The robot hand holds a wire harness having a long harness main body and a connector connected to an end of the harness main body. The robot hand includes a fixed holding portion which holds the harness main body a vicinity of the end thereof, a pressing portion movable relative to the fixed holding portion in a longitudinal direction of the harness main body held by the fixed holding portion, and a driving unit which moves the pressing portion in a direction away from the fixed holding portion such that the pressing portion presses the connector outwardly in the longitudinal direction of the harness main body.

A substrate holding apparatus includes a base and holders attached to the base to hold substrates. The holders is aligned in a predetermined alignment direction, and is attached to the base so as to be detachable in parallel with a reference plane as a plane crossing the alignment direction.

Exemplary substrate processing systems may include a transfer region housing defining a transfer region fluidly coupled with a plurality of processing regions. A sidewall of the transfer region housing may define a sealable access for providing and receiving substrates. The systems may include a plurality of substrate supports disposed within the transfer region. The systems may also include a transfer apparatus having a central hub including a first shaft and a second shaft counter-rotatable with the first shaft. The transfer apparatus may include an eccentric hub extending at least partially through the central hub, and which is radially offset from a central axis of the central hub. The transfer apparatus may also include an end effector coupled with the eccentric hub. The end effector may include a plurality of arms having a number of arms equal to the number of substrate supports of the plurality of substrate supports.

An automated system for de-stacking a plurality of stacked objects, the automated system comprising a lift assembly and a grabber assembly. The lift assembly comprises a tower, and a number of electric motors. The tower is configured to rotate about a vertically-extending axis. One of the electric motors is configured to rotate the tower. Another one of the electric motors is configured to raise and lower the grabber assembly. The grabber assembly is configured to move with the tower as the tower rotates and comprises a claw and an electric motor. The claw is configured to grasp the objects individually. The electric motor of the grabber assembly is configured to actuate the claw. The first, second, and third electric motors are configured to operate in a refrigerated environment.

A robotically-operated gripping device is provided and includes a frame assembly, a vacuum device, a clamping device, and a robotic arm. The vacuum device is connected to the frame assembly and configured to selectively attach to and position at least a portion of an object. The clamping device is connected to the frame assembly and provided for selectively clamping the object attached to the vacuum device. The robotic arm is connected to the frame assembly and provided for selectively positioning the vacuum device and the gripping device.

A substrate processing apparatus including a frame, a SCARA arm mounted to the frame at a shoulder joint having two links with at least one end effector dependent therefrom, the links defining an upper arm and a forearm, each end effector pivotally joined to the forearm at a wrist to rotate about a wrist axis, and a drive section with at least one degree of freedom operably coupled to the arm to rotate the arm about a shoulder axis articulating extension and retraction, wherein the end effector is coupled to a wrist joint pulley so that extension and retraction effects rotation of the pulley and end effector as a unit about the wrist axis, and wherein a height of the end effector is within a stack height profile of the wrist joint so that a total stack height is sized to conform with and pass through a pass-through of a slot valve.

An extraction station for the extraction from a transport system for an at least partially complete cartridge; the extraction station has: a collecting device; at least one holding head, which is designed to grab at least one end of the cartridge; and a moving device which supports the holding head and moves the holding head between a pick-up position, in which the holding head is in the area of the transport system and grabs the cartridge, and a release position, in which the holding head releases the cartridge.

A robot system of the present invention includes: a first hand including first holders, a first link structure, and a first engager; a second hand including second holders, a second link structure, and a second engagement receiver; a first arm to which the first hand is connected; a second arm to which the second hand is connected; and a controller configured to perform: (A) operating the first arm and/or the second arm to engage the first engager with the second engagement receiver; and (B) operating the first arm to change a distance between the first holders after performing (A).

A robot arm control device according to the present disclosure comprises a workpiece selecting section that selects a target workpiece, which is a workpiece to be picked up and placed, among a plurality of workpieces conveyed by a conveyor system in a predetermined flow direction; and a motion control section that controls a motion of the robot arm to pick up the target workpiece at a predetermined pick up position and place the target workpiece at the target placement position selected among a plurality of predetermined placement positions, wherein the workpiece selecting section selects, among the workpieces that are candidates for selection, the workpiece that has a shortest distance from the distal end position at a task-start timing to the workpiece position at the task-start timing as the target workpiece.

A robotic system includes a hub assembly rotatable about a vertical axis. A robotic arm has a first end connected to the hub assembly and an opposite second end connected to an end effector, which is configured for holding an item. The system is configured to support an agent on or above the hub assembly for working on the item held by the end effector. The operation of the robotic arm and end effector to move the item does not obstruct operation of the agent.