Synthesis of Adjustable Offset Slider-Crank Mechanism for Simultaneous Generation of Function and Path using Variable-Length Links


Conference Article


Souravik Dutta, Tarun Kanti Naskar
Proceedings of 1st International and 16th National Conference on Machines and Mechanisms (iNaCoMM2013), Association for Machines and Mechanisms (AMM), IIT Roorkee, India, 2013 Dec, pp. 465-471

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APA   Click to copy
Dutta, S., & Naskar, T. K. (2013). Synthesis of Adjustable Offset Slider-Crank Mechanism for Simultaneous Generation of Function and Path using Variable-Length Links (pp. 465–471). IIT Roorkee, India: Association for Machines and Mechanisms (AMM).


Chicago/Turabian   Click to copy
Dutta, Souravik, and Tarun Kanti Naskar. “Synthesis of Adjustable Offset Slider-Crank Mechanism for Simultaneous Generation of Function and Path Using Variable-Length Links.” In , 465–471. Proceedings of 1st International and 16th National Conference on Machines and Mechanisms (iNaCoMM2013). IIT Roorkee, India: Association for Machines and Mechanisms (AMM), 2013.


MLA   Click to copy
Dutta, Souravik, and Tarun Kanti Naskar. Synthesis of Adjustable Offset Slider-Crank Mechanism for Simultaneous Generation of Function and Path Using Variable-Length Links. Association for Machines and Mechanisms (AMM), 2013, pp. 465–71.


BibTeX   Click to copy

@conference{souravik2013a,
  title = {Synthesis of Adjustable Offset Slider-Crank Mechanism for Simultaneous Generation of Function and Path using Variable-Length Links},
  year = {2013},
  month = dec,
  address = {IIT Roorkee, India},
  pages = {465-471},
  publisher = {Association for Machines and Mechanisms (AMM)},
  series = {Proceedings of 1st International and 16th National Conference on Machines and Mechanisms (iNaCoMM2013)},
  author = {Dutta, Souravik and Naskar, Tarun Kanti},
  howpublished = {},
  month_numeric = {12}
}

Abstract

This paper presents a new method to design an adjustable offset slider-crank mechanism to generate a function and a path simultaneously with the lengths of the input link and the link representing offset (henceforth called offset link) varying, without any limitation on the number of precision points. The mechanism comprises of the original offset slider crank mechanism along with a ternary link, a roller link and a guiding slot in the fixed link for each of the variable-length links. An n-degree polynomial is used to design the contours of the guiding slots, n being the number of precision points. A case study is provided to verify the feasibility of this new synthesis method.

Keywords

Adjustable mechanism
Offset slider-crank mechanism
Simultaneous task
Variable-length links




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