REALIZATION OF THE MACHINE-BUILDING PRODUCTS 3D MODEL RECOGNITION ALGORITHM

Авторы: 
Lavrentieva M. V.
Chimitov P. E.
Karlina U. I.
Дата поступления: 
15.01.2017
Рубрика: 
Machine construction and theoretical engineering
Год: 
2017
Номер журнала (Том): 
№2(54)
УДК: 
658.512, 004.942
Файл статьи: 
Иконка PDF 54-60.pdf
Страницы: 
54
60
Аннотация: 

In the conditions of severe competition in the market, industrial enterprises face the practical task of organizing an integrated information environment for product creation. The main goal of creating an integrated information environment at various enterprises, including the Irkutsk Aviation Plant, is to improve the quality of the decisions made, accelerate the production preparation processes and master the technologies for manufacturing new products. This requires a careful choice of a set of systems (CAD / CAM / CAE / PDM), providing the basis for integrating the design and technological preparation of production and most fully taking into account the features of the products and their manufacturing processes. It is important to correctly solve this problem, since investments in the field of automation determine the competitiveness of the enterprise for years to come. This article is devoted to the problems of development and implementation of the technique for recognizing the objects of the electronic model of a crafted aircraft product using NX OPEN API tools in the SIEMENS NX graphical environment, illustrated by the example of one of the design elements of the flanging product. An algorithm for determining the structural and geometric parameters of an article and grouping the characteristics of the convergence of clustering objects on the basis of apparatus of vector algebra and graph theory is described. The proposed algorithm is applicable for formalizing a solution to a number of tasks to design and technological preparation of production, as well as to improve decision support systems that use the data of the electronic product model, with minimal participation and under the supervision of a specialist.

Ключевые слова: 
electronic model of a product
recognition
Siemens NX
structural element classifier
Список цитируемой литературы: 
  1. A.P.M. Hoque, T. Szecsi. Designing using manufacturing feature library / Journal of Materials Processing Technology,Volume 201, Issues 1–3, 26 May 2008, Pр 204–208.
  2. CherepashkovА. А. Computer technology, modeling and automated systems in mechanical engineering/ А.А.CHerepashkov, N.V. Nosov. – Infolio. Volgograd- 2009.– 650 p.
  3. Cheslavskaya A.A., Mironenko V.V., Kolesnikov A.V., Maksimenko N.V., Kotov V.V. Choosing an efficient method for forming parts by means of an engineering analysis performed with the use of a CAE system // Metallurgist. - 2015. - №Т. 58. № 11-12. - С. 1051–1059.
  4. Emad P. Abouel Nasr, Ali K. Kamrani. A new methodology for extracting manufacturing features from CAD system / Computers & Industrial Engineering 51 (2006) 389–415.
  5. Govorkov A.S. Technique of designing of the product of aviation technics with maintenance of the set criteria of adaptability to manufacture // Journal of International Scientific Publications: Materials, Methods & Technologies. 2011. Т. 5. № 3. С. 156–161.
  6. Govorkov A.S., Zhilyaev A.S The estimation technique of the airframe design for manufacturability. IOP Conference Series: Materials Science and Engineering. 2016. Т. 124. № 1.
  7. Gozbenko V.E., Kargapolcev S.K., Kondratiev V.V., Karlina A.I., Minaev N.V. Vertical dynamics of the vehicle taking into account roughness gauge // Proceedings of the XV International Academic Congress “Fundamental and Applied Studies in the Modern World” (United Kingdom, Oxford, 06-08 September 2016). Volume XV. “Oxford University Press”, 2016. pp. 373–383.
  8. Gozbenko V.E., Kargapoltsev S.K., Kornilov D.N., Minaev N.V., Karlina A.I. Definition of the main coordinates of the car with two-level spring suspension // International Journal of Applied Engineering Research (IJAER). 2016. Vol. 11. № 20. pp. 10367–10373.
  9. Gozbenko V.E., Kargapoltsev S.K., Kornilov D.N., Minaev N.V., Karlina A.I. Simulation of the vibration of the carriage asymmetric parameters in MATHCAD // International Journal of Applied Engineering Research (IJAER), Volume 11, Number 23 (2016), pp. 11132–11136.
  10. Карлина А.И., Гозбенко В.Е., Каргапольцев С.К. Главные координаты в решении задачи вертикальной динамики транспортного средства // Системы. Методы. Технологии. 2016. № 3 (31). С. 58–62.
  11.  Гозбенко В.Е., Каргапольцев С.К., Карлина А.И. Приведение динамической системы с тремя степенями свободы к главным координатам // Современные технологии. Системный анализ. Моделирование. № 3 (51). 2016. С. 35–38.
  12.  Карлина А.И., Каргапольцев С.К., Гозбенко В.Е. Приведение обобщенных сил в математических моделях транспортных систем // Современные технологии. Системный анализ. Моделирование. 2016. № 3 (51). С. 177–180.
  13.  Карлина А.И., Гозбенко В.Е. Моделирование объектов машиностроения для снижения влияния внешних вибрационных воздействий // Вестник Иркут. гос. техн. ун-та. 2016. № 10 (117), С. 35–47.
  14.  Гозбенко В.Е., Карлина А.И. Математическая модель вагона с двумя степенями свободы, находящегося под действием периодической вынуждающей силы // Известия транссиба. 2016. № 3 (27).
  15.  Grechishnikov, V.A.,Khusainov, R.M., Akhkiyamov, D.R.,Yurasov, S.Y.,Yurasova, O.I. Identifying the primary  rigidity axes in the elastic system of a metal-cutting machine.  Russian Engineering Research, 2016. Vol. 36. №. 8. pp. 673–676.
  16.  Khusainov, R.M.,Sharafutdinov, I.F. Methods of assessing the dynamic stability of the cutting process using UNIGRAPHICS NX. IOP Conf. Series: Materials Science and Engineering 134.
  17.  Kondrat'ev V., Govorkov A., Lavrent'eva M., Sysoev I., Karlina A.I. Description of the heat exchanger unit construction, created in IRNITU // International Journal of Applied Engineering Research. 2016. Т. 11. № 19. С. 9979–9983.
  18. 18. Krastyaninov, P.M.,Khusainov, R.M. Selection of equipment for machining processing of parts using NX and TEAMCENTER programs. IOP Conf. Series: Materials Science and Engineering 134. 2016.
  19.  Practical application of the "DFM analysis system" during the process control products aircraft equipment/ А.P. Govorkov, А.S, ZHilyaev. Trudy MАI. 2014. № 74. P. 21.
  20.  R. Akhatov, A. Govorkov, A. Zhilyaev Software solution designing of «The analysis system of workability of industrial product» during the production startup of aeronautical products // International Journal of Applied Engineering Research. 2015. Т. 10. № 21. С. 42560–42562.
  21.  Shmakov A.K., Mironenko V., Kirishina K.K., Stanislavchik A.S., Kotov V.V. Effect of the Average Velocity of the Free Part of the Semifinished Product on the Process of Pneumothermal Forming in the Superplastic Regime // Metallurgist. 2013. Т. 57. № 1-2. С. 8–12.
  22.  Subrahmanyam, P., Wozny, M., 1995, An overview of automatic feature recognition techniques for computer-aided process planning, Computers in industry, Vol. 26, pp. 1–21.
  23.  Амиров Ю. Д. Технологичность конструкции изделия // Библиотека конструктора. М. : Машиностроение, 1990. 768 с.
  24.  Говорков А.С., Чьен Х.В. Разработка автоматизированной системы проектирования технологических процессов изготовления изделия машиностроения на основе трехмерной модели / Современные технологии. Системный анализ. Моделирование. 2016. № 4 (52). С. 48–55.
  25.  Дуда Р. Распознавание образов и анализ сцен / Richard O. Duda, Peter E. Hart. М. : Мир, 1976. 502 с.
  26.  Карлина Ю.И., Говорков А.С. Конструктивно-технологические характеристики номенклатуры выпускаемых изделий при автоматизации процессов подготовки производства и выбор базовой CAD-системы предприятия для создания цифрового макета изделия // Современные технологии. Системный анализ. Моделирование. 2016. № 3 (51). С. 49–55.
  27.  Колганов И. М., Дубровский П.В., Архипов А.Н. Технологичность авиационных конструкций, пути повышения. Ч. 1. Ульяновск : УлГТУ, 2003. 148 с.
  28.  Ту Дж., Гонсалес Р. Принципы распознавания образов. М. : Мир, 1978. 414 с.
  29.  Чимитов П.Е. Разработка математической модели сборочных процессов с использованием методов распознавания образов : дис. … канд. техн. наук. Иркутск, 2010.
  30.  Штайгер М.Г. Проблемы качества компонентов путевого комплекса // Путь и путевое хозяйство. 2011. № 12. С. 6–9.