A robot shares a work space with a person, to perform an operation. The robot includes a shock-absorbing member which covers the periphery of at least a base part of a working tool attached to an robot arm, a detector which is provided for the robot arm, to detect an external force input via the shock-absorbing member, and a robot control device which stops the robot when determining, based on information of the detected external force, that the working tool collides with the person. The external force is transmitted from the working tool to the robot arm, and is detected by the detector.

A slide rack gripper apparatus is provided that simultaneously conveys a plurality of glass slides in the protection of a slide rack within a digital slide scanning apparatus. The slide rack gripper apparatus conveys the plurality of glass slides from a slide rack carousel to a scanning stage for processing. The slide rack gripper includes a first motor attached to a base configured to drive a finger mount attached to the base along a first linear axis. The slide rack gripper apparatus also includes a second motor attached to the finger mount and configured to drive opposing gripper fingers attached to the finger mount along a second linear axis. The second motor is also configured to drive individual gripper fingers along a third linear axis to move the gripper fingers toward each other and away from each other to grasp or release a slide rack.

A method for manufacturing an automotive mirror, in particular a side mirror, includes forming a printed circuit board as flexible printed circuit board with n+1 branches, nεN, providing n modules each including at least one electronic element housed within a plastic casting and connected to conducting paths on at least one of the surfaces of the plastic casting, and at least one standard gripping point, guiding structure, snap connection element and/or sealing member provided by the plastic casting, connecting up to n of said branches to one module each and connecting one branch to cables or a cable harness to be connected to a power supply and/or a control unit outside the mirror, providing mirror parts free of electronic elements, and assembling the mirror parts and the modules.

A manufacturing machine is capable of subtractive manufacturing and additive manufacturing for a workpiece. The manufacturing machine includes: a first headstock and a second headstock disposed in a machining area and configured to hold a workpiece; a tool spindle and a lower tool rest disposed in the machining area and configured to hold a tool to be used for subtractive manufacturing for the workpiece; an additive manufacturing head configured to discharge a material during additive manufacturing for the workpiece; a workpiece gripper configured to grip the workpiece during transportation of the workpiece into and out of the machining area; and a robot arm on which the additive manufacturing head and the workpiece gripper are mountable. Accordingly, the manufacturing machine improving the productivity in the simple and easy manner is provided.

A block transfer apparatus for transferring a block between an upstream and downstream clamps of a block delivery system. The apparatus includes: a frame pivotally mounted to a support; a clamping assembly mounted to the frame and linearly extendable relative thereto, and including a pair of gripper jaws for clamping opposing sides of the block. The apparatus receives a block in the gripper jaws in an approximate position; rotates to a drop position and releases the block allowing it to self-datum onto first and second orthogonal datum surfaces. The apparatus re-clamps the block after the drop by applying a clamping force to opposing sides of the block to register the block against a third datum surface to thereby datum the position of the block with respect to the clamping assembly; and presents the block clamped in the datumed position for transfer to the downstream clamp.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

A lab automation robot is provided including a stationary base, a swiveling tower rotatably mounted to the stationary base about a first vertical axis, an arm vertically translatably mounted to the tower, an articulating forearm coupled to the arm at an elbow joint and pivotal relative thereto about a second vertical axis, and a wrist assembly including a multi-axis gripper operatively coupled to the forearm at a wrist joint and rotatable relative thereto about a third vertical axis. The gripper is further rotatable relative to at least the forearm about a first horizontal axis and about a second horizontal axis.

A handling method and apparatus for a stacked box can pull vertically upward and take out a stacked box having an open top surface. The handling method and apparatus gripes and moves the stacked box having an open top surface with the handling apparatus attached to a robot arm. The handling apparatus is moved to above a stacked uppermost box, a wedge member having a flat plate shape is inserted along outer surfaces of two opposite edges of an upper box, a claw provided to the wedge member is projected in a direction approaching the box and engaged with a lower surface of an outer flange of the box, and the box is lifted vertically upward and then a fall prevention hanger is driven on a lower side of the box to cause the box to be gripped by the handling apparatus and then moved by the robot arm.

A synchronized gripping mechanism is provided which includes coupled slider-crank mechanisms. The coupled mechanisms each include a sliding grip and an intermediate link connected by a pivotal connector. A coupler link is provided on a stationary pivot and which couples and synchronizes the two slider-crank mechanisms. Overload protection structure is provided to prevent damaging the links if one of the sliding grips encounters an off-center specimen.

A gripper capable of lifting a work piece includes: a body including a sliding direction and a lifting axis defining a first angle relative to the sliding direction; a plurality of sliding blocks slidably mounted on the body and located at two sides of the lifting axis to move in the sliding direction toward or away from each other, wherein the sliding blocks each include a receiving hole at a second angle relative to the sliding direction; and a plurality of fingers slidably disposed in the receiving holes, and each including: a nose portion disposed in the receiving holes, and a finger portion to grip the work piece. When the sliding blocks are in the lifting position, the fingers are retracted into the receiving holes to make the finger portions move up along the lifting axis toward the body by a certain distance while clamping the work piece.