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TECHNICAL PAPERS

Optimal Machine Tool Setting for Hypoid Gears Improving Load Distribution

[+] Author and Article Information
Vilmos Simon

St. István University, Faculty of Mechanical Engineering, Department of Mechanics and Engineering Design, 2103 Gödöllö, Páter Károly u. 1, Hungary

J. Mech. Des 123(4), 577-582 (Jul 01, 2000) (6 pages) doi:10.1115/1.1414129 History: Received July 01, 2000
Copyright © 2001 by ASME
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References

Wildhaber, E., 1946, “Basic Relationship of Hypoid Gears I–VII,” American Machinist, February, pp. 108–111, 131–134, March, pp. 132–135, June, pp. 110–114, 150–152, July, pp. 106–110, August, pp. 104–106, 122–128.
Baxter,  M. L., 1961, “Basic Geometry and Tooth Contact of Hypoid Gears,” Industrial Mathematics, 11, pp. 19–42.
Litvin,  F. L., and Gutman,  Y., 1981, “Methods of Synthesis and Analysis for Hypoid Gear-Drives of “Formate” and “Helixform,” Part 1–3.,” ASME J. Mech. Des., 103, pp. 83–113.
Litvin,  F. L., Zhang,  Y., Lundy,  M., and Heine,  C., 1988, “Determination of Settings of a Tilted Head Cutter for Generation of Hypoid and Spiral Bevel Gears,” ASME J. Mech., Transm. Autom. Des., 110, pp. 495–500.
Krenzer, J., 1984, “Computer Aided Corrective Machine Settings for Manufacturing Bevel and Hypoid Gear Sets,” Fall Technical Meeting, Washington, DC, AGMA Paper 84FTM4.
Litvin,  F. L., Kuan,  C., Wang,  J.-C., Handschuh,  R. F., Masseth,  J., and Maruyama,  N., 1993, “Minimization of Deviations of Gear Real Tooth Surfaces Determined by Coordinate Measurements,” ASME J. Mech. Des., 115, pp. 995–1001.
Stadtfeld, H. J., 1993, Handbook of Bevel and Hypoid Gears, Rochester Institute of Technology, Rochester.
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Gosselin,  C., Nonaka,  T., Shiono,  Y., Kubo,  A., and Tatsumo,  T., 1998, “Identification of the Machine Settings of Real Hypoid Gear Tooth Surfaces,” ASME J. Mech. Des., 120, pp. 429–440.
Liu, Y., 1988, “A Study on the Relative Between Curvature Correction and Contact Pattern of Tooth Surface of Hypoid Gears,” Proceedings, International Conference on gearing, Zhengzhou, pp. 1029–1034.
Yi, J., and Chenwen, Ch., 1996, “The Effects of Geometry and Cutting Parameters upon Lubrication Performance of Hypoid Gears and Analysis of the Contact Geometry and Sliding Velocities during Meshing of Hypoid Gears,” Proceedings, International Conference on Gears, Dresden, pp. 979–985.
Kawasaki, K., Haneda, Y., and Tamura, H., 1999, “Method of Cutting Hypoid Gears Using Quasi-Basic Member,” Proceedings, Tenth World Congress on the Theory of Machines and Mechanisms, Oulu, pp. 2329–2336.
Sugimoto,  M., Maruyama,  N., Nakayama,  A., and Hitomi,  N., 1991, “Effect of Tooth Contact and Gear Dimensions on Transmission Errors of Loaded Hypoid Gears,” ASME J. Mech. Des., 113, pp. 182–187.
Litvin,  F. L., Chen,  J. S., Lu,  J., and Handschuh,  R. F., 1996, “Application of Finite Element Analysis for Determination of Load Share, Real Contact Ratio, Precision of Motion, and Stress Analysis,” ASME J. Mech. Des., 118, pp. 561–567.
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Fang, Z., and Yang, H., 1999, “Loaded Tooth Contact Analysis with Friction on Hypoid Gears,” Proceedings, 4thWorld Congress on Gearing and Power Transmission, Paris, pp. 703–710.
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Simon,  V., 2000, “Load Distribution in Hypoid Gears,” ASME J. Mech. Des., 122, pp. 529–535.
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Simon, V., 1996, “Tooth Contact Analysis of Mismatched Hypoid Gears,” Proceedings, 7thInternational Power Transmission and Gearing Conference, San Diego, pp. 789–798.
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Figures

Grahic Jump Location
Machine tool setting for pinion teeth generation
Grahic Jump Location
The influence of sliding base setting variation on load distribution and transmission errors
Grahic Jump Location
The influence of basic radial variation on load distribution and transmission errors
Grahic Jump Location
The influence of basic machine center variation on load distribution and transmission errors
Grahic Jump Location
The influence of basic offset setting variation on load distribution and transmission errors
Grahic Jump Location
The influence of basic tilt angle variation on load distribution and transmission errors
Grahic Jump Location
The influence of basic swivel angle variation on load distribution and transmission errors
Grahic Jump Location
The influence of machine root angle variation on load distribution and transmission errors

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