An automated gas supply system includes a gas cylinder transfer unit configured to transfer a cradle in which one or more gas cylinders storing a gas therein are stored; a gas cylinder inspection unit configured to check properties of the gas stored in the gas cylinder transferred from the gas cylinder transfer unit and check whether the gas leaks from the gas cylinder; a storage queue configured to receive the gas cylinder from the gas cylinder inspection unit by a mobile robot and configured to classify and store the transferred gas cylinders according to the properties of the gas stored in the gas cylinder; and a gas cabinet configured to receive the gas cylinder from the storage queue by the mobile robot and fasten a gas pipe, which is connected to a semiconductor manufacturing process line, to a gas spray nozzle, which is disposed at one side of the received gas cylinder, to supply the gas stored in the gas cylinder to the semiconductor manufacturing process line, wherein the gas cabinet includes a residual gas detector configured to detect a residual amount of the gas stored in the gas cylinder fastened to the gas pipe, and when the residual amount of the gas detected by the residual gas detector is less than or equal to a set residual amount of gas, the mobile robot recovers the gas cylinder from inside the gas cabinet and transfers a gas cylinder stored in the storage queue to the gas cabinet.

A system for performing a subterranean operation that can include a plurality of tools, and a gripper conveying means configured to connect with any one of the plurality of tools and perform a first operation on a rig. The system can also include tools with an encapsulated chamber having electronic components contained therein with the tools in compliance with an explosion-exposed (EX) certification.

A system for controlling a configurable apparatus includes a configuration identification unit operable to identify a preferred configuration of the apparatus in response to media content to be provided to a user, and a configuration modification unit operable to modify the configuration of the apparatus in dependence upon the identified preferred configuration, where different configurations of the apparatus correspond to the shapes of different objects relating to the media content.

There is discussed a method of picking and placing bulbs, in which bulbs are supplied on a supply surface of a bulbs supply system; the bulbs being identified and picked from the supply surface with a pick-and-place head; wherein picked bulbs are transferred from the pick-and-place head, shoot-first and roots-last to a transfer-receptacle comprising at least one bulb-receptor, wherein the bulb-receptor temporarily clutches said bulb.

A robot system that performs work of coupling a flexible cable to a connector provided on a board, includes a robot in which a gripping unit that grips the cable and a force detection unit that detects a force acting on the gripping unit are provided, a control unit that controls the robot to perform a conveyance action to grip the cable using the gripping unit and convey the cable onto the board, and an insertion action to insert the cable into the connector by force control based on a detection result in the force detection unit, an insertion speed entry part in which an insertion speed of the cable into the connector at the insertion action is entered, and a determination unit that can determine force control information necessary for the force control in the insertion action according to the insertion speed.

A movable object holding system for holding a movable object including a body portion 11 and a protruding portion protruding from the body portion, comprising a hand part 40 holding a movable object, the hand part 40 comprising plural guide portions limiting movement of the movable object in a first axis direction and a second axis direction that are perpendicular to each other and a pair of positioning portions 43e limiting movement of the movable object in a third axis direction that is perpendicular to the first and second axis directions, wherein the hand part 40 holds the movable object with the protruding portion of the movable object disposed in a space surrounded by the plural guide portions and touching the pair of the positioning portions 43e and with a part of the body portion of the movable object exposed out of the hand part 40.

A gripping mechanism includes an inclined surface, a rolling element, and a facing gripping part. The inclined surface is a surface inclined to a vertical direction. The rolling element freely rolls obliquely upward and downward on the inclined surface. The facing gripping part is arranged to face the inclined surface and forms an opening space with an end of the inclined surface, the opening space being narrower than a diameter of the rolling element. The rolling element includes: a core member forming a core of the rolling element; an annular member that is provided around the core member and has elasticity; and a plurality of ribs each of which is interposed between an outer periphery of the core member and an inner periphery of the annular member, and forms a gap between the core member and the annular member.

A substrate holding hand includes a frame, a blade to support a substrate, a mounting member to support the blade and mount the blade to the frame, and an inclination adjusting mechanism operable to adjust an inclination of the blade with respect to a horizontal direction in a side view by adjusting an inclination of the mounting member with respect to the frame.

A method for operating a robotic system that includes calculating a base motion plan, wherein the base motion plan includes a sequence of commands or settings, or a combination thereof, that operates a robotic arm and a gripper to transfer a target object from a start location to a task location; receiving a contact measure while executing the base motion plan, wherein the contact measure represents an amount of grip of the gripper on the target object; and generating one or more actuator commands/settings that deviate from the base motion plan when the contact measure fails to satisfy a threshold, wherein the one or more actuator commands/settings thereof are configured to operate the robotic arm, the gripper, or a combination thereof to execute one or more response actions not included in the base motion plan.

A hand includes a hand part for removing a workpiece; a workpiece holding part that presses the removed workpiece at a prescribed location so as to hold the same; and a base part that supports the hand part and the workpiece holding part.