Maksym Z. Increase of efficiency of assembling at reinzhiniringe multiposition technological systems

Українська версія

Thesis for the degree of Candidate of Sciences (CSc)

State registration number

0413U005394

Applicant for

Specialization

  • 05.02.08 - Технологія машинобудування

05-09-2013

Specialized Academic Board

Д64.050.12

Essay

Object of study - process reengineering of multiposition machining , created by the aggregate-modular . The aim - to improve the efficiency of assembly in the manufacture of new and existing reengineering multiposition aggregated metal-cutting equipment by reducing complexity and taking into account technological inheritance . Methods - work performed on the basis of theoretical and experimental studies of dimensional relationships multiposition aggregated process systems using the provisions of engineering technology, graph theory, methods of mathematical statistics and mathematical modeling. Theoretical and practical results - improved approach to the process of assembly allowed to significantly reduce the complexity of reengineering special multiposition modular machine tools with reliable supply required precision processing. Scientific novelty - based on an analysis of existing design and production process systems multiposition aggregated machining of circular blanks transportation offered improved approach to assembly process , which can significantly reduce the complexity of reengineering the safe provision of required precision processing. The degree of implementation - results were used at the "Kharkov machine-building factory "FED" " in process reengineering of special machines multiposition aggregate , the economic effect of which amounted to 130800 грн. Scope - scientific statements , conclusions and results have important implications for theory and practice used in engineering processes multiposition folding aggregated metal-cutting equipment. Recommended further research on practical implementation and broad implementation results of the thesis work in the heavy engineering.

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