Overhead Travelling Crane Construction Deflection Measurements with Telematic Approach

Open access

Abstract

Transport has always been a fundamental impulse for the development of civilization. Issues related to the regularity of operation of technical systems, in the last decade have become important issues being considered from both the point of view, as well as economics. Today the major threat in the operational reliability constitutes intensification of the machine and equipment use leading to excessive degradation. In automated manufacturing processes where the material handling operations are realized by the cranes, the safety as both devices and operating people constitute important factor. The main purpose of the article was focused on the set of issues including the material handling devices (MHD) reliability shaping problem especially presents work in progress towards development the MHD condition assessment system with using telematic approach. In the article author, special care was enclosed to MHD devices with strength human factor interaction and relatively large construction, so the overhead travelling crane was chose. The object of the statement constitutes an attempt of collecting the knowledge concerning a possibility of use modern measurement systems to monitoring crane bridge deflection. All tests and considerations were conducted on the double girder overhead travelling crane with hosting capability 1000 kg and bridge span 8000 mm.

If the inline PDF is not rendering correctly, you can download the PDF file here.

  • [1] Szpytko J. Kształtowanie procesu eksploatacji środków transportu bliskiego Kraków-Radom 2004.

  • [2] Szpytko J. Kocerba A. Wybrane aspekty bezpieczeństwa i niezawodności rozproszonych środków transportu Krakow-Radom 2008.

  • [3] Satoru Y. Hiroki U. Bridge Deflection Measurement Using Digital Image Correlation with Camera Movement Correction Materials Transactions Vol. 53 No. 2 pp. 285-290 2012.

  • [4] Gocał J. Geodezja inżynieryjno-przemysłowa Cz. 3 Wydawnictwa AGH Kraków 2010.

  • [5] Cosser E. Roberts G. W. Meng X. Dodson A. H. Measuring the dynamic deformation of bridges using a total station Proceedings of the 11th FIG Symposium on Deformation Measurements pp. 1-8 Santorini Greece 2003.

  • [6] Margielewicz J. Haniszewski T. Gąska D. Pypno C. Badania Modelowe Mechanizmów Podnoszenia Suwnic Komisja Transportu 8 s. Polska Akademia Nauk Katowice 2013.

  • [7] Hyla P. Szpytko J. The application of image analysis methods in selected issue solution dedicated for overhead travelling crane Journal of KONES Powertrain and Transport Vol. 21 No. 2 pp. 97-104 Warsaw 2014.

  • [8] Hyla P. Szpytko J. Telematics For The Purpose of Identifying The Conditions of Use of a Bridge Crane Communications in Computer and Information Science Vol. 897 pp. 480-492 Springer Nature Switzerland AG 2018.

  • [9] Chodacki J. Szpytko J. Laboratorium urządzeń dźwigowych Skrypt uczelniany AGH Nr 1397 Wyd. AGH Kraków 1994.

  • [10] Juzwa K. Mercik S. Wytyczne wykonania pomiarów suwnic i jezdni suwnicowych Wydawnictwa przemysłu maszynowego „WEMA” Warszawa 1982.

  • [11] PN-EN 15011:2011E Dźwignice – Suwnice pomostowe i bramowe.

  • [12] PN-91/M-06503 Dźwignice – Grupy natężenia pracy dźwignic i ich mechanizmów.

  • [13] PN-93/M-45003/01 Dźwignice – Terminologia ogólna.

Search
Journal information
Metrics
All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 24 24 3
PDF Downloads 46 46 16