The internal grooved (undercut) features of plastic injection moulded parts
are formed by collapsible cores. While collapsible cores have been designe
d for pipe sizes smaller than 90 mm in diameter, those for larger pipes are
custom designed. The objective of this research was to fully automate the
design procedure which, for uPVC pipe fittings is laborious and error-prone
at present. This paper discusses the design of the four key geometrical fe
atures of a two-stage, lever-actuated collapsible core, namely, the number
of segments, the path of the retracting segments during demoulding, the min
imum angle of taper of the grooved undercut to permit the segments to retra
ct during de-moulding and the prevention of interference between moving com
ponents. After these key geometrical features are established it is then po
ssible to fully automate the design of two-stage, lever-actuated collapsibl
e cores in a CAD system. (C) 2000 Elsevier Science Ltd. All rights reserved
.