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Building a 3D Printer
Škop, Martin ; Klepárník, Petr (referee) ; Španěl, Michal (advisor)
The aim of this Bachelor thesis is to analyse available options for 3D printing using FDM technology according to requests of cooperating company, to propose several drafts of electronical and software parts of 3D printers. This also includes their connection, functionality testing and implementation of one chosen draft. The core of this Bachelor thesis was to document the progress in building the 3D printer and also to solve arisen problems. The result of this Bachelor thesis is practical realisation of electronic part of 3D printer including basical tests. Secondary benefit of this Bachelor thesis is to explain the issue of 3D printing with the option of building custom 3D printer from PiBot components.
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Control of the 3D printer using Raspberry Pi
Lokajíček, Lukáš ; Kazda, Tomáš (referee) ; Vyroubal, Petr (advisor)
The bachelor project deals with the possibility of solution to control 3D printer type RepRap using single-board computer Raspberry Pi. The theoretical part of semester project contains 3D printing theory focused on 3D printer built at the Department of Electrical and Electronic Technology. The last part of bachelor project is devoted to practical design of compact interface that assure communication between 3D printer and controlling software using Raspberry Pi.
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Virtual prototype of mechatronic system
Dinga, Milan ; Březina, Lukáš (referee) ; Hadaš, Zdeněk (advisor)
This thesis deals with modeling of delta 3D printer virtual prototype and its co-simulation using software ADAMS and MATLAB/SIMULINK. The first part consists of virtual model creation and its kinematic analysis. Then a model of electric motors is created. The final part consists of co-simulation and control design.
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Construction and production the extension of bicycle pedal
Jurka, Adam ; Zouhar, Jan (referee) ; Jaroš, Aleš (advisor)
Bachelor thesis is focused on the construction and production of extension of bicycle pedal which will be used while cycling withnout cycling spikes. Component will be constructed in 3D parametrical software Autodesk Inventor. Model will be manufactured using Fused Deposition Modeling technology with utilization of 3D printer uPrint. One part of thesis is about manufacturing of silicon mould which will be used for casting of plastic model. Thesis is finished with technical-economic evaluation.
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Design and implementation of 3D printer with network printing support
Špringer, Radek ; Hošek, Jiří (referee) ; Krajsa, Ondřej (advisor)
The goal of this thesis is to design a 3D printer type delta. To describe 3D printing technologies used by this printer, basic printer features and commercially available material used at the print and its comparison. To define all hardware components, which are necessary for construction of the 3D printer type delta. To create a proposal and construct an expansion board to which all hardware components of the printer will be connected. To optimize the print space heating and cooling of the printout. To extend the 3D printer with a Web server, which will ensure the network printing possibility.
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3D Printer
Ctibor, Jiří ; Knobloch, Jan (referee) ; Cipín, Radoslav (advisor)
Master thesis deals with topic about 3D printers, concretely making hardware of control and power electronic for FDM 3D printer. The work could offer an overview about basic 3D printing technologies after reading. More information could be read about FDM technology, which is used in our printer, also with description of all important components. The furthest is discussed about electronic drives. If reader is interested in this topic, part of this thesis is schematic design of control electronics, which can be used to build own boards. Design of printed circuit boards is not present in attachment and can be obtained by contacting the author. For own control is used one of the open source control software. Mechanical problems and also mechanical design is done in parallel thesis by other student of Faculty of mechanical engineering.
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3D Printing Machine Control
Kočár, Darius ; Kršek, Přemysl (referee) ; Španěl, Michal (advisor)
This thesis is about creating library for control of the 3D printing machine. Printer active axes are realized by stepper motors from Microcon Corporation connected with CD30x control unit. Communication between application and control units is via RS232 serial link. Part of this work is dedicated to application showing typical usage of this library.
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