An instrument for endoscopic applications, including a tubular member having a handling end portion having a flexible portion and actuating devices located at the other end portion, and longitudinal elements for transferring the movement of the actuating devices to the handling end portion resulting in a change of orientation thereof, whereby the handling end portion includes at least two independent flexible portions, whereby the actuating end portion has a corresponding number of actuating devices, and whereby each actuating device is connected by its own set of longitudinal elements to a part of the handling end portion for effecting a change of orientation of one of the flexible portions.

In one embodiment of the invention, a robotic arm is provided including a linkage assembly and a strap drive train. The linkage assembly includes first, second, third, and fourth links pivotally coupled in series together at first, second, and third joints to define a parallelogram with an insertion axis. The strap drive train includes first and second sets of straps coupled to the linkage assembly. As the linkage assembly is moved about a pitch axis, the first set of straps ensures the third link maintains the same angle relative to the first link, and the first and second set of straps ensures the fourth link maintains the same angle relative to the second link.

A robot assembly for transporting a substrate is presented. The robot assembly having a first arm and a second arm supported by a column, the first arm further having a first limb, the first limb having a first set of revolute joint/line pairs configured to provide translation and rotation of the distal most link of the first limb in the horizontal plane. The assembly further having a second arm further having a second limb, the second limb comprising a second set of revolute joint/link pairs configured to provide translation and rotation of a distalmost link of the second limb in the horizontal plane. The first limb and second limb further having proximal revolute joints having a common vertical axis of rotation and a proximal inner joint housed in a common housing. The assembly further having an actuator assembly coupled to the first set of revolute joint/link pairs and to the second set of revolute joint/link pairs to effect rotation and translation of the distalmost links of the first limb and the second limb, each of the first limb and the second limb defining, in conjunction with the actuator assembly, at least three degrees of freedom per limb, whereby the distalmost links of the first limb and the second limb are independently horizontally translatable for extension and retraction.

An instrument for endoscopic applications, including a tubular member having a handling end portion having a flexible portion and actuating devices located at the other end portion, and longitudinal elements for transferring the movement of the actuating devices to the handling end portion resulting in a change of orientation thereof, whereby the handling end portion includes at least two independent flexible portions, whereby the actuating end portion has a corresponding number of actuating devices, and whereby each actuating device is connected by its own set of longitudinal elements to a part of the handling end portion for effecting a change of orientation of one of the flexible portions.

A substrate-transporting robot apparatus is disclosed. The robot apparatus may include an upper arm, a forearm independently rotatable relative to the upper arm, a wrist member independently rotatable relative to the forearm, and an end effector adapted to carry a substrate. In some aspects, the independent rotation is provided by a robot drive assembly having a second driving pulley mounted for rotation on a first driving pulley. In another aspect, robot drive assemblies including base-mounted and web-mounted pulleys are disclosed. Robot drive assemblies and operational methods are provided, as are numerous other aspects.

A robot includes a body, a first arm, and a second arm. The first arm includes one joint, an adjacent joint that is adjacent to the one joint, and another adjacent joint that is adjacent to the adjacent joint. When the first arm is extended in a vertical orientation relative to the body, the one joint of the first arm has a rotation axis that is offset by a first distance in a first horizontal direction from a rotation axis of the adjacent joint of the first arm, and the another adjacent joint of the first arm has a rotation axis that is offset by a second distance in a second horizontal direction from the rotation axis of the adjacent joint of the first arm. The first horizontal direction is opposite to the second horizontal direction.

A substrate processing apparatus comprising a transport arm having serially connected arm links, at least one of the arm links having a predetermined arm link height, at least a first pulley and a second pulley, where the second pulley is fixed to an arm link of the serially connected arm links, and at least one torque transmission band extending longitudinally between and coupled to each of the first pulley and the second pulley, the at least one torque transmission band having a corresponding band height for the predetermined arm link height and a variable lateral thickness such that the at least one torque transmission band includes a segment of laterally increased cross section for the corresponding band height.

A method, apparatus, and system for facilitating bending of an instrument in a surgical or medical robotic environment are provided. In one aspect, a surgical system includes an instrument comprising an end effector, the instrument capable of articulation via a bending section. The bending section includes a body including a first strut and a second strut, and a channel formed through the body. The first strut and the second strut form a gap therebetween, wherein the gap is in communication with the channel formed through the body.

A mechanical arm assembly including a bendable arm. In some embodiments, the bendable arm includes a body including a plurality of links and a plurality of joints movably coupling the plurality of links; and a plurality of wires including one or more control wires. For example, the body encloses at least a portion of each of the plurality of wires and defines a plurality of openings with each wire in the plurality of wires extending through at least one respective opening of the plurality of openings. The one or more control wires may be moveably positioned within at least a portion of the body enclosing the one or more control wires. In some embodiments, each control wire terminates at a corresponding link. For example, a first control wire terminates at a first link and a second control wire terminates at a second link of the plurality of links.

A method for constructing a robotic arm includes positioning a wire in a formation zone for the robotic arm; and forming a body of the robotic arm in the formation zone around the wire such that the body of the robotic arm encloses at least a portion of the wire.