An end of arm tool subassembly includes three identical linear drive mechanisms connected directly together to provide three directions of movement. Each linear drive mechanism includes a base defined by a longitudinal axis and a slide movably coupled to the base. The base has at least one mounting surface disposed parallel to the longitudinal axis and an end mounting surface disposed perpendicular to the longitudinal axis. The slide traverses in a direction parallel to the longitudinal axis and has a slide mounting surface thereon. One of the identical linear drive mechanisms is directly attached to the end mounting surface of the base of another linear drive mechanism to provide two of the three directions of movement.

Described herein is a suction-type gripping device including a suction-cup and configured for handling a component, for example a sheet-metal component for a motor vehicle. The device includes a plurality of pins that can slide with respect to the suction cup. The pins define a variable-geometry bed configured for reproducing the geometry of the component to be handled.

An end-effector assembly comprising a master boom, a crossbar coupled to the master boom, at least one branch rail, and a swing arm is provided. The at least one branch rail is movably coupled to the crossbar by a branch lock. The at least one branch rail has a driving groove formed longitudinally therealong for telescopic movement relative to the crossbar. The branch lock comprises a crossbar clamp and a branch rail clamp. The crossbar clamp is slidably and pivotally disposed about the crossbar for slidable and pivotal movement therealong. The branch rail clamp comprises a body having a primary telescoping lock including a receiving bore formed therethrough and a wedging collet disposed in the receiving bore. The body further comprises a secondary telescoping lock having a ball and a plunger disposed in a ball-plunger cavity of the body.

A robot configured to use a gripper to grasp one or more tools is disclosed. In various embodiments, the robot comprises a robotic arm having a gripper disposed at a free moving end of the robotic arm, and a set of two or more tools configured to grasped or otherwise engaged by the gripper. Each tool in the set of two or more tools may be disposed in a corresponding tool holder, optionally attached to the robot or situated near the robot. The robot is configured to use the gripper to retrieve a selected tool from its tool holder to perform a task; use the tool to perform the task; and return the tool to its tool holder.

Methods, apparatuses, systems, and computer program products for an improved anti-sway control system and adjustable end effector for a robotic arm are provided. An example method includes determining at least one of a size, shape, or orientation of a package to be picked up by an end effector of a robotic arm, adjusting a position of a suction cup on the end effector to grasp the package by linearly moving the suction cup from an initial position on a rail associated with the end effector to a predetermined end position on the rail associated with the end effector, determining a path for the robotic arm to move to the predetermined end position; and controlling movement of the end effector via a robotic joint to reduce force on the suction cup by the package due to an acceleration of the package due to movement of the robotic arm.

Systems and methods capable of selecting and positively grasping objects of interest within a cluttered environment are described. Some aspects of the present disclosure provide for real-time control of a robot that uses various sensors and reacts to sensor input in real time to adjust the robots path. In some embodiments, a robotic item picker includes an end effector having a shaft extending along a longitudinal axis between a proximal end and a distal end, a carriage configured to rotate about and translate along an intermediate portion of the shaft between a proximal position and a distal position, a suction device coupled to the distal end of the shaft, and a plurality of fingers spaced radially about the carriage. The robot may be a t-bot including a longitudinal member rotatable about a lengthwise axis of the longitudinal member, a carriage translatable along the lengthwise axis, and a radial member slidably mounted to the carriage. The end effector may be rotatably coupled at a distal end of the radial member.

An egg-orienting station for an apparatus for transporting eggs and packaging them in egg packs has a plurality of tracks, which are arranged parallel to one another in the conveying direction, and a transfer region for transferring the eggs to a conveyor belt. An adjustment device is arranged upstream of the transfer region, the adjustment device being used to insert the eggs, optionally by way of the bottom or of the top of said eggs, in egg holders of the first conveyor belt.

A stress compensating pick-up tool for aligning a companion chip with a host chip includes a tool tip and an actuator. The tool tip holds the companion chip, and includes a first tip portion and a second tip portion. The actuator applies a force to the tool tip, wherein the force causes the first tip portion and the second tip portion to rotate in opposite directions with respect to one another to optically align a portion of the companion chip with a corresponding portion of the host chip.

An end effector is provided that includes a first valve operably connected to a first motor housing, the first valve being moveable along at least four axes, a second valve operably connected to a second motor housing, the second valve being moveable along at least four axes, and a proximity adjustment mechanism configured to adjust a horizontal distance between the first valve and the second valve. An associated conformal coating machine and method are also provided.

A storage system configured to house a plurality of containers housing inventory items includes support members, a first set of parallel rails to support a mobile, manipulator robot, and a fluid supply line having a plurality of valves disposed within the fluid supply line. Each of the valves having a closed condition in which the supply line is in fluid isolation from an outside environment and an open condition in which the supply line is in fluid communication with the environment such that the supply line is configured to supply fluid to a mobile, manipulator robot. Mobile, manipulator robots for retrieving inventory items stored within the containers and retrieval methods are also disclosed herein.