A connection plate for a continuum arm robotic, the connection plate having a collar for connecting to a continuum arm robot and a cut out section from one end and which extends to a plurality of apertures that are present within a face of the connection plate. A continuum arm robot including a robotic arm and a connection plate wherein the robotic arm includes a connection plate that connects to the end of the distal end of the continuum arm robot through a collar, the connection plate having a cut out section that extends from one end into a plurality of apertures that the distal end of the tendons passes through.

An actuator pack for a continuum arm robot, the actuator pack including a plurality of actuator pack sections, with each section having a housing and an interface plate, each section further containing a bank consisting of a plurality actuators that are connected to their own respective drive electronics and the actuators being mounted to the housing or the interface plate and having their drive heads exposed through a hole in the interface plate, and wherein the sections of the actuator pack are configured to coupled together in one state.

A semi-automatic precision positioning robot apparatus and method for use of the same to hold, position, orient and/or move a workpiece are provided. The positioning apparatus utilizes an actuator system of a given configuration to manipulate a workpiece holding unit with multiple degrees of freedom to achieve various positions and orientations. An associated tool may further be provided to interact with the workpiece in various positions and orientations. The positioning apparatus enables an operator to obtain high degrees of maneuverability while maintaining precision and consistency in the manufacture and production of various products and components.

A robotic surgical system includes an eye gaze sensing system in conjunction with a visual display of a camera image from a surgical work site. Detected gaze of a surgeon towards the display is used as input to the system. This input may be used by the system to assign an instrument to a control input device (when the user is prompted to look at the instrument), or it may be used as input to a computer vision algorithm to aid in object differentiation and seeding information, facilitating identification/differentiation of instruments, anatomical features or regions.

A servo assembly includes a first speed reducer, a first motor, a first connecting member, a first control circuit board, a second speed reducer, a second motor, a second connecting member and a second control circuit board. The first control circuit board is electrically coupled to the first motor, and the second control circuit board is electrically coupled to the second motor. The output component of the first speed reducer and the first connecting member are coaxial and arranged along a first direction, and the output component of the second speed reducer and the second connecting member are coaxial and arranged along a second direction that is perpendicular to the first direction. The output shaft of the first motor is connected to the input component of the first speed reducer, and the output shaft of the second motor is connected to the input component of the second speed reducer.

A modular robotic snake-arm assembly is described which is animated principally by an articulated drive shaft that threads the length of the snake-arm. The articulated drive shaft is driven by a motor in the fixed base. One or more clutch mechanisms in each segment couple with the articulated drive shaft so as to cause all snake arms further from the base to reorient in either one or two angles, in either direction. Snake-arm segments can be coupled end-to-end to form a robotic snake arm of great length.

A robot includes a robot main body including an A-arm which rotates around an A-rotation axis, a B-arm which is cantilevered off the A-arm and rotates around a B-rotation axis, and a C-arm which is connected to the B-arm, to which an end effector is attached, and which rotates around a C-rotation axis. The A-arm includes a first restriction that is not exposed to the outside of the robot main body. The B-arm includes a clamp which is connected to the end effector and restricts a position of a flexible wiring or pipe, a second restriction that is not exposed to the outside of the robot main body and contacts on the first restriction, and a hole through which the wiring or the pipe is inserted. The C-arm includes a through-hole which penetrates the C-arm along the axial direction of the C-rotation axis.

In the link operating device, a distal-end-side link hub is connected to a proximal-end-side link hub so as to be changeable in position relative thereto via at least three link mechanisms. Each link mechanism includes a proximal-side end link member, a distal-side end link member, and a center link member. Position-controlling actuators and speed reduction mechanisms are provided to two or more of the link mechanisms. The proximal-side end link member includes a bent portion and a pair of rotational connection bodies disposed at one end of the bent portion. The speed reduction mechanism is disposed between the pair of rotational connection bodies, and includes an output shaft fixed to one of the rotational connection bodies, and an input shaft rotatably supported by the other one of the rotational connection bodies.

A portable dry chemical delivery robot comprised of a cart, a hoist mounted to the top brace; a moveable hopper with a flared inlet tapering to an outlet and connected to the hoist and contained within the cart, a screw conveyor connected to the outlet of the moveable hopper, a motor with transmission connected to the screw conveyor with a remote power supply, a flow controller connected to the motor for regulating operation of the screw conveyor, the flow controller being in communication with a network for providing both local and remote control of the screw conveyor from at least one client device connected to the network.

A combined rope-rod-driven parallel palletizing robot, comprises a chassis, wherein, a base driving mechanism is arranged on the chassis, a torque transfer mechanism is mounted on the base driving mechanism, a top gearbox is mounted on the top of the torque transfer mechanism, a gib arm is movably connected to the top gearbox, and a mechanical arm end tool is arranged on the movable end of the gib arm to operate a work object; the robot further comprises three steel wire rope drivers and three corresponding steel wire ropes, the three steel wire rope drivers are located on the chassis and evenly distributed around the base driving mechanism. In the present invention, the top gearbox and the torque transfer mechanism are driven by a rope to execute two-freedom spatial movement, so as to do palletizing work in a bigger work space.