A DESIGN FOR CONTINUOUSLY VARIABLE TRANSMISSION CONSISTING OF LINKS, CRANKS, CAMS, AND FREEWHEELS, 1-10.

Toshihiro Yukawa

References

  1. [1] X. Shi, Q. Gao, W. Li, and H. Guo, Simulation and experimentalstudy on gear fault diagnosis simulation test bench of windgenerator, Journal of Mechatronic Systems and Control, 47(1),2019, DOI: 10.2316/J.2019.201-2963.
  2. [2] J. Si, Y. Cao, and X. Shi, Fault diagnosis of wind turbineplanetary gearbox based on HHT and structure resonancedemodulation, Journal of Mechatronic Systems and Control,47(1), 2019, DOI: 10.2316/J.2019.201-2966.
  3. [3] E. Boufounas and A. Amrani, Optimal multivariable control forwind energy conversion systems using particle swarm optimiza-tion technique, Journal of Mechatronic Systems and Control,45(4), 2017, DOI: 10.2316/Journal.201.2017.4.201-2865.
  4. [4] Z. Farnaz, H.S. Sajith, A.D. Abeysekara, S. Welikala, P.J.Binduhewa, P.B. Ekanayake, and L. Samaranayake, DC mo-tor torque control using state estimation, Journal of Mecha-tronic Systems and Control, 44(3), 2016, 130–138, DOI:10.2316/Journal.201.2016.3.201-2762.
  5. [5] D. Rockwood, N. Parks, and D. Garmire, A continuously vari-able transmission for efficient urban transportation, SustainableMaterials and Technologies, 1–2, 2014, 36–41.
  6. [6] Y. Itoh and T. Sakaguchi, Development of the mono ring CVT,NTN Technical Review, 73, 2005, 60–65.
  7. [7] S. Miyata and D. Liu, Study of the control mechanism of a half-toroidal CVT during load transmission, Journal of AdvancedMechanical Design, Systems, and Manufacturing, 1(3), 2007,346–357.
  8. [8] J. Ingvast, J. Wikander and C. Ridderstrom, The PVT, anelastic conservative transmission, The International Journal ofRobotics Research, 25(10), 2006, 1013–1032.
  9. [9] J. Kim, F.C. Park, and Y. Park, Design, analysis and controlof a wheeled mobile robot with a nonholonomic sphericalCVT, International Journal of Robotics Research, 21(5), 2002,409–426.
  10. [10] A. Afrabandpey and H. Ghariblu, Performance evaluation ofball CVT and comparison with half toroidal CVT, InternationalJournal of Automotive Technology, 19(3), 2018, 547–557.
  11. [11] B. Pohl, M. Simister, R. Smithson, and D. Miller, Configurationanalysis of a spherical traction drive CVT/IVT, SAE Int.,2004, 2004-40-0009.
  12. [12] J.T. Belter and A.M. Dollar, A passively adaptive rotary-to-linear continuously variable transmission, IEEE Transactionson Robotics, 30(5), 2014, 1148–1160.
  13. [13] Z.B. Saribay and R.C. Bill, Design analysis of pericyclic me-chanical transmission system, Journal Mechanism and MachineTheory, 61, 2013, 102–122.
  14. [14] Y. You, D. Sun, D. Qin, B. Wu, and J. Feng, A new contin-uously variable transmission system parameters matching andoptimization based on wheel loader, Mechanism and MachineTheory, 150, 2020, 103876.
  15. [15] C.A. Fahdzyana, S. van Raemdonck, K. Vergote, and T.Hofman, Joined plant and control design for continuous variabletransmission systems, American Control Conf. (ACC), 2020.
  16. [16] C.A. Fahdzyana, M. Sakazar and T. Hofman, Integrated plantand control design of a continuously variable transmission,IEEE Transactions on Vehicular Technology, 70(5), 2021,4212–4224.
  17. [17] T. Yukawa, T. Kumada & G. Obinata, Continuously variabletransmission using quadric crank chains, 8th IEEE Interna-tional Conference on Industrial Informatics (INDIN 2010),2010, 1043–1048.
  18. [18] T. Yukawa, Continuously variable transmission using quadriccrank chains and ratchets, Proceedings of International Con-ference on Renewable Energies and Power Quality (ICREPQ2011), 2011, 264.
  19. [19] C.G. Gibson and P.E. Newstead, On the geometry of theplanar 4-bar mechanism, Acta Applicandae Mathematica, 7,1986, 113–135.
  20. [20] K. Ogawa and Y. Yokoyama, Synthesis of the planar four-barlinkage, The Japan Society of Mechanical Engineers (JSME)Bulletin of JSME, 12(54), 1969, 1503–1511.
  21. [21] A. Nagchaudhuri, Mechatronic redesign of slider crank mech-anism, Proceedings of IMECE 2002, 2002, 1–6.
  22. [22] G. Rothenhofer, C. Walsh, and A. Slocum, Transmission ratiobased analysis and robust design of mechanisms, PrecisionEngineering, 34(4), 2010, 790–797.
  23. [23] H.S. Yan and R.C. Soong, Kinematic and dynamic design offour-bar linkages by links counterweighing with variable inputspeed, Mechanism and Machine Theory, 36, 2001, 1051–1071.9

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