A robot arm control device according to the present disclosure comprises a workpiece selecting section that selects a target workpiece, which is a workpiece to be picked up and placed, among a plurality of workpieces conveyed by a conveyor system in a predetermined flow direction; and a motion control section that controls a motion of the robot arm to pick up the target workpiece at a predetermined pick up position and place the target workpiece at the target placement position selected among a plurality of predetermined placement positions, wherein the workpiece selecting section selects, among the workpieces that are candidates for selection, the workpiece that has a shortest distance from the distal end position at a task-start timing to the workpiece position at the task-start timing as the target workpiece.

A centering device (1) for centering flat workpieces (700-706) comprises a centering station (100) having at least a first and a second gripping device (300, 301) for gripping the workpiece (700-706), and conveying means for conveying workpieces (700-706) in a conveying direction to the centering station (100). The first and the second gripping device (300, 301) can each be moved horizontally by a first and a second guiding device (200, 201), respectively, and the first and the second gripping device (300, 301) can rotate freely about an axis.

A manufacturing process adopting the reconfigurable robotic manufacturing cells that can work conjointly and yet have the capabilities to be reconfigured to disconnect from other cells and handle multiple tasks. The reconfigurable robotic cell is not dependent on any other robotic cells to complete work in progress.

A fully automatic peanuts peeling robot for seeds retention and a method using the same are provided. The robot includes a processing mechanism, a feeding mechanism and a screening mechanism. The processing mechanism includes an aluminum profile support bracket, a bracket assembly, a conveyor belt device, and a conversion device, a sensor device and a cut-off device; the aluminum profile support bracket is fixedly connected to the bracket assembly; the bracket assembly includes a first bracket assembly, a second bracket assembly, and a third bracket assembly; and the aluminum profile support bracket is fixedly connected to the conveyor belt device; the conveyor belt device includes a first conveyor belt assembly, a second conveyor belt assembly, and a third conveyor belt assembly; the conveyor belt device is fixedly connected to the conversion device.

A robot controller is a controller which controls, via a hand control device, a robot hand that grips an article with two or more gripping portions. The robot controller includes, a size information acquisition unit which acquires size information about the article based on an image obtained by a visual sensor for detecting the article, and a gripping adjustment unit which changes, in response to the size information, a gripping distance, which is the space between the gripping portions, in a gripping state or a gripping force of the gripping portions in the gripping state.

A portable device repair machine may be configured to receive portable devices, identify the portable device, diagnose, repair and/or upgrade the portable device, collect payment for the service and return the portable device to the payee. The portable device repair machine may include an audio/video interface for interaction with a portable device user as well as a mechanized connection, inspection, diagnostic and upgrade system. The mechanized connection, inspection, diagnostic and upgrade system may comprise a conveyance mechanism for conveying the portable device among multiple stations such as a physical inspection station, device connection mechanism station, diagnostic, repair and upgrade station, and a physical upgrade station. Various mechanical devices, such as robotic arms may interact with the portable device, based in part on feedback obtained via various image sensors within the portable device repair machine.

A system includes a robotic system including a robot disposable at a mobile workstation, where the robot is configured to perform an automated operation on a workpiece. The system includes one or more transfer robots configured to transfer the robotic system to or from the mobile workstation. The system includes a control system configured to command the transfer robot to perform a transfer operation of the robotic system, where the transfer operation includes at least one of disposing the robotic system at the mobile workstation or retrieving the robotic system from the mobile workstation. The control system is configured to control the mobile workstation and the robotic system based on image data from the one or more infrastructure sensors, position data from the one or more on-board position sensors, the automated operation to be performed by the robot, or a combination thereof.

A manufacturing process adopting the reconfigurable robotic manufacturing cells that can work conjointly and yet have the capabilities to be reconfigured to disconnect from other cells and handle multiple tasks. The reconfigurable robotic cell is not dependent on any other robotic cells to complete work in progress.

An apparatus for transferring a container from a first station to a second station of a container forming line includes a frame, a slide mounted to the frame, and a robotic arm mounted to the slide and movable along the slide between the first station and the second station. The robotic arm includes an end effector operable to remove the container from the first station. The frame is removably coupleable to at least one of the first station and the second station such that the apparatus is transportable to a different container forming line.

A robotic system is disclosed that include an articulated arm and a first perception system for inspecting an object, as well as a plurality of additional perception systems, each of which is arranged to be directed toward a common area in which an object may be positioned by the robotic arm such that a plurality of views within the common area may be obtained by the plurality of additional perception systems.