Abstract: A robot includes, a holding unit configured to hold an object, an image pickup unit, and a predetermined first portion of the robot. The image pickup unit picks up images of the holding unit and the object using the first portion as a background.

Abstract: A tool and method for cleaning the interior of a freight container of ISO type. The tool having a framework, a robot movably connected to the framework and provided with a nozzle for supplying dry ice. The robot and the nozzle are adapted to clean the interior of the container by means of dry ice blasting. An actuating unit is arranged to move the robot between the framework and the interior of the container. The tool is a portable unit and has a size and a design that allows a truck adapted for gripping and carrying freight containers of ISO type to grip and carry the tool in order to move the tool to and from the container to be cleaned.

Abstract: A robot includes a robot arm, a force sensor, and a control unit configured to control the operation of the robot art. The control unit initializes the force sensor while the robot arm is moving at uniform speed. It is preferable that the control unit initializes the force sensor while the robot arm is moving at the uniform speed and the amplitude of a detection value of the force sensor is smaller than a threshold.

Abstract: A robot system includes an end effector, a robot arm, and a controller. The end effector includes a pressure roller and a linear motion mechanism. The linear motion mechanism is configured to move the pressure roller with respect to a pressed surface. The robot arm is configured to support the end effector. The controller is configured to control the linear motion mechanism to move the pressure roller to make a pressing force of the pressure roller against the pressed surface approximately uniform.

Abstract: A robotic cooking apparatus that can cook dishes using a computer recipe provided by a user and ingredients stored in it. Able to adjust the recipe based on user preference data. Cooking apparatus comprises of ingredient input section, cooking stations, pre-processing and post-processing station. Input section has trays and can be at room temperature or refrigerated for storing perishable ingredients. Robot head assembly is able to transfer ingredients, identify and measure as well as take inventory periodically. Cooking apparatus is connected to a network and can be operated remotely by a fixed or handheld device and monitor its operation remotely.

Abstract: Devices and methods for providing power to tools when the tools are not attached to a robotic device. The power source may be an energy storage device that is attached to a tool frame of a tool cluster. The power provides for the tools to be maintained in a ready state which expedites and/or eliminates the initiation process when the tools and the tool cluster are subsequently reattached to the robotic device. This reduces the time necessary for the tools to be used in the assembly process thereby increasing the efficiency of the tooling system.

Abstract: A surgical system includes a manipulator, an implantable actuator and a controller. The manipulator includes a plurality of integrated sensor/actuators. The sensors of the sensor/actuators are adapted to detect movement about a plurality of axes of movement. The implantable actuator includes a plurality of joints providing a plurality of axes of movement. The controller is configured to receive information from the plurality of sensor/actuators that indicates movement of the manipulator about the plurality of axes and to cause the joints of the actuator to move along corresponding axes of movement. Each sensor/actuator of the manipulator detects movement about an axis of movement corresponding to a similar one of the joints of the actuator.

Abstract: A pivot port that can provide a pivot point for a surgical instrument. The pivot port may be held in a stationary position by a support arm assembly that is attached to a table. The pivot port may include either an adapter or a ball joint that can support the surgical instrument. The pivot port allows the instrument to pivot relative to a patient.

Abstract: A system for providing animal maintenance includes a housing operable to accommodate an animal, an actuating arm coupled to the housing and to an attachment device, the attachment device is operable to perform one or more animal maintenance tasks, and the actuating arm is operable to apply the attachment device to the animal, a position sensor operable to determine the position of the animal relative to the position sensor, a restraint is operable to restrict the movement of the animal within the housing, and a processor communicatively coupled to the position sensor, the actuating arm, and the attachment device, the processor is operable to receive measurements from the position sensor and, in response to the received measurements, direct the actuating arm to apply the attachment device to the animal.

Abstract: A robotic end effector system and method having a plurality of end effectors which are selectively suitable for particular applications on a workpiece. The end effectors include a resident controller adapted to execute tasks specific to the end effector and are rapidly attachable and removable from the robot for easy change over to different workpieces.

Abstract: A brick laying system where an operator such as a mason works proximate a moveable platform having a robotic arm assembly, a mortar applicator with a mortar transfer device, and a brick transfer device to build structures. The robotically assisted brick laying system may also contain a stabilizer having a disturbance sensing and a disturbance correcting component that provides compensation for disturbances caused by load shifting, movement of the platform, wind, operator movement, and the like. In addition, the robotically assisted brick laying system has a sensing and positioning component for controlling placement of the moveable platform and robotic arm assembly. The interoperability of the system with a mason or skilled operator removes much of the manual labor component of brick laying, allowing the mason more time to focus on craftsmanship and quality, thus improving the end product and the overall working conditions of the mason.

Abstract: The present invention relates to a device for processing carcasses of livestock such as cattle, pigs and sheep, comprising: at least two dressing tools for performing a dressing process on livestock carcasses, and a robot arm carrying the dressing tool. The invention also relates to a method for processing carcasses of livestock using such a device.

Abstract: A window processing system and method for use in fabricating window frames or sashes. The system includes an articulating arm having a plurality of members and arms to allow movement about multiple axes defined by the articulating arm. The system further includes a tool support fixture assembly coupled to an outermost member of the plurality of members, the tool support fixture assembly includes a plurality of tools for performing cleaning operations on a window frame or sash during use.

Abstract: A robot system includes a robot that includes arms each including multiple joints, a controller configured to control an operation of the robot, and a tip stocker configured to supply a tip box with a pipette tip attached to and detached from a pipette with an operation of the robot. In addition, the tip stocker includes a movable member configured to be movable in accordance with an operation of the robot.

Abstract: A minimally-invasive surgical system includes a slave surgical instrument having a slave surgical instrument tip and a master grip. The slave surgical instrument tip has an alignment in a common frame of reference and the master grip, which is coupled to the slave surgical instrument, has an alignment in the common frame of reference. An alignment error, in the common frame of reference, is a difference in alignment between the alignment of the slave surgical instrument tip and the alignment of the master grip. A ratcheting system (i) coupled to the master grip to receive the alignment of the master grip and (ii) coupled to the slave surgical instrument, to control motion of the slave by continuously reducing the alignment error, as the master grip moves, without autonomous motion of the slave surgical instrument tip and without autonomous motion of the master grip.

Abstract: A sample processing system 101 that may be automated and methods are disclosed where sample(s) 198 are arranged on a carrier element 197 and a process operation control system 171 automatically processes the sample(s) perhaps robotically according to an desired aggregation of event dictated by an input 173. Alteration of an initial aggregated event topology may be accepted while the system is processing an initial aggregation and varied-parameter robotic control simulation functionalities 606 may be accomplished to determine an enhanced sequence for processing. Suggested operator actions may be displayed that might further enhance the scheduling of the altered aggregated event topology together with an automatic operator need prompt 608 that may inform an operator of a need for a particular action in order to accomplish the desired tasks.

Abstract: A Robotic Roof Ventilation Apparatus that preforms the process of roof ventilation to protect the lives of firefighters. By keeping the firefighters off the roof of a burning building this robot completely changes the current process of roof ventilation as it provides a reliable way for firefighters to preform roof venation without any risk or loss of life.

Abstract: A drilling system includes a drilling machine, configured to drill a hole in a work piece along a drilling axis, a deployment mechanism, attached to the drilling machine, a measuring probe, attached to the deployment mechanism, and a controller, coupled to the drilling machine, the measuring probe, and the deployment mechanism. The measuring probe is configured to produce a signal indicative of an actual geometric parameter of the hole when inserted therein. The deployment mechanism is configured to selectively align the measuring probe along the drilling axis. The controller is configured to cause insertion of the measuring probe into the hole, and to receive the signal from the measuring probe.

Abstract: A system includes a first platform movably mounted to a first rail assembly, a second rail assembly coupled to and supported by the first platform, and a second platform movably mounted to the second rail assembly. At least one articulating arm is coupled to the second platform, and a gripping and cutting apparatus is coupled to and supported by the at least one articulating arm. An apparatus includes first and second gripping mechanisms each configured for selective actuation between positions for gripping and releasing an object, and a cutting mechanism positioned generally between the first and second gripping mechanisms, and configured to cut the object when gripped on either side by the gripping mechanisms. The system and apparatus can be used to remove feeder pipes of a nuclear reactor power plant.

Abstract: A screw fastening device (10) includes a base part (11), an extended part (12) with one end (12a) which is attached to the base part in a pivotable manner, a tool part (13) which is fastened to another end (12) of the extended part and makes a screw which is engaged with its front end rotate, a pushing mechanism (15) which pushes the tool part against the screw (14) through the extended part in an axial direction of the screw, a guide part (16) which is fastened to the base part and has an arc shaped part, a torque generating part (17) which generates a torque which makes the extended part rotate along the arc shaped part in a fastening direction of the screw, and a first detection part (18a) which detects when a reaction force of a predetermined value or more acts against the torque generating part.

Abstract: The invention refers to a method for an automated provision of a monitoring function for a processing process which is to be performed by an industrial robot, wherein the method comprises the following steps: (a) analyzing a computer aided manufacturing (CAM) program of the processing process with respect to processing steps which are to be monitored by means of a post processor; and (b) inserting at least one monitoring instruction which is executed when performing the processing process into a control program of the industrial robot by means of the post processor.

Abstract: A robot control apparatus includes a storage section, a display control section, and a work program preparation section. The storage section associates information of work performed by a robot with a template to prepare a work program indicating content of the work, and stores the information in association with the template. The display control section controls a display section to display, in order, setting windows respectively corresponding to work steps of the work. In response to an operator selecting the work, the work program preparation section prepares the work program indicating the content of the work selected by the operator based on the template corresponding to the work selected by the operator and based on setting information that the operator inputs on at least one setting window among the setting windows.

Abstract: A robot includes a gripping section and a main body section to which the pair of finger sections are attached, having one end sections of the pair of finger sections rotatably connected to each other around a first rotating shaft disposed at a position separate from the main body section, and adapted to open and close the pair of finger sections by swinging the other side of the pair of finger sections on a plane parallel to a mounting surface on which an object is mounted centered on the first rotating shaft to thereby grip the object, a moving device adapted to relatively move the object and the gripping section, and a control device adapted to control the moving device to move the gripping section relatively toward the object, and grip the object with the gripping section at at least three contact points.

Abstract: Apparatus and method for handling a fluid-tight flange coupling between a first and a second conduit component while maintaining the fluid integrity of the coupling. The apparatus includes a gripping mechanism configured to straddle the flange coupling and grip both of the first and second conduit components. The gripping mechanism is mounted on a lifting frame able to bear the loadings upon the gripped components during a moving operation. The apparatus includes a base frame with a gripping mechanism to receive the flange coupling. The coupled components are gripped on each side of the flange coupling to maintain the fluid integrity of the flange coupling.

Abstract: Drilling apparatus and method, the apparatus comprising: a first robot (10); a first member (30) (e.g. a pressure foot) and a drilling tool (38) both coupled to the first robot (10); a second robot (12); and a second member (52) coupled to the second robot (12); wherein the apparatus is arranged to press the members (30, 52) against opposite sides of a part to be drilled (2, 100) (e.g. an aircraft panel) so as to hold the part (2, 100) and prevent deflection of at least a portion of the part (2, 100); and the first member (30) and the drilling tool (38) are arranged such that the drilling tool (38) may drill into the portion of the part (2, 100) of which deflection is opposed from the side of the part (2, 100) pressed against by the first member (30). The robots (10, 12) may be robotic arms.

Abstract: A method for verifying completion of a task is provided. In various embodiments, the method includes obtaining location coordinates of at least one location sensor within a work cell. The at least one sensor is affixed to a tool used to operate on a feature of a structure to be assembled, fabricated or inspected. The method additionally includes, generating a virtual object locus based on the location coordinates of the at least one location sensor. The virtual object locus corresponds to a computerized schematic of the structure to be assembled and represents of all possible locations of an object end of the tool within the work cell. The method further includes, identifying one of a plurality of candidate features as the most likely to be the feature operated on by the tool. The identification is based on a probability calculation for each of the candidate features that each respective candidate feature is the feature operated on by the tool.

Abstract: A quill style drilling/milling end effector with high tool positioning accuracy, a pressure foot with fast response in force and displacement feedback, and with automatic mounting and dismounting, normality sensing, and through the tool coolant delivery.

Abstract: A deburring device includes a deburring tool for removing burrs from an object, a robot for moving an object or the tool, a force sensor for detecting force acting on the tool, and a visual sensor for detecting a position of a burr portion of the object. According to the deburring device, information regarding shape data of the burr portion and a posture of the tool is obtained beforehand based on three-dimensional data of the object. Based on the shape data and the posture of the tool, a robot program is created. In accordance with an actual burr portion detected by the visual sensor, the robot program is replaced as necessary. During the deburring, the robot is controlled according to the force control by using a detected value from the force sensor.

Abstract: The present invention is directed to a tool holder for use with a surgical robot. The tool holder includes, a rotor fixed to the tool shaft, and a stator fixed to the robot. The stator includes a magnet, and a bearing surface. The rotor includes a magnetic material that attaches securely to the tool shaft, such that the tool is in the center of the rotor. The rotor rotates against the bearing surface on the stator, allowing the tool to rotate about its axis. To exchange tools, the user exerts force on the tool until the holding force of the magnet is exceeded and the tool detaches from the stator. A new tool is introduced into the vicinity of the stator such that the magnet attracts the magnetic material on the rotor. The present invention eliminates the need to slide the tool through a shaft of the tool holder.

Abstract: An articulated instrument is controllably movable between areas of different work space limits, such as when it is extendable out of and retractable into a guide tube. To avoid abrupt transitions in joint actuations as the joint moves between areas of different work space limits, a controller limits error feedback used to control its movement. To provide smooth joint control as the instrument moves between areas of different work space limits, the controller imposes barrier and ratcheting constraints on each directly actuatable joint of the instrument when the joint is commanded to cross between areas of different work space limits.

Abstract: A robot for operating isolation switches while allowing an operator to remain outside of an arc flash zone can include a motor, bidirectional rotatable shaft, gear box, and magnet housings with magnets for engaging with metal. A first arm can be connected to the bidirectional rotatable shaft and can have a gripper. A second arm can connect to the bidirectional rotatable shaft, and can have a threadable member for depressing an interlock on the isolation switches. Stops can prevent the first arm from over-rotating. A magnetically securable controller portion can be in communication with a motor portion and remote switch operator. A remote control device can operate the remote switch operator to control and power the controller portion to operate the motor outside of the arc flash zone.

Abstract: A robot, such as a painting robot for painting components such as motor vehicle body components, is disclosed having a plurality of robot elements that are pivotable relative to each other. At least one flexible supply line may run from a proximal robot element to a distal robot element. The supply line may be axially displaceable in the proximal robot element relative to the longitudinal axis of the supply line, so that the supply line can perform an axial compensating motion during a pivot motion of the robot.

Abstract: The present invention is directed to the use and application of robotics in mining and post-mining applications, including smelting and processes associated with electrodeposition, electrorefining, cleaning, and disposal. In addition, the application of robotics includes functions associated with maintenance and operation of equipment used in mining operations.

Abstract: A numerical controller includes a numerical control unit for executing a numerical control program, a robot control unit for executing a robot program, a multicore processor having a plurality of cores, and a peripheral control LSI. The numerical control unit is assigned to one of the cores of the multicore processor and the robot control unit is assigned to one of the others. The multicore processor is connected to an internal bus of the numerical controller via the peripheral control LSI.

Abstract: A workpiece transporting apparatus includes a hand, a rotating portion for rotatably holding the hand, an arm provided in the hand and having one end provided at the rotating portion, and a holding portion provided in the hand and provided to another end of the arm for holding a workpiece, in which a center portion of the holding portion is disposed with a predetermined interval from an axial line extended from a rotational center of the rotating portion toward another end of the arm.

Abstract: A method of controlling robot motion for small shape generation is provided. The method includes the steps of: a) providing a robot having a plurality of interconnected distal links with a respective plurality major axes and a respective plurality of minor axes, the robot having a controller for moving the robot to a starting position and along a path including a series of interpolated positions to be followed relative a workpiece; b) moving the robot to the starting position; c) determining a next interpolated position on the path, wherein the robot remains fixed in position about at least one of the major axes and a location and an approach vector of the next interpolated position can be achieved; and d) moving the robot to the next interpolated position. A method where the robot remains fixed in position about all major axes is also provided.

Abstract: The present invention provides an automated steering wheel leveling system and method. Particularly, the automated steering wheel leveling system includes a machine vision, a plurality of motor cylinders, a motor, and a robot, each operated by a process PC. The machine vision photographs a steering wheel to obtain position information of the steering wheel and determines a stroke of a motor cylinder and a grip position of a gripper using the position information. The plurality of motor cylinders move a plurality of grippers to steering wheel to secure the steering wheel. The motor rotates the steering wheel in order to adjust a zero-point of the steering wheel. The robot then moves the machine vision, the motor cylinder, and the motor to the steering wheel to align a shaft of the servo motor with a shaft of the steering wheel.

Abstract: A system for inspecting an aperture is disclosed. The aperture has an axis, a design geometric parameter, an actual geometric parameter, and a depth. The system includes a first measuring probe configured to produce a signal indicative of the actual geometric parameter of the aperture when inserted therein; a deployment mechanism supporting the first measuring probe and attachable to a robotic device, the deployment mechanism configured to selectively orient the first measuring probe along the axis of the aperture; and a controller, couplable to the robotic device, the first measuring probe, and the deployment mechanism. The controller is configured to cause insertion of the first measuring probe into the aperture substantially along the axis and to receive the signal from the probe.

Abstract: A robot system includes a robot, a controller, and a laser emitter which is configured to emit a laser beam to a target workpiece and which is configured to be moved by the robot. The controller is configured to control the laser emitter to emit the laser beam based on information regarding an arbitrarily-shaped work path and movement information of the laser emitter. The controller is configured to determine whether or not a reference position of the arbitrarily-shaped work path on the target workpiece is located in a predetermined range of the laser emitter while the laser emitter is moving. The controller is further configured to control the laser emitter to emit the laser beam to the arbitrarily-shaped work path if the reference position is located in the predetermined range.

Abstract: A combination trimming/flame treatment end effector adapted for mounting to the end of a robotic arm. A trimming blade extends from a main body portion of the end effector for performing a trimming operation. The trimming blade may be mounted in an exchangeable cartridge to facilitate blade changing. Also extending from the main body portion is a flame treatment element for performing a flame treatment operation. The flame treatment element generally comprises a torch or burner. Because both the trimming blade and the flame treatment element are part of the same end effector, the robot simply manipulates the end effector such that the desired one of the trimming blade or the flame treatment element is properly positioned for use. As such, a tooling change can be avoided. While not restricted thereto, it is contemplated that an end effector of the present invention may be used to process vehicle bumper fascias.

Abstract: This device is for the formation and transfer of rows of articles. In particular, the device is for the formation of a row of articles on a layer formation table and the transfer of the row from one processing operation to another. A programmable robot and EOAT easily sweeps or pushes the load (tier) down the layer formation table returns to it's original position. A single, programmable robot performs all functions. The absolute unique end of arm tooling (EOAT) is fitted to the robot. The articles of one row are nested in the voids between articles in an adjacent row.

Abstract: A pivot port that can provide a pivot point for a surgical instrument. The pivot port may be held in a stationary position by a support arm assembly that is attached to a table. The pivot port may include either an adapter or a ball joint that can support the surgical instrument. The pivot port allows the instrument to pivot relative to a patient.

Abstract: Robotic devices, systems, and methods for use in robotic surgery and other robotic applications, and/or medical instrument devices, systems, and methods includes both a reusable processor and a limited-use robotic tool or medical treatment probe. A memory the limited-use component includes machine readable code with data and/or programming instructions to be implemented by the processor. Programming of the processor can be updated by shipping of new data once downloaded by the processor from a component, subsequent components can take advantage of the updated processor without repeated downloading.

Abstract: A method for servicing a plasma processing system. The plasma processing system may include a plasma chamber. The plasma chamber may include a top piece and a bottom piece, wherein the top piece may be disposed above the bottom piece. The method may include using a robot device to control a lift mechanism to lift the top piece from the bottom piece. The method may also include extending a first member of the robot device into the top piece to perform a first set of tasks according to a first set of service procedures. The method may also include extending a second member of the robot device into the bottom piece to perform a second set of tasks according to a second set of service procedures.

Abstract: Robotic surgical tools, systems, and methods for preparing for and performing robotic surgery include a memory mounted on the tool. The memory can perform a number of functions when the tool is loaded on the tool manipulator: first, the memory can provide a signal verifying that the tool is compatible with that particular robotic system. Secondly, the tool memory may identify the tool-type to the robotic system so that the robotic system can reconfigure its programming. Thirdly, the memory of the tool may indicate tool-specific information, including measured calibration offsets indicating misalignment of the tool drive system, tool life data, or the like. This information may be stored in a read only memory (ROM), or in a nonvolatile memory which can be written to only a single time. The invention further provides improved engagement structures for coupling robotic surgical tools with manipulator structures.

Abstract: A automation equipment control system comprises a general purpose computer with a general purpose operating system in electronic communication with a real-time computer subsystem. The general purpose computer includes a program execution module to selectively start and stop processing of a program of equipment instructions and to generate a plurality of move commands. The real-time computer subsystem includes a move command data buffer for storing the plurality of move commands, a move module linked to the data buffer for sequentially processing the moves and calculating a required position for a mechanical joint. The real-time computer subsystem also includes a dynamic control algorithm in software communication with the move module to repeatedly calculate a required actuator activation signal from a joint position feedback signal.

Abstract: A cutting apparatus for joint cutting system using robot includes a shaft combined with a motor in a part of a robot arm, a cutter having a cutting head at the end of the shaft, a sleeve in which the shaft is inserted, and a cutter support member having a sleeve base where the sleeve is fixed, characterized in that the sleeve is a standalone member of a hollow bar with a center hole and is separable from and combinable with the sleeve base. The sleeve and the sleeve base are so separable that it is possible to reinforce the strength of the sleeve, which retrains the bending force to the sleeve, though the diameter of the sleeve is minimized.

Abstract: A method for determining a spray position for a spray tool includes accessing an image signal generated by a camera, the image signal corresponding to at least an udder of a dairy livestock. The method further includes processing the accessed image signal to determine a tangent to the rear and a tangent to the bottom of the udder of the dairy livestock. The method concludes by determining a spray position from which a spray tool may apply disinfectant to the teats of the dairy livestock, wherein the spray position is a position relative to the intersection of the two tangents.

Abstract: A screw locking device includes a feeding mechanism, a conveying mechanism, and a pneumatic screw driver. The conveying mechanism includes a base, a pneumatic driver slidably mounted on the base, a pair of blocking members slidably mounted on the base, a conveying bridge, a flexible tube, and a controller. Each blocking member includes a blocking end positioned below the pneumatic driver. The conveying bridge communicates with the feeding mechanism, and extends to the blocking ends. The flexible tube aligned with a gap between the blocking ends, and communicates with the pneumatic screw driver.

Abstract: Designs for modular microsurgical robotic devices and systems are provided, which could include one or multiple master-slave units coupled to a central microscope-based suspension structure. One of the main objectives is to provide robotic assistance during tasks which require long-term user concentration and high precision. The microsurgical robotic devices pay attention to motion scaling and tremor filtration in a 6 Degrees-of-Freedom (DOF) master-slave setup with force feedback. An extra DOF is included to actuate a 1-DOF instrument tip. Embodiments of this invention can be used in the medical environment as well as in other areas such as printed circuit board repair, watch and jewelry making, laboratory tasks, or other areas which require high precision over extended periods of time.