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The new function utilization of Autodesk Inventor for electrical machines modeling
Benetka, Martin ; Janda, Marcel (referee) ; Hájek, Vítězslav (advisor)
This Bachelor’s thesis is focused on the use of Autodesk® Inventor® 2012 for the modelling of electrical machines, the triggers which are used to start engines specifically in my work. The theoretical part consists of types of triggers, their operating principles, construction, advantages and disadvantages of their using. A reach trigger with pull-armature servis animation was created using Autodesk® Inventor® 2012 as a demonstrative model of fuction of this trigger in the practical part of this thesis.
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Stress analysis in parametric FEM programs
Martinec, Roman ; Vlach, Radek (referee) ; Krejčí, Petr (advisor)
The bachelor thesis focuses on familiarizing with Autodesk Inventor Professional 2012 program and ANSYS Workbench program. It was necessary to get familiarized with working environment of these programs and their mutual cooperation. The interconnection between the two programs is described on a demonstrative case. Next article of the thesis deals with a model conversion into MKP software which was described in detail within both programs. The final part of the thesis compares the results of a stress analysis within Autodesk Inventor Professional 2012 program and also within ANSYS Workbench.
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The design of system with permanent magnets
Šašek, Martin ; Janda, Marcel (referee) ; Veselka, František (advisor)
This work describes the current variants of parametric modeling, there is a list compiled new possibilities of program Autodesk Inventor Series 2012. It also included a description of the module it self. There are also summarized the advantages of adaptive modeling and a simple model of adaptive modeling is almost done. In the practical part I devoted to the possibilities of animation creation model in the environment of the presentations and in the program Autodesk Inventor Studio, which is then created animations magnetic stand.
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Calculation of induction machine cooling
Záruba, Jan ; Huzlík, Rostislav (referee) ; Janda, Marcel (advisor)
This thesis discusses in the first part of the theoretical concept of flow and cooling induction machine. His behavior , characteristics and possible variants of its calculation . Questions concerning losses from the engine, through the second cooling flow types and finally the calculation. The second part focuses on practical laboratory measurements on a real model. Furthermore, the evaluation of its results. The third part focuses on computer simulation and calculation. The third part is further divided into three phases , where in the first phase devoted to the calculation and simulation flow to the fan motor. In the second stage, the third part deals with the flow in the engine itself , and the third is described and simulated temperature analysis . In the final third phase are subsequently evaluated by computer simulations and compared with practical measurements . This comparison is based on the theory described from the beginning.
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Stress analysis in parametric FEM programs
Martinec, Roman ; Vlach, Radek (referee) ; Krejčí, Petr (advisor)
The bachelor thesis focuses on familiarizing with Autodesk Inventor Professional 2012 program and ANSYS Workbench program. It was necessary to get familiarized with working environment of these programs and their mutual cooperation. The interconnection between the two programs is described on a demonstrative case. Next article of the thesis deals with a model conversion into MKP software which was described in detail within both programs. The final part of the thesis compares the results of a stress analysis within Autodesk Inventor Professional 2012 program and also within ANSYS Workbench.
|
|
|
Calculation of induction machine cooling
Záruba, Jan ; Huzlík, Rostislav (referee) ; Janda, Marcel (advisor)
This thesis discusses in the first part of the theoretical concept of flow and cooling induction machine. His behavior , characteristics and possible variants of its calculation . Questions concerning losses from the engine, through the second cooling flow types and finally the calculation. The second part focuses on practical laboratory measurements on a real model. Furthermore, the evaluation of its results. The third part focuses on computer simulation and calculation. The third part is further divided into three phases , where in the first phase devoted to the calculation and simulation flow to the fan motor. In the second stage, the third part deals with the flow in the engine itself , and the third is described and simulated temperature analysis . In the final third phase are subsequently evaluated by computer simulations and compared with practical measurements . This comparison is based on the theory described from the beginning.
|
|
|
The design of system with permanent magnets
Šašek, Martin ; Janda, Marcel (referee) ; Veselka, František (advisor)
This work describes the current variants of parametric modeling, there is a list compiled new possibilities of program Autodesk Inventor Series 2012. It also included a description of the module it self. There are also summarized the advantages of adaptive modeling and a simple model of adaptive modeling is almost done. In the practical part I devoted to the possibilities of animation creation model in the environment of the presentations and in the program Autodesk Inventor Studio, which is then created animations magnetic stand.
|
|
|
The new function utilization of Autodesk Inventor for electrical machines modeling
Benetka, Martin ; Janda, Marcel (referee) ; Hájek, Vítězslav (advisor)
This Bachelor’s thesis is focused on the use of Autodesk® Inventor® 2012 for the modelling of electrical machines, the triggers which are used to start engines specifically in my work. The theoretical part consists of types of triggers, their operating principles, construction, advantages and disadvantages of their using. A reach trigger with pull-armature servis animation was created using Autodesk® Inventor® 2012 as a demonstrative model of fuction of this trigger in the practical part of this thesis.
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