A transport apparatus including a drive; a first arm connected to the drive, where the first arm includes a first link, a second link and an end effector connected in series with the drive, where the first link and the second link have different effective lengths; and a system for limiting rotation of the end effector relative to the second link to provide substantially only straight movement of the end effector relative to the drive when the first arm is extended or retracted.

A teleoperated system includes a master grip and a ratcheting system coupled to the master grip. The ratcheting system is configured to align the master grip with a slave instrument commanded by the master grip by determining grip rotation values describing an orientation of the master grip, determining instrument rotation values describing an orientation of the instrument, determining an orientation error between an orientation of the master grip and the orientation of the instrument based on the grip rotation values and the instrument rotation values, and reducing the orientation error by low pass filtering the grip rotation values or the instrument rotation values.

A combination component handling and connecting device connectable to a multi-axis robot for use in moving and connecting components and subassemblies includes a housing and an actuator fixedly connected to the housing. The actuator includes an actuating link movable from a first position to a second position. Connected to the actuating link is an end effector for concurrent movement with the actuating link. The component handling and connecting device includes a clamp having a first jaw and a second jaw. The second jaw is connected to the actuating link for selectively moving the second jaw toward the first jaw operative to engage a component.

A tool welding system is disclosed that includes a table that heats a tool. A multi-axis robot includes a welding head that is moved relative to the table in response to a command. A controller is in communication with the robot and generates the command in response to welding parameters. The weld parameters are based upon a difference between an initial tool shape and a desired tool shape. The difference between the initial tool shape and the desired tool shape corresponds to a desired weld shape. The desired weld shape is adjusted based upon initial tool shape variations, which includes thermal growth of the tool. The tool is welded to provide the desired weld shape to achieve a desired tool shape.

Example embodiments relate to surgical devices, systems, and methods. The system may include a port assembly and instrument arm assembly. The port assembly may have first and second end sections. The first end section may include a first end channel and first gate assembly. The second end section may include a second end channel, second gate assembly, and anchor port. The first and second gate assemblies may be configurable to transition between an open position to allow access through the first and second end channels, respectively, and a closed position to prevent access to same. The instrument arm assembly may include a shoulder section securable to the anchor port, first arm section secured to the shoulder section, elbow section secured to the first arm section, second arm section secured to the elbow section, wrist section secured to the second arm section, and end effector section secured to the wrist section.

Provided is a remotely operated manipulator which can be applied to a space which is wider on a back side than at an opening part, which has a simple structure, high stiffness, and high reliability. The remotely operated manipulator of the present invention includes: a circular base fixed to a wall surface; a beam which rotates on the circular base; a trolley which moves on the beam; and a mast which is raised and lowered with respect to the trolley and is mounted with a tool unit at a tip. Stiffness is improved by directly fixing the beam to the wall surface by a beam fixing device. Further, a work region is expanded by mounting a bending mast on the tip of the mast.

An adjustable cable fitting for a thru-arm cable of a robotic welding torch includes a female member formed of an elongated tubular body having a forward end, a rear end, and a through hole extending axially from the forward end to the rear end. The forward end includes a nose portion for connection to a welding cable. A male member is cooperable with the female member in a telescoping manner. The male member includes a shaft received in the through hole of the female member, a receiver connected to the shaft for receiving a power pin, and a through hole extending axially through the shaft and receiver. A nut is disposed on the shaft for locking a position of the shaft relative to the female member. Adjustment of a disposition of the male member relative to the female member varies an effective length of the power cable.

The disclosure provides systems and methods for mitigating slip of a robot appendage. In one aspect, a method for mitigating slip of a robot appendage includes (i) receiving an input from one or more sensors, (ii) determining, based on the received input, an appendage position of the robot appendage, (iii) determining a filter position for the robot appendage, (iv) determining a distance between the appendage position and the filter position, (v) determining, based on the distance, a force to apply to the robot appendage, (vi) causing one or more actuators to apply the force to the robot appendage, (vii) determining whether the distance is greater than a threshold distance, and (viii) responsive to determining that the distance is greater than the threshold distance, the control system adjusting the filter position to a position, which is the threshold distance from the appendage position, for use in a next iteration.

A robot in an embodiment includes a robot body, an end effector, a cable, and one or more coupling portions. The end effector is connected to the robot body. The cable is composed of a plurality of sub cables, arranged along the robot body, and connected to the end effector. Each of the coupling portion is provided between one sub cable and an adjacent sub cable of the sub cables to couple the one and adjacent sub cables together.

Example embodiments relate to surgical systems having end-effector assembly, first and second arm assemblies, and elbow joint assembly. End-effector assembly includes instrument assembly and wrist assembly. Instrument assembly includes a first instrument. First arm assembly includes a body, first and second instrument drive assemblies, wrist drive assembly, and first arm drive assembly. First instrument drive assembly is configurable to move first instrument relative to first axis. Wrist drive assembly is configurable to move instrument assembly relative second axis. First arm drive assembly is configurable to rotate end-effector assembly relative to third axis. Elbow joint assembly includes elbow pitch joint portion configurable to be driven to move first arm assembly relative to fourth axis. Elbow joint assembly also includes elbow sway joint portion configurable to be driven to move first arm assembly relative to fifth axis.