Abstract: The present invention discloses a cable-driven manipulator comprising an operating unit having a drive motor, and a pulley rotated by the drive motor. An upper arm is coupled, through a joint, to one side of the operating unit. A forearm coupled, through a joint, to the other side of the upper arm by the cable. A gripper of an end effector operably coupled to the forearm, a cable compensation device is installed between the upper arm and the forearm so as to maintain constant the length of the cable that transmits the power of the operating unit to the end effector during the pivoting of the forearm. It is thus possible to prevent the variation of tensile force due to the variation of the length of the cable for operating the end effector during the pivoting of the forearm or the unintended malfunction of the end effector.

Abstract: A handling apparatus mounted on a moving member for holding, conveying, and installing a workpiece has a floating plate attached for radial movement to an apparatus body 10 connecting with the movable member, and a workpiece holding device for holding the workpiece on the floating plate. A lock plate is provided for fastening the floating plate to the apparatus body in a radial direction, A fastening piston is coupled to the lock plate through a fastening rod, and the floating plate can be fastened at any position. An aligning piston on which a tapered surface is formed is mounted on the apparatus body for reciprocation. The tapered surface of the aligning piston engages an aligning hole of the floating plate to return the floating plate in the radial direction to an origin position.

Abstract: An apparatus and associated method is provided for individually positioning first and second input links of a four-bar linkage to move first and second follower links pivotally joined therebetween in order to move a chuck supported by one of the follower links between a retracted position and an extended position.

Abstract: A managing structure for an umbilical member of an industrial robot, the umbilical member being for supplying air and electric energy to a work tool attached to an end of a wrist of the robot, in which the umbilical member is properly moved and interference between the umbilical member and a peripheral object or a forearm of the robot is prevented. The umbilical member elastically contacts a guide surface of a guide plate attached to a second wrist element of the robot without widely projecting from the robot. The umbilical member is guided such that the extending direction of the umbilical member generally coincides with the longitudinal direction of the guide plate before the umbilical member is connected to the work tool. The thickness of the guide plate may be gradually reduced or constant toward a free end of the guide plate.

Abstract: The present invention provides parallel, cable based robotic manipulators, for use in different applications such as ultra high-speed robots or positioning devices with between three to six degrees of freedom. The manipulators provide more options for the number of degrees of freedom and also more simplicity compared to the current cable-based robots. The general structure of these manipulators includes a base platform, a moving platform or end effector, an extensible or telescoping central post connecting the base to moving platform to apply a pushing force to the platforms. The central post can apply the force by an actuator (active), or spring or air pressure (passive) using telescoping cylinders. The robotic manipulators use a combination of active and passive tensile (cable) members, and collapsible and rigid links to maximize the benefits of both pure cable and conventional parallel mechanisms.

Abstract: The present invention provides parallel, cable based robotic manipulators, for use in different applications such as ultra high-speed robots or positioning devices with between three to six degrees of freedom. The manipulators provide more options for the number of degrees of freedom and also more simplicity compared to the current cable-based robots. The general structure of these manipulators includes a base platform, a moving platform or end effector, an extensible or telescoping central post connecting the base to moving platform to apply a pushing force to the platforms. The central post can apply the force by an actuator (active), or spring or air pressure (passive) using telescoping cylinders. The robotic manipulators use a combination of active and passive tensile (cable) members, and collapsible and rigid links to maximize the benefits of both pure cable and conventional parallel mechanisms.

Abstract: A method for moving a multi-axis or multi-axle handling system, particularly for orienting a hand of an industrial robot, with a gripping tool connected to a hand is characterized in that the movement is performed in such a way that movement-dependent moments on an article held by the gripping tool are largely eliminated and that essentially only normal forces act between the article and the gripping tool. An apparatus according to the invention is used for performing the method. This permits a safe and speed-optimized movement of handling articles, particularly during palletizing and commissioning, which leads to corresponding economic cost advantages.

Abstract: A parallel robot or parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism comprises a fixed base, a main arm, and a first and second support arm to position and orient an object in a cylindrical space with at least three degrees of freedom and retained inclination. The main arm includes an end component for supporting the object and linkage means to retain the inclination of the end component with respect to the base for all positions and orientations of the end component. The mechanism advantageously provides a large cylindrical workspace and a small footprint and is capable of moving an object at high accelerations and speeds. The mechanism can be equipped with an additional motor to orient an object, thereby providing the mobility of a SCARA robot. Alternatively, it can be equipped with passive transmission means that allow for an object to be displaced in parallel to itself.

Abstract: An industrial robot including a platform arranged for carrying an object. A first arm is arranged for influencing the platform in a first movement and includes a first actuator having a first path and a first carriage linearly movable along the first path. A second arm is arranged for influencing the platform in a second movement, and includes a second actuator having a second path and a second carriage linearly movable along the first path. A third arm is arranged for influencing the platform in a third movement. A control unit controls the movements of the platform. The first and second arms are arranged rotatable in such way that the platform is movable between opposite sides of a second plane passing through and continuously following the first and second carriage. The control unit includes a control adapted to upon command perform a reconfiguration of the platform and the arms of the robot. The reconfiguration includes moving the platform between opposite sides of the second plane.

Abstract: Disclosed is a robot which is compact in structure and may be movable in a large working range, wherein move members 1, 1 may be moved by drive devices 4, 4 respectively along a straight line and in parallel with each other, the drive devices 4, 4 including motors 40, 40 respectively which are individually controlled by a control device 9, so that the move members 1, 1 may be moved at a different speed and may be stopped at different relative positions. The move members 1, 1 are connected to a work holder 3 by means of arms 2, 2, the arms having one end pivotally connected to the move members 1, 1 at the pivots 10, 10 thereof respectively, the arms 2, 2 having the opposite end pivotally connected to the work holder 3 at the pivots 30, 30 thereof respectively. The work holder 3 may hold an optional jig and may be moved in a horizontal plane and in a vertical plane enabling the jig to work in the working plane.

Abstract: According to this invention, there is provided a manipulator which can be suitably used as a compact manipulator apparatus which manipulates a minute target object. A manipulator of this invention includes, for example, a plurality of arm members whose attitudes can be changed and a manipulation target object manipulating hand mounted on the plurality of arm members through a connecting portion. Rotation of the hand or similar motion is caused by changing the attitudes of the plurality of arm members.

Abstract: The present invention provides parallel, cable based robotic manipulators, for use in different applications such as ultra high-speed robots or positioning devices with between three to six degrees of freedom. The manipulators provide more options for the number of degrees of freedom and also more simplicity compared to the current cable-based robots. The general structure of these manipulators includes a base platform, a moving platform or end effector, an extensible or telescoping central post connecting the base to moving platform to apply a pushing force to the platforms. The central post can apply the force by an actuator (active), or spring or air pressure (passive) using telescoping cylinders. The robotic manipulators use a combination of active and passive tensile (cable) members, and collapsible and rigid links to maximize the benefits of both pure cable and conventional parallel mechanisms.

Abstract: The invention relates to a displacement and/or positioning device for the displacement and/or positioning of an object in five axes, comprising an object support and five coupling members which support the object support in a frame, whereby four of the five coupling members are each connected to the object support by means of a first joint arrangement each with two degrees of freedom and the remaining one of the five coupling members is connected to the object support by means of a second joint arrangement with one degree of freedom.

Abstract: A linkage mechanism for a pick and place robot includes two rotatable drive members mounted on a base and connected to a platform by a respective two element linkage. The mid point of the two element linkage has a bell crank, the arms of which are connected to first and second location links anchored respectively at the base and platform. The platform may be configured to carry various implements, and the mechanism permits movement thereof in two dimensions by selective motion of the drive members.

Abstract: An apparatus for performing an operation on a circuit substrate, the apparatus including a plurality of operating devices which are provided in a space that is closed and opened by a safety cover and one of which performs the operation on the circuit substrate, a safety-cover switch which is switchable to an ON state thereof corresponding to a closed state of the safety cover, and to an OFF state thereof corresponding to an opened state of the safety cover, a maintenance-related control device which keeps, in a maintenance mode, at least one of the operating devices to a state thereof in which the one operating device is operable, and a maintenance-mode setting switch which cooperates with the safety-cover switch to provide a parallel circuit, and which is selectively operable to an ON state thereof in which the maintenance-mode setting switch allows setting of the maintenance mode, and to an OFF state thereof in which the maintenance-mode setting switch does not allow the setting of the maintenance mode.

Abstract: A wrist driving mechanism capable of arranging a large amount of cables and pipes in a robot arm. A robot wrist mechanism having three degrees of freedom is driven by first, second and third drive shafts for transmitting driving forces of first, second and third motors M4, M5 and M6, respectively. The first drive shaft is a hollow shaft for transmitting a rotational driving force from the motor M4 to a first wrist element supported rotatably around the first axis B1. The second and third drive shafts are arranged eccentrically with the first axis B1 in an inner space of the first drive shaft. The second drive shaft transmits a rotational driving force from the motor M5 to a second wrist element supported rotatably around the second axis B2, and the third drive shaft transmits a rotational force from the motor M6 to a third wrist element supported rotatably around the third axis B3.

Abstract: An industrial robot for movement of an object in space comprising a stationary platform, a movable platform adapted for supporting the object, and a first, a second and a third arm to which the platforms are joined. The first arm comprises a first actuator, a first supporting arm influenced by the first actuator and rotatable around a first axis, and a first linkage. The second arm comprises a second actuator, a second supporting arm influenced by the second actuator and rotatable around a second axis, and a second linkage. The third arm comprises a third actuator, a third supporting arm influenced by the third actuator and rotatable around a third axis, and a third linkage. The second supporting arm is freely mounted around a cross-beam that is arranged at right angles to the second axis.

Abstract: A manipulator for receiving and displacing an object, comprising a moving portion, adapted to receive the object. Four support legs each extend between the moving portion and a ground for supporting the moving portion. Each support leg is connected to the ground by a first joint, and with sequentially second, third, fourth and fifth joints connecting the first joints to the moving portion. The support legs are topologically equivalent to one another with respect to the joints. Each of the support legs has constraints in the joints operable to restrict movement of the moving portion to three translational degrees of freedom and one rotational degree of freedom. Actuators are each operatively connected to a different first joint for controlling the movement of the moving portion in any one of the four translational degrees of freedom. A method for controlling the movement of the moving portion is provided.

Abstract: An industrial robot for movement of an object in space comprising a platform arranged for carrying the object, a first arm arranged for influencing the platform in a first movement and comprising a first actuator and two links, each of which comprises an outer joint arranged in the platform and an inner joint arranged in the first actuator, a second arm arranged for influencing the platform in a second movement and comprising a second actuator and two links, each of which comprises an outer joint arranged in the platform and an inner joint arranged in the second actuator, and a third arm arranged for influencing the platform in a third movement and comprising a third actuator and a link, which comprises an outer joint arranged in the platform and an inner joint arranged in the third actuator.

Abstract: A manipulator is provided that includes a foot part and a number of members connected to the foot part and to each other respectively, and at least a gripper part, such that the members, the gripper and the foot part form an arm. One or more motors are provided in the foot part for moving at least a one of the members and the gripper.

Abstract: A computer-controlled parallel-leg mechanism, with three pairs of remotely-actuated tendon legs, provides accurate six-degrees-of-freedom motion and positioning for a tool platform. Leg pair termination at a common point with three degrees of pivoting freedom is provided by a unique linkage joint. Non-intrusive tool-position feedback is enabled by nine shaft encoders mounted at the mechanism's base end.

Abstract: A robot is disclosed in which load torque imposed on motors is reduced and therefore small-sized motors can be used. In the robot, an arm member, a first link, a second link and a third link constitute a parallel linkage, and the first link and the third link are coaxially pivotally supported on a base. With a pivotal shaft for pivotally connecting the second link and the third link, one end of a fourth link having shorter link length than the link length of the third link is pivotally connected to the second and third links and one end of a fifth link having the same link length as that of the fourth link is pivotally connected to the other end of the fourth link. The other end of the fifth link is pivotally supported on the base with a pivotal shaft to which the rotary shaft of the motor is coupled, so that the fifth link can move according to the rotation of the motor.

Abstract: A manipulator for receiving and displacing an object, comprising a moving portion, adapted to receive the object. Four support legs each extend between the moving portion and a ground for supporting the moving portion. Each support leg is connected to the ground by a first joint, and with sequentially second, third, fourth and fifth joints connecting the first joints to the moving portion. The support legs are topologically equivalent to one another with respect to the joints. Each of the support legs has constraints in the joints operable to restrict movement of the moving portion to three translational degrees of freedom and one rotational degree of freedom. Actuators are each operatively connected to a different first joint for controlling the movement of the moving portion in any one of the four translational degrees of freedom. A method for controlling the movement of the moving portion is provided.

Abstract: An indusurial robot for movement of an object in space comprising a platform arranged for carrying the object, a first arm arranged for influencing the platform in a first movement and comprising a first actuator and two links, each of which comprises an outer joint arranged in the platform and an inner joint arranged in the first actuator, a second arm arranged for influencing the platform in a second movement and comprising a second actuator and two links, each of which comprises an outerjoint arranged in the platform and an inner joint arranged in the second actuator, and a third arm arranged for influencing the platform in a third movement and comprising a third actuator and a link, which comprises an outer joint arranged in the platform and an inner joint arranged in the third actuator.

Abstract: A parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism has various limbs designed as elbow-linkages, at least some of which are actuatable, for moving an end component with multiple degrees of freedom. The mechanism advantageously facilitates an improved workspace-to-footprint ratio and a closed-form solution for the forward kinematics. The mechanism comprises a joint assembly having a plurality of revolute joints for connecting to at least three limbs, the joints having axes which intersect at a common point. In various embodiments of the invention, the end component has three, four, five and six degrees of freedom.

Abstract: A parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism has various limbs, at least some of which are actuatable, for moving an end component with multiple degrees of freedom. The mechanism advantageously facilitates a closed-form solution for the forward kinematics. A joint assembly is provided for use in the parallel kinematics mechanism, the joint assembly having a plurality of revolute joints for connecting to at least three limbs, the joints having non-parallel axes, which intersect at a common point. In various embodiments of the invention, the end component has three, four, five and six degrees of freedom.

Abstract: The invention provides a drill rod handling device (14) which is adapted for attachment to a drill rig assembly (10) which includes a standard rotation unit (12) and a rod holder (13) mounted on top of a feed frame (11) and which are used to feed drill rods (25) in and out of the ground.

Abstract: A parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism has various limbs, at least some of which are actuatable, for moving an end component with multiple degrees of freedom. The mechanism advantageously facilitates a closed-form solution for the forward kinematics. A joint assembly is provided for use in the parallel kinematics mechanism, the joint assembly having a plurality of revolute joints for connecting to at least three limbs, the joints having non-parallel axes, which intersect at a common point. In various embodiments of the invention, the end component has three, four, five and six degrees of freedom.

Abstract: A robot for handling products in a three-dimensional space is described. The robot comprises a base (1) on which three arms (9) are pivotably supported to pivote around three pivote axes (3) arranged in a common axes plane (4). The three axes form a triangle with three corners. Each arm is mounted on a shaft (2) of a servo motor (6). All motors (6) are connected to a controller (8). Three connecting linkages (19) connect the free ends of the arms (9) to a carrier (22) which is movable in space in all three linear dimensions and prevented from rotation around all three rotative dimensions. A telescopic fourth linkage (43) connects a gripper (30) rotatably supported on the carrier (22) by two joints (42, 46) with a fourth serve motor (48) fixed to the base (1). In the axes plane (4) the base has an opening (52) through which the fourth linkage (43) extends. The upper joint (46) of the fourth linkage (43) is on an opposite side of the axes plane (4) than the carrier (22).

Abstract: A parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism has various limbs, at least some of which are actuatable, for moving an end component with multiple degrees of freedom. The mechanism advantageously facilitates a closed-form solution for the forward kinematics. A joint assembly is provided for use in the parallel kinematics mechanism, the joint assembly having a plurality of revolute joints for connecting to at least three limbs, the joints having non-parallel axes, which intersect at a common point. In various embodiments of the invention, the end component has three, four, five and six degrees of freedom.

Abstract: A parallel kinematics mechanism is provided for uses such as robotics or machining. The mechanism has various limbs, at least some of which are actuatable, for moving an end component with multiple degrees of freedom. The mechanism advantageously facilitates a closed-form solution for the forward kinematics. A joint assembly is provided for use in the parallel kinematics mechanism, the joint assembly having a plurality of revolute joints for connecting to at least three limbs, the joints having non-parallel axes, which intersect at a common point. In various embodiments of the invention, the end component has three, four, five and six degrees of freedom.

Abstract: A six-degrees-of-freedom parallel mechanism for micro-positioning work is disclosed. This mechanism freely performs a desired motion of translation and rotation of a moving platform using internal and external links actuated by linear actuators capable of precisely controlling the link positions, thus being effectively used as a 6dof parallel mechanism required to carry out a variety of micro-positioning works within a limited workspace. In the mechanism of this invention, a moving platform 10 is placed at an upper position, with a multiaxial spherical joint 40 mounted to the central portion of the moving platform 10. A base platform 20 is placed at a lower position of the mechanism. Three external links 30 couple the moving platform 10 to the base platform 20, while three internal links 50 couple the multiaxial spherical joint 40 to the base platform 20. In this mechanism, the internal links 50 are commonly coupled to the multiaxial spherical joint 40 so as to form a tetrahedral structure.

Abstract: A robot for a production machine includes a parallel link mechanism including opposed first and second shorter-side links and opposed first and second longer-side links which form a parallelogram. A chuck is supported on the first shorter-side link. A guide rail is fixed to a base arm in order to movably support the second shorter-side link. The base end of a drive link is rotatably attached to the base arm, and the distal end of the drive link is attached to an intermediate portion of one of the first and second longer-side links. A drive mechanism is provided in order to rotate the base end of the drive link. This structure simplifies the mechanical system and the control system, reduces a space required in the vertical direction, and increases operation speed such as product removal speed.

Abstract: In a holding device for a surgical instrument comprising a holder for the instrument, in order to enable pivotal movement of the instrument while avoiding simultaneous translational movement, it is proposed that the holder be held by at least two guide rods on a frame, the guide rods being rotably connected to the frame and to the holder, the bearing points of the guide rods on the holder being arranged in spaced relation to one another, and the spacing of the bearing points on the frame being greater than the spacing of the bearing points on the holder.

Abstract: A robot for handling products in a three-dimensional space is described. The robot comprises a base (1) on which three arms (9) are pivotably supported to pivote around three pivote axes (3) arranged in a common axes plane (4). The three axes form a triangle with three corners. Each arm is mounted on a shaft (2) of a servo motor (6). All motors (6) are connected to a controller (8). Three connecting linkages (19) connect the free ends of the arms (9) to a carrier (22) which is movable in space in all three linear dimensions and prevented from rotation around all three rotative dimensions. A telescopic fourth linkage (43) connects a gripper (30) rotatably supported on the carrier (22) by two joints (42, 46) with a fourth serve motor (48) fixed to the base (1). In the axes plane (4) the base has an opening (52) through which the fourth linkage (43) extends. The upper joint (46) of the fourth linkage (43) is on an opposite side of the axes plane (4) than the carrier (22).

Abstract: An overload protection device includes a cup-shaped cap member defining a cavity receiving a cup-shaped yoke member defining a pressurized air chamber receiving a piston having a rounded end surface engaging the cap member. An annular cam member is inserted into the cap member and defines three angularly spaced V-shaped cam surfaces with center seats which receive corresponding steel balls mounted on outwardly projecting ears of the yoke member. A rigid plastic ring is mounted on the yoke member with epoxy and contacts an annular shoulder within the cam member. The yoke member carries a pair of axially adjustable and normally closed electrical contact elements which are opened by an actuator pin projecting from the piston in response to tilting and/or rotation and/or axial movement between the yoke member and cap member.

Abstract: A refuse collection apparatus including a container lifting and emptying apparatus connected to a collection receptacle which is dumped into a refuse hauling vehicle. The container lifting and emptying apparatus includes a container manipulator attached to a support arm which is connected to an extensible boom which is, in turn, connected to the collection receptacle. The container manipulator engages a container of interest and the support arm pivots the engaged container between a lowered position and a raised position for dumping. The collection receptacle typically includes multiple compartments wherein the support arm includes a pendulum pivot or is pivotally attached to the collection receptacle such that the engaged container may be tilted over any one of a plurality of the storage compartments. Another version of the collection apparatus includes a collection receptacle having three or four compartments wherein one compartment is adjacent and between the manipulator and a far storage compartment.

Abstract: A refuse collection apparatus and method including a container lifting and emptying apparatus connected to a collection receptacle which is dumped into a refuse hauling vehicle. The container lifting and emptying apparatus includes a container manipulator attached to a support arm which is connected to an extensible boom which is, in turn, connected to the collection receptacle. The container manipulator engages a container of interest and the support arm pivots the engaged container between a lowered position and a raised position for dumping. The collection receptacle typically includes multiple compartments wherein the support arm includes a pendulum pivot or is pivotally attached to the collection receptacle such that the engaged container may be tilted over any one of a plurality of the storage compartments.

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: The subject invention provides a parallel or closed loop mechanism for moving and positioning a member in space. The mechanism includes three branches each provided with at least two link members being serially connected together by a spherical elbow joint whereby the first and second link members are rotatable with respect to each other about any axis passing through a center of the first joint. The mechanism is provided with actuators for moving each branch and the first links of each branch are rigidly connected at an end portion thereof to the actuator means. The mechanism includes three revolute joints each defining a longitudinal axis of rotation. Each revolute joint is connected to an associated second link member so that the longitudinal axes of all third joints intersect at a point and the revolute joints are interconnected so that the three branches form three parallel or closed loops.

Abstract: A refuse collection apparatus including a container lifting and emptying apparatus connected to a collection receptacle which is dumped into a refuse hauling vehicle. The container lifting and emptying apparatus includes a container manipulator attached to a support arm which is connected to an extensible boom which is, in turn, connected to the collection receptacle. The container manipulator engages a container of interest and the support arm pivots the engaged container between a lowered position and a raised position for dumping. The collection receptacle typically includes multiple compartments wherein the support arm includes a pendulum pivot or is pivotally attached to the collection receptacle such that the engaged container may be tilted over any one of a plurality of the storage compartments. Another version of the collection apparatus includes a collection receptacle having three or four compartments wherein one compartment is adjacent and between the manipulator and a far storage compartment.

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 hand for gripping workpieces to be forged which are subjected to impact loads is provided. The robot hand 2 includes a grip 3 for gripping a workpiece to be forged and a grip support 2a for supporting the grip 3. A grip guide 12 for supporting the grip 3 so that it is movable in a plane perpendicular to the longitudinal axis of the grip support and slidable in forward and rearward directions and a spherical seat 5 for bearing the grip guide 12 so that it can be inclined are provided within a casing 4 of the grip support 2a. The casing 3 of the grip support 2a is provided with various actuators 9, 10, 11, 7 for changing the supporting state between a state in which the grip 3 can be moved and inclined and a state in which the grip 3 can not be moved and inclined. The grip 3 is brought into the movable and inclinable state for absorbing an impact when the impact load is applied to the gripped workpiece to be forged.

Abstract: Disclosed is a flexible robot arm structure utilizing an elongate skeletal frame member which can be controlled to assume any of a number of curved shapes as in the performance of automated operations. The arm functions somewhat like the body of a snake or an elephant's trunk. The skeletal frame defines a plurality of similar elemental segments disclosed in the form of disc-like structures as well as turns in a helical loading configuration. The helical form includes interleaved flexible helix members interconnected in a chain-link form. Displacement of sections in the arm is accomplished by the action of two separate mechanisms. A deflection mechanism provides power to flex or curve an arm section while a distribution mechanism distributes the curvature along the length of the arm to seek a smooth, circular curve. Illustrative embodiments use hydraulic actuators integral with the frame; however, equivalents are disclosed. The resulting arm is a highly repetitive, mechanical structure.

Abstract: A log skidder apparatus includes a frame provided with pivotal attachment points for the reception of the three point hitch components of a tractor. One of the frame carried attachment points is coupled to a hydraulic cylinder for imparting tilting movement to the frame to lift and advance the end of a log being transported into abutment with the frame. A truss of the frame carries a grapple assembly. An upright shaft is journalled in the truss and carries the grapple assembly with the shaft having an arm thereon biased by a spring urging the assembly to a predetermined position to facilitate grapple engagement with a log end. The frame is equpped with plates to confine the log end against displacement from the frame.

Abstract: An electric actuator which is used for e.g. an arm of an industrial robot includes a composite shaft having a ball screw groove and a ball spline groove, a hollow motor through which the composite shaft extends, a ball screw nut fitted threadedly about the composite shaft and secured to a motor shaft, and a ball spline nut fitted about the composite shaft and secured to a motor housing. The ball spline nut, ball screw nut, and motor are arranged in the order mentioned as viewed from an attachment for a moving body which is provided at one end of the composite shaft. An angular-contact bearing which supports the motor shaft rotatably is situated closer to the ball screw nut than the motor is.

Abstract: Handling equipment and a grapple device for handling balled plant loads such as trees and shrubs are disclosed. The grapple device which may be pivotally mounted on any suitable vehicle has a lengthwise frame. A pair of pivot rotary actuators having their rotational axes oriented transversely to each other are attached to the end of the frame. A grapple mechanism having pair of diametrically opposed grapple blades pivotally attached to a support member is fastened to one of the pivot rotary actuators. The grapple blades are opened or closed about the root ball of a plant by means of actuators, preferably hydraulic cylinder actuators. The grapple mechanism also has a slidably adjustable foot member which is positioned between the grapple blades to stabilize the plant load. The interior surfaces of the grapple blades and foot are adapted to engage the root ball of the plant.

Abstract: A multi-axis electric spraying robot adapted for use in a hazardous environment includes a base having a first pressurized compartment and an arm assembly having a second pressurized compartment in which compartments electric motors are respectively located. The arm assembly is supported for movement on the base at one end thereof. The arm assembly includes a wrist adapted for connecting the opposite end of the arm assembly with a spraying tool. One electric motor is provided to drive each axis. The compartments are pressurized to prevent flammable gases or vapors from entering the first and second compartments during operation of the robot.

Abstract: A parallel robot comprises a base, three set of arm assemblies disposed on the base at a predetermined spacing, and a bracket member which is supported by the arm assemblies and to which an end effector is attached. Each of the arm assemblies comprises a pair of motors mounted on the base to face each other with a predetermined clearance and a pair of arms which are supported by the motors to be swung, respectively. Each of the arms comprises a first arm portion and a second arm portion. The first arm portion and the second arm portion of each arm are connected with each other through a first joint means, and the second arm portion of each arm is connected with the bracket through a second joint means.

Abstract: An automatic container loading device connected to an appropriate truck comprises a first telescopic arm connected to the chassis of the truck and able to rotate, both on a horizontal and on a vertical plane, a second telescopic arm centrally connected to the free end of the first arm and able to make a complete rotation on its vertical axis and comprising a third arm and a fourth arm, also able to make a complete rotation. The third and fourth arms support a mechanism for gripping containers of all shapes and sizes form any position whatsoever, even at a considerable distance from the truck and on a different level, placing them automatically in the right position for being lifted and emptied into the body of the truck.