Abstract: A method and apparatus for automatically calibrating the precise positioning of a wafer handling robot relative to a target structure is disclosed. The apparatus comprises a machine controller connected to robot having an end-effector with three degrees of movement. The controller has a memory with stored rough distance and geometrical data defining the general location of structural features of the target structure. The robot is programmed to move toward the target structure in a series of sequential movements, each movement culminating with the robot end-effector touching a preselected exterior feature of the target structure. Each touching of the end-effector is sensed and provides data for the controller which then calculates the precise location of the target structure. The data accumulated during a series of touching steps by the robot end-effector is utilized by the controller to provide a precise calibrated control program for future operation of the robot.

Abstract: A burden loading robot includes a loading portion installed in a robot main body and a balancer for offsetting off-center loading of weight of the loading portion. The loading portion includes a loading plate which can be moved away from a fixing portion to a loading position outwards from the robot main body. When the loading plate is moved to the loading position, the balancer moves to the direction reverse to that of the loading plate at the same time. Thus, off-center loading of weight generated when a burden is loaded on the loading plate is offset by the balancer, to accordingly avoid the robot from falling down.

Abstract: A substrate processing apparatus comprises a substrate transfer section, connection modules attached to the substrate transfer section, and a first substrate transfer robot in the substrate transfer section capable of transferring substrates to the connection modules. The connection module comprises a substrate processing chamber, first and second intermediate chambers between the substrate processing chamber and the substrate transfer section. The second intermediate chamber is provided with a first substrate holder, the substrate processing chamber is provided with a second substrate holder, and the first intermediate chamber is provided with a substrate transfer device capable of mounting a plurality of the substrates held being stacked in the vertical direction by the first substrate holder, onto the second substrate holder such that the substrates are arranged side by side in the horizontal direction.

Abstract: A robot apparatus having no need for securing a space for installing both a robot movable section and a robot controller. The robot apparatus includes a frame having strength enough to support the robot movable section, and containing the robot controller therein. The robot movable section is installed on the frame. The robot controller and the robot movable section are electrically connected to each other via a coupling cable passing through a hole formed inside. Over the base of the robot movable section, first, second and another arms are provided via rotating mechanism portions. The distal end of the third arm constitutes a wrist portion of a robot. Various types of hands are attached to this wrist portion. Thus, the robot movable section can be installed on the frame containing the robot controller.

Abstract: A device for moving a rod body in a space includes a frame and connecting arms connected to the frame and having at least two degrees of freedom. The rod body is pivotably connected to the connecting arms. At least one drive is connected to each one of the connecting arms for controlling an active degree of freedom. The rod body has a first end point and a second end point. The first end point defines a spatial position within the space. The first and second end points together define the orientation of the rod body in the space. The connecting arms serve to control the first and second end points.

Abstract: A multiple degrees of freedom vibration actuator capable of motion around multiple axes. The vibration actuator includes a vibration element having drive force output members, and a relative moving member having a curved surface. The curved surface contacts the drive force output member To generate relative motion of the relative moving member with respect to the vibration element. The vibration element includes a frame shaped elastic member having the drive force output members attached thereto, and having electromechanical converting elements contacting the elastic member. When the electromechanical converting elements are excited by a drive voltage, vibrations are generated in the elastic member to produce a drive force which is transmitted To the relative moving member via the drive force output members. The vibration element can be controlled to generate relative motion in various axis directions by selectively controlling the electromechanical converting elements which are excited by a drive voltage.

Abstract: A process and apparatus is provided for imparting linear motion to tooling. The tooling is attached to a manipulator device having two different length arms. The tooling may be moved linearly from a first point to a second point by adjusting the angles of the first and second arms for a number of intermediate points extending along a straight line between the first and second points and along which the tooling passes.

Abstract: A multi-blade wafer handling device is provided to concurrently move two or more wafers through a vacuum processing system. The wafer handling device includes two motors magnetically coupled into a transfer chamber to move an arm assembly connected to a dual blade assembly. The preferred wafer handling device includes a first rotating member operated by the first motor, a second rotating member operated by the second motor, a blade assembly having at least first and second wafer blades wherein the wafer blades are co-planar, and an arm assembly connecting the first and second rotating members to the blade assembly.

Abstract: The present invention provides a robot assembly for transferring objects, namely substrates, through a process system. A robot linkage is provided to a multi-plane, multi-arm robot assembly driven by two motors. In one embodiment, a linkage is provided which is driven by two magnetic retaining rings. In another embodiment, a linkage is provided which is driven by three magnetic retaining rings, two of which are coupled to the same motor. Both embodiments enable a substrate shuttle operation to be performed wherein a pair of substrates can be shuttled into and out of a selected chamber without having the robot assembly rotate in the transfer and by actuation of only two motors.

Abstract: To aid a medical practitioner in positioning a surgical instrument or implant when performing surgery on or examining portions of a patient, patient data is developed which identifies the position and orientation of the portion to which surgical procedures or examinations are to be applied. The position and orientation of the instrument or implant is sensed and instrument data is developed from this sensing. The patient data is converted to objective signals to be displayed on a video display, and the instrument data is converted to instrument signals for presenting the position and orientation of the instrument or implant on the same display. Thus, by watching the display, the medical practitioner is aided in manipulating the insrument or implant relative to the portion.

Abstract: A treatment system is disclosed, which has a treatment apparatus for performing a predetermined treatment for a planar workpiece contained in a carrier, and a first air-tight carrier storage chamber for storing the carrier. The treatment apparatus has an air-tight second carrier storage chamber. An inert gas supply pipe and an exhaust pipe are connected to each of the treatment apparatus, the first carrier storage chamber, and the second carrier storage chamber. An open/close valve and an open/close device are connected to each of the inert gas supply pipes and the exhaust pipes.

Abstract: The present invention provides an apparatus for controlling the angular positioning and stiffness modulations of a joint of a robotic manipulator by use of first and second motors and a control mechanisms. The first motor, preferably a direct current motor, controls angular positioning, while the second motor, preferably a servo motor, controls stiffness modulations. The angular positioning and stiffness modulations take place simultaneously, yet independently, thereby preventing interference. The first and second motors and the control mechanism are positioned within a housing. The control mechanism includes a shaft support member and threaded and non-threaded shafts.

Abstract: For primary use in a storage and retrieval subsystem in a data processing system, a robotic transfer system acts to transfer selected electronic magnetic storage cartridges between their storage and transducing positions, typically between vertically stacked concentric tape storage holders and a selected tape drive. The robotic transfer system for handling tape cartridges includes two hands, each mounted on a separate vertical axis disposed at opposite ends of a balanced rotating horizontal axis, such that no tape cartridge is ever more than 90.degree. away from the nearest hand. The use of two hands also provides a redundant data retrieval capability without concentrating the weight of two hands at a single end of a revolving horizontal arm, thus reducing the moments generated by angular movement and providing for faster tape access time and greater long-term system reliability.

Abstract: A numerical control device is arranged to calculate offset curves and generate signals for the movement of tools along the offset curves. The offset curves are derived from contour data, preferably in the form of cubic splines, describing the shape of a workpiece to be machined and from an offset value. By using Hermite's formula for approximation of the offset curves by splines, the number of spline segments is minimized while limiting the deviation between the splines and the offset curve to a preset tolerance value. Even when using moderate computing power, the calculation of the splines will in most circumstances be fast enough to be performed on-line without slowing down the throughput of the machining apparatus.

Abstract: Material is uniformly applied to the entire outer peripheral surface of a rotating object by using a robot. The material is discharged toward the rotating object from a nozzle (2) of a material discharging device mounted on the distal end of a robot arm, with the nozzle moved along the outer peripheral surface of the object, e.g., a truncated cone (1), rotating at a predetermined speed. A robot control device periodically calculates coordinates (x, R, 0) in a work coordinate system (P5-XwYwZw), including a target moving position (x) of the nozzle in the direction of the rotation axis and a corresponding target nozzle moving position (R) in the radial direction which are individually expressed as a function of the time elapsed after the start of the material applying process (S12). These coordinates are converted to a robot-base coordinate system (OB-XBYBZB) (S14) and converts the result to data for respective robot axes (S15).

Abstract: A Six-Degree-of-Freedom Parallel-Manipulator having three inextensible limbs for manipulating a platform is described in which the three inextensible limbs are attached via universal joints to the platform at non-collinear points. Each of the inextensible limbs is also attached via universal joints to a two-degree-of-freedom parallel driver such as a five-bar lineage, a pantograph, or a bidirectional linear stepper motor. The drivers move the lower ends of the limbs parallel to a fixed base and thereby provide manipulation of the platform. The actuators are mounted on the fixed base without using any power transmission devices such as gears or belts.

Abstract: A Six-Degree-of-Freedom Parallel-Manipulator having three inextensible limbs for manipulating a platform is described in which the three inextensible limbs are attached via universal joints to the platform at non-collinear points. Each of the inextensible limbs is also attached via universal joints to a two-degree-of-freedom parallel driver such as a five-bar lineage, a pantograph, or a bidirectional linear stepper motor. The drivers move the lower ends of the limbs parallel to a fixed base and thereby provide manipulation of the platform. The actuators are mounted on the fixed base without using any power transmission devices such as gears or belts.

Abstract: A robot wrist with two articulation axes has a first body which is carried at the distal end of the robot arm, a second body which is supported by the first body for rotation about a first axis which intersects the longitudinal axis of the robot arm at right angles, and a third body which is supported by the second body for rotation about a second axis which intersects the first axis at right angles. The second and third bodies are rotated by two electric motors which are mounted on the first body and the second body respectively, with the interposition of "Harmonic Drive" reduction units of the type in which the output rotor is supported for rotation by a load-bearing element which forms part of the reduction unit.

Abstract: A system includes a control station for remotely controlling an animated character. Radio frequencies are used to transfer audio, video and other control signals to the animated character to provide speech, hearing, vision and practically any movement in real-time. A camera is used in the head of the animated character, and microphones are used in its ears to provide vision and hearing to a monitoring operator at the control station. A speaker is co-located with the animated character to generate sound from the operator. Servo control units are included within the animated character to provide a plurality of body movements. Other aspects of the animated character includes a multi-layer skin composite to make it appear more life-like, and an audio driver circuit for controlling the mouth of the animated character in proportion to the level of an audio signal generated at the control station.

Abstract: The invention relates to a redundant robot of the modular type permitting displacement of a terminal from an initial position to a final position. This robot comprises a succession of stages (1.sub.i-1, 1.sub.i), each constituting a platform and six actuators arranged according to a closed angular architecture, a system of sensors associated with each stage, and control means permitting determining a configuration of the robot corresponding to the final position to be attained by the terminal and remotely operating the actuators for arranging the various stages according to this configuration. The control means comprises in particular means (26) for storing the space accessible by each platform, means (25) for inputting the final position to be attained, means (27) for computing the configuration of the robot, means (28) for computing the states of the actuators and a servo-interface for the latter.

Abstract: A robotic palletizer including a vertical column, a telescoping horizontal arm mounted for vertical movement along the column and a hand assembly mounted at the end of the horizontal arm. A pair of photodetectors, movable with the hand assembly, sense the presence and location of cartons in place on a pallet being loaded and signal the palletizer when the vertical height and horizontal extension of the hand assembly are sufficient to place cartons in the proper position for loading onto the pallet. A circuit controls operation of the palletizer in accordance with the sizes and shapes of the cartons and pallets and permits limited variation of the loading pattern provided by the palletizer. Separate conveyors transport cartons to the palletizer for loading and remove loaded pallets from the palletizer upon completion of the loading cycle.

Abstract: A method and apparatus to control a robot or manipulator configuration over the entire motion based on augmentation of the manipulator forward kinematics. A set of kinematic functions is defined in Cartesian or joint space to reflect the desirable configuration that will be achieved in addition to the specified end-effector motion. The user-defined kinematic functions and the end-effector Cartesian coordinates are combined to form a set of task-related configuration variables as generalized coordinates for the manipulator. A task-based adaptive scheme is then utilized to directly control the configuration variables so as to achieve tracking of some desired reference trajectories throughout the robot motion. This accomplishes the basic task of desired end-effector motion, while utilizing the redundancy to achieve any additional task through the desired time variation of the kinematic functions.

Abstract: An actuator suitable for use in a joint device for driving a robot arm or in a subject follow-up device in a video camera, etc., is designed to have a mobility of a freedom of two degrees or more and is adapted to drive a movable part directly using first piezoelectric motor elements each of which consists of piezoelectric elements having a non-ring-like configuration and an elastic body and second piezoelectric motor elements each of which consists of at most one ring-like piezoelectric element and an elastic member. The actuator exhibits a simplified structure, is small and lightweight, provides a powerful driving power and has a wide range of mobility.

Abstract: An XYZ positioner is disclosed. The XYZ positioner provides for positioning an XY or an XYZ orientation and has a wide range of applications, such as in the medical field, for dispensing various types of fluids, as desired.

Abstract: A slider holding apparatus includes a slider holder for holding thereon a slider, and orientating means for angularly moving the slider holder on its vertical axis to adjust the orientation of the slider held on the slider holder.

Abstract: A double telescoping horizontal arm, adapted for use in a robotic palletizer, including an outer member, an intermediate member and an inner member in telescoping relationship to one another. An idler wheel, mounted to the intermediate member, simultaneously engages both the outer member and the inner member so as to rotate in response to movement of the inner member relative to the intermediate member. Rotation of the idler wheel, in turn, drives the intermediate member in the same direction as the inner member thereby resulting in a double telescoping action.

Abstract: A robot is provided with an arm having a plurality of motor driven joints. A power amplifier supplies drive current to each joint motor. Respective digital feedback control loop arrangements generate voltage commands from which signals are generated to operate the power amplifiers.Digital motor current, position and velocity feedback signals are generated for position, velocity and torque control loops in the digital feedback control loop arrangement. System resource facilities provide general support for the operation of the digital feedback control loops and include three separate communications controllers, a dual port microprocessor interfacing memory, a time stamp clock, a program memory and a nonvolatile data memory.A system level microprocessor based system or a microprocessor based position/velocity control system executes motion software from the program memory means according to whether the user desires an expanded performance robot control or a basic robot control.

Abstract: A 3-dimensional form of a sample product constituted by a plurality of parts having known forms is measured by imaging the sample product from a plurality of directions. Arrangement data representing the 3-dimensional positions and orientations of the parts constituting the sample product are obtained, by a construction detecting module, on the basis of the measured 3-dimensional form of the sample product. A task planning module sets a task for moving a part to be used for constructing a product and the sequence of the task by using arrangement data acquired by the construction detecting module. Upon generation of motion command data for controlling a robot for constructing the product in accordance with the task set by the task planning module, the generated motion command is output to a motion control module. The construction robot is controlled by the motion control module, whereby a product the same as the sample product is constructed.

Abstract: A method of positioning a tool along a circular arc. The tool is carried by an automaton which is moved through a teaching phase during which it is taught coordinates and wrist orientation angles for three reference points. The method then proceeds into a work phase in which calculations are performed to determine coordinates and wrist angles for a series of work points spaced along the circular arc defined by the three reference points. Thereafter the automaton is direction to position the tool at the calculated coordinates and orientations.

Abstract: An end effector for a robotic device is provided. The end effector is operative to follow the shape of a workpiece, despite variations of the workpiece from a specified configuration. The end effector comprises a connecting arm which is pivotally mounted relative to the robotic device. Spring assemblies urge the connecting arm toward a neutral position relative to the robotic device. A forearm is pivotally connected to the connecting arm and includes followers for following the actual shape of the workpiece. A spring is operative to urge the forearm rotationally toward the workpiece, while a piston and cylinder assembly is operative to selectively rotate the forearm against the forces exerted by the spring. A machining tool may be connected to the forearm to perform a selected machining operation on the workpiece.

Abstract: A work transfer system conveying a work basket in a programmed sequence to the processing tanks of an assembly thereof at various positions on a work bench. The system acts to transfer the basket to a selected tank and to properly orient the basket with respect to this tank before lowering the basket therein for processing for a given dwell period, at the conclusion of which the basket is hoisted from the tank and transferred to another tank where the procedure is repeated. Running parallel to the front side of the bench is a rail on which a robot rides, the robot supporting a hoist carriage which can be raised or lowered. Cantilevered from the carriage is a main arm articulated by an elbow shaft to a forearm that extends over the bench. The forearm is joined by a hand shaft depending therefrom to a hand that engages the handle of the work basket. A main arm motor acts to rotate the elbow shaft and thereby swing the forearm to a position generally aligning the basket with a selected tank therebelow.

Abstract: An expandable and contractable arm is constituted by a plurality of expandable and contractable units and connecting devices including universal joints for serially interconnecting the units into the arm. Each unit includes at least three expandable and contractable operating members in the form of link mechanisms or double thread type expandable and contractable rods, and actuating devices for equally or unequally expanding and contracting the operating members so as to increase or decrease distances between the connecting members while maintaining them in parallel or inclined with respect to each other.

Abstract: A robotic positioning device has a support structure and a tool implement holding member which is positional within the three dimensional space of the support structure. The tool implement holding member is connected to the support structure utilizing five positioning members. Each of these positioning members is connected to the tool implement holding member. Three of the positioning members are connected to the holding member at a first common center of rotation and the other two positioning members are connected to the holding member at a second common center of rotation. Each of the positioning members is attached to the support structure utilizing a connecting member which allows for the positioning member to freely pivot with respect to the support structure and additionally allows the member to move with respect to the support structure axially along an axis of the member. This is accomplished by moving the members axially toward or away from the support structure.

Abstract: An elongate main body section of the manipulator has its opposite ends respectively connected to a base section and an object support section. The main body section consists of elongate flexible rod members extending in generally parallel spaced relationship to each other and to the central axis of such section. The lower end portions of the rods are driven by drive mechanisms within the base section to selectively cause the main body section to undergo extension/retraction, bending and/or twisting movement in desired directions. The rod members may be resiliently flexible throughout their entire extent, or may be comprised of rigid sections interconnected by elastomeric joints. In one embodiment the drive mechanisms imparts rotation to the lower end portion of each rod member to produce twisting of the main body section, while in another embodiment axial movement imparted to the rods is reacted by an object support section having relatively moveable components to produce the twisting movement.

Abstract: A digital linear actuator includes a plurality of digital actuator cells each connected to the next in sequential fashion. Each of the digital actuator cells contracts or expands a predetermined amount along an expansion/contraction axis when it is actuated by a corresponding digital signal. Each digital actuator cell includes an inner portion containing a medium which expands or contracts in response to a digital signal. The inner portion is disposed within an outer portion that contracts in the direction of the axis in response to expansion of the inner portion, and expands in the direction of the axis in response to contraction of the inner portion. The device is useful in simulating the behavior of a muscle in a prosthetic device. Several embodiments of the invention are disclosed in which an arm can be extended to and retracted from a snake-like configuration. Another embodiment of the invention is disclosed which effectively simulates a shoulder and arm mechanism.

Abstract: An expandable and contractable arm is constituted by a plurality of expandable and contractable units and connecting devices including universal joints for serially interconnecting the units into the arm. Each unit includes at least three expandable and contractable operating members in the form of link mechanisms or double thread type expandable and contractable rods, and actuating devices for equally or unequally expanding and contracting the operating members so as to increase or decrease distances between the connecting members while maintaining them in parallel or inclined with respect to each other.

Abstract: Provided is a system for setting a workpiece Cartesian coordinate system in a robot. In teaching the nose position (TCP) of a working member (tool) mounted on the hand of an articulated robot, the user moves the tool mounted on the hand to teach a reference point, any point on a predetermined axis and a third point defining a plane together with the other two points, whereupon a single coordinate system is specified by the position data indicative of these three points P1, P2, P3. A plurality of tool coordinate systems having a fixed relationship to the reference coordinate system of the robot can be set.

Abstract: A method and apparatus for kinematic parameter identification of an industrial manipulator having either revolute or prismatic joints. The identification of individual kinematic parameters is called the arm signature of a robot. Through the identification and detailed measurement of mechanical features in a robot, kinematic features, i.e. the planes of rotation and centers of rotation for revolute joints and lines of translation for prismatic joints are identified. These three features contain the essential information to formulate a complete robot kinematic model.

Abstract: An industrial robot arc control method subjects the position of a working member to circular-arc control by interpolation while controlling the target angle of the working member with respect to a surface to be worked, which working member is mounted on the wrist of an industrial robot. The industrial robot circular arc control method includes obtaining corresponding points (P1, P2 . . . ; Q1, Q2 . . . ;) of the tip and base of the working member (TC) at plural taught points for circular-arc control of the tip of the working member, which is mounted on a wrist (HD) of the robot, finding interpolated points of the tip and base of the working member by interpolation from the corresponding taught points, and obtaining command quantities for the motion axes of the robot from the interpolated points.

Abstract: An apparatus connected to an arm in a robot system removes injection molded and die cast products while compensating for the load on the piston rods of the apparatus. A chuck for grasping the products is moved up and down by a pair of pneumatic cylinders on a frame and intermediate frame. The pneumatic cylinders carry the load of the various elements of the apparatus. In order to eliminate variations in the load carried by the cylinders and absorb the shock at the ends of the cylinder strokes, the apparatus includes surge tanks connected to the cylinders. Compressed air is provided through the surge tanks to provide an upward pressure offsetting the load on the cylinders.

Abstract: A manipulator robot, particularly for transferring sheet metal elements from one pressing station to the next pressing station of a pressing line, includes a manipulating arm articulated to a base structure which is rotatably mounted for swivelling about a vertical axis on one end of a support lever the opposite end of which is rotatably mounted above a vertical axis on a fixed base. Electric drive motors are provided for effecting rotation of the support lever and of the base structure of the manipulating arm at speeds having a controlled ratio to each other and in opposite directions so as to move the element to be conveyed along a desired path at any desired speed and acceleration. An element pickup device is secured to the free end of the manipulating arm by means of a wrist joint which allows the pickup device to rotate about a longitudinal and a transverse axis of the manipulating arm.

Abstract: Fuel handling apparatus for transporting fuel elements into and out of a nuclear reactor and transporting them within the reactor vessel extends through a penetration in the side of the reactor vessel. A lateral transport device carries the fuel elements laterally within the vessel and through the opening in the side of the vessel, and a reversible lifting device raises and lowers the fuel elements. In the preferred embodiment, the lifting device is supported by a pair of pivot arms.

Abstract: A compact industrial robot for mounting on a lathe includes a traveling body transported along an axis (Z axis) parallel to the axis of a spindle provided on a lathe, a column provided on the traveling body for extending and retracting in a vertical direction (Y axis), a first rotating mechanism provided on the column for rotation about an axis (C axis) parallel to the spindle axis, and a second rotating mechanism provided on the rotary shaft of the first rotating mechanism and having a hand. The hand, having a double-hand configuration, is swung by the first rotating mechanism in a plane orthogonal to the spindle axis, and is swiveled by the second rotating mechanism about the longitudinal axis (.alpha. axis) of the second rotating mechanism.

Abstract: An articulated joint, for example in a robot arm, has a braking device which can brake movement in the joint when desired, so that forces transmitted across the joint are not transmitted through the mechanism which moves the arm. The braking device has an annular expandable, for example tubular, element which is positioned between concentric facing surfaces on either side of the joint, i.e. on the arm and on the part of the robot to which the arm is articulated. Hydraulic pressure can be applied to the expandable element to cause it to expand and lock together the concentric surfaces.

Abstract: A dual axis gripper for use with a robot arm having a rotatable wrist is provided with a first and second gripper. A bracket couples the first gripper to the robot arm in line with an axis about which one form of robot wrist rotation occurs. The bracket also couples a second gripper to the robot arm perpendicular to the first axis of rotation. The wrist rotation also includes rotation about a horizontal axis perpendicular to the first axis of rotation. Both the grippers are provided with a fixed jaw and a linearly actuated movable jaw so that both grippers form compliant type grippers. By rotating the grippers through the first axis of rotation and about the second axis of rotation, the two grippers may interchange positions and are capable of moving parts between any locations within a defined work envelope adjacent the end of the robot arm.

Abstract: A manipulator arm consisting of a plurality of annuli joined together by lengths of tubing having circumferential corrugations, two longitudinal webs extending the length of the manipulator arm and diametrically spaced with respect to the annuli, the webs being adapted to be flexible in a first plane but stiff in a second plane at right angles to the second plane, and so positioned that the first planes of the webs are coincident thereby to render the manipulator arm flexible in the first plane but stiff in the second plane, and means for causing the manipulator arm to flex in the first plane.

Abstract: A robotic apparatus and method of acquiring jumbled objects or workpieces from a bin, and transferring them to a final site, or to an intermediate site for quality inspection. A video camera system produces a video signal representing a brightness image of the jumbled objects. An intermediate amplitude range of the video signal is selected, expanded, stored, and quantized into digital pixels. A computer enhances the image using histogram techniques, performs edge suppression, performs repeated shrinking with progressively-increased pixel thresholds until an area limit is reached, performs clustering of closely-spaced pixels, and commands movement of the robot gripper to a computed grip site on a recognized object. The gripper may limit its gripping pressure as a function of the deformation of the object gripped.

Abstract: Telemanipulator for operation in a waterbox of a steam generator for attachment underneath the tubeplate of the latter. The device has expandable grippers mounted on arms carried by a bearer unit, for engaging and locking as required in the orifices in the tubeplate, with means enabling independent movement of the apparatus underneath the tubeplate while remaining always suspended by at least two grippers. The bearer unit has four independent arms each equipped with two expandable grippers, and on the portion of it opposite from the tubeplate it supports an arm having a number of members hinged together, the end member of the arm being equipped with tool attachment means, the whole of the arm being in turn revolvable about the axis of the unit perpendicular to the tubeplate, with remote-controlled means for adjusting and maintaining the angular position of the arm with respect to the bearer unit and the angular position of each of the members of the arm relative to one another.

Abstract: A method and apparatus for determining the relative positions of a first object (1) and a second object (3). The method comprises illuminating the first object (1) so as to produce a shadow (17) of the first object on a surface (15) lying at a known position with respect to the second object (3) and forming a two dimensional image of a scene including the surface (15). The distance between the position of the shadow (17) and a reference position (19) in the two dimensional image is monitored, and this distance is used to derive information relating to the relative positions of the first object (1) and the second object (3).

Abstract: A device for the manipulation of workpieces or the like has a stepping transmission with a click-stop setting and located in a gearbox and it regulates two reciprocal motions of the workpiece holding mechanism through cam plates fastened to a drive shaft. A first motion is that of a carriage sliding on the gearbox housing and a second motion is that of a holder guided on the carriage for movement essentially perpendicular to the first motion. Two pair of complementary cam plates is provided on the drive shaft for each motion for the purpose of greater precision of the reproducibility of the prescribed motions. The first pair of complementary cam plates is coupled to the carriage through a first control shaft and a crank assembly consisting of a crank and a coupling, while the second pair of complementary cam plates operates in combination with the holder through a second control shaft. The crank and the coupling in the click-stop setting of the stepping transmission are in a dead center position.