Manipulační stůl pro kalení forem
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Date
2020-06-25
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Abstract
Tato diplomová práce se zabývá návrhem manipulačního stolu pro kalení strojírenských forem. Manipulační stůl je navržen dle požadavků zákazníka - firmy VÚTS a.s. V teoretické části této práce je popsaná analýza současného postupu při převážení a kalení forem. Dále na základě analýzy potřeb zákazníka pomocí metody QFD byly stanoveny charakteristiky výrobku, a bylo navrženo pět konceptů. Vítězný koncept byl vybrán pomocí metody AHP a optimalizován metodami DFX a FMEA-K. Detailní konstrukce vybraného konceptu a stručný popis voleb jednotlivých součástí je popsán ve výpočtové části. Součástí této diplomové práce je i 3d model sestavy manipulačního stolu a výkresová dokumentace zvolených součástí.
This master's thesis deals with the design of a handling table for hardening engineering molds. The handling table is designed according to the customer's requirements - the company VÚTS, a.s. The theoretical part of this work describes the analysis of the current procedure for transporting and hardening molds. Furthermore, based on the analysis of the voice of the customer using the QFD method, product characteristics were determined, and five concepts were proposed. The winning concept was selected using the AHP method and optimized using the DFX and FMEA-K methods. The detailed structure of the selected concept and a brief description of the choices of individual components is defined in the calculation part. Part of this master's thesis is also a 3D model of the handling table assembly and drawing documentation of the selected components.
This master's thesis deals with the design of a handling table for hardening engineering molds. The handling table is designed according to the customer's requirements - the company VÚTS, a.s. The theoretical part of this work describes the analysis of the current procedure for transporting and hardening molds. Furthermore, based on the analysis of the voice of the customer using the QFD method, product characteristics were determined, and five concepts were proposed. The winning concept was selected using the AHP method and optimized using the DFX and FMEA-K methods. The detailed structure of the selected concept and a brief description of the choices of individual components is defined in the calculation part. Part of this master's thesis is also a 3D model of the handling table assembly and drawing documentation of the selected components.
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Manipulační stůl, kalení, inovační inženýrství, koncept, všesměrová kola, Handling table, hardening, innovation engineering, concept, omnidirectional wheels