The role of the coordinate measuring machine within the inspection process has changed throughout its brief development. With its integration with industrial computer aided design (CAD) systems, its role is to change yet again. This paper presents the difficulties and limitations of current practice and identifies the inputs and decisions that need to be made within an integrated manufacturing environment. A research programme was undertaken to investigate an approach based upon intelligent communications between systems. This led to the creation of a demonstration system that was employed in the measurement of industrial components. A case study, using a standard test block, is included to illustrate the processes undertaken. This includes feature identification, probe calibration and selection strategies and automatic re-routing to minimize changes in probes and orientations. It is proposed that the approach demonstrated can be incorporated within a concurrent engineering environment to provide feedback and information about machine adjustments through a constraint modelling process.
[1]
P. A. McKeown,et al.
Creating a Standards Infrastructure for Co-Ordinate Measurement Technology in the UK
,
1989
.
[2]
Werner Lotze.
Precision length measurement by computer-aided coordinate measurement
,
1986
.
[3]
Anthony J. Medland,et al.
Use of networks in describing the design to manufacturing process
,
1990
.
[4]
Douglas F. Horne.
Measuring Systems and Transducers for Industrial Applications
,
1988
.
[5]
C. Butler,et al.
An investigation into theperformance of probes on coordinate measuring machines
,
1991
.
[6]
Glen Mullineux,et al.
An Intelligent Link Between CAD and Automatic Inspection
,
1992
.
[7]
Glen Mullineux,et al.
Intelligent Communications Between Cad and Manufacturing Activities
,
1990
.
[8]
Glen Mullineux,et al.
Strategies for the automatic path planning of coordinate measuring machines
,
1993
.