DOI: https://doi.org/10.20535/2521-1943.2020.89.211037

Implementation of the tangential clamp in the instrumental-technological equipment with application of the clamping collets

Yu. N. Kuznetsov, F. El-Dahabi

Abstract


Creation of new developing technical systems require further improvement of their subsystems. Currently, the search for new solutions is not possible without an interdisciplinary approach and the use of the latest scientific achievements in various fields, combined in the form of NBIKSE technologies (nano-bio-info-cogno-socio-eco) and using artificial intelligence, and it is necessary to apply genetic morphological approach to solve the problem of simultaneous multi-place clamping of rotating objects with the application of tangential force. In the direction of the development of previously performed works, it is proposed to add to the well-known genetic classification of a single clamp (axial and radial principles with genetic codes F1 (Fa1, Fr1, Ft1) – F2 (Fa2, Fr2); M1 (Ma1, Mr1, Mt1) – F2 (Fa2, Fr2) the tangential principle of single and multiple clamping with the application of force at the output of the power flow, offset from the axis of rotation by a radius R.


Keywords


tangential clamp; collet chuck; genetic synthesis; material point

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References


Polovinkin A.I., Bobkov N.K., Bush T. Ya. and dr. (1981), Automation of search design (artificial intelligence in machine design), in Polovinkin, A.I. (ed.), monograph, Radio and communications, Moscow, Russia.

Volokhonsky, A.G. (1971), Genetic code and symmetry, Symmetry in nature, Leningrad, Russia.

Kuznetsov, Yu.N. (2017), Challenges of the fourth industrial revolution “Industry 4.0” to the scientists of Ukraine, Bulletin of KNTU, vol. 61, no. 2. pp. 67–75.

Kuznetsov, Yu.M. (2019), “Stages of the evolution of creative thinking with elements of artificial intelligence on the example of the synthesis of collet cartridges”, Intercollegiate Collection “Scientific Notes”, Lutsk, no. 67, pp. 70–81.

Kuznetsov, Yu.N. and El-Dahabi F.W. (2018), “The development of the genetic-morphological approach in the synthesis of machine tooling”, Transactions of the International Scientific Conference UNITECH ”18, Gabrovo, vol. 2, pp. 183–189.

Kuznetsov, Yu.N. (2016), “A new look at the material point as a carrier of genetic information when creating technical systems”, Materials of the International scientific-practical conference “Fundamentals of Mechanics”, SIC MS, Novokuznetsk, no. 1, pp. 26–40.

Kuznetsov Yu.M., Dahabi F.W. and Hamuyela J.A. Guerra (2017), “Structural scheme synthesis of clamping chucks гsing гniversal гenetic operators”, Scientific journal “Fundamentalis scientiam”, Madrid, Spain, vol. 12, no. 2, pp. 43–49.

Hamujela, J.A., Gerra Kuznetsov, Yu.N. and Hamuyela, T.O. (2017), Genetic and morphological synthesis of clamping chucks, monograph, in Kuznetsov, Yu.N. (ed.), Vezha-Druk, Lutsk, Ukraine.

Gribachov, V.I. (1968), Collet chuck. IPC В23В 31/00, application no. 1281181/25 of 11.11. 1968, Authorship certificate of the USSR No. 292734.

Shinkarenko, V.F. (2002), Fundamentals of the theory of evolution of electromechanical systems, Scientific Thought, Kyiv, Ukraine.

Kunjur, A. and Krishnamurty, S. (1997), “Genetic Algorithms in Mechanical Synthesis”, Journal of Applied Mechanisms and Robotics, vol. 4, no. 2, pp. 18–24.

Omer, A. Shpil (2007), “Genetic algorithms in synthesis of path generator four-bar mechanism with maximum mechanical advantage”, ASM '07: The 16th IASTED International Conference on Applied Simulation and Modeling, August, pp. 154–161.

Cabrera, J.A., Simon, A. and Prado, M. (2002), “Optimal synthesis of mechanisms with genetic algorithms” Mechanism and Machine Theory, no. 37, pp. 1165–1177.

Lee Kunwu (2004), CAD Basics (CAD / CAM / CAE) Per. from English, (Ch. 9, p. 9.5. Genetic algorithms, St. Petersburg, Peter, Russia. pp. 284–291.

https://yandex.ua/images/search?img_url=http:www.komane.ru/nu


GOST Style Citations


  1. Automation of search design (artificial intelligence in machine design) / A.I. Polovinkin, N.K. Bobkov, T. Ya. Bush and others.; under the editorship of A.I. Polovinkin. – M.: Radio and communications. – 1981. – 344 p.
  2. Volokhonsky A.G. Genetic code and symmetry // Symmetry in nature. – L.: – 1971. – 75 p.
  3. Kuznetsov Yu. N. Challenges of the fourth industrial revolution “Industry 4.0” to the scientists of Ukraine // Bulletin of KNTU. – 2017. – Vol. 61, No. 2. – P. 67–75.
  4. Kuznetsov Yu.M. Stages of the evolution of creative thinking with elements of artificial intelligence on the example of the synthesis of collet cartridges // Intercollegiate Collection “Scientific Notes”, Lutsk, – 2019. – No. 67. – P. 70–81.
  5. Kuznetsov Yu. N., El-Dahabi F.W. The development of the genetic-morphological approach in the synthesis of machine tooling // Transactions of the International Scientific Conference UNITECH ”18, vol. 2, Gabrovo, – 2018. – P. 183–189.
  6. Kuznetsov Yu. N. A new look at the material point as a carrier of genetic information when creating technical systems // Materials of the International scientific-practical conference “Fundamentals of Mechanics”, Novokuznetsk: SIC MS. – 2016. – No. 1. – P. 26–40.
  7. Kuznetsov Yu.M., Dahabi F.W, Hamuyela J.A. Guerra. Structural scheme synthesis of clamping chucks гsing гniversal гenetic operators // Scientific journal “Fundamentalis scientiam”, (Madrid, Spain). – 2017. Vol. 12, No. 2. – P. 43–49.
  8. Hamujela J.A. Gerra Genetic and morphological synthesis of clamping chucks: monograph / J.A. Gerra Hamuyela, Yu.N. Kuznetsov, T.O. Hamuyela; under the editorship of Yu.N. Kuznetsov. – Lutsk: Vezha-Druk, – 2017. – 328 p.
  9. Collet chuck. Authorship certificate of the USSR No. 292734, IPC В23В 31/00, author V.I. Gribachov, application No. 1281181/25 of 11.11.1968.
  10. Shinkarenko V.F., Fundamentals of the theory of evolution of electromechanical systems. – K .: Scientific Thought, – 2002. – 288 p.
  11. Kunjur, A., Krishnamurty, S. “Genetic Algorithms in Mechanical Synthesis”, Journal of Applied Mechanisms and Robotics, – 1997. – Vol. 4, No. 2. – P. 18–24.
  12. Omer A. Shpil “Genetic algorithms in synthesis of path generator four-bar mechanism with maximum mechanical advantage”. ASM '07: The 16th IASTED International Conference on Applied Simulation and Modeling August 2007 P. 154–161.
  13. Cabrera, J.A., Simon A., Prado M., “Optimal synthesis of mechanisms with genetic algorithms” Mechanism and Machine Theory 37. – 2002. – P. 1165–1177.
  14. Lee Kunwu. CAD Basics (CAD / CAM / CAE) Per. from English - St. Petersburg: Peter, – 2004. – 580 p. (Ch. 9, p. 9.5. Genetic algorithms). P. 284–291.
  15. https://yandex.ua/images/search?img_url=http:www.komane.ru/nu




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