Abstract: An apparatus and method is described for inserting pins in holes wherein either the pin or the hole is chamfered or beveled. One part is vibrated with respect to the other in a plane orthogonal to the direction of insertion. One part is incrementally moved in the direction of insertion. When interference caused by the contact is sensed, the magnitude of the interference is determined and used to reposition the center-line of the one part in the orthogonal plane until the pin is fully inserted.

Abstract: A sample changer for powder X-ray diffractometry includes a cylindrical dispensing container for holding a stack of pre-test sample holders, a cylindrical receiving container for holding a stack of post-test sample holders and a changer arm which automatically picks up the topmost sample disk in the dispensing container and rotatably positions the sample disk on the sample holder stage of an X-ray diffractometer for analysis. After analysis, the changer arm removes the sample holder and releases it into the receving container. The sample holders have a circumferential groove which coacts with semi-circular rotatable cams positioned on the distal end of the changer arm to enable the changer arm to lift and place the sample holders.

Abstract: A robot gripping device 10 for holding and gripping a variety of electronic components. The robot gripping device comprises a guide frame 12, a drive motor 34 and gripping blocks 24, 26 having fingers 42, 44. Finger 42 has prongs 66, 68 and 70 on fingertip 60. Finger 44 has prongs 76 and 78 on fingertip 62. The fingertips 60, 62 accommodate axial resistor-type components at v-grooves 80 and radial capacitor-type components are accommodated by fingertip portions 82, 84, 85 and 86. Cylindrical can shaped components are accommodated by a slight beveling at fingertip portions 82, 84, 85 and 86 as well as a set back of portion 83 on prong 68. The fingers are capable of controlled movements to various centered positions by means of motor 34. When the fingers are brought together they interlock.

Abstract: A glove box with tubular lines for harmful fluids and with shutoff valves inserted in the tubular lines and, respectively, formed of an actuating member and a valve body includes an exterior wall forming part of the glove box, the shutoff valves being disposed adjacent one another on the wall, the valve bodies of the shutoff valves being located on the inside of the exterior wall, and the actuating members of the valve bodies being located on the outside of the exterior wall; and a drive for driving the actuating members also located on the outside of the exterior wall and having a device for docking with the respective actuating members, the drive means being guidably displaceable in a plane parallel to said exterior wall to the respective actuating members for docking with the respective actuating members.

Abstract: In a joint assembly for moving a free end relative to a reference end like a human arm, first and second axle members have first and second axes associated with the reference and the free ends, respectively, and are coupled to each other by an axis end plane oblique to the first and the second axes. A coupling member, such as a universal joint, is coupled to the first and the second axle members and to the reference end. The first and the second axle members are rotated about the first and the second axes, respectively, to move the free end along a spherical surface, with the free end prohibited from being twisted. The oblique axis end plane may be provided by a pair of plate members or by a pair of shells. Alternatively, the axis end plane may be given by a stator and a rotor of a single motor. A motion of the free end is controlled by angles of rotation of the first and the second axle members.

Abstract: A manipulator having a grasping mechanism for grasping an object and an arm mechanism for lifting the grasped object, is disclosed. A weight detector is provided which detects a force that the top of the arm mechanism receives in the gravitational direction when the grasped object is being lifted. In order to find the minimum grasping force sufficient to lift the object, a grasp detector is provided for detecting, from the output of the weight detector, that the object cannot be lifted up with the present grasping force and a desired grasping force selector for selecting successively a desired value of grasping force starting from a predetermined minimum desired value until it is detected that the object is lifted. A grasping force control circuit controls the grasping force to the selected desired value.

Abstract: A manipulation device, such as an industrial robot has at least one sensor connected to a control unit through a programmable sensor interface. The programmable sensor interface includes at least one microprocessor and at least one memory. Each sensor has three signal ranges, the limits of these ranges being selectable by thresholds which can be stored in the memory. The microprocessor is programmed to classify the signal received from a sensor in one of the signal ranges, and to transmit the result of the classification to the control unit. Activation of the individual sensors is undertaken by the control unit through a serial interface or through a parallel interface.

Abstract: A powered, electromechanical manipulator assembly is disclosed which includes an electrically powered input device coupled by a hydraulic circuit to a mechanical manipulator. The hydraulic circuit is a fixed-volume, closed circuit in which a master piston-cylinder assembly is driven by a D.C. motor and is hydraulically coupled for direct and proportional displacement of a slave piston-cylinder assembly to enable smooth, accurate and easily connected displacement of a manipulator arm. The manipulator arm is formed of a plurality of modules each having a fixed-volume, closed, hydraulic circuit and a slave cylinder. Both the slave and master cylinders includes ambient pressure surfaces which are exposed to the water pressure at the operating depth of the assembly so that variation in depth does not materially affect the response or dexterity of the remote manipulator apparatus. An improved terminal module or jaw assembly is also disclosed.

Abstract: A gripper assembly for a robotic arm includes two opposing elements displaced by means of a worm gear arrangement for grasping an object positioned therebetween. The worm gear is driven by a rotary drive motor with a torsion spring coupling the drive motor shaft to the worm. First and second shaft encoders are respectively mounted to the drive motor shaft and the worm shaft. First and second pairs of optical sensors respectively coupled to the first and second shaft encoders detect the angular speed and displacement of the drive motor shaft and the worm. With the torsion constant of the spring known, the force applied by the gripper assembly which is proportional to the angular displacement of the worm may be accurately determined and controlled. In addition, the size of the object grasped by the gripper assembly may be determined. By comparing these operating parameters with selected values, the gripper assembly may be precisely controlled such as by means of a microcomputer.

Abstract: In a gripper device including a power frame of a motor 10, shaft 12, sun gear 14, planetary gear 16, gripper assembly shaft 18, gripper lever 20, gripper finger 22, a clutch 24 is interposed in the power train to each gripper finger and is controlled to provide a low force coupling transmittal when the fingers are moved in a position to contact the object 26 to be gripped, and after all fingers have contacted the object, the clutch provides for the transmittal of a relatively higher force adequate to permit handling the object without slipping.

Abstract: A light weight servo controlled robot gripper is disclosed. A plastic body houses one or more threaded drive shafts which are powered by a direct current motor. Attached to the shafts are finger mounting blocks which support removable fingers and which can be driven both closer to and further away from a fixed point by the motor. Integral with at least one mounting block is a force transducer which monitors the load exerted on the finger through a pivot and lever action of a mounting bracket provided adjacent to the load cell. Since the transducer is in the block rather than the fingertip, fingers are readily interchangable without reinstrumentation. A limit switch, located above one of the finger mounting blocks, is used to determine coarse finger position, and an optical shaft encoder provides precise position information allowing the gripper to be utilized for a variety of position as well as force servoing tasks.

Abstract: Apparatus is described for remotely positioning, connecting, and generally andling components in a hot cell of a reprocessing plant for spent nuclear fuels. The apparatus includes a housing mounting a first stationary clamp for holding one end of a pipe and a second movable clamp for holding the end of a second pipe to be welded to the first. By adjusting the movable clamp, the pipe therein can be aligned with the pipe in the stationary clamp. The movable clamp can be moved longitudinally to press the pipe ends together, upwardly to compensate for pipe out of round, and can be tilted where pipes are to be joined at an angle. The adjustment permits accurate alignment of the parts. A tool support is rotatably mounted on said stationary clamp to permit welding or other processing through 360.degree..