National Repository of Grey Literature 81 records found  1 - 10nextend  jump to record: Search took 0.01 seconds. 
Design and implementation of the control for the robotic cell
Mbontar, Patrik ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
This master´s thesis thesis deals with the design of software for the control of a robotic cell, which consists of two KUKA robots and a belt conveyor. The robots will perform robotic operations similar to those in real industrial practice. At the beginning of the work will be the state of current knowledge. A key part will be the design of software for robotic cell control in the TwinCAT environment from Beckhoff. The robots and the conveyor will be controlled by a superior PLC, which will be commanded from the designed software using the HMI. The goal is to successfully implement the proposed software for robotic cell control and monitoring using a unique visualization, which will be designed specifically for the robotic cell and its associated manipulation operations.
Design of a Robotic Cell for Operating a Jet Machine for Cleaning Castings
Vrána, Vojtěch ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The main goal of this master’s thesis is to create a design of robotic cell for operating of blasting machine. Operation of blasting machine consists of robotic manipulation of aluminium castings from input container to the blasting machine conveyor. After blasting operation aluminium castings are manipulated by robot from conveyor to output container. The part of the master's thesis is proposal of several variants of solution of design of robotic cell. Afterwards the best option is selected. The thesis also deals with design and selection of functional components in robotic cell. Functional verification of robotic cell is made in software Tecnomatix Process Simulate. Technical-economics evaluation is also part of this master’s thesis.
Design of a Robotic Cell for a Machine Tending Application
Rusňák, Filip ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The master thesis deals with design of a robotic workcell for the operating of CNC lathe. The material input is realized by bin picking technology. The first part is an overview of related industries. Three variants of the workcell layout were created in the second part and the most suitable variant was selected. Selected variant is further elaborated, including 3D models of the workplace parts and drawings. The functionality of the designed workcell is checked by Siemens Process Simulate software simulation. The technical and economical evaluation is performed at the final part of the thesis.
Design of a Robotic Cell for Laser Marking of Automotive Components
Pátek, Václav ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
This diploma thesis is focused on the design of a robotic workstation for laser marking of aluminium hinges for the automotive industry. Robots remove wheel hinges from palettes at the end of a preassembly line, mark them a sort them. At first, selected marking technologies used in the automotive industry are introduced. Afterwards, a few robot and process simulation software are described. Subsequently, several layout variants are created as viable options for process handling and the chosen variant is designed in detail. Using RobotStudio software, a simulation of the robotic marking cell is made for process verification. Finally, a technical - economic evaluation is performed.
On-line path correction of the robot based on the sensor data
Ržonca, Michal ; Pochylý, Aleš (referee) ; Kubela, Tomáš (advisor)
The main aim of this master’s thesis is to provide online path correction of 6 – axis robot leaded by an external distance measuring sensor interface. First part is describing the actual state and required options of some robot manufacturers. Next part justifies selection and is describing the real robotic cell. Third part is focused on programming of path correction of Kuka KR16 based on generated signal and also based on signal from distance sensor interface. There is also described the communication between PLC and robot and how to display data from robot to HMI. Last part is focused on data analysis and is describing some problems discovered by application of path correction.
Design of a Robotic Cell for Flat Parts Production
Závodský, Martin ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
This master’s thesis deals with the design of a robotic cell for the automation of woodworking machine tending. The task of the robot is to manipulate with the specified laminated chipboards of various sizes, before and after machining. The boards are brought to the cell on pallets in three possible placement variants. After a brief research part, conceptual designs of cell layout were created. The optimal and further elaborated design came as a result of selected evaluation criteria. The next part of the thesis consists of designs and selection processes of individual components. These were later used to create a simulation model in Tecnomatix Process Simulate software (Siemens), that helped to verify the functionality of the cell layout, design the control logic and acquire the time of the manipulation cycle used for informative calculation of annual production. In the end, the final design was evaluated from an economic point of view with an emphasis on the return of the initial investment.
Design of a Robotic Cell for a Steel Frame Welding
Kysela, Martin ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The aim of this diploma thesis is to design a cell for robotic arc welding of steel frame. Three possible solutions are provided and one of them is to be chosen to work out. Construction designs of fixture, machine guarding and material racks were created and devices and components required for cell functionality were chosen. All of that with regard to the safety of workplace operators.The result is 3D model of welding cell, it´s implementation and virtual commissioning in the simulation software Process simulate. We will verify the weldability of assigned part, find out the production cycle, eliminate error and lastly the technical and economic evaluation will be work out.
A simulation study of a robotic cell for production machine operation for large-scale production
Šváček, Jiří ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The thesis deals with design of robotic cell for operation with CNC machine. When CNC machine is machining, inactive robot is used for deburring specific edges on the workpiece with help of pneumatic spindles. Thesis include design of end-effectors for handling and deburring operations, design and placement of individual parts of robotic cell. Part of the thesis deals with safety of the cell. Next part of thesis is focus on finding out cycle time of the robot. Robot have to manage cooperate with CNC machine and deburr edges in time. Cycle time is find out at simulation study in software called Tecnomatix Process Simulate. On the end of thesis is technical-economics evaluation
Automation of stators production
Šula, Martin ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The diploma thesis deals with the design of a robotic workplace layout for finishing operations on the stator of an electric motor. Three variants of the workplace layout were created, these variants were evaluated, and then the most suitable variant was selected. Suitable subcomponents have been created for this variant, such as the end effector, deburring spindles, rotary stand and milling table. A risk analysis was also created for her to ensure the safety and protection of the operator. The most suitable variant was transferred to the Process Simulate software, where its functionality was verified and the real cell cycle was determined.
Automation of production machine operation and robotic deburring within external pneumatic tools
Procházka, Jakub ; Kubela, Tomáš (referee) ; Pochylý, Aleš (advisor)
The task of this master thesis is to design a robotic workcell for an automation of the production machine operation followed by robotic deburring of the parts within external pneumatic tools. There is chosen the most suitable concept of the workplace layout of its included sub-components based on the input parameters. The first part is dedicated to design or select sub-components of the workcell as input magazine, robots, end effectors, deburring station etc. Afterwards, there is created a simulation model of the workcell in Process Simulate software for the verification of demanded cycle times and workcell functionality. The final design has to meet safety standards and technical and economical evaluation is permormed at the end of the thesis.

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