Avtonomno vodeni voziček za demo center pametne tovarne

diplomsko delo Visokošolskega strokovnega študijskega programa I. stopnje Strojništvo

Luka Kolman (Author), Niko Herakovič (Mentor), Marko Šimic (Co-mentor)

Abstract

Glavna ideja naloge je, da za demo center pametne tovarne zasnujemo avtonomno voden voziček za potrebe logistike materiala. V prvem delu naloge so obravnavana avtomatsko vodena vozila in njihove glavne komponente ter pojasnjena njihova avtonomnost. V tem segmentu je predstavljena zgodovina avtonomno vodenih vozil, njihova delitev, različni tipi, njihova uporabnost in načini vodenja. V nadaljevanju smo podrobneje analizirali avtonomno vodena vozila in njihove komponente s stališča cene. Še posebej smo se osredotočili na cenovno ugodne pogone, ki zadostijo našim postavljenim kriterijem. Izbrali smo najustreznejši pogon, za katerega smo zasnovali voziček, ki smo ga togo povezali s pogonom. Za celoten sistem, pogon in voziček z ustrezno povezavo, smo izdelali mehanski model s programskim orodjem SolidWorks. V zaključku naloge smo avtonomno vodeni voziček integrirali v model demo centra pametne tovarne, podali logistične poti in mesta za odvzem in oddajo materiala. Za odvzemna in oddajna mesta smo predvideli pozicioniranje vozička.

Keywords

diplomske naloge;pametna tovarna;avtonomno vodena vozila;logistika materiala;izbira vozila;zasnova vozička;

Data

Language:	Slovenian
Year of publishing:	2020
Typology:	2.11 - Undergraduate Thesis
Organization:	UL FS - Faculty of Mechanical Engineering
Publisher:	[L. Kolman]
UDC:	658.286:681.5(043.2)
COBISS:	30706435
Views:	686
Downloads:	128
Average score:	0 (0 votes)
Metadata:

Other data

Secondary language:	English
Secondary title:	Autonomous guided trolley for smart factory demo centre
Secondary abstract:	The main idea of the thesis was to design an autonomously guided trolley for the demo centre of the smart factory for the needs of material logistics. The first part of the thesis deals with automatically guided vehicles and their main components, and their autonomy was explained. The history of autonomously guided vehicles was presented in this segment, as well as their division, different types, their application and their driving guidance. Next, autonomously guided vehicles and their components are thoroughly analysed from the point of view of price. In particular, we focused on affordable drives that meet our expectations. The most suitable drive was chosen and a trolley that is rigidly connected to the drive was designed. For the entire system, drive and trolley with the rigid connection a mechanical model was created with the SolidWorks software tool. At the end of the thesis, the autonomously guided trolley was integrated into the model of the smart factory's demo centre and logistic routes, material loading and unloading spots were provided. Positioning of the trolley was predicted for the loading and unloading spots.
Secondary keywords:	thesis;smart factory;autonomous guided vehicles;material logistics;vehicle selection;trolley concept;
Type (COBISS):	Bachelor thesis/paper
Study programme:	0
Embargo end date (OpenAIRE):	1970-01-01
Thesis comment:	Univ. v Ljubljani, Fak. za strojništvo
Pages:	XXII, 44 str.
ID:	12036947

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