IMPULSE RESPONSE MEASUREMENT TECHNIQUE IN THE MONITOORING CONDITION OF THE EQUIPMENT
DOI:
https://doi.org/10.24027/2306-7039.3А.2020.220294Ключові слова:
Impact, Accuracy Measurement, Approach to Monitoring, Bearing Fault, Fractal GeometryАнотація
Creation of monitoring system will improve technical resources of mining equipment. The tasks relevant to accuracy of monitoring must be resolved, since the accuracy is very important in analysis of impact impulses and vibration, which provide for diagnostics of bearings, appears in the problems with reduction gears, unbalances, misalignments in mining engineering. Algorithmic correlation technique must be applied to achieve maximum quality of the signal and definite spectrum for further analysis. The task of determination of elasticity characteristics of high-capacity synthetic mining ropes is actual. Precision is the most important and decisive product-quality index. When solving the tasks of diagnostics the requirements to the precision of measuring devices are tighten by 1.5-1.6 times every year. In this connection measuring systems integrated into the net-communications of the mining in Estonia, become more and more necessary. Risk analysis in the mining industry is very important, but it is difficult oneself to limit only to the theoretical approaches considered in the article [1-3]. The problem that is a difficult decision for most companies is when to buy their own equipment, when to use outside contractors. It is difficult to choose diagnostic equipment to increase the efficiency of technical resources. The purpose of this paper is to give a practical idea of how to determine the need for predictive maintenance investments through actual observations on site.Посилання
Domingues Maria S.Q., Baptista Adelina L.F., Diogo Maguel Tato, Engineering complex systems applied to risk management in the mining industry, International Journal of Mining Science and Technology, 2017, (27.): 611-616.
Lahdelma S., Juuso E., Advanced signal processing and fault diagnosis for condition monitoring, Insight, 2007, 5(49.): 719-725
Barashkova T., Pascault D., Estimation of Complex derivatives Using Differential Algebra. Application for Fault Diagnosis, In: 17th International Conference on Mathematical Modeling and Analysis, Tallinn: TTU, 2012.
Malcolm J., Crocker, Handbook of Noise and Vibration Control, Canada: John Wiley & Sons, 2007.
CYRIL M. HARRIS, 3d ed., Mc Craw-Hill, Book Company, Shock and Vibration Handbook, New York, 1993.
Fasano A., Marmi S., Analytical Mechanics, Oxford: Oxford University Press, 2002.
Yuan Yu et al., Study on Fault Diagnosis of Rolling Bearing Based on Time + Frequency Generalized Dimension, Shock and Vibration, Hindawi: Hindawi Publishing Corporation Shock and Vibration, 2015,Volume 2015:1-11
Makarenko N.G., Knyazeva I.S., Multifractal analysis of digital images, Izvestiya VUZ. Applied Nonlinear Dynamics, 2009,17(5.): 85-98
Barashkova T., Application of the concept of fractal for the stress assessment of the condition of an object, International Journal of Independent Research Studies, 2016, 3(1.): 8-13
Shtofel O., Rabkina M., The use of a multifractal analysis for property evaluation of constructional steels, UNIVERSUM, 2016, 10 (31.): 24-27
Li Y., et al., Stress Analysis and Lifetime Extension of Hoist Rope, In: The International Conference on Hoisting and Haulage, Stockholm: 2015
Мусалимов В.М., Механика деформируемого кабеля, СПб: 2005
Alper, G. and al., Synchronization and control of chaos in supply chain management, Computers and Industrial Engineering, 2015, volume (86.): 107-115.
Barashkova, T. et al., Development of the improved method of grids, In: Annals of DAAAM for 2011 and Proceeding of the 22nd International DAAAM Symposium Intelligent Manufacturing and Automation: Power of Knowledge and Creativity, Vienna: University of Vienna, 2011
Aryassov, G et al., generalization of the method of finite differences, In: Proceeding of the 21st DAAAM World Symposium, Vienna: University of Vienna, 2010.
Li-Chin, W., and al., A multi-agent based agile manufacturing planning and control system, Computers and Industrial Engineering, 2009, võlume (57.): 620-640.
Moonsoo, S. and al., Self-evolution framework of manufacturing systems based on fractal organization, Computers and Industrial Engineering, 2008, volume (56.): 1029-1039.
Ussanee, P. and al., detecting patterns in process data with fractal dimension, Computers and Industrial Engineering, 2003, volume (45.): 653-667.
Allinson, N.M., Lawson, M., Accurate Texture Characterisation Using Fractal technique, IEE Colloquium, In: The application of Fractal techniques in Image Processing, city: publishing house, 1990
Christopher Mark, Zach Agioutantis, Analysis of coal pillar stability (ACPS): a NEW GENERATION of pillar design software, International Journal of mining Science and Technology, 2019, volume (29.): 87-91.
##submission.downloads##
Опубліковано
Номер
Розділ
Ліцензія
ПОЛІТИКА, ЯКА РЕКОМЕНДУЄТЬСЯ ЖУРНАЛАМ, ЩО ПРОПОНУЮТЬ ВІДКРИТИЙ ДОСТУП З ЗАТРИМКОЮ
Автори, які публікуються у цьому журналі, погоджуються з наступними умовами:
Автори залишають за собою право на авторство своєї роботи та передають журналу право першої публікації цієї роботи, яка через 12 місяців з дати публікації автоматично стає доступною на умовах ліцензії Creative Commons Attribution License, котра дозволяє іншим особам вільно розповсюджувати опубліковану роботу з обов'язковим посиланням на авторів оригінальної роботи та першу публікацію роботи у цьому журналі.
Автори мають право укладати самостійні додаткові угоди щодо неексклюзивного розповсюдження роботи у тому вигляді, в якому вона була опублікована цим журналом (наприклад, розміщувати роботу в електронному сховищі установи або публікувати у складі монографії), за умови збереження посилання на першу публікацію роботи у цьому журналі.
