Patent application number | Description | Published |
20110176145 | SPHERE BAR PROBE - Exemplary embodiments include a sphere bar probe apparatus, including a holder, a retroreflector disposed in the holder, a member having a first end and a second end, wherein the first end is attached to the holder and an end plate attached to the second end of the member. | 07-21-2011 |
20110260033 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control operation of the laser tracker includes steps of providing a rule of correspondence between each of a plurality of commands and each of a plurality of spatial patterns, and selecting by the user a first command from among the plurality of commands. The method further includes the steps of moving by the user, between a first time and a second time, a retroreflector in a first spatial pattern from among the plurality of spatial patterns, wherein the first spatial pattern corresponds to the first command, and projecting a first light from the laser tracker to the retroreflector. The method also includes the steps of reflecting a second light from the retroreflector, the second light being a portion of the first light, and obtaining first sensed data by sensing a third light, the third light being a portion of the second light, wherein the first sensed data is obtained by the laser tracker between the first time and the second time. The method includes also the steps of determining the first command based at least in part on processing the first sensed data according to the rule of correspondence, and executing the first command with the laser tracker. | 10-27-2011 |
20120099100 | AUTOMATED WARM-UP AND STABILITY CHECK FOR LASER TRACKERS - A method for determining when a laser tracker is stable includes performing a plurality of first frontsight measurements and a plurality of first backsight measurements on a first target with the laser tracker, wherein the plurality of first frontsight measurements and the plurality of first backsight measurements are alternated in time, calculating a plurality of first two-face errors based on the plurality of first frontsight measurements and the plurality of first backsight measurements, determining at least one first stability metric based at least in part on the plurality of first two-face errors, the at least one first stability metric being a value defined by a rule, determining whether the laser tracker is stable based at least in part on the at least one first stability metric and a first termination criterion and generating an indication whether the laser tracker is stable or not stable. | 04-26-2012 |
20120206716 | TARGET APPARATUS AND METHOD - A target includes a contact element having a region of spherical curvature, a retroreflector rigidly connected to the contact element, a transmitter configured to emit an electromagnetic signal, a temperature sensor disposed on the target, configured to measure an air temperature, and configured to send the measured air temperature to the transmitter. | 08-16-2012 |
20120236320 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of nominal coordinates for targets and one added point; capturing on a tracker photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a tracker camera photosensitive array from light reflected off the targets; determining a correspondence between three spot positions on the tracker photosensitive array and the nominal coordinates of the targets; directing a beam of light from the tracker to the targets based on the nominal coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based on the measured 3-D coordinates of the targets and the nominal coordinates of the one added point. | 09-20-2012 |
20120262694 | LASER TRACKER WITH ENHANCED HANDLING FEATURES - A coordinate measurement device sends a first light beam to a target which returns a portion as a second beam. The device includes: first and second motors that direct the first beam to a first direction determined by a first angle of rotation about a first axis and a second angle of rotation about a second axis, the first and second angles of rotation produced by the first and second motors, respectively; first and second angle measuring devices that measure first and second angles of rotation, respectively; a distance meter that measures a first distance from the device to the target based in part on a first portion of the second beam; a processor that provides a 3D coordinate of the target based in part on the first distance and the first and second angles of rotation; and a retractable handle at the device top side. | 10-18-2012 |
20120262699 | LASER TRACKER WITH ENHANCED ILLUMINATION INDICATORS - A coordinate measurement device includes: first and second angle measuring devices; a distance meter; a position detector; a first collection of illuminators rotatable about the first axis and fixed with respect to the second axis, the first collection configured to provide a first light selected from among at least two different colors of light in a visible spectrum, the first collection configured to make the first light visible from first and second points along the second axis and external to the device, the first and second points on opposite sides of the device; a second collection of illuminators rotatable about the first and second axes, the second collection configured to provide at least a second light selected from among two different colors of illumination in the visible spectrum; and a processor configured to provide a pattern of illumination for the first and second collections. | 10-18-2012 |
20120320943 | AUTOMATED AND ACCELERATED WARM-UP AND STABILITY CHECK FOR LASER TRACKERS - A method for warming up a first instrument that includes providing an instrument measuring a first instrument temperature with the first temperature sensor at a starting time; measuring a first air temperature with the second temperature sensor at the starting time; determining a first profile based at least in part on the first instrument temperature and the first air temperature, the first profile representing an amount of first electrical current applied as a function of time, the first profile selected to provide a predicted level of instrument performance within a warm-up time; applying the first electrical current according to the first profile; and providing an operator at the starting time with a numerical value for the warm-up time of the instrument, wherein the warm-up time is based at least in part on the first instrument temperature and the first air temperature. | 12-20-2012 |
20130009035 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control operation of the tracker includes providing a rule of correspondence between a plurality of commands and a plurality of positions, each position being a 3-D coordinate; selecting by the user a first command from among the commands and moving by the user a retroreflector to a first position wherein the first position corresponds to the first command. Also, projecting a first light from the tracker to the retroreflector, reflecting a second light from the retroreflector, the second light being a portion of the first light and obtaining first sensed data by sensing a third light, the third light being a portion of the second light. Further, determining the first command based on processing the first sensed data according to the rule of correspondence and executing the first command with the tracker. | 01-10-2013 |
20130010308 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a six degree-of-freedom (6DOF) laser tracker, a command to control operation of the tracker includes providing a rule of correspondence between commands and pose patterns, each pattern including a change in a coordinate from an initial to a final pose, each pose having three translational coordinates and three orientational coordinates. Also, selecting a first command from among the commands and measuring the coordinate of a first pose of the 6DOF target with the tracker. Further, changing between first and second times, the coordinate of the pose of the target and measuring the coordinate of a second pose of the target with the tracker. Also, determining the first command based on the difference between the measured coordinates of the first and second poses according to the rule of correspondence and executing the first command by the tracker. | 01-10-2013 |
20130037694 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control tracker operation includes providing a rule of correspondence between commands and temporal patterns, and selecting by the user a first command. Also, projecting a first light from the tracker to the retroreflector, reflecting a second light from the retroreflector, the second light being a portion of the first light, obtaining first sensed data by sensing a third light which is a portion of the second light, creating by the user, between first and second times, a first temporal pattern which includes a decrease in the third optical power followed by an increase in the third optical power, the first temporal pattern corresponding to the first command, determining the first command based on processing the first sensed data per the rule of correspondence and executing the first command with the tracker. | 02-14-2013 |
20130128284 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of nominal coordinates for three targets and at least one added point; capturing on a photosensitive array of the tracker a portion of the light emitted by a light beam and reflected off the three targets; obtaining spot positions on a photosensitive array of a tracker camera from light reflected off the three targets; determining a correspondence between three spot positions on the tracker photosensitive array and the nominal coordinates of the three targets; directing a beam of light from the tracker to the three targets based at least in part on the nominal coordinates of the first target and the first spot position; measuring 3-D coordinates of the three targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the three targets and the nominal coordinates of the at least one added point. | 05-23-2013 |
20130201470 | TARGET APPARATUS AND METHOD - A method is provided of obtaining the characteristics of a target by a device. The method includes providing the target having a target frame of reference, a retroreflector and a body. Providing a contact element rigidly fixed with respect to the body. A device is provided having a frame of reference and a light source, the device configured to measure a distance and two angles from the device to the retroreflector reference point. An identifier element located on the body. A workpiece surface is provided. The contact element contacts the workpiece surface. The retroreflector is illuminated with light from the light source and returns a reflected light. A distance and two angles are measured based at least in part on the reflected light. The first information is read with a first reader attached to the device. A three-dimensional coordinate of a point on the workpiece surface is calculated. | 08-08-2013 |
20130208128 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A laser measurement system includes a laser tracker having a structure rotatable about first and second axes, a first light source that launches a light beam from the structure, a distance meter, first and second angular encoders that measure first and second angles of rotation about the first and second axes, respectively, a processor, and a camera system. Also, a communication device that includes a second light source and an operator-controlled device that controls emission of a light from the second light source; a retroreflector target not disposed on the communication device. Also, the camera system is operable to receive the second light and to convert it into a digital image, and the processor is operable to determine a command to control operation of the tracker based on a pattern of movement of the second light source between first and second times and the digital image. | 08-15-2013 |
20130214122 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to direct a light beam from the tracker to a retroreflector and lock onto the retroreflector includes projecting a first light to the retroreflector. Also, moving by the user the retroreflector in a predefined spatial pattern which corresponds to the command; reflecting a second light from the retroreflector, the second light being a portion of the first light; obtaining first sensed data by sensing a third light which is a portion of the second light and imaging the third light onto a photosensitive array on the tracker and converting the third light on the photosensitive array into digital form. Further, determining the first sensed data corresponds to the predefined spatial pattern; pointing the light beam from the tracker to the retroreflector; and locking onto the retroreflector with the tracker light beam. | 08-22-2013 |
20130222791 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of coordinates for three targets and at least one added point; capturing on a photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a photosensitive array of a tracker camera from the reflected light; determining a correspondence between three spot positions on the photosensitive array and the coordinates of the targets; directing a beam of light from the tracker to the targets based at least in part on the coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the targets and the coordinates of the at least one added point. | 08-29-2013 |
20130229512 | METHOD FOR USING A HANDHELD APPLIANCE TO SELECT, LOCK ONTO, AND TRACK A RETROREFLECTOR WITH A LASER TRACKER - A method for locking onto and tracking a selected retroreflector target with a laser tracker includes steps of: actuating by the operator the handheld appliance and sending a wireless signal; responding to the wireless message by repetitively carrying out steps in the following loop and exiting the loop when an exit condition is met: reflecting part of the cone of light by the at least one retroreflector target and capturing an array image on the photosensitive array; determining which retroreflector target meets the retroreflector target criterion; determining whether the position detector is receiving the reflected beam; establishing that the exit condition is met when the position detector receives the reflected beam and the reflected beam comes from the selected retroreflector target; and steering the first light beam toward the selected retroreflector target. | 09-05-2013 |
20140063489 | Laser Scanner - A laser scanner for optically scanning and measuring an environment is provided. The laser scanner includes a light transmitter for emitting a light beam to measure a plurality of points in the environment, the light transmitter coupled to the rotating unit. A receiver is provided for receiving a reflected light beam reflected from the plurality of measurement points, the receiver being coupled to the rotating unit. A first image acquisition unit is configured to record a visible image of an area of the environment that includes the plurality of points. A sensing device is configured to record data of the area. A processor is operably coupled to the receiver, the first image acquisition unit and the sensing device, the processor is configured to associate a color value from the visible image and a recorded data value from the sensing device with each of the plurality of points. | 03-06-2014 |
20140078519 | Laser Scanner - A method of dynamically adjusting an angular speed of a light beam emitted by a scanner in measuring three-dimensional (3D) coordinates of a surface or of dynamically adjusting an acquisition rate of 3D coordinates of a surface. | 03-20-2014 |
20140098382 | SPHERICALLY MOUNTED RETROREFLECTOR HAVING AN EMBEDDED TEMPERATURE SENSOR AND SOCKET - A spherically mounted retroreflector (SMR) having an embedded temperature sensor and a socket for attaching to an electrical connector. | 04-10-2014 |
20140158860 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - Optically communicating from a user to a laser tracker a command to control tracker operation includes providing a rule of correspondence between each of a plurality of commands and temporal patterns; user selecting a first command; projecting a first light from the tracker to a retroreflector; reflecting a second light from the retroreflector that is part of the first light; obtaining first sensed data by sensing a third light imaged onto a photosensitive array that is part of the second light; user creating, between first and second times, a first temporal pattern including at least a decrease in the third light's optical power followed by an increase in its optical power, the first temporal pattern corresponding to the first command; determining the first command based at least in part on processing the first sensed data according to the rule of correspondence; and executing the first command with the tracker. | 06-12-2014 |
20140185059 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of coordinates for three targets and at least one added point; capturing on a photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a photosensitive array of a tracker camera from the reflected light; determining a correspondence between three spot positions on the photosensitive array and the coordinates of the targets; directing a beam of light from the tracker to the targets based at least in part on the coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the targets and the coordinates of the at least one added point. | 07-03-2014 |
20150022826 | TARGET APPARATUS AND METHOD - A target is provided having a retroreflector. A body is provided having a spherical exterior portion, the body containing a cavity. The cavity is sized to hold the retroreflector, the cavity open to the exterior of the body and having at least one surface opposite the opening, the retroreflector at least partially disposed in the cavity, wherein the retroreflector and at least one surface define a space therebetween. A transmitter is configured to emit an electromagnetic signal. A first actuator is configured to initiate emission of the electromagnetic signal, wherein the transmitter and the first actuator are affixed to the body. | 01-22-2015 |
20150070712 | TARGET APPARATUS AND METHOD - A target includes a contact element having a region of spherical curvature, a retroreflector rigidly connected to the contact element, a transmitter configured to emit an electromagnetic signal, a temperature sensor disposed on the target, configured to measure an air temperature, and configured to send the measured air temperature to the transmitter. | 03-12-2015 |