Guidelines for the design of opencast mining machines and material handling equipment

• Autorzy: Rusiński E. , Dobosz T. , Moczko P. , Pietrusiak D.

Warianty tytułu

PL

Wytyczne do projektowania maszyn górnictwa odkrywkowego oraz maszyn i urządzeń przeładunkowych

• Języki publikacji: EN

Abstrakty

EN

Opencast mining machines and material handling machines perform an important role in many branches of industry (e.g. mining and rock processing, power) all over the world. This fact caused that different standards were developed containing guidelines for the design of such facilities. The most important of them, which will be discussed in details in the presented article, are: the Australian Standard (AS), German Standard (DIN) and ISO Standard. The advantages and disadvantages of each of them will be discussed, and with all the consequences of using the chosen standard. The authors also present self-developed solutions and recommendations that go beyond the scope of the mentioned standards.

PL

Maszyny podstawowe górnictwa odkrywkowego oraz maszyny przeładunkowe pełnią istotne role w wielu gałęziach przemysłu ( górnictwo i przetwórstwo skalne, przemysł energetyczny, inne) na całym świecie. Fakt ten spowodował, iż powstały różne opracowania zawierające wytyczne do projektowania tego rodzaju obiektów. Najważniejsze z nich, które zostaną omówione szerzej w prezentowanym artykule, to norma australijska (AS), niemiecka (DIN) oraz norma ISO. Przedstawione zostaną wady i zalety poszczególnych z nich, a przede wszystkim to jakie konsekwencje pociąga za sobą stosowanie wybranej normy. Autorzy przedstawiają również samodzielnie opracowane rozwiązania i zalecenia wykraczające poza zakres wskazany w wymienionych normach.

Słowa kluczowe

EN

mining; mining machines; material handling machine; carrying structure; design standards

PL

górnictwo; maszyny górnicze; maszyny przeładunkowe; ustroje nośne; normy

• Wydawca: Instytut Górnictwa Odkrywkowego "Poltegor-Instytut"
• Czasopismo: Górnictwo Odkrywkowe
• Rocznik: 2018
• Tom: R. 59, nr 4
• Strony: 114--119
• Opis fizyczny: Bibliogr. 22 poz.

Twórcy

autor

Rusiński E.

• Wroclaw University of Science and Technology. Faculty of Mechanical Engineering. Department of Machine Design and Research, Wrocław, Poland

autor

Dobosz T.

• Wroclaw University of Science and Technology. Faculty of Mechanical Engineering. Department of Machine Design and Research, Wrocław, Poland

autor

Moczko P.

• Wroclaw University of Science and Technology. Faculty of Mechanical Engineering. Department of Machine Design and Research, Wrocław, Poland

autor

Pietrusiak D.

• Wroclaw University of Science and Technology. Faculty of Mechanical Engineering. Department of Machine Design and Research, Wrocław, Poland

Bibliografia

• [1] Kasztelewicz Z. Koparki wielonaczyniowe i zwałowarki taśmowe. Technologia pracy. ART-TEKST Publishing House, 2012
• [2] Rusinski E., Czmochowski J., Moczko, P., Pietrusiak, D., Surface mining machines: problems of maintenance and modernization. Cham: Springer, cop. 2017
• [3] Bugaric U, Tanasijevic M, Polovina D, Ignjatovic D, Jovancic P. Lost production costs of the overburden excavation system caused by rubber belt failure. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 2012, 14 (4): 333–341
• [4] BG 1986 Regulations, Calculations and dimensioning of large machines in open cuts
• [5] DIN 22261-2 Excavators, Stackers and Auxillary Equipment in Brown Coal Open Cut Mines Part 2 Calculation Principals, German Institute for Standardization, 2015
• [6] PN-G-47000-2:2011 Górnictwo odkrywkowe -- Koparki wielonaczyniowe i zwałowarki -- Część 2: Podstawy obliczeniowe
• [7] International Organization for Standardization, ISO5049.1: Mobile Equipment for the Continuous Handling of Bulk Materials Part 1 Rules for the Design of Steel Structures, 1994
• [8] AS4324.1: Mobile equipment for continuous handling of bulk materials Part 1 - General requirements for the design of steel structures, Standards Australia, 1995
• [9] Morgan, R. C. 2011 Design of Materials Handling Machines to AS4324.1-1995, Australasian Structural Engineering Conference, Perth 2012
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• [12] Pietrusiak D., Evaluation of large-scale load-carrying structures of machines with the application of the dynamic effects factor, Maintenance and reliability, 2017, 19 (4): 542–551
• [13] DIN 22261-2 Excavators, Stackers and Auxillary Equipment in Brown Coal Open Cut Mines Part 2 Calculation Principals, German Institute for Standardization, 2016
• [14] EN 1993-1-9 (English): Eurocode 3: Design of steel structures - Part 1-9: Fatigue, 2005
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