CRC Press, Taylor & Francis Group, 2013. 743 p. 513 Illustrations. — ISBN - 13: 978-1-4665-1449-2 (eBook - PDF).Provides a modern, systematic methodology for gear design Presents formalized algorithms for gear design Gives a solution for the optimal design of a gear pair Treats the minimization of vibrations and noise in gears Describes approaches for optimal gear performance Includes more than 500 illustrationsSummary The first book of its kind, Theory of Gearing: Kinematics, Geometry, and Synthesis systematically develops a scientific theory of gearing that makes it possible to synthesize novel gears with the desired performance. Written by a leading gearing expert who holds more than 200 patents, it presents a modern methodology for gear design. The proposed theory is based on a key postulate: all the design parameters for an optimal gear pair for a particular application can be derived from (a) a given configuration of the rotation vectors of the driving and driven shafts and (b) the power transmitted by the gear pair. This allows engineers to synthesize the desired gear pairs with only the following input information: The rotation and torque on the driving shaft The configuration of the driven shaft in relation to the driving shaft The desired rotation and torque of the driven shaft Beginning with the fundamentals, the book reconsiders the basic theory of kinematics and geometry of gears to provide a sound basis for the evaluation and development of future designs. It then examines ideal and real gearing for parallel-axis, intersected-axis, and crossed-axis gearing. The book addresses how to minimize vibration and noise in gears, discusses aspects of implementing the theory of gearing, and analyzes principal features of power transmission and the loading of gear teeth. More than 500 figures clearly illustrate the principles. This is an invaluable resource for engineers and researchers who work in gear design, gear production, and the application of gears as well as for students in mechanical and manufacturing engineering. Covering all known gear designs, this book offers an analytical solution to the problem of designing optimal gear pairs for any given application. It also encourages researchers to further develop the theory of gearing.Synthesis Kinematics of a Gear Pair Geometry of Gear Tooth Flanks: Preliminary Discussion Geometry of Contact of Tooth Flanks of Two Gears in Mesh Concept of Synthesis of a Gear Pair with Prescribed PerformanceIdeal Gearing: Parallel-Axis Gearing Involute Gearing Noninvolute Gearing High-Conforming Parallel-Axis Gearing Synthesis of Optimal Parallel-Axis GearingIdeal Gearing: Intersected-Axis Gearing Geometrically Accurate Intersected-Axis Gear Pairs High-Conforming Intersected-Axis GearingIdeal Gearing: Crossed-Axis Gearing Geometrically Accurate Crossed-Axis Gearing: R-Gearing High-Conforming Crossed-Axis GearingIdeal (Geometrically Accurate) Two-Degree-of-Freedom Gearing Kinematics, Geometry, and Design Features of 2-DOF GearingReal Gears and Their Application: Real Gearing Desired Real Gearing: Spr-Gearing Approximate Real Gearing Generic Gear Shape Gear NoiseReal Gears and Their Application: Gear Trains Gear Ratio of a Multistage Gear Drive Split Gear DrivesReal Gears and Their Application: Principal Features of Power Transmission and Loading of the Gear Teeth Local Geometry of the Interacting Tooth Flanks Contact Stresses in Low-Tooth-Count Gearing Application of the Results Derived from Theory of GearingConclusionAppendix A: Elements of Coordinate Systems Transformations Appendix B: Novikov’s Gearing Invention Disclosure Appendix C: Wildhaber’s Gearing Invention Disclosure Appendix D: Engineering Formulas for the Specification of Gear Tooth Flanks Appendix E: Change of Surface Parameters Appendix F: Notations Appendix G: GlossaryReferences Bibliography Index
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JohnWiley & Sons Ltd., 2012. 465 p. — ISBN 978-1-119-94130-9 (cloth).
Understanding how gears are formed and how they interact or ‘mesh’ with each other is essential when designing equipment that uses gears or gear trains. The way in which gear teeth are formed and how they mesh is determined by their geometry and kinematics, which is the topic of this book.
Gears and Gear...
CRC Press LLC, 1999. — 2466 p. Responding to the marketplace of researchers, professionals, academics, and students, this book will provide critical, timely information. An authoritative resource for engineering professionals working into the next millennium! During the past 20 years, the field of mechanical engineering has undergone enormous changes. Mechanics of Solids Bela I....
4th Edition. — Prentice Hall, 2011. VIII, 376 p. — ISBN-13: 978-0-13-215780-3, ISBN-10: 0-13-215780-2.
This up-to-date introduction to kinematic analysis ensures relevance by using actual machines and mechanisms throughout. Machines & Mechanisms, 4/e provides the techniques necessary to study the motion of machines while emphasizing the application of kinematic theories to...
Second Edition. — CRC Press, Taylor & Francis Group, 2012. — XXV, 846 p. 491 Illustrations. — ISBN-13: 978-1-4398-6602-3 (eBook - PDF).
Serves as a comprehensive, illustrated guide and reference
Details design of all types of gears
Offers systematic presentation for easy use and reference
Covers gear materials, manufacturing methods, and troubleshooting...
CRC Press, Taylor & Francis Group, 2010 786 p. 501 Illustrations. — ISBN: 978-1-4398-1967-8 (Hardback).
This book presents the DG/K-based method of surface generation, a novel and practical mathematical method for designing gear cutting tools with optimal parameters. The author, an industry leader for the past 30 years, proposes a scientific classification for all possible...
Fourth Edition. — McGraw-Hill Professional, 2006. — 551 p.
Справочник по механизмам и их применению в различных системах.
Basics of mechanisms
Levers and Mechanisms
Gears and Gearing
Pulleys and Belts
Sprockets and Chains