Laser-based coordinate measuring with a camera for target orientation
First Claim
1. A laser tracker system for measuring a location and an orientation of a patterned target that includes a pattern and a retroreflector, the laser tracker comprising:
- a stationary base from which a first beam is launched to the patterned target and to which a second beam is reflected from the patterned target;
a mirror between the stationary base and the patterned target that directs the first beam to the patterned target, the mirror configured to rotate about a first axis and a second axis;
a first encoder that measures a first angle of rotation of the mirror about the first axis;
a second encoder that measures a second angle of rotation of the mirror about the second axis;
a position detector disposed on the stationary base that collects a first portion of the second beam, the position detector generating a signal indicating a direction the mirror is to be rotated in order to cause the first beam to track the patterned target;
a distance meter disposed on the stationary base that collects a second portion of the second beam and measures a distance from the mirror to the patterned target;
an optical system disposed on the stationary base that includes a lens and a photosensitive array, the lens collecting a third portion of the second beam and forming from the third portion an image of at least a portion of the patterned target on the photosensitive array;
a first electronics system that converts the image into a digital data set;
a second electronics system that calculates the orientation of the patterned target, the orientation of the patterned target including a first orientation angle of the patterned target based at least in part on the digital data set; and
a motor coupled to the lens that adjusts a position of the lens to keep the image located on or near the photosensitive array wherein the motor adjusts the position of the lens based at least in part on the distance from the mirror to the patterned target measured by the distance meter.
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Abstract
A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion.
70 Citations
13 Claims
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1. A laser tracker system for measuring a location and an orientation of a patterned target that includes a pattern and a retroreflector, the laser tracker comprising:
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a stationary base from which a first beam is launched to the patterned target and to which a second beam is reflected from the patterned target; a mirror between the stationary base and the patterned target that directs the first beam to the patterned target, the mirror configured to rotate about a first axis and a second axis; a first encoder that measures a first angle of rotation of the mirror about the first axis; a second encoder that measures a second angle of rotation of the mirror about the second axis; a position detector disposed on the stationary base that collects a first portion of the second beam, the position detector generating a signal indicating a direction the mirror is to be rotated in order to cause the first beam to track the patterned target; a distance meter disposed on the stationary base that collects a second portion of the second beam and measures a distance from the mirror to the patterned target; an optical system disposed on the stationary base that includes a lens and a photosensitive array, the lens collecting a third portion of the second beam and forming from the third portion an image of at least a portion of the patterned target on the photosensitive array; a first electronics system that converts the image into a digital data set; a second electronics system that calculates the orientation of the patterned target, the orientation of the patterned target including a first orientation angle of the patterned target based at least in part on the digital data set; and a motor coupled to the lens that adjusts a position of the lens to keep the image located on or near the photosensitive array wherein the motor adjusts the position of the lens based at least in part on the distance from the mirror to the patterned target measured by the distance meter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification