A robot (10) includes a fixed part (20), a first arm (21), a second arm (22), and a working shaft (25). The second arm (22) is longer than the first arm (21). A protrusion length of the working shaft (25), which is capable of protruding from the second arm (22) toward the fixed part (20) is longer than a distance between the first arm (21) and the second arm (22).

An object processing system within a trailer for a tracker trailer is discloses. The object processing system includes an input area of the trailer at which objects to be processed may be presented, a perception system for providing perception data regarding objects to be processed, and a primary transport system for providing transport of each object in one of at least two primary transport directions within the trailer based on the perception data.

An operation command generator includes: an area division unit configured to divide a line on a flat work surface of a target workpiece W into a straight area and a corner area, using a sharp boundary surface; a straight area operation command generation unit configured to generate a command for operating only the linear motion mechanism while keeping the posture of the parallel link mechanism fixed, in the straight area; and a corner area operation command generation unit configured to generate a command so that an acting point of the end effector passes on the boundary surface at a substantially constant speed by the linear motion mechanism and the parallel link mechanism performing coordinated operations in the corner area.

A multi-arm hanging rail type casting cleaning robot comprises a traveling device, a rotating device, a lifting device, a working arm mounting seat, and four working arms mounted on an annular rail, wherein in addition to pneumatic grippers and magnetic cranes, cleaning tools such as pneumatic air picks and plasma cutters are further provided on end effecters of the working arms. The traveling device of the present invention adopts a four-point hanging supporting mode to realize long-distance stable traveling. Large arm adjusting cylinders and small arm adjusting cylinders are used to replace servo reducing motors to adjust postures of the working arms. The four working arms can jointly and synchronously work. The two pneumatic grippers, the two magnetic cranes, and the four cleaning tools can be flexibly transformed and replaced. The needs of cleaning operations can be satisfied.

A workpiece picking system is provided, including: a conveyor that transfers multiple workpieces in one transfer direction; a position detection unit that detects transfer positions of the workpieces transferred by the conveyor; a distributing robot that sorts the workpieces transferred by the conveyor in a single row into two rows by a predetermined rule following the movement of the conveyor by performing line tracking based on the detected transfer positions; and a pair of picking robots that pick-up the workpieces, following the movement of the conveyor by performing line tracking based on the transfer positions detected by the position detection unit, and disposing only the workpieces in one of the rows sorted by the distributing robot, in an operating range of the picking robots. The pair of picking robots are arranged in a direction orthogonal to the transfer direction of the conveyor.

A sheet material bending system includes a tool changing apparatus that changes tools between a press brake and a tool stocker. The tool stocker is arranged behind the press brake. To change tools from the front and rear of the tool stocker, the front and rear of the tool stocker are opened. The tool changing apparatus has a pivot that is movable in front-rear, left-right, and up-down directions and is rotatable around an axis extending in the up-down direction. A front end of the pivot is provided with tool holding units to hold tools.

An automated fiber optic patch-panel/cross-connect system comprised of a stacked arrangement of multiple replaceable modules, including a first multiplicity of fiber modules, each with a second multiplicity of reconfigurable internal fiber connectors; a common robot module shared among fiber modules, wherein any connector within a fiber module in the system can be moved to any other connector of any other fiber module in the system; a power management module that distributes electrical power to the fiber modules and the robot module; and a server module that generates commands that are placed on communication bus to activate robot and fiber modules. The modules are physically separated and spatially arranged to be serviced replaced without interrupting fiber connections previously established in the system.

A robotic arm control system including a robotic arm configured to deploy one or more tools in an operating space, one or more sensors, and a control system operably configured to: scan the operating space with the one or more sensors, identify a surface of the operating space based at least in part upon information sensed by the one or more sensors, establish a virtual barrier offset from the surface, and limit movement of the robotic arm based at least in part upon the virtual barrier.

Described herein is a multi-axial industrial robot, in particular of a SCARA type, where the base structure designed to enable installation of the robot on an external supporting structure, can be mounted according to two opposite orientations, where one orientation is upside down with respect to the other, while at the same time the operating head of the robot may instead maintain one and the same orientation.

A store of an embodiment includes a shelf, a conveyor, an elevator mechanism, a robot hand, and a robot mechanism. In the shelf, products can be displayed. The conveyor is arranged along the shelf. The conveyor is configured to convey a container in which the product is placed. The elevator mechanism is configured to move the container up and down. The robot hand is capable of griping the product. The robot mechanism is configured to perform positioning of the robot hand. The robot mechanism is configured to overlap at least a part of the conveyor in a top view.