Title :
Dynamic error characteristics of touch trigger probes fitted to coordinate measuring machines
Author :
Johnson, Roland P. ; Yang, Qingping ; Butler, Clive
Author_Institution :
Centre for Manuf. Metrol., Brunel Univ., Uxbridge, UK
fDate :
10/1/1998 12:00:00 AM
Abstract :
This paper discusses the dynamic error characteristics of touch trigger probes used with coordinate measuring machines. During the investigation, a number of important parameters have been identified, including measurement speed, probe longitude, approach distance, probe latitude, stylus length/stylus tip diameter, probe orientation, operating mode (scanning and nonscanning), scan pitch, preload spring force (gauging force), probe type, and the surface approach angle. This paper presents the detailed experimental design and the results obtained from the systematic experiments. These results have led to some useful recommendations for the reduction of the probe dynamic errors. Some of these recommendations included the selection of the optimum measurement speed, the setting of the preload spring force, and the choice of the probe type
Keywords :
design of experiments; dynamic response; error compensation; inspection; measurement errors; probes; spatial variables measurement; approach distance; coordinate measuring machines; dynamic error characteristics; error compensation; fishbone diagram; gauging force; inspection; measurement speed; operating mode; preload spring force; probe latitude; probe longitude; probe orientation; probe type; scan pitch; stylus length/stylus tip diameter; surface approach angle; touch trigger probes; Cause effect analysis; Contacts; Coordinate measuring machines; Force measurement; Length measurement; Measurement errors; Position measurement; Probes; Springs; Velocity measurement;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
