THE DEVELOPMENT OF DYNAMIC MODEL OF THE COLUMN OF HORIZONTAL MULTI-AXIS BORING MACHINE WITH HYDRAULIC JACKS COMPLEX AS THE CONTROL TARGET


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Abstract

Metal cutting equipment is one of the basics of machine building production. Horizontal multi-axis boring machines used in machine building allow processing workpieces of various sizes and complexity with high accuracy and high efficiency. In this case, the accuracy of treatment depends on many factors but the basis is the geometrical accuracy of processing equipment itself. Machine accuracy affects its working ability, durability, efficiency, productivity, noise and vibration level and the quality of the goods produced. Strength bending and torsional deformations of stands of horizontal multi-axis boring machines occurring when moving the machine column along the stand cause the decentration of the processed bores, for example, during the boring. The author suggests installing of two executive elements of vertical displacements in conjunction between the slide assembly and the column bed of the machine. Hydraulic jacks are the example of such executive elements. Machine column with the hydraulic jacks’ complex serves as the control target. When changing the working liquid pressure in them, the motion of column leading end occurs. The paper presents the design of the dynamic model of the column with hydraulic jacks’ complex of the horizontal multi-axis boring machine, the stand of which is subject to the strength bending and torsional deformations. 2A459AF4 model machine became the study object. The author considered the reactions in the points of hydraulic jacks’ installment and determined the analytical expressions on which basis the block schemes of control target with the hydraulic jacks’ complex in relation to perturbation action and control channels were built. The object transfer function against the perturbation and control actions that allows producing the system of the static setting of processing system of multi-axis boring machines was determined.       

About the authors

Mikhail Anatolievich Rubtsov

Volga Region State University of Service, Togliatti

Author for correspondence.
Email: mihail-tlt063@ya.ru

postgraduate student of Chair “Service of technical and technological systems”

Russian Federation

References

  1. Gorshkov B.M. Improvement of accuracy of multi-axis boring machines by means of automated control of elastic systems elements. Avtomatizatsiya i sovremennye tekhnologii, 2003, no. 7, pp. 26–29.
  2. Gorshkov B.M. Povyshenie tochnosti tekhnologicheskikh obrabatyvayushchikh system s sostavnymi staninami metodom avtomaticheskoy kompensatsii ikh deformatsiy. Avtoref. diss. dokt. tekhn. nauk [The improvement of composite housing processing systems accuracy using the method of automated compensation of their deformations]. Togliatti, 2005. 35 p.
  3. Bazrov B.M. Tekhnologicheskie osnovy proektirovaniya samopodnastraivayushchikhsya stankov [Basic techniques of designing of self-tuning machines]. Moscow, Mashinostroenie Publ., 1978. 216 p.
  4. Bazrov B.M. Raschet tochnosti mashin na EVM [Machine accuracy calculation using computer]. Moscow, Mashinostroenie Publ., 1984. 256 p.
  5. Balakshin B.S. Teoriya i praktika tekhnologii mashinostroeniya. Kn. 1. Tekhnologiya mashinostroeniya [Theory and practice of mechanical engineering. Book 1. Mechanical engineering]. Moscow, Mashinostroenie Publ., 1982. 203 p.
  6. Balakshin B.S. Teoriya i praktika tekhnologii mashinostroeniya. Kn. 2. Osnony tekhnologii mashinostroeniya [Theory and practice of mechanical engineering. Book 2. Principles of mechanical engineering]. Moscow, Mashinostroenie Publ., 1982. 367 p.
  7. Vasilyev G.N., Yagopolsky A.G., Tremasov A.P. Issues of diagnostics and reliability control of metal cutting machines. STIN, 2003, no. 7, pp. 14–17.
  8. Dalsky A.M. Osnovy tekhnologii mashinostroeniya. V 2 t. [Principles of mechanical engineering. 2 vols.]. Moscow, MGTU im. N.E. Baumana Publ., 1997. 564 p.
  9. Zakovorotnyi V.L., Panov E.Yu., Khristoforova V.V., Luk’yanov A.D., Flek M.B. Determining the optimal attractors of shaping motions in drilling deep holes of small diameter. Russian engineering research, 2006, vol. 86, no. 1, pp. 47–54.
  10. Kaganov V.S. Mathematical modeling of carrying system of machines. STIN, 2003, no. 3, pp. 6–10.
  11. Kaminskaya V.V., Levina Z.M., Reshetov D.N. Staniny i korpusnye detali metallorezhushchikh stankov (raschet i konstruirovanie) [Frame works and body parts of metal cutting machines (calculation and designing)]. Moscow, Mashgiz Publ., 1981. 363 p.
  12. Kirilin Yu.V., Tabakov V.P., Eremin N.V. Methods of modeling of machine carrying system. STIN, 2004, no. 6, pp. 13–17.
  13. Kudinov V.A. Dimanika stankov [Machine dynamics]. Moscow, Mashinostroenie Publ., 1967. 359 p.
  14. Lysov V.E. Teoriya avtomaticheskogo upravleniya. Spetsialnye metody analiza lineynykh sistem [Theory of automated control. Special methods of analysis of linear systems]. Samara, SGTU Publ., 1999. 152 p.
  15. Lysov V.E. Osnovy sinteza sistem adaptivnogo obespecheniya tochnosti nesushchikh elementov pretsizionnyskh stankov. Avtoref. diss. dokt. tekhn. nauk [Principles of synthesis of systems of adapting provision of accuracy of carrying elements of precision machine tools]. Samara, 1991. 32 p.
  16. Matalin A.A. Tochnost’ mekhanicheskoy obrabotki i proektirovanie tekhnologicheskikh protsessov [Mechanical processing accuracy and technological processes designing]. Leningrad, Mashinostroenie Publ., 1970. 320 p.
  17. Kosov M.G., Kutin A.A., Saakyan R.V., Chervyakov N.M. Modelirovanie tochnosti pri proektirovanii tekhnologicheskikh mashin [Modeling of accuracy during production machines designing]. Moscow, STANKIN Publ., 1998. 102 p.
  18. Nikitin B.V. Raschet dinamicheskikh kharakteristik stankov [Calculation of dynamic characteristics of machine tools]. Moscow, Mashgiz Publ., 1962. 110 p.
  19. Brzhozovsky B.M. Obespechenie tochnosti obrabotki na avtomatizirovannykh metallorezhushchikh stankakh. Obzornaya informatsiya [Assurance of accuracy of processing on automated metal cutting machines. Survey information]. Moscow, VNIITEMP Publ., 1992. 48 p.
  20. Pronikov A.S., ed. Proektirovanie metallorezhushchikh stankov i stanochnykh sistem. Ch. 1. Proektirovanie metallorezhushchikh stanov [Designing of metal cutting machines and machine systems. P.1. Designing of metal cutting machines]. Moscow, Mashinostroenie Publ., 1994. 443 p.
  21. Salabaev D.E. Povyshenie tochnosti pri sverlenii otverstiy putem dinamicheskoy nastroyki tekhnologicheskoy sistemy. Avtoref. diss. kand. tekhn. nauk [Accuracy improvement during drilling by means of dynamic setting of technological system]. Togliatti, 2005. 19 p.

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