National Repository of Grey Literature 9 records found  Search took 0.01 seconds. 
Virtual commissioning of multi-axis manipulator
Slavík, Vojtěch ; Radil, Filip (referee) ; Štěpánek, Vojtěch (advisor)
This thesis deals with the design and virtual commissioning of multi-axes manipulator, that will be able to create figures using spherical segments according to a template. In the design, emphasis is placed on the visual appearance and simple operation of the manipulator. The thesis presents the design of the model, methods for inverse kinematics solving, communication of used software and the robot control.
Development and design of low cost and environment interaction manipulator
Štěpánek, Vojtěch ; Tůma, Zdeněk (referee) ; Knoflíček, Radek (advisor)
This thesis is focused in design low cost robotic manipulator known as SCARA. Chapters are sorted chronological by degrees of manipulator development. Thesis will present metods of inverse kinematics, that determines intaraction between joint rotation and cartesian coordina-tes of gripper. Next it introduces flowcharts for controlling machine and explains the control software determinater especially for microcontroller called Arduino MEGA.
Design of single-purpose assembly machine for assembly of gas distributor in gas grill
Procházka, Petr ; Pavlík, Jan (referee) ; Knoflíček, Radek (advisor)
Objective of this thesis is creating the construction of one-purpose assembly machine for combination of gas switchboard in gas grill assembly, which is top part of the gas cooking grill, consisting of stainless steel plate and burners. There are three types of burners, one small type, two medium types and one big type. Each consists of aluminium body, nozzle, ignition electrode and gas leakage protection fuse. Prior to construction itself,  variant solutions of the assembly operations arrangement are designated. From those, the most appropriate one is chosen based on multicriteria weighting method. Construction of assembly line is created using 3D modelling program with necessary design calculations. For selected assemblies and parts, a drawing documentation has been created. Risk analysis and security of the machine’s normal operation is an integral part of the thesis. Risk analysis is created for the machine’s normal operation. In conclusion, the costs of purchasing the assembly line are calculated and the return of the investment for purchasing the machine is assessed.
Design of SCARA robot control system
Formánek, Martin ; Najman, Jan (referee) ; Bastl, Michal (advisor)
The subject of this bachelor thesis is the Yanome SCARA industrial robot in the mechatronics laboratory. The theoretical part describes the robot, including kinematics, The Raspberry Pi platform which was used for the control and the development enviroment Python. The practical part focuses on the opereation of the robot. Practial part is devided into two parts. The first part contains design of the end effector, the second part is about demonstrational tasks. There is also designed graphical user interface for robot control.
Virtual commissioning of multi-axis manipulator
Slavík, Vojtěch ; Radil, Filip (referee) ; Štěpánek, Vojtěch (advisor)
This thesis deals with the design and virtual commissioning of multi-axes manipulator, that will be able to create figures using spherical segments according to a template. In the design, emphasis is placed on the visual appearance and simple operation of the manipulator. The thesis presents the design of the model, methods for inverse kinematics solving, communication of used software and the robot control.
Design and implementation of an automated robotic workplace for controlled plant cultivation
Kazda, Jan ; Adámek, Roman (referee) ; Věchet, Stanislav (advisor)
This bachelor thesis will deal with the design and implementation of a robotic workplace for controlled plant cultivation. This system will be operated by 4 robots. The communication between the robots will be provided through a Programmable Logic Automaton. Calibration processes will be developed for the robots to achieve the required working accuracy of the robot. In order to perform these calibrations, calibration marks will be created for the cassettes that house the petri dishes. The cassettes are described as carriers for the individual petri dishes. Finally, verification of the real functionality of the system will be addressed.
Design of single-purpose assembly machine for assembly of gas distributor in gas grill
Procházka, Petr ; Pavlík, Jan (referee) ; Knoflíček, Radek (advisor)
Objective of this thesis is creating the construction of one-purpose assembly machine for combination of gas switchboard in gas grill assembly, which is top part of the gas cooking grill, consisting of stainless steel plate and burners. There are three types of burners, one small type, two medium types and one big type. Each consists of aluminium body, nozzle, ignition electrode and gas leakage protection fuse. Prior to construction itself,  variant solutions of the assembly operations arrangement are designated. From those, the most appropriate one is chosen based on multicriteria weighting method. Construction of assembly line is created using 3D modelling program with necessary design calculations. For selected assemblies and parts, a drawing documentation has been created. Risk analysis and security of the machine’s normal operation is an integral part of the thesis. Risk analysis is created for the machine’s normal operation. In conclusion, the costs of purchasing the assembly line are calculated and the return of the investment for purchasing the machine is assessed.
Development and design of low cost and environment interaction manipulator
Štěpánek, Vojtěch ; Tůma, Zdeněk (referee) ; Knoflíček, Radek (advisor)
This thesis is focused in design low cost robotic manipulator known as SCARA. Chapters are sorted chronological by degrees of manipulator development. Thesis will present metods of inverse kinematics, that determines intaraction between joint rotation and cartesian coordina-tes of gripper. Next it introduces flowcharts for controlling machine and explains the control software determinater especially for microcontroller called Arduino MEGA.
Design of SCARA robot control system
Formánek, Martin ; Najman, Jan (referee) ; Bastl, Michal (advisor)
The subject of this bachelor thesis is the Yanome SCARA industrial robot in the mechatronics laboratory. The theoretical part describes the robot, including kinematics, The Raspberry Pi platform which was used for the control and the development enviroment Python. The practical part focuses on the opereation of the robot. Practial part is devided into two parts. The first part contains design of the end effector, the second part is about demonstrational tasks. There is also designed graphical user interface for robot control.

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