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Passenger lifts
Galásek, Martin ; Pokorný, Přemysl (referee) ; Škopán, Miroslav (advisor)
Bachelor thesis "Elevators for transportation of persons" is an overview of applied design solutions of the elevator engines, especially in terms of their efficiency, space and economy utilization in various types of buildings. The final part contains a summary of expected trends of elevators’ development with respect to new design elements, automation improvement, modernization and higher requests on safety during a conveyance of persons.
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Design of hillside elevator
Látal, Roman ; Smejkal, David (referee) ; Dvořáček, Jiří (advisor)
Bachelor’s thesis is covering a topic of construction of slope elevator with a tilt of 25 degrees for four people with total capacity of 400 kilograms. The construction is divided into two bachelor´s theses and this thesis is focused to the design of cabin construction. This thesis contains constructional design of the cabin and its technical drawings.
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Ergonomie kabiny sklizňových strojů
Solař, Josef
This bachelor thesis focuses on evaluating the approach of harvester manufacturers to control ergonomics. The aim of the bachelor thesis was to compare five controls between the four best selling harvester manufacturers on the Czech market. The comparison was made by developing a methodology based on the parameters used from the selected literature and was tailored to the harvester control with a division according to the consideration of motor skills, field of vision, recognition, display and the number of steps required to activate. A description of harvesting threshers and ergonomics in general and in the context of harvesting threshers is not missing part of the work. The development trend of harvester control is also described at the end.
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Ergonomie kabiny zemědělských traktorů
Fiala, Lukáš
The bachelor thesis Ergonomics of the cab of agricultural tractors presents general ergonomics, its application in agricultural tractors and especially in the cab of agricultural tractors. The aim of this bachelor thesis was to compare five ergonomic features of five best-selling agricultural tractors in the Czech Republic, whose maximum engine power intersects at 202 to 206 kW. The methodology was selected based on the literature and adapted to the agricultural tractor operator. Finally, the trend in agricultural tractor cabs in terms of ergonomics was presented.
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Study of designs of forwarders and timber trailers in logging
Svoboda, Dominik ; Pokorný, Přemysl (referee) ; Mergl, Václav (advisor)
This bachelor thesis deals with the construction of forwarders and timber trailers in forestry logging. The thesis is divided into three parts. The first part describes the structural solutions of forwarders. The second part covers the construction of timber trailers. The last chapter focuses on the utilization of forwarders and timber trailers in forestry logging, their advantages, disadvantages, and a comparison of technical parameters. The study includes schematic drawings of certain structural components.
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Springing and Damping of Truck Cabin
Kroupa, Ondřej ; Vančura, Jan (referee) ; Blaťák, Ondřej (advisor)
This Diploma Theses, which can be included in the field of vehicle dynamics, explores the effect of suspension and damping of truck cabs for the safe ride and comfort. As the driver spends many hours in their vehicle, comfort is the most essential criterion. That is why we seek possible improvements which are offered by the sprung cab. The research part firstly analyses the individual elements of suspension and damping. The following chapter is devoted to the systems which are used nowadays in the construction of cabin suspension. Next there is the introduction to the theoretical production of a simplified computational model as well as the presentation of the possible evaluation of the achieved results. The following practical part deals with the actual shaping of the computational model in the Adams View software, which is based on a real vehicle, and was lent at the faculty. The model is then verified and compared with the existing state and the cab mounting concepts are tested on it. The effects of cab parameters on driving comfort and safe riding were tested on it as well. The last part focuses on the forming of the special Dakar computational model, on which optimization was performed according to the findings discussed in the previous chapter. Also, the appropriate configurations to the real-life testing were designed.
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Assesment of the Thermal Environment in Vehicular Cabins
Fojtlín, Miloš ; Khoury, Roch El (referee) ; Havenith, George (referee) ; Jícha, Miroslav (advisor)
Ľudia žijúci vo vyspelých krajinách trávia väčšinu svojho života vo vnútorných prostrediach budov alebo dopravných prostriedkov. Z tohto dôvodu, záujem o výskum kvality vnútorných prostredím rastie, pričom hlavný dôraz je kladený na oblasti výskumu ľudského zdravia, produktivity a komfortu. Jedným z faktorov ovplyvňujúci kvalitu prostredí je ich tepelný aspekt, ktorý je najčastejšie popísaný teplotou vzduchu, radiačnou teplotou, vlhkosťou vzduchu a rýchlosťou prúdenia vzdu-chu. Zatiaľ čo tieto parametre je možné riadiť systémom pre vykurovanie, vetranie a klimatizáciu nezávisle na počasí, takéto zariadenia sa podieľajú na vysokej spotrebe energie a značnej uhlíkovej stope. V prostediach kabín áut a dopravných prostriedkov je riadenie parametrov tepelného prostredia komplikované z dôvodu ich asymetrickej a časovo premenlivej povahy. Táto situácia je obzvlášť kritická vo vozidlách na elektrický pohon s vlastnou batériou, kde je energia na úpravu vnútornej mikroklímy čerpaná na úkor dojazdu vozidla. Pre uvedené dôvody sa hľadajú nové, en-ergeticky účinnejšie spôsoby pre úpravu tepelných prostredí a zabezpečenia tepelného komfortu. Jedným z potenciálnych riešení sú zariadenia dodávajúce človeku teplo alebo chlad lokálne, ako napríklad vyhrievané a vetrané sedadlá a sálavé panely. Vzhľadom na to, že experimentálny výskum vnútorných prostredí je náročný s ohľadom na čas a potrebné vybavenie, trendy výskumu vplyvov takýchto zariadení na človeka smerujú k optimalizačným úlohám vo virtuálnych prostrediach pomocou modelov ľudksej termofyziológie a tepelného pocitu/komfortu. Avšak pre spoľahlivé výsledky modelovania sú potrebné presné vstupné parametre definujúce prostredie, odev, vplyv povrchov v kontakte s človekom (napríklad sedadlá) a pôsobenie systémov na lokálnu úpravu mikroklímy. Cieľom tejto dizertačnej práce je vytvorenie metodológie na hodnotenie tepelných prostredí v kabínach automobilov s ohľadom na pozíciu v sede a využitím technológii na lokálnu úpravu tepelných prostredí. Jedným z požiadavkov na takúto metodológiu je jej aplikovateľnosť vo virtuálnych ale aj reálnych prostrediach. V prípade hodnotenia reálnych prostredí, cieľom je vytvorenie demonštrátora, ktorý by bol využiteľný ako spätná väzba pre riadenie systémov pre úpravu mikroklímy na základe požadovaného tepeleného pocitu. Validita uvedenej metodológie bola demonštrovaná v typických podmienkach kabín automobilov (5–41 °C) a poznatky z tejto práce sú prenesiteľné do širokého spektra inžinierkych aplikácii. V oblasti osobnej dopravy a pracovných prostredí s vyššou tepelnou záťažou je táto metóda užitočná pre identifikáciu možných zdrojov diskomfortu. Navyše je táto metóda vhodná i pre rýchlo rastúci segment elektrických vozidiel, kde je možné sledovať tok energie potrebnej na dosiahnutie určitej úrovne komfortu a riešenie optimalizačných úloh za účelom úspory energie a predĺženie dojazdu. Obdobné aplikácie možno nájsť i v budovách a prostrediach s podobnými charakteristikami.
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Thermal model of vehicle cabin for HIL simulation
Chromiak, Michael ; Šolc, František (referee) ; Glos, Jan (advisor)
The air temperature inside the car's cab affects the driver as well as the entire crew. In particular, the driver of the car needs maximum thermal comfort, as it is one of the factors that can affect its attention. Before starting to solve this assignment, you will need to summarize the theoretical knowledge needed to properly solve the task. The main objective of this work will be the creation of a thermal model of a car cabin realized in the form of differential equations describing temperatures, which will be assembled in Simulink. The script in Matlab will be created to enter the individual car cabin parameters. From the perspective of the car crew, it is possible to use air conditioning or window openings to influence the air temperature while driving in the car. Therefore, the model enters the time flow of the air flow and temperature from the air conditioning as well as other parameters, including the outside temperature. From the entered parameters, the model then determines the temperature of the car cabin. The resulting model will need to be created so that it can be implemented into a microcontroller and prepare the necessary interface for HIL simulation.
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