|
|
Design of mechanical, electrical construction and software equipment of autonomous cell "Soda maker" for Industry 4.0 testbed.
Dvorský, Petr ; Baštán, Ondřej (referee) ; Kaczmarczyk, Václav (advisor)
The objectives of this bachelor thesis are design and realization of an autonomous cell for soda production for the testbed of Industry 4.0. First, basic construction principles of the autonomous cell are outlined. Then, the mechanical design, the hydro pneumatic system design, the electrical design and the software design are described. The drawing of the mechanical construction of the cell was devised using CAD NX 12 (Siemens PLM software). Most of the 3D printed parts were printed on 3D printer Tarantula. Hydro-pneumatic system was designed in SMC PeuDraw 2.8 for maximal working pressure of 8.2 Bar. Electrical documentation was created in electrical CAD software WSCAD. For control and communication, the autonomous cell is equipped with PLC SIMATIC S7-1200 (CPU 1214C DC/DC/DC), HMI panel (SIMATIC HMI KPT400 BASIC) and Linksys SD205 switch. The source code for control PLC and HMI was designed in TIA Portal software.
|
|
|
Wastewater treatment plant testbed controlled by PLC
Kopáč, Ondřej ; Blažek, Petr (referee) ; Pospíšil, Ondřej (advisor)
This master thesis deals with the design of a wastewater treatment plant, which will be controlled by a PLC. The theoretical part describes the types of wastewater and sewage systems that are important in the design of wastewater treatment plants. The thesis also describes programmable logic controllers, theirs programming languages, SCADA (Supervisory Control And Data Acquisition) systems and automation.The thesis also deals with theoretical description of wastewater treatment plants, their functions and security. Next part describes the design of the wastewater treatment plant. The last part of the thesis describes implementation of the wastewater treatment plant controlled by a PLC.
|
|
|
Simulation of production line
Kutík, Jakub ; Kaczmarczyk, Václav (referee) ; Pásek, Jan (advisor)
The aim of this thesis is to create a custom application to simulate production lines. The first part explains the main reasons, benefits and current trends in the field of virtual commissioning and describes several simulation tools and engineering tools from Siemens. The second part is devoted to a detailed description of features, capabilities and application interface of the PLCSIM Advanced simulation tool. The third part is devoted to design and realization of the custom simulation application, which can be used for create conveyor lines and validate user PLC program in cooperation with PLCSIM Advanced tool. This simulator was created using Unity3D game engine and C# programming language. In the last part of the thesis, a simple simulation task is created in the simulator and is tested using PLC program and visualization created in the TIA Portal engineering framework.
|
|
|
Automatic Creation of PLC Program using TIA Portal Openness
Janeček, Pavel ; Kaczmarczyk, Václav (referee) ; Arm, Jakub (advisor)
This bachelor's thesis deals with automatic generation of PLC program with visualization for model 'Kuličky' through TIA Portal Openness. For this purpose a desktop application "TIAOpennessGenerator", by using programming language C#, was developed. This application generates PLC program according to suitably designed XML schema which works as a "recipe". Both schema and application are written in order to make data generating as universal as possible.
|
|
|
Digital controller for heating a press for molding plywood based on Simatic S7-1500, TIA Portal V12
Lesák, Michal ; Zemánek, Pavel (referee) ; Pásek, Jan (advisor)
This bachelor´s thesis deals with design of digital controller for heating press for molding plywood. The theoretical part is based on the scientific literature defines terms concerning hardware and software, which will use it for the controller design. The practical part, which will be made in the bachelor thesis, includes a controller design, which is performed by Totally Integrated Automation Portal from Siemens. Another, more work is engaged, the display and control with Basic panel of the second generation. The resulting controller will then be forwarded to the company Dieffenbacher as a function block, which can be put into practice.
|
|
|
Virtual commissioning of the robotic production cell
Baťka, Tomáš ; Vetiška, Jan (referee) ; Bražina, Jakub (advisor)
The diploma thesis deals with the virtual commissioning of robotic workplace designed to engrave board materials and their subsequent packaging. The summary of the knowledge that contributes to the development of the virtual commissioning as well as description of each component of the given robotic cell, are described in the theoretical part. In the practical part are described procedures such as assembling of the simulation model in Process Simulate software, creating the PLC program in integrated development environment TIA Portal or creating visualization for HMI panel. In the end, the actual commissioning of the workplace was performed, followed by additional modification and validation of the robotic program.
|
|
|
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.
|
|
|
Virtual commissioning of robotic production system
Sláma, Martin ; Vetiška, Jan (referee) ; Bražina, Jakub (advisor)
The diploma thesis deals with the virtual commissioning of a robotic production system, which is located at the workshop of the Institute of Production Machines, Systems and Robotics BUT. The theoretical part of the thesis contains an overview of the current state of knowledge in the field of virtual commissioning and a description of the elements to achieve it. Next, the devices located in the specified robotic production cell are described. The practical part then describes the process of creating a simulation model in the program RobotStudio and its subsequent connection with the controlling PLC in TIA Portal via SIMIT and thus perform a virtual commissioning of the workplace.
|
|
|
Innovation of "Parking" Laboratory Models
Pindel, Tomáš ; Benešl, Tomáš (referee) ; Jirgl, Miroslav (advisor)
This bachelor thesis deals with models of a parking lot used in the BPGA course as a learning kit,its innovation,realization of a universal connection to all sorts of the PLC SIMATIC S7-1500 in the laboratory and programming of model tasks in four programming languages: LAD, STL, GRAPH and SCL. The differences in programming in each of the languages are also analysed. Further on the making of a visualisation in WinCC is described for these model tasks. The result of this bachelor thesis are two fully-functionial models that can be used for teaching students with a connection to the PLC S7-1500 and their respective documentation. Finally, the model task and its corresponding program in languages LAD, STL, GRAPH and SCL is included + the created visualisation for HMI and PC.
|
|
|
Digital commissioning of a robotic production system for resistance welding
Šuba, Marek ; Bražina, Jakub (referee) ; Vetiška, Jan (advisor)
The subject of this diploma thesis is the simulation and digital commissioning of a robotic production system for welding elements such as studs on sheet metal parts. The basis of the work is search of information related to industrial robots, PLC control, tools used for welding, fixtures, manipulators, sensors, safety and protection elements commonly used in such production systems. The second part of the work deals with the given problem and it is a virtual commissioning of the given concept of a robotic production system. This means creating its simulation model in the Process Simulate environment, selecting robots, creating robotic trajectories, collision analysis, creating sensors, signals and optimization. Last part includes the connection of the simulation model with the software S-7PLCSIM Advanced and TIA Portal, the creation of control PLC logic in the form of a program, visualization and verification of their functionality using the above-mentioned connection with the simulation model.
|
guest ::
