Digitální zprovoznění robotizovaného systému pro laserové řezání / Digital commissioning of a robotic production system for laser cutting

Žaludek, Jan

January 2021

This diploma thesis deals with digital commissioning of a robotic production system for laser cutting. First part of this thesis sums up teoretical knowledge of virtual commissioning, fundamentals of laser and laser cutting and system analysis of such a workplace. In practical part of this thesis, the workplace was designed including the workpiece clamping. The design and the digital commissioning itself was mediated by the software RobotStudio. In the programming language RAPID a control program was made and tuned. The workoplace was then virtually commissioned. For easier handling a user interface on FlexPendant was made.

Virtuální model výrobního stroje realizovaný v prostředí ABB Robot Studio / Virtual model of production machine in ABB Robot Studio environment

Běloušek, Petr

January 2020

Diploma thesis deals with creating a virtual model of machine for processing bulk materials from FLSmidth in ABB RobotStudio environment. This machine is controlled by Beckhoff CX8090 PLC. Communication between TwinCAT2 controlling program and RobotStudio simulation is provided TCP/IP.

Digitální zprovoznění robotizovaného výrobního systému pro 3D tisk / Digital commissioning of a robotic production system for 3D print

Beránek, Ondřej

January 2021

The master thesis describes the design and digital commissioning of a robotic production system for 3D concrete printing. The theoretical part of the thesis includes an analysis of the current state of knowledge in the field of 3D printing in industrial automation. It also includes a detailed system analysis of the problem, in which the requirements and elements of the production system are specified. In the applied part of the thesis, a 3D model of the workplace was created and a simulation of the entire production process and digital commissioning of the system were performed using the ABB RobotStudio software. The output of the of the application part of the thesis is the design is the design of the workplace with a debugged control program ready for use in real operation.

Návrh robotického pracoviště pro laserové značení automotive komponent / Design of a Robotic Cell for Laser Marking of Automotive Components

Pátek, Václav

January 2021

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.

Robotic 3D Printing of sustainable structures / Robot 3D-printing med hållbara strukturer

Alkhatib, Tammam

January 2023

This bachelor thesis aims to integrate and evaluate a 3D printing robotic cell at the SmartIndustry Group – SIG lab at Linnaeus University (LNU).A sustainable structure consisting of wood fiber polymer composites was 3D printed withan industrial robot. Sustainable 3D printing material can be recycled or burned for energyafterwards. The 3D printing material used in this thesis stems from certificated forests. The objective is to utilise this technology in manufacturing courses and research projectsat the SIG lab at LNU. This objective is achieved by creating an operation manual and avideo tutorial in this thesis.The integration and evaluation process will involve offline robot programming,simulation, and practical experiments on the 3D printing robotic cell.

3D printing

Robotic 3D printing

ABB Robotstudio

Robot simulation

Offline robot programming

3DP PowerPac

Robotics

Robotteknik och automation