Objective
Student familiarisation with mechanical and electrical systems of different machine tools and industrial (and non-industrial) automation manufacturing equipment.
Specific objectives
Description of standardized symbols for structural and operating diagrams of machinery and manufacturing equipment;
Elaboration and use of diagrams, structural and functional diagrams, graphical representations and technical documents specific to the Manufacturing Equipment field;
Elaboration of kinematic schemes for various machinery and manufacturing equipment;
Familiarising students with conventional unconventional machine tools, and CNC machine structure;
Familiarising students with the logistics systems specific to industrial production facilities
Elaboration of technical and technological projects for the execution of components of machinery and manufacturing equipment;
The competences developed in this course will be required by engineers involved in the integration of equipment and devices in various automated processes and industrial robotic solutions in the context of Smart Factory. Also the course deals with issues related to IoT (Internet of Things), and IIoRT (Internet of Robotic Things) in the context of Industry 4.0.
Note: To open the courses note files (*.pdf) you need a PASSWORD which you will receive at the first course!
MTMEL - Module 1
1. MTMEL - Lecture #1
2. MTMEL - Lecture #2
3. MTMEL - Lecture #3
4. MTMEL - Lecture #4
5. MTMEL - Lecture #5
MTMEL - Module 2
1. MTMEL - Lecture #6
2. MTMEL - Lecture #7
3. MTMEL - Lecture #8
4. MTMEL - Lecture #9
5. MTMEL - Lecture #10
MTMEL - Module 3
1. MTMEL - Lecture #11
2. MTMEL - Lecture #12
3. MTMEL - Lecture #13
4. MTMEL - Lecture #14
Courses updated on :: 07.01.2025
Nota: Pentru a deschide fișierele note de curs (*.pdf) aveți nevoie de o parolă pe care o veți primi la primul curs!
MU&EF - Modul 3
MU&EF-Curs #13
MU&EF-Curs #14
MU&EF-Curs #15
MU&EF-Curs #16
MU&EF-Curs #17
Cursuri actualizate la data de :: 30.09.2024
Mocan, B., Machine-Tools, Manufacturing Equipment and Logistics, course notes.
P. H. Joshi, Machine Tools Handbook, McGraw Hill Professional, 2007
Mocan, B., Brad, S., Fulea, M., Murar, M., Brad, E., Safety Management Within a Robotic Manufacturing System Through Layout Design, Acta Technica Napocensis, Series: Applied Mathematics, Mechanics and Engineering, Vol 61, No 3 Special Issue (September 2018), pp. 137-146, 2018.
Mocan, B., Fulea, M., Olaru, M. and Buchmüller, M., From Intuitive Programming of Robotic Systems to Business Sustainability of Manufacturing SMEs. Amfiteatru Economic, 18(41), pp. 215-231, (IF 0,564), 2016.
Mocan, B., Fulea, M., Brad, E. and Brad, S., State-of-the-Art and Proposals on Reducing Energy Consumption in the Case of Industrial Robotic Systems, Proceedings of the 2014 International Conference on Production Research – Regional Conference Africa, Europe and the Middle East; 3rd International Conference on Quality and Innovation in Engineering and Management, Cluj-Napoca, Romania, 1-5 July, ISBN: 978-973-662-978-5, pp. 328-334, 2014.
Mocan, B., Fulea, M., Brad, S., Reliability Assessment of Lean Manufacturing Systems, Proceedings of The 1st International Conference on Quality and Innovation in Engineering and Management , ISBN 978-973-662-614-2, pp. 127-130, 2011.
Mobile apps - Google Android: Industrial Automation Tutorial; Industrial Automation; Electrical Drives; Automation & Controls Today; Learn PLC SCADA
Youtube: The Robot Revolution: The New Age of Manufacturing; How industrial robot is made? ; Smart Factory; Internet of Things; IORT Internet of robotic things;
Robotic Blogs: Robotics Trends; Robot Facts That Everyone Should Know; Robotics within reach; Robotic News for the Factory; Smart Collaborative Robots; Powering the world's robots; Robotics; MIT Technology Review;