Calibration of an articulating probe head for a coordinate positioning machine
First Claim
1. A method of operating a coordinate positioning machine having:
- an arm and a table movable one relative to another;
an articulating probe head mounted to the arm for orienting a probe relative to the arm about at least one rotary axis, the probe head having at least one rotary axis member supporting said probe and an angular displacement transducer for measuring the angular orientation of said rotary axis member relative to a datum;
the method comprising the steps of;
measuring the position of the probe at first and second angular orientations of said rotary axis member;
calculating an actual angular displacement between said measured probe positions;
orienting said rotary axis member to a third angular orientation, lying between said first and second angular orientations;
determining the position of the probe at the third angular orientation of said rotary axis member, by calculating, from said actual angular displacement, said third angular orientation, and at least the difference between said first and second angular orientations, an actual angular orientation of the probe corresponding to said third angular orientation of the rotary axis member.
1 Assignment
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Accused Products
Abstract
A method is disclosed whereby a probe head which articulates a probe on the moveable arm of a coordinate measuring machine is calibrated to reduce the effect of errors, such as misalignment of the rotary axes of the head, and droop of the head and the probe. The method involves measurement of the probe position at a number of orientations of the head, the angle of orientation being determined by encoders within the head. Pairs of adjacent orientations at which the probe position is measured define segments, over which it is assumed that all errors change linearly. From the measured probe positions, a value of actual angular displacement between measured probe positions is calculated. The position of the probe at a given angular orientation within a segment may then be determined from the encoder reading at that orientation, and the ratio of the actual angular displacement between measured probe positions to the difference in the encoder readings at the orientations defining the segment (and corresponding to these measured positions). The size of the segments depends upon the linearity with which the droop changes with changing angular orientation of the head; as the change in droop becomes less linear, the segment size decreases in order to ensure that the assumption of linearity remains valid.
33 Citations
5 Claims
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1. A method of operating a coordinate positioning machine having:
- an arm and a table movable one relative to another;
an articulating probe head mounted to the arm for orienting a probe relative to the arm about at least one rotary axis, the probe head having at least one rotary axis member supporting said probe and an angular displacement transducer for measuring the angular orientation of said rotary axis member relative to a datum;
the method comprising the steps of;measuring the position of the probe at first and second angular orientations of said rotary axis member; calculating an actual angular displacement between said measured probe positions; orienting said rotary axis member to a third angular orientation, lying between said first and second angular orientations; determining the position of the probe at the third angular orientation of said rotary axis member, by calculating, from said actual angular displacement, said third angular orientation, and at least the difference between said first and second angular orientations, an actual angular orientation of the probe corresponding to said third angular orientation of the rotary axis member. - View Dependent Claims (2, 3, 4, 5)
- an arm and a table movable one relative to another;
Specification