Book contents
- Frontmatter
- Contents
- Foreword by Graziano Curti
- Preface
- Acknowledgments
- 1 Coordinate Transformation
- 2 Relative Velocity
- 3 Centrodes, Axodes, and Operating Pitch Surfaces
- 4 Planar Curves
- 5 Surfaces
- 6 Conjugated Surfaces and Curves
- 7 Curvatures of Surfaces and Curves
- 8 Mating Surfaces: Curvature Relations, Contact Ellipse
- 9 Computerized Simulation of Meshing and Contact
- 10 Spur Involute Gears
- 11 Internal Involute Gears
- 12 Noncircular Gears
- 13 Cycloidal Gearing
- 14 Involute Helical Gears with Parallel Axes
- 15 Modified Involute Gears
- 16 Involute Helical Gears with Crossed Axes
- 17 New Version of Novikov–Wildhaber Helical Gears
- 18 Face-Gear Drives
- 19 Worm-Gear Drives with Cylindrical Worms
- 20 Double-Enveloping Worm-Gear Drives
- 21 Spiral Bevel Gears
- 22 Hypoid Gear Drives
- 23 Planetary Gear Trains
- 24 Generation of Helicoids
- 25 Design of Flyblades
- 26 Generation of Surfaces by CNC Machines
- 27 Overwire (Ball) Measurement
- 28 Minimization of Deviations of Gear Real Tooth Surfaces
- References
- Index
17 - New Version of Novikov–Wildhaber Helical Gears
Published online by Cambridge University Press: 04 September 2009
- Frontmatter
- Contents
- Foreword by Graziano Curti
- Preface
- Acknowledgments
- 1 Coordinate Transformation
- 2 Relative Velocity
- 3 Centrodes, Axodes, and Operating Pitch Surfaces
- 4 Planar Curves
- 5 Surfaces
- 6 Conjugated Surfaces and Curves
- 7 Curvatures of Surfaces and Curves
- 8 Mating Surfaces: Curvature Relations, Contact Ellipse
- 9 Computerized Simulation of Meshing and Contact
- 10 Spur Involute Gears
- 11 Internal Involute Gears
- 12 Noncircular Gears
- 13 Cycloidal Gearing
- 14 Involute Helical Gears with Parallel Axes
- 15 Modified Involute Gears
- 16 Involute Helical Gears with Crossed Axes
- 17 New Version of Novikov–Wildhaber Helical Gears
- 18 Face-Gear Drives
- 19 Worm-Gear Drives with Cylindrical Worms
- 20 Double-Enveloping Worm-Gear Drives
- 21 Spiral Bevel Gears
- 22 Hypoid Gear Drives
- 23 Planetary Gear Trains
- 24 Generation of Helicoids
- 25 Design of Flyblades
- 26 Generation of Surfaces by CNC Machines
- 27 Overwire (Ball) Measurement
- 28 Minimization of Deviations of Gear Real Tooth Surfaces
- References
- Index
Summary
INTRODUCTION
Wildhaber [1926] and Novikov [1956] have proposed helical gears based on generation by circular arc rack-cutters. The difference between the two inventions is that the gear tooth surfaces of Wildhaber gears are in line contact and the gear tooth surfaces of Novikov gears are in point contact. Figures 17.1.1 and 17.1.2 show the first and second versions of Novikov gears with one and two zones of meshing, respectively.
Point contact in Novikov gears has been achieved by application of two mismatched rack-cutters for generation of the pinion and the gear, respectively. The principle of mismatching of generating surfaces had already been applied for generation of spiral bevel gears and hypoid gears for localization of bearing contact before Novikov's invention was proposed. However, Novikov was the first who (i) applied mismatched tool surfaces for generation of helical gears, and (ii) achieved reduction of contact stresses due to small difference of curvatures of generating and generated tooth surfaces.
There are two weak points in Novikov design:
(i) The function of transmission errors of a misaligned gear drive is a discontinuous linear one, and the transfer of meshing between neighboring teeth is accompanied by high acceleration that causes a high level of vibration and noise [Litvin & Lu, 1995].
(ii) Bending stresses of Novikov gears, especially of the first design, are of large magnitude.
The manufacturing of Wildhaber–Novikov gears is based on application of two mating hobs that are conjugated to the respective mismatched rack-cutters.
- Type
- Chapter
- Information
- Gear Geometry and Applied Theory , pp. 475 - 507Publisher: Cambridge University PressPrint publication year: 2004