An example robotic gripping apparatus includes a robotic wrist and a motor contained within the robotic wrist. The motor includes a drive shaft that rotates about a primary axis during motor operation. The robotic gripping apparatus also includes a cylindrical worm gear, connected to the drive shaft, that encircles the motor and rotates about the primary axis during motor operation. Additionally, the robotic gripping apparatus includes two or more robotic fingers, each having a proximal end and a distal end. The robotic gripping apparatus further includes two or more spur gears corresponding to the two or more robotic fingers. Each spur gear is attached to the proximal end of the corresponding robotic finger. Each spur gear engages the cylindrical worm gear and rotates the corresponding robotic finger when the cylindrical worm gear rotates about the primary axis.

An example robotic gripping apparatus includes a robotic wrist and a motor contained within the robotic wrist. The motor includes a drive shaft that rotates about a primary axis during motor operation. The robotic gripping apparatus also includes a cylindrical worm gear, connected to the drive shaft, that encircles the motor and rotates about the primary axis during motor operation. Additionally, the robotic gripping apparatus includes two or more robotic fingers, each having a proximal end and a distal end. The robotic gripping apparatus further includes two or more spur gears corresponding to the two or more robotic fingers. Each spur gear is attached to the proximal end of the corresponding robotic finger. Each spur gear engages the cylindrical worm gear and rotates the corresponding robotic finger when the cylindrical worm gear rotates about the primary axis.

A surgical system uses a single entry port in a wide variety of surgeries. To insert multiple surgical instruments into a patient through a single entry port requires that the shaft (262A1) of at least one (260A1) of the surgical instruments be bent between the base of the surgical instrument (260A1) and the point where the shaft contacts a channel in an entry guide (270A). Each surgical instrument (260A1, 260A2) is positioned by an instrument manipulator positioning system (231A) so that when the shaft is inserted in a channel of the entry guide (270A), any bending of the shaft does not damage the surgical instrument and does not inhibit proper operation of the surgical instrument.

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 handling apparatus for handling parts, in particular large-volume workpieces, and having at least two gripper modules which are disposed opposite one another at a horizontal carrier which can be moved relative to one another and which are driven by a motor. The handling apparatus is of modular design and having at least one carrier module forming the horizontal carrier and at least two gripper modules as components which can be assembled in modular form.

A tendon-driven robotic gripper is disclosed for performing fingertip and enveloping grasps. One embodiment comprises two fingers, each with two links, and is actuated using a single active tendon. During unobstructed closing, the distal links remain parallel, creating exact fingertip grasps. Conversely, if the proximal links are stopped by contact with an object, the distal links start flexing, creating a stable enveloping grasp. The route of the active tendon and the parameters of the springs providing passive extension forces are optimized in order to achieve this behavior. An additional passive tendon is disclosed that may be used as a constraint preventing the gripper from entering undesirable parts of the joint workspace. A method for optimizing the dimensions of the links in order to achieve enveloping grasps of a large range of objects is disclosed and applied to a set of common household objects.

A tendon-driven robotic gripper is disclosed for performing fingertip and enveloping grasps. One embodiment comprises two fingers, each with two links, and is actuated using a single active tendon. During unobstructed closing, the distal links remain parallel, creating exact fingertip grasps. Conversely, if the proximal links are stopped by contact with an object, the distal links start flexing, creating a stable enveloping grasp. The route of the active tendon and the parameters of the springs providing passive extension forces are optimized in order to achieve this behavior. An additional passive tendon is disclosed that may be used as a constraint preventing the gripper from entering undesirable parts of the joint workspace. A method for optimizing the dimensions of the links in order to achieve enveloping grasps of a large range of objects is disclosed and applied to a set of common household objects.

A fully-electric grabber assembly includes a first grabber arm, a second grabber arm, an electric motor, and a plurality of gears. The plurality of gears includes a first gear coupled with the electric motor, an intermediate gear coupled with the first gear, and an arm gear coupled with the first grabber arm and the intermediate gear to facilitate pivoting the first grabber arm. The first gear is configured to rotate about an axis radially offset from a center thereof.

A tendon-driven robotic gripper is disclosed for performing fingertip and enveloping grasps. One embodiment comprises two fingers, each with two links, and is actuated using a single active tendon. During unobstructed closing, the distal links remain parallel, creating exact fingertip grasps. Conversely, if the proximal links are stopped by contact with an object, the distal links start flexing, creating a stable enveloping grasp. The route of the active tendon and the parameters of the springs providing passive extension forces are optimized in order to achieve this behavior. An additional passive tendon is disclosed that may be used as a constraint preventing the gripper from entering undesirable parts of the joint workspace. A method for optimizing the dimensions of the links in order to achieve enveloping grasps of a large range of objects is disclosed and applied to a set of common household objects.