Quasi-kinematic couplings (QKCs) are alignment devices that incorporate elastic-plastic deformations to combine principles of elastic averaging and exact constraint to achieve precision alignment. This paper shows QKCs can be used for low-cost alignment in high-volume assembly applications. This is demonstrated via a case study of the process used to align main journal bearings in an automobile engine. Results of experiments show best case QKC performance of 0.35 microns compared to 4.85 microns for the widely-used dowel pin-hole design. Statistical analyses predict the QKC will meet five micron alignment requirements in 99.999 percent of all assembly cycles. Compared to the dowel pin-hole design, the QKC uses 60 percent fewer piece parts and costs 36 percent less.

Issue Section:
Technical Papers
Keywords:
machine bearings, automotive components, internal combustion engines, assembling, statistical analysis, design engineering
Topics:
Design, Kinematics, Manufacturing, Statistical analysis, Couplings, Engines, Errors, Bearings
1.
Culpepper, M. L., Slocum, A. H., and Shaikh, F. Z., 1998, “Compliant Kinematic Couplings for Use in Manufacturing and Assembly,” Proceedings of the 1998 ASME International Mechanical Engineering Congress and Exposition, Anaheim, CA, pp. 611–618.
2.
Slocum, A. H., Mueller, L., and Braunstein, D., 1997 “Flexural Mount Kinematic Couplings and Method,” United States Patent No. 5,678,944, pp. 1–10.
3.
Culpepper, M. L., and Slocum, A. H., 2001, “Quasi-Kinematic Coupling and Method for Use in Assembling and Locating Mechanical Components and the Like,” US Patent No. 6, 193, 430, February.
4.
Culpepper, M. L., Slocum, A. H., Shaikh, F. Z., and Vrsek, G., “Quasi-Kinematic Couplings for Use in Automotive Assembly,” Issued under US Serial No. 09293-442.
5.
Culpepper, M. L., Slocum, A. H., and Shaikh, F. Z., 1999 “Quasi-kinematic Couplings for Precision Automotive Assemblies,” Proceedings of the 1999 ASME-ICE Fall Conference, Ann Arbor, MI, pp. 61–6.
6.
Culpepper, M. L., 2002, “Design of Quasi-Kinematic Couplings,” Accepted for publication in the Journal of Precision Engineering.
7.
Bald, H., and Wulf, Witte, 1978, “Positioning Device,” U.S. Patent No 4 070 120.
8.
Johnson
,
K. L.
,
1968
, “
Deformation of a Plastic Wedge by a Rigid Flat Die Under the Action of a Tangential Force
,”
J. Mech. Phys. Solids
,
pp.
395
402
.
9.
Childs
,
T. H.
,
1973
, “
The Persistence of Asperities in Indentation Experiments
,”
Wear
,
pp.
3
17
.
10.
Culpepper, M. L., 2000, “Design and Application of Compliant Quasi-kinematic Couplings,” PhD Thesis, Cambridge, MA, MIT, pp. 89–108.
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 by ASME
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