A robotic device is provided. The robotic device includes a first detachable digit, including a first connector piece. The robotic device also includes a digit mounting apparatus, including a first pivot joint and a second connector piece coupled to the first pivot joint, where the second connector piece is configured to mate with the first connector piece of the first detachable digit. The robotic device also includes an actuator configured to pivot the first pivot joint about a first axis to cause the second connector piece of the digit mounting apparatus to mate with the first connector piece of the first detachable digit to attach the first detachable digit to the digit mounting apparatus.

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.

A self-adjusting robot clamping jaw for clamping a hub on a hub coating line to complete transfer can realize certain self-adjustment via rotation of an upper connecting plate around a rotating pin in the clamping process when the wear extents of clamping fingers are inconsistent, and can prevent the phenomena that the hub is clamped obliquely and even a hub brace is bent by lateral force. The clamping fingers made of a soft material can prevent damaging the surface coating and can be convenient to replace.

A gripping system is provided comprising: gripping fingers of a first type, gripping fingers of a second type, a gripping device for handling sample containers, wherein the gripping device comprises base portions, wherein a gripping finger of the first type and a gripping finger of the second type are releasably fixable to the base portions, and a drive, wherein the drive is adapted to move at least one of the base portions relative to the other base portions to cause a gripping or a releasing of a sample container, and a gripping finger change device, wherein the gripping finger change device is adapted to store gripping fingers of the first type and gripping fingers of the second type, and wherein the gripping finger change device is adapted to replace a gripping finger of the first type fixed to a base portion by a gripping finger of the second type.

A robotic device is provided. The robotic device includes a first detachable digit, including a first connector piece. The robotic device also includes a digit mounting apparatus, including a first pivot joint and a second connector piece coupled to the first pivot joint, where the second connector piece is configured to mate with the first connector piece of the first detachable digit. The robotic device also includes an actuator configured to pivot the first pivot joint about a first axis to cause the second connector piece of the digit mounting apparatus to mate with the first connector piece of the first detachable digit to attach the first detachable digit to the digit mounting apparatus.

An end effector for a robotic arm is disclosed. The end effector includes a grasping apparatus having a gripping member and an appendage extending from the gripping member forming a channel between the griping member and the appendage. The channel is configured to receive at least a portion of an article, such as a latch for a container, to be manipulated by the end effector.

A system and method for using a robotic arm and a part gripping jaw to tend a CNC machine. A robotic arm picks up a part gripping jaw and used the jaw to grip a part, and moves the part into a vise in the CAN machine. The part gripping jaw has features which the vise engages, and secures the part in the part gripping jaw for processing in the CNC machine. The system and method includes a novel racking system, robotic end of arm tool, jaw grippers and vise system. The jaw grippers that hold the part are moved from the rack system, with the part to be processed, by the robot, to the vise where the vise uses the jaw grippers to secure the part for processing. After the part is processed, the robot removes the part from the vise with the jaw grippers and stores the part back into the rack system using the jaw grippers.

An adaptable end effector useful to accommodate a wide variety of components, component geometries and variations in component geometries. In one example, the end effector includes a movable arm and at least three fingers each having a gripping tool for engagement of the component with variable and/or programmable holding force preventing relative movement.

Technologies pertaining to a robotic hand are described herein. The robotic hand includes one or more fingers releasably attached to a robotic hand frame. The fingers can abduct and adduct as well as flex and tense. The fingers are releasably attached to the frame by magnets that allow for the fingers to detach from the frame when excess force is applied to the fingers.

A system and method for using a robotic arm and a part gripping jaw to tend a CNC machine. A robotic arm picks up a part gripping jaw and used the jaw to grip a part, and moves the part into a vise in the CAN machine. The part gripping jaw has features which the vise engages, and secures the part in the part gripping jaw for processing in the CNC machine. The system and method includes a novel racking system, robotic end of arm tool, jaw grippers and vise system. The jaw grippers that hold the part are moved from the rack system, with the part to be processed, by the robot, to the vise where the vise uses the jaw grippers to secure the part for processing. After the part is processed, the robot removes the part from the vise with the jaw grippers and stores the part back into the rack system using the jaw grippers.