Abstract: There is provided a multi-finger hand device which can perform smooth bending and stretching operations of finger mechanisms in holding work of an object or the like while reducing the number of actuators as driving sources of the bending and stretching operations of the finger mechanisms. Wires 29a and 29b, and wires 30a and 30b extending from the finger mechanisms 2b to 2e biased to the stretching side by springs 16 or the like are joined to joining element 32 and 33, respectively. A wire 31 provided extensionally from the finger mechanism 2a is wound onto a pulley 36 and drawn from the base side of the hand 3. The joining elements 32 and 33 are rockably held by a holding element 43 via spindles 44 and 45. The holding element 43 is provided movably and rockably around a spindle 42. The pulley 36 is held by the holding element 43 and moves together with the holding element 43. By pulling the wire 31, the bending operations of the finger mechanisms 2a to 2e are performed collectively.

Abstract: The fastener to shaft insertion tool is disclosed which consists of a shaft holding member, a fastener insertion member, and force transmitting member. The fastener holding member facilitates the holding of the fastener and the application of forces to the fastener necessary for its proper insertion onto a shaft. Forces are provided to the fastener holding member by way of a hydraulic or pneumatic actuator. The fasteners are inserted adjacent a ring or gear being coupled to the shaft.

Abstract: A method for controlling a parallel kinematic mechanism machine and control device therefor, which includes the steps of (1) obtaining each actuator command based on kinematic parameters; (2) calculating loads exerted by the weight of each component of a machine; (3) obtaining loads in the direction of axis of each actuator; (4) decomposing loads in the direction of axis of each strut into directions of axes of the first and second universal joints; (5) obtaining the amounts of elastic deformation of each element; (6) converting approximately the amounts of elastic deformation of each universal joint to displacement in the direction of axis of each actuator; (7) subtracting displacement in the direction of axis of each actuator obtained at steps (5) and (6) from each actuator command to renew each actuator command, and controlling the machine according to each renewed actuator command.

Abstract: Systems and methods for performing robotically-assisted surgical procedures on a patient enable an image display device to provide an operator with auxiliary information related to the surgical procedure, in addition to providing an image of the surgical site itself. The systems and methods allow an operator to selectively access and reference auxiliary information on the image display device during the performance of a surgical procedure.

Abstract: Electric tweezers 1 includes a gripping member 13 for releasing/gripping an object, a base member 11 having an engagement portion to be engaged with the one end portion of the gripping member, a holder member 62 for fixedly coupling one end portion of the gripping member 13 and having a penetrating hollow cylindrical portion, a switch 57 for rotating and stopping a motor, a transformation mechanism 30 coupled with a shaft 52a of the motor 52 for transforming a rotation of the motor 52 in one direction into a quantity of translational displacement in a predetermined reciprocating direction with respect to the other end portion 13g of the gripping member, and an attaching section for attaching the base member 11 to a plurality of different positions relative to the holder member 62.

Abstract: A robotic system that moves a surgical instrument in response to the actuation of a foot pedal that can be operated by the foot of a surgeon. The robotic system has an end effector that is adapted to hold a surgical instrument such as an endoscope. The end effector is coupled to a robotic arm assembly which can move the endoscope relative to the patient. The system includes a computer which controls the movement of the robotic arm in response to input signals received from the foot pedal.

Abstract: A robot with an edge detector and two operating modes. The first operating mode is a remote control mode. The second operating mode is a processor controlled mode.

Abstract: Diode-type nanotweezers including a first arm and a second arm that project from a holder and are opened and closed by an electrostatic force so as to hold a nanosubstance. The first arm is formed by a gate nanotube fastened at its base end to the holder, and its tip end protrudes from the holder. The second arm is formed by a nanotube diode fastened at its two base ends to the holder and have a diode characteristic portion at its tip end. Diode current and diode voltage applied between the base ends of the arms shows a non-linear diode characteristic such as varistor and rectification. When a gate voltage is applied between the gate nanotube and the nanotube diode, the arms are controlled and a grip strength for a nanosubstance held by the arms is detected by changes in the gate voltage or the diode current.

Abstract: The present invention is a gripper comprising a motor 12 for driving a connecting nut 126 that is translated, a gripping finger 103 having at least two sides of substantial V shape and a shared portion 103g for joining one ends of the two sides, and provided with the other ends of the sides, a base member 110 with a notch 110c for engaging the other end portion of the gripping member 103, a holder member 145 having a groove 145e for engaging the base member 110 detachably and the hollow portions 145m and 145h that are penetrated, and a magnetic member 128 composed of a permanent magnet inserted into the hollow portions 145m and 145h of the holder member 145, with one end connected to the connecting nut 126, and the other end magnetically connected to the shared portion 103g of the gripping finger 103.

Abstract: A method for regulating a device used for fixing aircraft airframe pieces in connection with assembly of airframe parts, where the device consists of a rig comprising a matrix of rails that can slide in such a way that a number of fixing elements attached to the rails can be positioned freely along three co-ordinates x, y, z in space within a given volume, where a manipulator grasps a fixing element after which the fixing element is moved by the manipulator to the given co-ordinate, and where the rails on which a fixing element is arranged is locked in relation to the rig by an automatic locking function initiated by the manipulator, thereby fixing the fixing element's position in space and the setting procedure is repeated for a predetermined number of fixing elements on the rig.

Abstract: A robotic arm and hand for imitating the human hand. The robotic arm and hand includes a motor member being coupled to a frame member. The motor member is designed for being operationally coupled to the control system and a power source whereby the control system is for controlling power from the power supply to the motor member. A drive assembly is operationally coupled to the motor member whereby the drive assembly is rotated by the motor member. A plurality of cable assemblies are coupled to the drive assembly whereby each of the cable assemblies is actuated by the drive assembly when the drive assembly is rotated by the motor member. A plurality of phalange assemblies are coupled to the cable assemblies. Each of the phalange assemblies is designed for being moved like the fingers of a human when the cable assemblies are actuated by the drive assembly.

Abstract: To provide nanotweezers and a nanomanipulator which allow great miniaturization of the component and are capable of gripping various types of nano-substances such as insulators, semiconductors and conductors and of gripping nano-substances of various shapes. Electrostatic nanotweezers 2 are characterized in that the nanotweezers 2 are comprised of a plurality of nanotubes whose base end portions are fastened to a holder 6 so that the nanotubes protrude from the holder 6, coating films which insulate and cover the surfaces of the nanotubes, and lead wires 10, 10 which are connected to two of the nanotubes 8, 9; and the tip ends of the two nanotubes are freely opened and closed by means of an electrostatic attractive force generated by applying a voltage across these lead wires.

Abstract: To provide nanotweezers and a nanomanipulator which allow great miniaturization of the component and are capable of gripping various types of nano-substances such as insulators, semiconductors and conductors and of gripping nano-substances of various shapes. Electrostatic nanotweezers 2 are characterized in that the nanotweezers 2 are comprised of a plurality of nanotubes whose base end portions are fastened to a holder 6 so that the nanotubes protrude from the holder 6, coating films which insulate and cover the surfaces of the nanotubes, and lead wires 10, 10 which are connected to two of the nanotubes 8, 9; and the tip ends of the two nanotubes are freely opened and closed by means of an electrostatic attractive force generated by applying a voltage across these lead wires.

Abstract: Improved teleoperator techniques often make use of at least one input device which can be selectively operatively associated with, for example, either a surgical instrument to treat tissues, or with an image of a surgical worksite shown to a system operator. A novel image manipulation arrangement effects movement of the image corresponding to the movement of the input device so that the image appears substantially connected to the input device, optionally while the instrument (or instruments) remain at a fixed location at the worksite. This can give the operator the appearance of grasping and/or manipulating target tissue and worksite into a desired position for viewing, while movement of the image is actually effected by repositioning of the image capture device, electronic image manipulation, or the like.

Abstract: In order to reduce the risk of damage on external objects, material articles or persons during the operation of a robot, particularly a miniature robot, the invention provides a method for limiting the force action of a robot part, such as a robot arm, on such an external object during a collision in such a way that as a result of a maximum permitted force, maximum force Fmax, acting on the object in the case of a collision, a corresponding, maximum permitted kinetic energy, maximum energy Ekin,max of the robot part is determined, continuously and at adequately short time intervals the actual kinetic energy, actual energy Ekin, of the robot part is determined and on exceeding the maximum permitted energy Ekin,max, the actual operating speed V of the robot is reduced.

Abstract: To provide nanotweezers and a nanomanipulator which allow great miniaturization of the component and are capable of gripping various types of nano-substances such as insulators, semiconductors and conductors and of gripping nano-substances of various shapes. Electrostatic nanotweezers 2 are characterized in that the nanotweezers 2 are comprised of a plurality of nanotubes whose base end portions are fastened to a holder 6 so that the nanotubes protrude from the holder 6, coating films which insulate and cover the surfaces of the nanotubes, and lead wires 10, 10 which are connected to two of the nanotubes 8, 9; and the tip ends of the two nanotubes are freely opened and closed by means of an electrostatic attractive force generated by applying a voltage across these lead wires.

Abstract: Improved robotic surgical systems, devices, and methods include selectably associatable master/slave pairs, often having more manipulator arms than will be moved simultaneously by the two hands of a surgeon. Four manipulator arms can support an image capture device, a left hand tissue manipulation tool, a right hand tissue manipulation tool, and a fourth surgical instrument, particularly for stabilizing, retracting, tool change, or other functions benefiting from intermittent movement. The four or more arms may sequentially be controlled by left and right master input control devices. The fourth arm may be used to support another image capture device, and control of some or all of the arms may be transferred back-and-forth between the operator and an assistant. Two or more robotic systems each having master controls and slave manipulators may be coupled to enable cooperative surgery between two or more operators.

Abstract: A microtool for manipulating components is proposed. A component is held with the microtool by at least one gripper arm having a gripping surface, the gripper being movable by an actuator structure. Also provided is a device for releasing the held component from the gripping surface, whereby an acceleration is induced in the gripper arm for at least a time, and the force of inertia resulting from the inertial mass of the held component and the exerted acceleration will be greater than any force of adhesion acting between the held component and the gripping surface. A process is also proposed for producing a microtool or a microtool part, in particular a microgripper by micropatterning.

Abstract: A system and method are disclosed that provide a microgripper having a linearly actuated grasping mechanism. According to one embodiment, a microgripper comprises at least one grasping mechanism. The microgripper further comprises at least one linear microactuator mechanism operable to impart linear movement to the grasping mechanism(s). In certain implementations, the grasping mechanism(s) comprise two arms that are arranged substantially parallel to each other. Further, in certain implementations the linear microactuator mechanism comprises a linear stepper actuator. Such linear microactuator mechanism is preferably coupled to the arms such that actuation of the linear microactuator mechanism imparts linear movement to the arms.

Abstract: A gripping device that engages and disengages an inserted workpiece with an essentially perpendicular engagement action thereby eliminating any sliding contact with the workpiece. Such perpendicular and non-sliding engagement is achieved through the action of a plurality of gripping fingers driven by a spherical ball and hinged inside of a chuck housing that guides the fingers in a substantially perpendicular motion relative to the engaged surface during engagement and disengagement. Engagement with a workpiece is achieved by the simple action of compressing a spring retained outer casing and releasing the outer casing once the workpiece has been placed-within the gripping range of the internal fingers.

Abstract: A robot which incorporates a body, arms with a hand grip, legs, several sensors, light elements, an audio system, and a video system. The sensors allows the robot to interact with objects in the room, and prevents the robot from traveling off an edge or bumping into obstacles. The light elements allow the robot to express moods. The audio system allows the robot to detect and transmit sounds. The video system allows a user to remotely view the area in front of the robot. Additionally, the robot may operate in a plurality of modes, including modes that allow the robot to operate autonomously. The robot may operate autonomously in an automatic mode, a security mode, a greet mode, and a monitor mode. Further, the robot is manipulated remotely.

Abstract: Presented is an end-effector for grasping integrated circuit wafers with a talon-like device that effectively grips an arcuate peripheral “free zone” of the wafer-without effecting contact of the wafer in a manner to contaminate it.

Abstract: An input control device with force sensors is configured to sense hand movements of a surgeon performing a robot-assisted microsurgery. The sensed hand movements actuate a mechanically decoupled robot manipulator. A microsurgical manipulator, attached to the robot manipulator, is activated to move small objects and perform microsurgical tasks. A force-feedback element coupled to the robot manipulator and the input control device provides the input control device with an amplified sense of touch in the microsurgical manipulator.

Abstract: A master device for generating motion instruction of the slave robot by sensing motion of the arm with fixed to the arm of the operator, and reflecting motion limit information by external force and physical articulation limit sensed by the robot may be simplified in a serial chain configuration so to solve problems of human fatigue and operational complexity in order to minimize dead weight of units mounted to the arm by concentrating and positioning the cylindrical rotating shaft members (44 and 45) near the body.

Abstract: A gripper apparatus for a transfer robot includes a pair of grippers which are disposed in parallel in a common plane, and which are rotatable so as to move toward and away from each other to grip, and release, a workpiece. A lead screw, disposed in parallel with the rotational axis of the grippers, rotates in forward and reverse directions. A first slider is coupled to lead screw for reciprocal movement along the rotational axis of the lead screw, responsive to rotation of the lead screw. A linkage arrangement disposed between the pair of grippers converts the reciprocal movement of the first slider into rotational movement of the grippers. A drive unit provides the forward and reverse rotation of the lead screw. This configuration results in a gripper apparatus which is vertically compact and thus uses space in an efficient manner.

Abstract: The invention provides a robot hand that can mimic the movements of a human hand in operation. The robot hand includes a thumb and at least one opposing finger having at least two phalanxes connectable to each other by a distal phalanx joint. The thumb of the robot hand also includes a joint which allows the thumb to move transversely with respect to the opposing fingers. The robot hand can also include one or more additional fingers disposed on an opposite side of the thumb. The robot hand can be operated mechanically or electrically through controlling motors.

Abstract: A compact robotic hand 10 includes a palm housing 16, a wrist section 12 and a forearm section 16. The palm housing supports a plurality of fingers 18, 20, 22 and one or more movable palm members 24, 25 that cooperate with the fingers to grasp and/or release an object. Each flexible finger 18, 20, 22 comprises a plurality of hingedly connected segments, including a proximal segment 16 pivotally connected to the palm housing. The proximal finger segment 16 includes at least one groove 122 defining first and second cam surfaces 126, 128 for engagement with a cable 60. A plurality of lead screw assemblies 54 each carried by the palm housing are supplied with power from a flexible shaft 92 rotated by an actuator 91, and output linear motion to a cable 60 move a finger. The cable 60 is secured within a respective groove 122 and enables each finger to move between an opened and closed position.

Abstract: An input control device with force sensors is configured to sense hand movements of a surgeon performing a robot-assisted microsurgery. The sensed hand movements actuate a mechanically decoupled robot manipulator. A microsurgical manipulator, attached to the robot manipulator, is activated to move small objects and perform microsurgical tasks. A force-feedback element coupled to the robot manipulator and the input control device provides the input control device with an amplified sense of touch in the microsurgical manipulator.

Abstract: An object holding device has a base plate, first and second claws, base ends of which are pivoted at the first and second pivotal points on the base plate, respectively, free ends of which hold an object detachably, a driving device, first and second driven members to be rotated around the first and second pivotal points, respectively, by a driving device, and first and second spiral springs wound around the first and second pivotal points, respectively, for connecting the first and second driven members with the first and second claws, respectively, in order to urge the claws in a closed position. An angular position of the claw is detected, and an original position is set when the claws are opened fully. The object is held by a holding force according to the difference between the rotary angles of the driven member and the claw.

Abstract: A wire-and-pulley drive link mechanism such as a robot hand, comprising a base, a linkage connected to said base by a first joint and having a first link and a second link connected by a second joint like fingers. The base carries motors for individual links. A wire-and-pulley drive system is provided such that said linkage moves relative to said base and said first link moves relative to said second link moves when driven by said motors. The wire is made of amorphous material and a coil is wound on each of the wires to detect stress or tensile force by sensing a change of magnetic permeability generated when the wire is subject to external force. A control system having a joint servo is provided and determines a manipulated variable to be supplied to the motor based on at least the detected stress and a servo gain.

Abstract: In an apparatus for operating a robotic device (1), preferably in minimally-invasive surgery and/or robotics, at least one movable robotic part (11; 12) of the robotic device (1) is connected to a first holding part (60) by way of a first, flexible connecting part (51.sub.1) of a hinge joint (5.sub.1) Moreover, the movable robotic part (11; 12) is connected to a second holding part (61) by way of a second, flexible connecting part (52.sub.1) of the hinge joint (5.sub.1). This connection is produced in such a way that, when the first holding part (60) moves relative to the second holding part (61) or vice versa, the robotic device (1) pivots the first holding part out of its initial position, and when the part (60 or 61) that has been moved relative to the other part has been brought back, the device restores the part to its initial position.

Abstract: An apparatus for handling a cartridge having a cartridge notch formed therein in a storage library system includes a hand frame adapted for receiving cartridges and a reach carriage assembly movable along the hand frame assembly. A latch arm assembly is pivotally connected to the reach carriage assembly and includes a latch tooth thereon for selectively engaging the cartridge notch. The latch arm assembly is pivotally movable between a latching position, wherein the tooth is positioned for engagement in the notch, and a put position wherein the latch arm is positioned for pushing the cartridge out of the hand frame. Cam devices are provided for pivoting the latch arm assembly between the put position and latching position.

Abstract: A printed circuit board loading assembly for loading a printed circuit board from a queueing station to an electronic test analyzer having an adjustable extrusion arm and a gripper assembly located at an end of the extrusion arm for engaging at least one edge of the printed circuit board. A clamping block is positioned along the length of the extrusion arm having a locking lever for adjustably positioning the length of the extrusion arm. A cable extends along the length of the extrusion arm and is connected to the gripper assembly which when tensioned actuates the gripper assembly between an open position and a closed or gripping position.

Abstract: A piezoelectric gripping system firmly secures a semiconductor wafer or other workpiece onto a robotic transfer blade so as to allow for acceleration forces that exceed the frictional holding force between the blade and workpiece. To prevent production of contaminating particulates during grasping, the piezoelectric grippers of the system are independently actuated into slight contact with the workpiece so as to prevent frictional movement of the workpiece relative to the blade during the grasping operation. Once all of the grippers are in slight contact with the workpiece, the voltage to each gripper is increased by a predetermined amount to thereby uniformly increase the force exerted by each gripper on the workpiece and to thereby more firmly secure the workpiece to the blade. Thereafter, the blade may transfer the workpiece at extremely high speeds without the workpiece moving frictionally relative to the blade.

Abstract: The present invention is a low friction, low inertia, six-axis force feedback input device comprising an arm with double-jointed, tendon-driven revolute joints, a decoupled tendon-driven wrist, and a base with encoders and motors. The input device functions as a master robot manipulator of a microsurgical teleoperated robot system including a slave robot manipulator coupled to an amplifier chassis, which is coupled to a control chassis, which is coupled to a workstation with a graphical user interface. The amplifier chassis is coupled to the motors of the master robot manipulator and the control chassis is coupled to the encoders of the master robot manipulator. A force feedback can be applied to the input device and can be generated from the slave robot to enable a user to operate the slave robot via the input device without physically viewing the slave robot.

Abstract: A tube gripper device includes a one-piece gripper assembly of plastic material having a base portion and a plurality of gripper fingers extending therefrom in spaced apart parallel relation to each other for individual flexing movement relative to the base. A cam member is slidably engageable with each of said fingers and is connected to a solenoid actuator whereby upon energization of the solenoid actuator, the cam member is moveable to spread the fingers apart. A spring is provided for moving the fingers into gripping engagement with a tube upon de-energization of the solenoid actuator.

Abstract: An arm member having a folding expansion/contraction mechanism is fixed to a rotary shaft. A support member is rotatively mounted on the distal end of the arm member. This support member maintains a constant relationship with the rotary shaft. An auxiliary support member is mounted on a support shaft fixed to the support member, the auxiliary support member being able to swing. A cam mechanism is provided at rotation portions of the support member and auxiliary support member. The auxiliary support member is swung by this cam mechanism in accordance with a folding expansion/contraction motion of the arm member.

Abstract: Several finger-like grippers (4) are held and guided in openings or holes (21) in the head part (6) of a housing (20) so they can pivot about axes which are in a common plane transverse to the longitudinal axis (L) of the housing (20). Permanent magnets (11, 12) fixed to the inner ends of the grippers (4) cooperate with an electromagnet (13) provided in the housing (20) above the magnets (11, 12), the magnetic field axis of the electromagnet coinciding with the longitudinal axis (L) of the housing (20). The electromagnet moves the inner ends of the grippers (11, 12) back and forth between two stops (16, 17) depending on the polarity of the electromagnet (13).

Abstract: A microprocessor controlled robotic hand which uses electrically activated memory wire to provide impetus for and control the movements of the various digits of the hand. The hand is supported by a robotic arm which allows the positioning of the hand in any desired location with the hand in the desired orientation, within the vicinity of the arm support base.

Abstract: A robot arm end effector in the form of a multi-fingered hand having a conformable grasp. Each articulating finger includes multiple phalanges sequentially interconnected by pivot points such that each finger articulates in one plane. One filament pair, which controls finger articulation within the plane, is routed through a respective finger by a system of pulleys and is controlled by a DC motor. Driving the associated motor in a first direction causes a respective finger to articulate in a first direction within the plane. Reversing the motor direction causes the respective finger to articulate in a second direction within the plane. Individual phalanges articulate independently of the motion of adjacent phalanges. A second filament pair may be employed to pivot a respective finger about a base axis resulting in out of plane motion of the finger.

Abstract: A rotary clamping device includes a rotary actuator and an L-shaped base, with a gripper device mounted on the output shaft of the rotary actuator. The construction is very simple and lightweight, so that, in the preferred embodiment, it is made up primarily of four extruded parts in addition to the actuator.

Abstract: A gripper mechanism having at least one pair of opposing and co-acting gripper fingers that can be actuated to move from a non-gripping to a gripping position and vice versa upon application of a control signal to the gripper and the subsequent motion of the gripper actuator being applied to move the gripper fingers. The gripper provides an assembly to adjust the spacing between each of the pairs of opposing and co-acting gripper fingers, thus providing an adjustability feature to the gripper permitting thereby the ability of the gripper to grip parts of different sizes and of irregular geometries. One or more grippers as previously described may be incorporated with a material-handling apparatus having controls, power sources, platforms and other features appropriate to handle, orient, operate on, move and otherwise process parts in any fashion, where the gripper provides the apparatus with the adjustability to grip, hold, handle, orient and move parts of different sizes.

Abstract: An improved robotic end effector is disclosed. The end effector of the present invention possesses a novel breakaway clutch, which is combined with mechanically linked finger joints to significantly reduce control complexity while retaining the ability to accomplish enveloping grasps. In another embodiment, a finger using compliant tendons to accomplish enveloping grasps is disclosed. A novel palm/finger configuration which further increases the versatility of the disclosed end effector without unduly increasing complexity is also disclosed. Methods of manipulating an object are also disclosed.

Abstract: A treating instrument for medical treatment, comprises an insertion section to be inserted into a body cavity of a patient, biopsying forceps provided at a distal end of the insertion section, a pair of cups provided at the forceps, a grip member connected to an operator-end side of the insertion section; a drive unit provided on the distal end of the insertion section and generating a drive force for the cups, a conduction circuit for carrying electric current through the drive unit, and an operation switch interposed at lead wires of the conduction circuit.

Abstract: An apparatus (10) for the location and removal of foreign objects from a difficult to access geometry utilizes a flexible lance (12) formed of individual hose bar segments (14) strung on cables (16) to give a structure that is flexible along its length and fairly rigid in a direction transverse to its length. Extending from working channels (18) of nozzle block (20) of the lance (12) are a pair of multi-prong retrievers (22). A miniaturized Videoprobe camera (24) is provided in the nozzle block (20) between the two retrievers (22). The retrievers are each connected to an actuating cable (26), which extends through the flexible lance (12) to a manual control (28). The camera (24) is connected by a cable (30) to suitable video processing circuits for generation of images on a video display (32). The cable (30) also houses a fiber optic bundle which conveys light to the area being serviced by the lance (12).

Abstract: A robot for installing a fixed length of weather stripping in a body opening. The robot in a preferred embodiment includes an arm movable in a predetermined path, a powered variable angular displacement rate pressure roller mounted on the end of the arm for tracing the body opening and applying the fixed length to the opening, a calibration table for storage of preprogrammed datums for the pressure roller angular displacement rate and weather stripping feed rates for a plurality of locational segments along the body opening during an application cycle, a controller for delivering a signal representative of the calibration table preprogrammed datums to the pressure roller, an encoder for determining the actual angular displacement rate of the pressure roller, and an encoder for determining the actual feed rate of the weather stripping.

Abstract: A robotic hand, claw manipulator or a prosthetic device includes plural artificial digits, each having a guide and plural phalanges. First and second cables have a first end fixedly connected to spaced first and second points on a digit distal tip, respectively, and a second end driven by a reversible motor. The cables are positioned and connected to the reversible motor, the two points and a guide arrangement so that in response to the motor being activated in a first direction the first cable exerts a tensile force on the first point and a compressive force on elements of the guide arrangement to cause one of the phalanges to be urged from a bent position toward a straight position and in response to the motor being activated in a second direction the second cable exerts a tensile force on the second point and a compressive force on elements of guide arrangement to cause the phalanx to be urged away from the straight position.

Abstract: In the case of a machine tool having at least one tool changer for exchanging the tools of the machine tool, the tool changer comprises a gripper (13) provided with at least one movable jaw for form-locking engagement of the tools. The gripper (13) is further equipped with an actuating member (24), which is arranged for axial displacement in the longitudinal direction (30) and which, depending on its axial position, acts to open the at least one jaw for the purpose of inserting or removing the tools, or to close it for form-locking engagement of the tools. The actuating member (24) can be displaced into a first axial end position, by moving the gripper (13) asgainst a stationary stop (31) of the machine tool, for opening the at least one jaw, and can further be transferred, by closing means, into a second axial end position for closing the at least one jaw, as the gripper (13) is moved away from the stop (31).

Abstract: An assembling hand according to the present invention includes a hand body, a first finger member capable of moving along the hand body, a rotational housing rotatably fastened to the hand body and a second and a third finger members capable of moving along the rotational housing in opposite directions to each other. A part holding operation is performed by the first, second and third finger members, with the rotational position of one part being restricted by the first finger member and the rotational position of another part being adjusted by the second and third finger members.

Abstract: An apparatus is disclosed for acquiring, transferring and releasing an object such as a prewound spool of film (10), in which a rotatable frame (410-426) is provided with a slidably mounted block (434) which pivotably supports a pair of gripping fingers (464,466) for holding the object and rotatable cam plate (456) which includes cam slots (448,484,486) operatively associated with followers (454,476,478) on the frame and fingers; so that, upon application of a force (488-510) to the cam plate, the block initially translates away from the frame to a position where the fingers close to grip the object, after which rotation of the frame permits transfer of the object to another location where a reverse force is applied to the cam plate to release the object and translate the block back to its starting position.