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Virtual commissiong of the robotic grinding station
Vlašánek, Vít ; Szabari, Mikuláš (referee) ; Bražina, Jakub (advisor)
The diploma thesis deals with the virtual commissioning of a grinding robotic workstation. Issue of the virtual commisionig of robotic workplaces is is described in the theoretical part. The next section explains the procedure of creating a simulation model in Tecnomatix Process Simulate, creation of the PLC program in TIA Portal, which was used to create HMI visualisation as well. Virtual commisioning was done in the end using PLCSIM Advanced software.
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FTC Control in connection with industrial robots
Flekal, Lukáš ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
This diploma thesis presents theoretical possibilities of force/torque control algorithms for industrial robots equipped with force sensor so it deals with interaction between industrial robot and environment. The most important types of control schemes are presented. Practical part deals with design gripper for specific workpiece and for grinding using industrial robot with force feedback. For this operation is given force/torque control design, using industrial robot KUKA KR16, FTC sensor SCHUNK FTC 50-80V and PLC. Further deals with compensation of gravity and dynamics forces.
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Design of a belt grinder for robotic grinding
Šimara, Vít ; Vetiška, Jan (referee) ; Pavlík, Jan (advisor)
This bachelor thesis focuses on stationary robotic belt grinder. The grinder is designed to be tiltable in multiple axes, to guarantee its versatility. The theoretical part describes the belt grinder’s working principle and the fundamentals of robotic grinding. In addition, current trends in this branch are described. At the beginning of the practical part, the concept of the grinder is configured, part by part. This configuration is based on the theoretical research and the choice of the best option. The mechanical design follows, supported by calculations, indispensable to ensure the right functionality of the machine. This thesis’s outlet is a 3D model of the mechanical construction of the grinder with a partial drawing and technical documentation.
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FTC Control in connection with industrial robots
Mimochodek, Martin ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
This diploma thesis deals with a conception of force-torque control of industrial robot applied on a finishing technology of grinding. This work includes a classification of various force-torque sensors currently available on the market. The practical part of this thesis deals with a setting-up of communication and connection among the force-torque sensor SCHUNK FTC 050-80, PLC Beckhoff CX and industrial robot KUKA KR3. Practical part is further focused on a simple model of grinding, especially the grinding force control in relation to the robot movement.
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Virtual commissiong of the robotic grinding station
Vlašánek, Vít ; Szabari, Mikuláš (referee) ; Bražina, Jakub (advisor)
The diploma thesis deals with the virtual commissioning of a grinding robotic workstation. Issue of the virtual commisionig of robotic workplaces is is described in the theoretical part. The next section explains the procedure of creating a simulation model in Tecnomatix Process Simulate, creation of the PLC program in TIA Portal, which was used to create HMI visualisation as well. Virtual commisioning was done in the end using PLCSIM Advanced software.
|
|
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Design of a belt grinder for robotic grinding
Šimara, Vít ; Vetiška, Jan (referee) ; Pavlík, Jan (advisor)
This bachelor thesis focuses on stationary robotic belt grinder. The grinder is designed to be tiltable in multiple axes, to guarantee its versatility. The theoretical part describes the belt grinder’s working principle and the fundamentals of robotic grinding. In addition, current trends in this branch are described. At the beginning of the practical part, the concept of the grinder is configured, part by part. This configuration is based on the theoretical research and the choice of the best option. The mechanical design follows, supported by calculations, indispensable to ensure the right functionality of the machine. This thesis’s outlet is a 3D model of the mechanical construction of the grinder with a partial drawing and technical documentation.
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|
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FTC Control in connection with industrial robots
Flekal, Lukáš ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
This diploma thesis presents theoretical possibilities of force/torque control algorithms for industrial robots equipped with force sensor so it deals with interaction between industrial robot and environment. The most important types of control schemes are presented. Practical part deals with design gripper for specific workpiece and for grinding using industrial robot with force feedback. For this operation is given force/torque control design, using industrial robot KUKA KR16, FTC sensor SCHUNK FTC 50-80V and PLC. Further deals with compensation of gravity and dynamics forces.
|
|
|
FTC Control in connection with industrial robots
Mimochodek, Martin ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
This diploma thesis deals with a conception of force-torque control of industrial robot applied on a finishing technology of grinding. This work includes a classification of various force-torque sensors currently available on the market. The practical part of this thesis deals with a setting-up of communication and connection among the force-torque sensor SCHUNK FTC 050-80, PLC Beckhoff CX and industrial robot KUKA KR3. Practical part is further focused on a simple model of grinding, especially the grinding force control in relation to the robot movement.
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