one cannula receptacle (6) for accommodating a cannula (2), said cannula receptacle (6) being connectable or connected to a vacuum source (7) in order for a cannula (2) to be fixed in the cannula receptacle (6).

A robotic singulation system is disclosed. In various embodiments, sensor data including image data associated with a workspace is received. The sensor data is used to generate a three dimensional view of at least a portion of the workspace, the three dimensional view including boundaries of a plurality of items present in the workspace. The three dimensional view as generated at successive points in time is used to model a flow of at least a subset of said plurality of items through at least a portion of the workspace. The model is used to determine and implement a plan to autonomously operate a robotic structure to pick one or more items from the workplace and place each item singly in a corresponding location in a singulation conveyance structure.