LARGE SIZED PRODUCT SHELLS DISPLACEMENT MEASUREMENT UNDER STATIC LOADING USING LASER TRACKERS


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Abstract

In the aerospace industry the accuracy of product geometry and the aerodynamic contour  provided traditionally, by the mould loft template method. The assembly accuracy control is carried out using optical measuring instruments, such as a level and a theodolit in combination with leveling rulers came to the aircraft industry from geodesy. Measurements are carried out according to reference points pre-embedded in the product at the design stage.

The introduction of modern high precision coordinate measuring machines (CMM) into the production cycle is promising and actively developing direction to improve the quality of manufactured aircraft. To control the geometry of parts and assemblies, stationary portal-type CMMs and mobile CMMs of the "hand" type replace traditional rod tools and templates, and in the assembly and control operations of the product, traditional optical devices are replaced by a laser tracker.

The aim of this paper is the use of laser trackers for non-contact real-time large-sized product shell displacement measurement under static loading, which makes it possible to reduce the complexity and duration of tests, and ensure high measurement accuracy.

About the authors

Nadezhda A. Sazonnikova

Samara National Research University

Author for correspondence.
Email: nasazonnikova@yandex.ru
Russian Federation, 34, MOSKOVSKOESHOSSE, SAMARA, 443086, RUSSIAN FEDERATION

Roman V. Uklein

Samara National Research University

Email: romanfonuklein@yandex.ru
Russian Federation, 34, MOSKOVSKOESHOSSE, SAMARA, 443086, RUSSIAN FEDERATION

References

  1. Chepchurov M. S., Karnovsky G. G., Minasova V. E. [Laser projection control of the shape of large-sized products]. In Russian //high-tech technologies and innovations. - 2016. – pp. 73-78.
  2. Toktarbayev A. A. [Laser systems for measuring geometric parameters]. In Russian //Academy. – 2019. – №. 1 (40). – Pp. 28-30.
  3. Grishanov V. N., Oynonen A. A. [Modern laser measuring systems in the production cycle of space technology]. In Russian //Bulletin of Samara State Aerospace University named after Academician S.P. Korolev (National Research University). – 2012. – №. 1 (32). – Pp. 24-35.
  4. Ludogovsky P. L., Komkova M. A. [Methods of measuring geometric parameters of products using laser coordinate-measuring systems in modern machine-building industries]. In Russian //Izvestiya higher educational institutions. Aviation equipment. – 2016. – No. 4. – pp. 165-168.
  5. Seredovich A.V., Ivanov A.V. [Development of a methodology for determining the geometric parameters of RVS according to laser scanning data]. In Russian //Interexpo Geo-Siberia. - 2006. – Vol. 1. – No. 2. – pp. 160-164.
  6. Kosarevskiy S. V. [A method for controlling the geometric parameters of parts on a coordinate measuring machine using rebasing.] In Russian – 2010.
  7. Korzh R. S. [Automation of 3D model construction based on laser scanning results] In Russian //Access mode: https://nauchkor . ru/uploads/documents/587d36385f1be77c40d589ba. pdf.–Access date. – 2021. – Vol. 2.

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Copyright (c) 2022 Sazonnikova N.A., Uklein R.V.

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Journal of Dynamics and Vibroacoustics

ISSN 2409-4579 (Online)

Publisher and Founder: Samara National Research University, 34, Moskovskoye shosse, Samara, 443086, Russian Federation.

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