Abstract: A tilting elevator is set forth. A rigid frame has a base, a structurally rigid structure extending upwardly from the base, and a flange attached to the structure top. The flange is generally parallel to the base. A movable elevatable structure is telescopically mounted to the rigid frame. The elevatable structure comprises upper and lower spaced apart generally parallel plates. At least three generally parallel rods extend between the plates and are connected to them by universal joints. A motor system is supported rigidly relative to the base. Each of the rods is movable relative to the plates independently of each other rod. A robotic arm having R-, .theta.- and Z-motion can be mounted to the elevator. A mechanism is preferably attached to the bottom plate of the elevatable structure for increasing the stability of the system. With the addition of a sensor and using microprocessor control, canted workpieces can be readily picked up.

Abstract: A method and apparatus for remotely visually inspecting the interior of an elongated tank. The apparatus includes an articulated arm which extends into the tank through an access opening and is adapted to pivot at successive joints by operation of associated servomotors to enable it to follow a path along the axis of the tank. A TV camera is carried on the lead end of the arm and scans the interior of the tank through 360.degree. rotation about the tank axis. The arm carries the camera to the zones where the tank end walls are joined to the sidewall for viewing the zones from advantageous lines of view.

Abstract: A method and apparatus for positioning a plurality of workpieces in a tightly spaced array within a guide block. The apparatus of the invention includes an insertion head mounted to a robot assembly arm. The insertion head includes a pair of resiliently mounted gripper fingers that can be operated to pick up an individual workpiece from a supply station. The gripper fingers include a spring member that biases the gripper fingers into an engagement position. Once the workpiece has been acquired by the insertion head, the insertion head is used to alternately rotate the workpiece while applying a downward force to slide the workpiece into the defined location within a receptacle. After the workpiece has been inserted, the gripper fingers are moved to their retracted position to press the workpiece completely downward into the receptacle.

Abstract: A robot system and its control method making it possible to easily stabilize a working attitude when working with predetermined legs by a simple structure by using a plurality of legs moving while supporting a body. The number of portions requiring position control can be decreased by grounding a predetermined portion not grounded when moving all or some of legs other than predetermined legs used for working and/or a predetermined portion of a body.

Abstract: An industrial robot comprises a stand mounted on a foot and being rotatable about a first, vertical axis, said stand supporting a first robot arm which is rotatable in relation to the stand about a second, horizontal axis. The stand comprises an underbody with two projecting parts which support an intermediate part which is rotatable in relation to the stand. The intermediate part comprises two parallel supporting elements, at the upper ends of which the first robot arm is journalled. The lower ends of the supporting elements are rotatably attachable to the underbody. The robot may thus be tilted forwards or backwards and be fixed in these positions during the robot operation, so as to obtain different types of operating ranges.

Abstract: A robot arm and an apparatus for transferring an article. The robot arm includes a movable hand for holding the article. A first arm has a proximal end that rotatably supports a drive pulley and a distal end that rotatably supports a driven pulley. The pulleys are connected to each other by a belt. A second arm and a third arm each have a proximal end and a distal end. The proximal ends of the second and third arms are pivotally supported by the driven pulley. The distal ends of the second and third arms are pivotally coupled to the hand. The driven pulley, the second arm, and the third arm cooperate with the hand to define a parallel linkage mechanism. A first motor pivots the first arm about its proximal end. A second motor rotates the drive pulley. A pivoting mechanism pivots the second arm about its proximal end relative to the first arm in correspondence with the pivoting of the first arm.

Abstract: In an industrial robot having a rotatable robot main body 3, a first robot arm 5 which is mounted, via a first joint portion 4, on an upper end of the robot main body 3 so as to be vertically swingable, and a second robot arm 7 which is mounted, via a second joint portion 6, on a front end of the first robot arm 5 via a second joint portion 6 so as to be vertically swingable, the assembling is facilitated and the miniaturization of the robot is attained. The first and second joint portions 4, 6 are arranged in a cantilevered construction in which each of the first and second robot arms 5, 7 is supported on the robot main body 3 and the first robot arm 5, respectively, in a cantilevered manner via a driving reduction gear Ry, Rw of each of the first and second robot arms 5, 7, respectively. The driving reduction gears Ry, Rw are disposed so as to cross an identical central plane "a" that includes an axis of rotation of the robot main body 3.

Abstract: A robot assembly, including a central hub, has two arms arranged for independent rotation about the hub. Two carriers, oriented 180.degree. apart from each other, are coupled to an end of each of the arms. A drive is provided for rotating the arms in opposite directions to extend one or the other of said carriers radially from said central hub, and for rotating the arms in the same direction to effect rotation of the carriers.

Abstract: A device with a pivoting work arm for carrying and positioning a tool which is moved by a modified Watts linkage powered by a linear actuator is provided with shock absorption adjacent both the fully extended and fully retracted work arm positions. The modified Watts linkage engages a pawl which rotates a lever arm in the same direction to actuate the same shock absorber(s) when the work arm is moved to both its fully extended and fully retracted positions.

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 work transporting robot includes a first, second and third arms each of which is rotationally moved around a common axis by individual driving source within a plane, the plane being parallel to one another, a pair of first coupled arms each of which is rotatably connected its one end to a leading edge section of the second arm which is disposed intermediate position of the first and third arms, and a leading edge section of one of the first and third arms, a first work supporting table which is connected to the other end of the pair of first coupled arms, a pair of second coupled arms each of which is rotatably connected its one end to a leading edge section of the second arm which is disposed intermediate position of the first and third arms, and a leading edge section of the other of the first and third arms, and a second work supporting table which is connected to the other end of the pair of second coupled arms, and wherein the first and third arms are disposed in the same side to one another with respe

Abstract: An industrial robot in which the exchange work of a reduction gear is easy is provided.

Abstract: A remote center positioner used to support an instrument and provide a center of spherical rotation, remote from any bearings or mechanical supports, at a desired location of the instrument. The remote center positioner is particularly useful in laparoscopic surgery to constrain a surgical instrument to move around a fixed center of rotation remote from any bearings or mechanical supports and coincident with an entry incision in the abdominal wall.

Abstract: A concentric-shaft rotational drive system for an articulated arm transfer device adaptable for imparting movement to an assembly inside a vacuum chamber wherein rotary movement is imparted to rotors inside the vacuum chamber by means of magnetic fields produced by stators outside the vacuum chamber.

Abstract: A vertical positioner comprises a rigid frame. A rigid vertically extending structure extends upwardly from a base to its upper end portion. A generally horizontal flange forms the structure upper end portion. It has a central opening and at least two peripheral openings. A vertically movable structure is telescopically mounted to the frame. It comprises an upper plate located above the flange. A lower generally parallel plate is located below the flange. A pair of parallel rods extend between the plates and pass through flange bearings. A central tube is connected between the lower and upper plates and passes through the flange via bearings. A motor is supported rigidly relative to the base for motivating relative vertical motion.

Abstract: Robotic apparatus may be provided for handling workpieces such as semiconductor wafers within an integrated vacuum processing system and may be mounted within a vacuum load lock chamber adjacent a plurality of vacuum processing chambers. The apparatus includes an upper arm, a forearm, an end effector for supporting a wafer to be transported, and a wrist connecting the forearm to the end effector. The upper arm is rotatable in a level plane about an upright shoulder axis adjacent its inner end. A first coupling mechanism interconnects the forearm to the upper arm for mutual rotation about an elbow axis in a level plane. An end effector serves to support a wafer to be transported and a wrist connects the forearm to the end effector distant from the elbow axis. A second coupling mechanism interconnects the forearm to the wrist for their mutual rotation in a level plane about a wrist axis.

Abstract: A method and apparatus for remotely visually inspecting the interior of an elongated tank. The apparatus includes an articulated arm which extends into the tank through an access opening and is adapted to pivot at successive joints by operation of associated servomotors to enable it to follow a path along the axis of the tank. A TV camera is carried on the lead end of the arm and scans the interior of the tank through 360.degree. rotation about the tank axis. The arm carries the camera to the zones where the tank end walls are joined to the sidewall for viewing the zones from advantageous lines of view.

Abstract: A robotic wafer handler has first and second arms pivotally connected at a swing point to operate in a plane. Each arm is independently drivable through greater than 360.degree. of rotation in the plane. The wafer handler may also include mechanisms for adjusting the plane of rotation, i.e., for providing lift and tilt.

Abstract: An apparatus for cutting workpieces (36) moving along a path relative to the apparatus, including a guide arm (20), a tool mount (24), and two rotation mechanisms (28), (30), is provided. The guide arm (20) includes mounted links (40), (46), and at least two intermediate links (42), (44), pivotably connected end-to-end to each other to define a multiple bar linkage arrangement. The tool mount (24) is attached to the guide arm (20) at a connection of two of the intermediate links. The rotation mechanisms (28), (30) are in communication with the links (40), (46), for pivoting the links (40), (46) to cause movement of the intermediate links (42), (44), further causing the desired movement of the tool mount (24) in the path of the moving workpiece (36). Additional components include a second guide arm (22) positioned on the opposite side of the workpiece (36). The tool mount (24) is elongated to hold multiple nozzles (58) and is pivotably connected between the two guide arms (20), (22).

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: Apparatus for transferring an object between spaced locations comprises first and second articulated arms mounted on a support, each articulated arm having a drive member disposed for rotation about a drive axis and, pinned to it, a shorter driven member. A wrist plate with an integral holding platform is pivotally coupled to the driven members at spaced apart locations. The drive members are rotated from an initial position at which they subtend a first acute angle with the holding platform at an initial position through an intermediate position at which they subtend an angle of 180.degree. to a final position at which they subtend a second acute angle oppositely disposed from the first acute angle with the holding means at a final position overlying the drive axis. The wrist plate extends transverse of the extend-retract path for the holding platform.

Abstract: The present invention is a mobile redundant dexterous manipulator with a seven-degree-of-freedom robot arm mounted on a 1 degree-of-freedom mobile platform with a six-degree-of freedom end effector including a real-time control system with multiple modes of operation. The manipulator-plus-platform system has two degrees-of-redundancy for the task of hand placement and orientation. The redundancy resolution is achieved by accomplishing two additional tasks using a configuration control technique. This mobile manipulator with control system allows a choice of arm angle control or collision avoidance for the seventh task, and platform placement or elbow angle control for the eighth task. In addition, joint limit avoidance task is automatically invoked when any of the joints approach their limits. The robot is controlled by a processor employing a 6-by-7 Jacobian matrix for defining location and orientation of the end effector.

Abstract: A multi-stage telescoping tube structure and a robot including a multi-stage telescoping tube structure. The multi-stage telescoping tube structure includes an outer tube, an intermediate tube, and an inner tube. The intermediate tube is slidably received in the outer tube, and the inner tube is slidably received in the intermediate tube. It further includes a multi-stage screw for arrangement translating rotary motion into linear movement of the tubes, and a drive means coupled to the screw arrangement. The robot further includes a support bracket, rotatably supporting the multi-stage telescoping tube structure, and an electric motor for rotating the arrangement. The structure further includes rail guides engagable with complimentary horizontally extending rails for horizontal movement of the robot.

Abstract: A multi-articulate arm type transporting device includes first and second link sets. The link sets are operatively connected with first and second driving means which independently rotate the link arrangements about a common axis. The two driving means are controlled by first and second controllers which are responsive to control inputs to respectively produce first and second outputs to the first and second driving means to respectively rotate the link arrangements in accordance with a predetermined schedule. This schedule includes one or more modes which operates motors of the two drive means in a manner which obviates the so-called jack-knife phenomenon wherein the links tend to lock-up and refuse to respond to torque applied from the motors of the drive means.

Abstract: A concentric-shaft rotational drive system for an articulated arm transfer device adaptable for imparting movement to an assembly inside a vacuum chamber wherein rotary movement is imparted to rotors inside the vacuum chamber by means of magnetic fields produced by stators outside the vacuum chamber.

Abstract: A robot assembly, including a central hub, has two arms arranged for independent rotation about the hub. Two carriers, oriented 180.degree. apart from each other, are coupled to an end of each of the arms. A drive is provided for rotating the arms in opposite directions to extend one or the other of said carriers radially from said central hub, and for rotating the arms in the same direction to effect rotation of the carriers.

Abstract: A four degree of freedom manipulator which comprises a pair of elongate rigid legs connected by a joint. The joint acts as an end-effector or an end-effector is attached thereto, The legs effectively intersect at a point in the joint. The positioning end of each leg is attached to a two degree of freedom positioning mechanism that can position it in a two dimensional plane. The connection between the leg and the positioning mechanism has two passive rotational degrees of freedom. Preferably five bar mechanisms are used as the positioning mechanisms. The manipulator can control the position and orientation of an end-effector.

Abstract: A new generation of hybrid form multi-axis machine tools is described. The hybrid machine tools comprise a position mechanism and an orientation mechanism. Both mechanisms are three-DOF parallel mechanisms that can be connected either in series to form a hybrid parallel-serial manipulator, or in parallel to form a cooperating machine. The position mechanism is used for manipulating the position and the orientation mechanism is used for manipulating the orientation of an object. Six-axes machining of a workpiece is achieved by coordinating the motions of the position and orientation mechanisms. This approach has several important advantages. First of all, a high stiffness, low inertia, and high speed machine tool is realized by using the parallel construction. Secondly, its direct and inverse kinematic solutions could be solved in closed forms which would greatly simplify the control and path planning problems. Thirdly, it has a relatively large workspace in comparison to fully parallel platform manipulators.

Abstract: A substrate transport apparatus having a movable arm assembly, two substrate holders and a coaxial drive shaft assembly. The movable arm assembly has a general X-shaped section that has its center connected to the coaxial drive shaft assembly. The substrate holders are connected to different pairs of arm sections of the X-shaped section. The coaxial drive shaft assembly moves the arms of the X-shaped section relative to each other to move the two substrate holders in reverse unison motion between extended and retracted positions.

Abstract: A robot manipulator which includes an upper arm having a wrist coupled to one end of the upper arm. The wrist includes at least three rotational axes of articulation with one of the rotational axes offset from an intersection of the other two rotational axes. Three twist angles are formed between the respective rotational axes. The value of these twist angles is optimized to orientate the three rotational axes of articulation in a configuration minimizing the space which the robot manipulator cannot reach.

Abstract: A motion analyzing method analyzes and displays motions of a human being or an animal using a computer in an interactive manner without requiring trial and error or without depending on intuition of an analyst. A human body or an animal body is divided into a plurality of segments connected by joints, each of the segments acting as a minimal unit of motion. Data for modeling the human or animal body on the basis of physical constraints and the inherent nature of each of the segments is maintained in a database. Motions are input to be analyzed and the input motions are analyzed using inverse dynamics. The resultant movements and the center of gravity of each of the segments, the force and torque exerted on each of the joints, the movement and the center of gravity of the whole body, and the forces and torques exerted on the centers of gravity are superimposed on the human or animal body model of the database and are displayed on a screen.

Abstract: The invention relates to an industrial robot with two lower robot arms directed upwards from a fixed robot stand, the robot arms at their lower end being pivotably journalled in the stand around horizontal axes and at their upper end being pivotably interconnected by a yoke in such a way that a four-bar linkage is formed. The linkage is provided with a first driving unit. An upper robot arm is journalled around a fifth axis in a fixing member which is supported by the yoke and which is rotatably journalled around a sixth axis. The upper robot arm and its fixing member are provided with a second and a third driving unit, respectively.

Abstract: A device for measuring an angle between pivotally connected, intersecting sides of a parallelogram includes a grating having a pattern of parallel, straight grating lines formed on a substrate, and a read head. The grating is mounted in a fixed position with respect to a first side of the parallelogram. The read head includes a sensor positioned for sensing displacement of the grating lines in response to an angular change between the intersecting sides of the parallelogram and generating a scale reading. The read head is mounted in a fixed position with respect to a second side of the parallelogram that is parallel to the first side. In one embodiment, the grating includes a single pattern of grating lines and is used to measure an angular change relative to a reference angle. In a second embodiment, the grating includes first and second grating patterns and is used to measure an absolute value of the angle between the intersecting sides of the parallelogram.

Abstract: A rotatable member is positioned coaxial with a joint between a first element and a second element. The joint defines an angle to be measured. The rotatable member has coded information thereon. First and second sensing heads are attached to respective elements. Coded information is arranged on the rotatable member so as to periodically pass in readable proximity to the sensing heads once every revolution of the rotatable member. A decoding system is provided for each sensing head. Each decoding system includes threshold circuitry, a state machine, and a pulse generator for providing a timing strobe. A first timer uses a timing strobe from the first sensing head for continuously determining the average elapsed time for one complete revolution of the rotatable member. A second timer uses timing strobes from the first and second sensing heads to continuously determine the average elapsed time for the coded information on the rotatable member to travel from the first sensing head to the second head.

Abstract: A mobile, self-propelled, multicapability apparatus useful for gripping, lifting, moving, rotating, and otherwise manipulating heavy articles. The inventive apparatus comprises: a base structure; a turret rotatably attached to the base structure; a first boom structure having a first end portion pivotably attached to the turret; a second boom structure having a first end portion pivotably connected to the distal end portion of the first boom structure; a first hydraulic assembly for pivoting the first boom structure with respect to the turret; a second hydraulic assembly for pivoting the second boom structure with respect to the first boom structure; a head assembly having a first end portion and a second end portion; and a third hydraulic assembly, connected to the second boom structure and to the first end portion of the head assembly, for pivoting the head assembly with respect to the distal end of the second boom structure.

Abstract: An object handling device successively transfers objects such as semiconductor wafers. The object handling device includes first and second collapsible arm units having hands for holding objects, a first drive shaft for selectively extending and contracting the first arm unit, a second drive shaft for selectively extending and contracting the second arm unit, a third drive shaft for turning the first and second arm units while keeping the first and second arm units in a relative positional relationship, the first, second, and third drive shafts being disposed coaxially with each other, and an actuator mechanism for angularly moving the first, second, and third drive shafts about their own axes independently of each other.

Abstract: A wrist mechanism for an articulated robot includes a first wrist link which extends on an extension of the robot arm and which is fixed to the outer peripheral portion of a rotary portion. A second wrist link is fixed to an output shaft of the rotary portion, and a third wrist link is pivotally connected to an end portion of the first wrist link so that the third wrist link can be turned. A fourth wrist link is pivotally connected to end portions of the second and third wrist links and extends parallel to the first wrist link. A work clamping device is fixed to a pivot pin of the third wrist link. A damping device is provided between the wrist and the first wrist link or second wrist link. Thus, there is provided a wrist mechanism having non-reinforced arms and a driving motor of a small load, capable of being operated at a high speed and kept safe even when the work clamping device collides with an obstruction.

Abstract: An articulated robot comprises a parallelogrammic linkage comprising a fixed base (1) having a horizontal upper surface, a first arm (2) pivotally supported for turning about an axis perpendicular to the upper surface of the fixed base (1), a first auxiliary link (3) parallel to the first arm (2), and a second auxiliary link (4) pivotally joined to the respective extremities of the first arm (2) and the first auxiliary link (3); and a second arm (5) supported on the second auxiliary link (4) for turning about an axis parallel to the axis perpendicular to the upper surface of the fixed base (1). The motion of the second arm (5) is not restricted by the first arm (2), and the articulated robot is capable of moving a work between two separate points at a high speed.

Abstract: A network is provided in which the direct model of the controlled target is learned, and an actuation amount for realizing a target control amount is generated using this network in accordance with the relaxation algorithm. A recognizing network and a prediction network are provided, wherein the recognition result of the recognizing network is input to the prediction network, and the prediction result of the predicting network is fed back to the recognizing network. Moreover, the predicting network is utilized so as to generate a command relating to the motion in accordance with the relaxation algorithm.

Abstract: An articulated arm transfer device having a pair of upper arms and a pair of forearms. Each upper arm is rotatable at its shoulder end. Each forearm is rotatable at its wrist end. The elbow ends of the upper arms and the forearms are connected to each other by a link. The shoulder ends are mounted on a support in such a manner that one upper arm is rotated by a drive, and a holder for an object to be transferred is mounted on the wrist ends. The link includes shafts upon which the elbow ends are mounted. At least two S-bands connect the shafts in such a manner that rotation of one shaft in either direction causes rotation of the other shaft in the opposite direction. The elbow end of one upper arm is fixed to its shaft, while the elbow end of the other upper arm is rotatably mounted on its shaft.

Abstract: A human guided mobile loader stocker developed to mechanically assist in SMIF container movement. The assist includes a pushcart, a semi-motorized transport arm, a processor, and communication devices. A group of containers are placed on the cart using the arm. The cart is pushed to a semiconductor processing tool where the arm is used to transfer containers to and from the port of the processing tool. The processor and communication devices are used for inventory control and guiding the container to the port of the processing tool.

Abstract: An industrial articulated robot that can be inclined in forward and backward directions has a parallel link mechanism that includes a lower arm and a connecting link in parallel to the arm. Bottom ends of the lower arm and connecting link are supported at a lower base. An upper base connects upper ends of the lower arm and connecting link so that they can be rotated. A turning section that rotates horizontally is provided above the upper base. An upper arm that can be inclined in upper and lower directions is supported at a position shifted relative to a turning axis of the turning section so that the upper arm and the lower arm do not interfere with each other in operation.

Abstract: A three degree-of-freedom robotic manipulator is constructed from three rotary drives. The rotary drive consists of a relatively small diameter cylindrical driving member coupled to a larger diameter cylindrical driven member. The driven member of a second rotary drive is mounted perpendicularly to the driven member of a first drive. The driven member of a third drive is mounted to the periphery of the driven member of the second drive with its axis of rotation parallel to the driven member of the second drive. The driving member of the third drive is located with its axis of rotation coincident with the axis of rotation of the driven member of the second drive. Motors powering the second and third driving members are mounted to the driven member of the first drive roughly centered over its axis of rotation. An extension arm for mounting the end effector is fixed to the driven member of the third drive. This arrangement reduces the number of required components and minimizes motor movement to reduce inertia.

Abstract: A simple and computationally efficient approach is disclosed for on-line coordinated control of mobile robots consisting of a manipulator arm mounted on a mobile base. The effect of base mobility on the end-effector manipulability index is discussed. The base mobility and arm manipulation degrees-of-freedom are treated equally as the joints of a kinematically redundant composite robot. The redundancy introduced by the mobile base is exploited to satisfy a set of user-defined additional tasks during the end-effector motion. A simple on-line control scheme is proposed which allows the user to assign weighting factors to individual degrees-of-mobility and degrees-of-manipulation, as well as to each task specification. The computational efficiency of the control algorithm makes it particularly suitable for real-time implementations. Four case studies are discussed in detail to demonstrate the application of the coordinated control scheme to various mobile robots.

Abstract: A pivotal robot arm is disclosed which includes a support body, at least one pivot arm and a working device that is provided at the outer end of the pivot arm. The pivotal robot arm is characterized in that the support body and/or at least one pivot arm and/or the housing of the working device are each composed of at least one extruded profile that extends in the direction of the articulation axes.

Abstract: A pivoting linkage mechanism provides a linear translational path for a tool holder over a predetermined displacement distance. A single linear motor drives the tool carrying end of the mechanism within a displacement plane defined by collective rotation of two sets of parallel, four-bar linkages joined by a transfer plate. A control link between a frame secured axis and an axis mid-span of a swinging linkage set further restricts pivotal displacement of the entire assembly. The translating tool holder supports a journal socket for the pivot axis of a third four-bar, parallel linkage for controllably swinging a secured article in a horizontal plane between opposite sides of the transfer apparatus.

Abstract: A substantially balanced, five-axis, direct drive mini-robot provides repeatable micro-manipulation to micron precision. Dynamic forces of each link are nearly decoupled from the dynamic forces of remaining links. The robot is generally formed as a shoulder, arm and wrist assembly. At the shoulder a linear actuator drives the robot in a linear horizontal movement along a first axis (e.g., z axis). Two additional actuators at the shoulder provide revolute motion to rotate the arm in an xz plane (e.g., for lateral motion) and a yz plane (e.g., for vertical motion), respectively. A fourth actuator provides rotational motion to move an end-effector (manipulator) at the wrist through a yaw motion. A fifth actuator, positioned at the shoulder and linked to the wrist, provides rotational motion to move the end-effector through a pitch motion.

Abstract: The subject invention provides a modular, expandable and reconfigurable robotic system. In one aspect of the invention there is provided a robot having at least two manipulators each having several compact rotary joints. The rotary joints have one input coupling and either one or two output couplings. Each joint is modular including a d.c. brushless motor coupled with a harmonic cup drive and includes position, velocity and torque sensors. Each manipulator may be disassembled and reassembled to assume a multitude of configurations. In another aspect of the invention there is provided an expandable and modular real-time computer control system for controlling the robot. The computer architecture achieves between 5 to 10 MFLOPS with reduced instruction set computing (RISC) processor nodes and a fast point-to-point communication network. Each node includes a host computer and parallel input/output (I/O) modules as well.

Abstract: An industrial robot, particularly for use as an interpress robot, includes a pair of arms rotatable around two axes parallel to and spaced apart from each other, on which there are articulated two forearms. The opposite ends of the forearms are mutually articulated around a common axis and one of these forearms rotatably supports a wrist for rotation around a third axis parallel to said first and second axis.

Abstract: A clean robot capable of a linear conveying motion comprises a base, a first arm rotatably supported by the base, a second arm rotatably supported by the first arm, and a third arm rotatably supported by the second arm. Also provided are a first driving unit for rotating the first arm with respect to the base in a first rotational direction at a first angular velocity, a second driving unit for rotating the second arm with respect to the first arm in a second rotational direction reverse to the first rotational direction at a doubled angular velocity of the first angular velocity, and a third driving unit for rotating the third arm with respect to the second arm in the first rotational direction at the first angular velocity.