Optical


Optical

July 18th, 2009

Method for assembling electronic circuits
A device for assembling electronic circuits comprises a placing station (7) for placing circuit components on a circuit carrier (1) held at a placing location (17), a fixing station (19) for fixing the circuit components to the circuit carrier (1) under the effect of heat, and a belt conveyor means (9) for conveying a circuit carrier from the placing location (17) to a take-over location (29) of the fixing station (19). The fixing station (19) comprises a heatable zone (22) and a manipulator (21) for raising the circuit carrier (1) from the take-over location (29) and placing it in the heatable zone (22). A continuous belt conveyor (9) of the belt conveyor means extends from the placing location (17) up to the take-over location (29).

Robot calibration system and method
A robot calibration system and method for robots in semiconductor wafer processing systems is disclosed. The calibration system comprises a calibration array, a dummy wafer and a control system programmed with a calibration routine. The calibration array has an plurality of inductive proximity sensors to determine parallelism of the robot relative to a station and a center locating sensor to determine the center of the station.

Article control system, article control server, article control method

The system includes a sensor for detecting a state of a space; a robot for executing a handling job for an article; an article identifying part for identifying, when an article is handled by a movable body, the article in response to a detection result obtained by the sensor; and an article handling subject identifying part for identifying an article handling subject that handles the article. When the movable body that handles the article is the robot, the article handling subject identifying part identifies a subject having issued a job instruction to the robot as the article handling subject.

In-process non-contact measuring systems and methods for automated lapping systems

In-process non-contact measurement systems and methods for automated lapping systems are disclosed. In an embodiment, a moveable frame can be controllably positioned proximate to a lapped work product. A control component can provide first control signals to control a movement of the moveable frame relative to the lapped work product. A non-contact measuring device can be coupled to the moveable frame measures a surface of the lapped work product and can transmit measurement data of the surface of the lapped work product to the control component. The control component can further provide second control signals to control a movement of the non-contact measuring device relative to the moveable frame.

Image based bar-code reading and robotic registration apparatus for use in automated tape library systems

An image based bar-code reading and robotic registration apparatus and method for use in automated tape library systems is disclosed. An imager is positioned on a picker assembly with its own illumination source and appropriate optics to filter out ambient light. The imager connects to a microprocessor in its immediate vicinity. All image acquisition and processing are done by these components. To ensure operation independent of illumination variations, the image processing code developed for this invention automatically adapts to dynamic lighting situations. The tape cartridge cells are used as fiducials to allow tape cartridge registration without fiducial markings. The use of the tape cartridge cells as fiducials maximizes storage capability.

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Compliance

July 18th, 2009

Workpiece regrasping system for robot
A workpiece regrasping system for a robot. The system includes a manipulator grippable a workpiece; a deck member having a deck surface on which a workpiece is placeable; a support mechanism rotatably supporting the deck member about an axis parallel to the deck surface; a workpiece-orientation control section for controlling the manipulator so as to grip a workpiece at a first point of the workpiece and to bring the workpiece into abutment with the deck surface of the deck member, and configured to displace the workpiece together with the deck member about the axis, while maintaining a mutually abutted condition, until the workpiece occupies a desired orientation, with at least a part of a weight of the workpiece being carried on the deck surface; and a regrasping control section for controlling the manipulator so as to temporarily release the workpiece placed on the deck surface in the desired orientation and to regrasp the workpiece at a second point different from the first point. The workpiece-orientation control section may control an operation of the manipulator, or control a rotational drive section for the deck member, while maintaining the workpiece in abutment with the deck surface, to displace the workpiece to the desired orientation.

System, apparatus, and method for managing and controlling robot competitions
A system and method for operating robots in a robot competition. One embodiment of the system may include operator interfaces, where each operator interface is operable to control movement of a respective robot. A respective operator interface may be in communication with an associated operator radio, where each radio may have a low power RF output signal. A robot controller may be coupled to each robot in the robot competition. A robot radio may be coupled to a respective robot and in communication with a respective robot controller and operator radio. The robot radios may have a low power RF output signal while communicating with the respective operator radios. Alternatively, the radios may be short range radios, where a distance of communication may be a maximum of approximately 500 feet.

System, apparatus and method for managing and controlling robot competitions
A system and method for operating robots in a robot competition. One embodiment of the system may include operator interfaces, where each operator interface is operable to control movement of a respective robot. A respective operator interface may be in communication with an associated operator radio, where each radio may have a low power RF output signal. A robot controller may be coupled to each robot in the robot competition. A robot radio may be coupled to a respective robot and in communication with a respective robot controller and operator radio. The robot radios may have a low power RF output signal while communicating with the respective operator radios. Alternatively, the radios may be short range radios, where a distance of communication may be a maximum of approximately 500 feet.

Guided thrust maneuvered shipboard crane
A floating object is attached to a shipboard hoisting crane through its attachment device under high seawave conditions, by maintaining alignment of the crane attachment device under maneuvering thrust control with a location on the floating object during lowering of the attachment device onto the floating object. Such maneuvering thrust control is established by thrust jets emitted from the attachment device under control of optical scanning detection cells mounted on the attachment device for reception of a reception location indicating beam emitted from the floating object.

Toolhead assembly for CNC machines having misalignment prevention means

A toolhead assembly for a CNC machine displaceable along orthogonal x, y and z-axes generally consisting of a support assembly, a tool carrier supported on the support assembly having a rotatable tool axis and being displaceable relative to the support assembly between a first position wherein the tool axis is aligned with the z-axis and a second position wherein the tool axis is misaligned with the z-axis, structure for yieldably biasing the tool carrier assembly into the first position and structure responsive to a displacement of the tool carrier assembly to the second position for breaking an electrical grounding circuit of a controller operatively connected to the machine.

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Inspection

July 18th, 2009

Tooth aligning device for the aligning of workpiece with pre-cut teeth on gear finishing machines
The invention concerns a device for the non-contact measurement of the position of the teeth (13) of a workpiece (14) with precut teeth on a gear finishing machine. The measuring probe, retractable from the measuring position into a position of rest protected against soiling, is arranged in a holder (5) for radial and axial adjustment relative to the workpiece, the said holder (5) being a kinematic member of a parallelogram linkage (A) and by means of a hydraulic, pneumatic or electromechanical swivel drive (11) is swivellable from stop to stop between measuring position and position of rest in a plane containing the workpiece axis, such that in the advancement action from the lower end position to the top end position motions of the measuring probe (1) tangential to the workpiece circumference are completely avoided. The parallelogram kinematics moreover afford adequate protection against swarf and grinding dust, and lends the device a high stiffness and reliability.

Devices for the ultrasonic testing of a workpiece by the transmission technique

A device for the free-jet ultrasonic testing of a workpiece by the transmission technique includes a first test head, serving as an ultrasound transmitter, and a second test head, serving as an ultrasound receiver. The test heads are respectively disposed on a first robot and a second robot, in each case in a freely movable manner, with at least one degree of freedom, such that they are aligned coaxially in relation to each other and perpendicular to a surface of a workpiece. The robots are positioned such that they are fixed in place on a displaceable common carrier.

Gas main robotic inspection system
The present invention provides a long-range, untethered, live, in-pipe inspection system that includes a self-propelled train having a plurality of modules; joint members for interconnecting adjacent modules, data collection components, and wireless communication components for transmitting collected data and receiving control messages. The module-train includes, generally, at least one, and preferably two drive modules, at least one power module and an electronics module. The train may additionally include at least one support module, which may be interposed between the power and electronics modules. In one embodiment of the invention, there are two drive modules, one at each terminal end of the train, two power modules, one adjacent to each drive module, two support modules, one adjacent to each power module, and one central electronics and computing module.

Apparatus and method for non-destructive inspection of large structures
An automated inspection system and method enables rapid, remote and non-contact inspection of large objects, utilizing non-destructive inspection techniques, that does not require continuous manual repositioning of the inspection equipment. The inspection system includes a remote controlled robotic vehicle including a sensor package capable of non-destructive inspection of a structure and a mechanism for locating the sensor package at a plurality of inspection sights on the structure; a positioning system for determining the location of the robotic vehicle with respect to the structure to be inspected; a control system for controlling the movement of the robotic vehicle around the structure to be inspected; and an analysis systems for analyzing data generated by the sensor platform.

Method and apparatus for monitoring the operation of a wafer handling robot
The integrity of control signals used to control a wafer handling robot is monitored by a monitor connected to various points of the robotic control system. The monitor includes a memory for storing data sets representing correct, reference characteristics of the control signals. The monitor samples control signals at various points in the control system and compares these sampled signals with the stored reference characteristics in order to determine whether a signal disparity exists. If a disparity exists, the monitor generates an error.

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Welding

July 18th, 2009

Welding robot comprising an electrode grinder secured on a moving assembly of said welding robot
A welding robot (1) comprising a stand (2) pivotally receiving a trunk-forming portion (3) having one end (5) of an articulated arm (6) pivotally mounted thereon, the arm having an opposite end (7) provided with a clamp (8) fitted with welding electrodes, the robot including an electrode grinder (9) mounted on a portion (3) of the robot that is situated in a zone that is accessible to the clamp.

Disconnection box for a robot system
A switch-off box for a robot system has a two-part housing and a coupling device resiliently mounted in the housing and connected to a torch body and a hose pack or to a torch handle connected with the hose pack, and having a supporting surface for punctual contact on the housing. There are contacting or switching elements connected to the coupling device. Two oppositely located openings are provided in the housing for connection of the coupling device to the torch body and for connection of the coupling device to the hose pack or the torch handle. The supporting surface is connected with the contacting or switching elements so that a respective contacting or switching element will be activated or deactivated by lifting of the supporting surface from the housing, and a signal will be transmitted from the contacting or switching element to an interfaced control device, or the robot system.

Positioning jig device for vehicle body frame
In a welding station, one end of a positioning jig is held by a positioning robot, and the other end of the positioning jig is held by a positioning jig holder mechanism. The positioning robot is moved for positioning and fixing a vehicle body frame, which is fixed to the positioning jig, in any attitude, and a desired welding operation is performed on the vehicle body frame.

Method and installation for clinching pieces of sheet metal

A method for clinching pieces of metal plate, comprising the steps of: positioning two pieces of sheet metal (6a, 6b) in a clinching station (3), the two pieces of sheet metal (6a, 6b) being provided with at least one area of their edge whereon is applied a hot-curing resin, performing a clinching operation along the edge (16, 17) of said pieces (6a, 6b); and polymerising the resin by means of induction heating, in the same clinching station (3) by means of a heating device (19) which performs a localised heating of the clinched edges (16, 17).

Arc welding robot
A robot main body is provided with a protection cover. The robot main body can be swung by a rotary pipe shaft holding a wire feed device and including a hollow portion and is structured such that a connecting cable and/or a gas hose are guided through the hollow portion of the rotary pipe shaft and are then guided through the forearm portion and base portion thereof. The protection cover covers the portions of the connecting cable and/or gas hose ranging from the connecting portion of the wire feed device and connecting cable and/or gas hose to the rotary pipe shaft.

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Tool

July 18th, 2009

Automatic clamp changing apparatus
A clamp changing apparatus includes a holder (70) including a plurality of clamp-holding devices (72), each of which holding a clamp (10) thereon, a robot (50) including a shaft (501), and a coupling device (30) secured on the shaft of the robot. The robot selects one of the clamps held on the clamp-holding devices according to a predetermined machining program therein, changes out a used clamp for the selected clamp, and mounts the selected clamp on the coupling device.

Method, system and program product for enabling rapid connection of automated tools to a device network

A tool changer includes a tool attachment mechanism and a changer electronics module. The changer electronics module implements a tool changer node on a device network for the tool changer and a tool plate node on the device network for a tool plate of an automated tool that may be latched to the tool changer.

Hybrid compact sensing apparatus for adaptive robotic processes
A hybrid compact sensing apparatus for generating signals usable for guiding a process robot as a function of an object detected in a scene. The apparatus comprises a laser light generator, two optical sensors, one or more ultrasound sensors, and a control unit, all integrated in a same housing. The laser light generator and the optical sensors form a detection arrangement having a limited detection range compared to that of the ultrasound sensors. The control unit has a processing circuit monitoring the distance of the object measured by the ultrasound sensors, and triggering on the laser light generator and triggering use of the depth profile signals produced by the optical sensors among the signals usable for guiding the process robot when the distance measured by the ultrasound sensors falls within the limited detection range. Integration of an audio and video sensing unit to the apparatus enables remote monitoring.

Multiple robot arm tracking and mirror jog
A system for performing the method of this invention includes a leader having a robot arm able to articulate about first axes and supporting an end effector. A follower includes a robot arm able to articulate about respective second axes. Servo motors articulate the leader arm about the first axes and the follower arm about the second axes. A user interface allows a user to jog the arm of the leader and to program movement of the arms for automatic execution such that the end effector reaches predetermined positions. A controller, operatively connected to the servo motors and the user interface, controls operation of the servo motors, moves the arm of the leader in accordance with the programmed movement, and moves the arm of the follower such that it tracks or mirrors movement of the leader.

Roller folding head
A roller folding head is disclosed. Roller folding heads are used, for instance, when fixing the frame of a sliding roof in an opening in the roof of a vehicle. In order to do this quickly and automatically, the roller folding head is provided with at least two pairs of rollers, each pair of rollers consisting of a pressure roller and a counter-roller which interact in order to bend a flange along a folding line at a specific angle. The folding process is carried out in several stages, one flange being crimped around another flange in a series of partial steps at an angle of 180.degree.. One pair of rollers is provided for each step, at least two thereof being arranged on a roller folding head.

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Vacuum or mangetic

July 18th, 2009

Pressure transmission assembly for mounting to a robotic device having a rotatable end effector
Disclosed is a pressure transmission assembly for mounting to a robotic device having a rotatable end effector. The pressure transmission assembly includes a housing and a flexible pressure transmission member. The housing includes an input port and an output port. The flexible transmission member is coupled between the input port and the output port of the housing. The flexible transmission member is wound within the housing between the input port and the output port and is configured to receive a pressure signal at the input port and to transmit the pressure signal to the end effector through the output port.

Nut feeder
The forward movement of a feed rod 15 of a nut feeder permits pressurization of air in an air chamber 3a defined in a rod holder 3, thereby blowing the air out of the air outlet 20 through an air inlet 21 and an air passage 22. A nut 7 is held on the feed rod 15 by the pressure of the air blow from the air outlet 20.

Electronic component mounting apparatus
This invention provides an electronic component mounting apparatus which can detects an electronic component held by a suction nozzle without fail after a mounting operation of electronic components on a printed board and perform various processes in a case where the electronic component is held by the suction nozzle. The electronic component mounting apparatus has a line sensor unit for detecting presence or absence and a posture of an electronic component, a component recognition camera for recognizing a position of the electronic component held by suction by the suction nozzle, and a CPU for controlling the suction nozzle to discharge the electronic component in an exhaust box and controlling to skip this suction nozzle in a case where the line sensor unit does not detect the electronic component held by the suction nozzle when the line sensor unit performs detection whether or not the electronic component is held by the suction nozzle after a mounting operation of the electronic component held by the suction nozzle on a printed board, but in a case where the component recognition camera detects the electronic component held by the suction nozzle.

Auto-release vacuum device
A vacuum device for a material handling system includes a vacuum device body and a sealing element. The vacuum device body has a vacuum passageway in which a vacuum is generated in response to activation of a pressurized air supply that forces pressurized air through a venturi device. The sealing element moves to a sealing position to substantially seal the vacuum passageway when the air supply is activated, and is urged toward the sealing position via pressurized air that is diverted from an inlet of the vacuum device to the sealing element. The sealing element moves to substantially vent the vacuum passageway when the air supply is deactivated. The vacuum passageway may be in fluid communication with a vacuum cup, which seals against the object when the sealing element is at the sealing position and the vacuum generating device generates at least a partial vacuum in the vacuum passageway.

Layer picking end effector system, apparatus and method

A system, method and apparatus for handling and moving a layer of articles, such as cased products. The system and apparatus comprise a hood enclosure having four side panels, and four interconnected corner member. The side walls and corner members interoperate to form an adjustable enclosure to pick the layer of articles. A vacuum generate is utilized to evacuate air from the hood enclosure to assist in lifting the layer of articles. The hood enclosure may utilize an array of vacuum cups to assist in the lifting of articles into the hood enclosure. The method is directed towards utilizing the hood layer end effector to move and hand articles.

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Jaw structure

July 18th, 2009

Finger unit and multi-finger grasping mechanism
A multi-finger grasping mechanism (300), comprising three two-joint finger units (1-1 to 1-3). Each two-joint finger unit further comprises a finger root part (2), a finger root side joint part (5), a finger intermediate part (3), a finger tip side joint part (6), and a finger tip part (4). The finger intermediate part (3) can be swung about the joint axis (5a) of the finger root side joint part (5), and the finger tip part (4) can be swung about the joint axis (6a) of the finger tip side joint part (6). The finger tip part (4) can be swung about the center axis thereof. When a bolt (W) is held by the finger tip part (4) and the finger part (4) is rotated, the tightening operation of the bolt (W) can be performed.

Micro actuator
A micro actuator including a translationally driving section having a moving portion which is incorporated in a case and moves translationally, and a displacement enlarging member having one end portion connected to the moving portion of the translationally driving section and another end portion connected to the case, wherein as the one end portion is pulled on the basis of the translational movement, the amount of displacement of its distal end is enlarged.

System and method of predicting novel motion in a serial chain system

A method of predicting kinematic data for a segment. The method comprises the steps of determining a modified acceleration using at least original kinematic data, estimating a joint load for a joint of the segment by using at least the modified acceleration, and predicting kinematic data for the segment based on one or more modified parameters. Therefore, various embodiments advantageously allow for prediction of novel motion.

Gripping mechanisms, apparatus and methods
The present invention provides grasping mechanisms, gripper apparatus/systems, and related methods. Grasping mechanisms that include stops, support surfaces, and height adjusting surfaces to determine three translational axis positions of a grasped object are provided. In addition, grasping mechanisms that are resiliently coupled to other gripper apparatus components are also provided.

Joint drive mechanism and robot hand
A joint drive mechanism includes a plurality of link members linked via a joint portion. A drive portion is associated with the joint portion for driving the joint portion such that the link members attached thereto can be moved relative to one another in a controlled fashion. The drive portion includes a plurality of drive elements that each are capable of expanding or contracting in response to an applied electric signal so as to provide different drive outputs to the joint portion. In one embodiment, a joint portion connects link members simulating portions of a human finger. The drive portion includes a pair of drive elements connected to the joint portion by a transmission member. Each of the drive elements is expanded or contracted equally and oppositely relative to the other drive element in response to controlled applied electrical signals.

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Electric motor

July 18th, 2009

Finger unit for robot hand
A finger unit of a robot hand has a first rotational actuator, a first finger joint part, a first finger linkage, a second finger joint part, and a second finger linkage that are connected in this order. A second rotational actuator is attached to the first finger linkage. The first finger linkage swivels about the first finger joint part by the first rotational actuator, and the second finger linkage swivels about the second finger joint part by the second rotational actuator. The second rotational actuator is attached to the first finger linkage so as to be in a slantwise orientation relative to a straight line connecting a center of rotation of the first finger joint part and a center of rotation of the second finger joint part. With this configuration, an axial length of the finger unit of a robot hand can be shortened.

Finger unit and multi-finger grasping mechanism
A multi-finger grasping mechanism (300), comprising three two-joint finger units (1-1 to 1-3). Each two-joint finger unit further comprises a finger root part (2), a finger root side joint part (5), a finger intermediate part (3), a finger tip side joint part (6), and a finger tip part (4). The finger intermediate part (3) can be swung about the joint axis (5a) of the finger root side joint part (5), and the finger tip part (4) can be swung about the joint axis (6a) of the finger tip side joint part (6). The finger tip part (4) can be swung about the center axis thereof. When a bolt (W) is held by the finger tip part (4) and the finger part (4) is rotated, the tightening operation of the bolt (W) can be performed.

Micro actuator
A micro actuator including a translationally driving section having a moving portion which is incorporated in a case and moves translationally, and a displacement enlarging member having one end portion connected to the moving portion of the translationally driving section and another end portion connected to the case, wherein as the one end portion is pulled on the basis of the translational movement, the amount of displacement of its distal end is enlarged.

Workpiece-gripping chuck and method for controlling the same

A workpiece-gripping chuck includes a converting mechanism provided in a body, which converts a driving force from a rotary driving source into a displacement in the axial direction. First and second pistons of the converting mechanism are displaced in the axial direction under a rotary action of a pinion gear. Further, the first and second pistons are displaced in the axial direction, respectively, by supplying a pressure fluid from a first or second port formed in the body. A workpiece may be positioned by means of a pair of gripping members under the driving action of the rotary driving source, and the workpiece is further gripped by the gripping members by applying a pressing force of the pressure fluid in addition to the driving force.

Apparatus for conveying liquid crystal display panel

An apparatus for convening a liquid crystal display panel for moving various size unit liquid crystal display panels. The present invention includes a horizontal driving unit controlling a revolution of a motor, a plurality of screw shafts protruding out of the horizontal driving unit. A pair of robot arms having first and second ends, the first ends are supported by corresponding screw shafts and extend from the screw shafts, and a plurality of clamping units connected to the second ends of the robot arms.

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Fluid motor

July 18th, 2009

Long travel gripper
A long travel gripper is provided which has first and second end caps, first, second and third guide rails, first and second jaws, and first and second piston assemblies. The first, second and third guide rails extend between the first and second end caps. The first and second jaws, each receive, and move rectilinearly along, the first, second and third guide rails. The first and second piston assemblies each include first and second piston rods and pistons, respectively.

Workpiece-gripping chuck and method for controlling the same

A workpiece-gripping chuck includes a converting mechanism provided in a body, which converts a driving force from a rotary driving source into a displacement in the axial direction. First and second pistons of the converting mechanism are displaced in the axial direction under a rotary action of a pinion gear. Further, the first and second pistons are displaced in the axial direction, respectively, by supplying a pressure fluid from a first or second port formed in the body. A workpiece may be positioned by means of a pair of gripping members under the driving action of the rotary driving source, and the workpiece is further gripped by the gripping members by applying a pressing force of the pressure fluid in addition to the driving force.

Group robot system, and sensing robot and base station used therefor
Communication system of a group robot system is made hierarchical, having a base station as an uppermost layer and a plurality of layers formed by a plurality of sensing robots, and the plurality of sensing robots are controlled such that a sensing robot belonging to an upper layer of the hierarchical structure has higher sensing resolution than a sensing robot belonging to a lower layer of the hierarchical structure. Thus, a group robot system capable of efficiently searching for an object can be obtained.

Laminated-type multi-joint portion drive mechanism and manufacturing method therefor, grasping hand and robot arm provided with the same
A laminated-type multi-joint portion drive mechanism includes a bone member having at least two elastic deformation portions, a laminated-type pneumatic tube member having at least twoline-tubes which are stacked on the bone member and which are connected to a pneumatic drive source, and a planar-type joint-portion deformation member which is stacked on the laminated-type pneumatic tube member and has pneumatic operation chambers which are placed at joint portions confronting the deformation portions, respectively, and which are connected to the tubes, wherein when pneumatic pressure is applied to one of the pneumatic operation chambers, the joint portion corresponding to the pneumatic operation chamber to which the pneumatic pressure is applied is deformable.

Structure of improved pneumatic gripper assemblies
The invention relates to a pneumatic gripper assembly structure which comprised a supporting body (11, 111) composed of at least two wall elements or symmetrical half-shells (15, 115), realized and finished individually using a forming process and then put together to form a single body capable of receiving, supporting and guiding other structural and functional components of the gripper assembly. The complementary wall elements or half-bodies are produced using die-casting, sintering or forging techniques with material compatible for such processes and provides a housing for jaws and a drive piston of the gripper.

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Actuating means

July 18th, 2009

Microgripper device for a micro-mechanism
A microgripper device includes a microactuator member and a microgripper member. The microactuator member includes an actuating portion adapted to output a driving force to the microgripper member. The microgripper member includes a main flame, an engaging portion, a pair of lateral shifting portions and a gripping portion. The main frame of the microgripper member mounts the microactuator member therein, and the engaging portion of the microgripper member connects to the actuating portion of the microactuating member. Each of the lateral shifting portions includes three connection portions linking the main frame, the engaging portion and the gripping respectively. The gripping portion of the microgripper member includes a pair of resilient arms and a pair of pivot portions. Each of the pivot portions connects to a first end of the corresponding resilient arm so that the second ends of the resilient arms are able to generate a gripping movement.

Holding structure for holding an object
A holding structure, such as a manipulator, includes a plurality fingers. At least one of the fingers is movable such that an object can be held or released by a closing or opening motion of the movable finger. At least one contact surface of the fingers, which is capable of being brought into contact with the object, is formed by an elastic member, and at least one elastic member is adapted to reversibly change its elasticity under the control of an external supply of energy to the elastic member.

Mobile robot hybrid communication link
A mobile robot communication system includes a remote unit, a repeater module and a control station. A cable connects the repeater module to the control station. The remote unit has a wireless receiver/transmitter for sending and receiving commands. The repeater module has a wireless receiver/transmitter for sending and receiving commands from the mobile unit. The control station is operable in communication with the repeater module for remotely sending and receiving signals. The cable is attached between the repeater module and control station for transmitting signals therebetween.

Robotic hand and arm apparatus
A robotic hand and arm where the fingers are driven by rotational motors with drums, and pulled with cables using rolling friction. The hand extends into a robotic arm through a wrist wherein the wrist is controlled by pneumatic cylinders. Each finger preferably is provided with four manufactured parts and a single pulley. The thumb is provided with three pulleys for independent distal movement. Cables wraps around or over pulleys, eliminating tight bends. A glove is provided about the robotic hand which provides a compressive, liquid resistant membrane.

End-effectors for handling microelectronic workpieces
End-effectors may be used to grasp microelectronic workpieces for handling by automated transport devices. One such end-effector includes a plurality of end-effectors and a detector adapted to detect engagement of the edge of the workpiece by at least one of the abutments. An alternative end-effector includes at least three abutments, at least one of which is resiliently connected to an actuator for movement between a retracted position and a deployed position wherein it engages a workpiece.

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