Patent application number | Description | Published |
20080201015 | System for Calibration of an Industrial Robot and a Method Thereof - A method for calibration of an industrial robot including a plurality of movable links and a plurality of actuators effecting movement of the links and thereby of the robot. The method includes mounting a measuring tip on or in the vicinity of the robot, moving the robot such that the measuring tip is in contact with a plurality of measuring points on the surface of at least one geometrical structure on or in the vicinity of the robot, reading and storing the positions of the actuators for each measuring point, and estimating a plurality of kinematic parameters for the robot based on a geometrical model of the geometrical structure, a kinematic model of the robot, and the stored positions of the actuators for the measuring points. | 08-21-2008 |
20080252248 | Device and Method for Calibrating the Center Point of a Tool Mounted on a Robot by Means of a Camera - A device and a method for tool center point calibration of an industrial robot. The device is intended to calibrate an industrial robot with respect to a tool mounted on the robot. The device includes a camera designed to take a plurality of images of at least part of the robot tool for a plurality of different tool orientations, an image-processing unit designed to determine the positions of the robot tool in the orientations based on the images, a calculation module adapted to calculate the position of the center point of the robot tool, based on the determined positions, and a control module adapted to calculate the corrective movements of the robot. | 10-16-2008 |
20090125146 | Method of and Apparatus for Automated Path Learning - A robot having a force sensor and a tool fixture for operating on a workpiece that may have a complex surface contour is programmed by an operator first teaching the robot by a suitable technique such as lead through teaching a few gross points of the contour. These points, known as guiding points, are used to generate a program to be followed by the robot under the control of the robot controller and using force control during which the robot finalizes the guiding points and teaches one or more points on the contour intermediate adjacent guiding points. The controller or other computing device uses the points so taught to generate the path the robot tool fixture will follow when the tool is to operate on the workpiece. | 05-14-2009 |
20090211390 | Joint For Industrial Robots - The invention relates to a joint having a male unit and a female unit. The external surface of the male unit is of complementary shape to the internal surface of the female unit. The units cooperate and have shapes allowing rotational movement in at least one degree of freedom of the male unit within the female unit. The female unit has two socket parts. According to the invention biasing means is provided for biasing each of the socket parts towards the male unit. | 08-27-2009 |
20090259412 | SYSTEM FOR CONTROLLING THE POSITION AND ORIENTATION OF AN OBJECT IN DEPENDENCE ON RECEIVED FORCES AND TORQUES FROM A USER - A system for controlling position and orientation of an object. A first part is adapted to receive forces and torques from a user. A sensor is adapted to measure forces and torques caused by changes in position and orientation of the first part relative to a second part. A data processing unit is arranged to receive measured data from the sensor and based thereon to control the position and orientation of the object. The sensor includes a semiconductor chip with integrated sensor elements. The measuring assembly includes a spring arrangement mounted between the first and second parts and mechanically connected to the sensor for converting forces and torques from the user to changes in position and orientation of the first part relative to the second part. The sensor is adapted to measure forces and torques from the spring arrangement caused by the changes in position and orientation of the first part. | 10-15-2009 |
20110314935 | SET OF MULTIAXIAL FORCE AND TORQUE SENSOR AND ASSEMBLING METHOD - A multiaxial force/torque sensor assembly and method for assembling such a sensor assembly are disclosed. The sensor assembly includes a set of at least two sensors each being made of strain gauges, which are each arranged at a definite angle and distance relative to each other and which are each fixed to a transducer body, which is mechanical contact with a printed circuit board. The printed circuit board includes clearances for each strain gauge as well as associated electronic components and wiring located on the remaining area of the printed circuit board which will monitor compressive and tensile stresses in the measurement directions of the sensors. The method includes positioning the strain gauges on the plane measurement surface of a transducer body in a definite arrangement; fixing the strain gauges to the transducer body by means of adhesives, and connecting the strain gauges to respective conductors by means of electrically bonding. | 12-29-2011 |
20120266694 | MULTIAXIAL FORCE-TORQUE SENSORS - The disclosure relates to a multiaxial force-torque sensor having a transducer structure, with strain gauges placed in defined areas to measure the strain, from which the forces and torques are calculated, and where the transducer structure can include (e.g., consist of) two concentric rings connected with spokes. The transducer structure can be a planar mechanical structure, and all strain gauges can be applied to the same surface of the transducer structure to measure non-radial strain components. | 10-25-2012 |
20130006421 | Calibration Of A Base Coordinate System For An Industrial Robot - A method for calibration of a base coordinate system of an industrial robot in relation to a work area includes:
| 01-03-2013 |
20130123983 | METHOD AND APPARATUS FOR CALIBRATION OF A ROBOT POSITIONED ON A MOVABLE PLATFORM - A method and apparatus for calibration of a robot on a platform and a robot, in relation to an object using a measuring unit mounted on the robot including placing CAD models so that the robot reaches the object, manipulating the CAD models to move the measuring unit to a pose in relation to the platform allowing measurement of a feature on the object, storing the pose, and generating a CAD model of the feature. The real robot is moved to the pose, the real platform is moved where measurements of the feature can be made, 3D measurements of the feature are performed and based thereon generating a second CAD model, performing a best fit between the CAD models, and calculating a 6 degrees of freedom pose difference between the CAD models, and instructing the mobile platform to move to compensate for the pose difference. | 05-16-2013 |
20130189063 | Industrial Robot Including A Parallel Kinematic Manipulator - An industrial robot including a manipulator for movement of an object in space. The manipulator includes a movable platform arranged for carrying the object, a first arm arranged for influencing the platform in a first direction and including a first inner arm part rotatable about a first axis, a second arm arranged for influencing the platform in a second direction and including a second inner arm part rotatable about a second axis, a third arm arranged for influencing the platform in a third direction and including a third inner arm part rotatable about a third axis. | 07-25-2013 |