The aims are to acquaint students with the environment where production, technological and metalworking processes take place. Students of production engineering will acquire knowledge in the domain of production systems (machine systems, industrial robots, tools and tooling and measuring equipment), production and information technologies, storage of equipment, primary materials, organizational structure of some producing enterprises (visit to enterprises). Students gain experience in the domain of manufacturing technologies, machine tools, industrial robots, manufacturing automation, and use of computers in design, production and information-communication technologies.
Having successfully completed Skill Praxis, the student should gain practical knowledge of production technologies, machine tools, industrial robots, manufacturing automation, computer use in machine design, manufacturing and information-communication technologies.
AN-1: Role and importance of skill praxis. (What a production engineer should know.); AN-2: Programs of engineering measurement and measuring techniques; AN-3: Lathe and bore machining; AN-4: Milling and grinding machining; AN-5: Press machining; AN-6: Robotics and automation in manufacturing; AN-7: Design of technological process and drawing up of technical-technological documentation; AN-8: Enterprise spatial plan, function of enterprise development, and supervision of storage and warehouse; AN-9: Screening of production plant, material flow and machine layout; AN-10: Assembly technology and system of quality; AN-11: Organizational scheme of enterprise with its plants and enterprise information system.
PL-1: Getting acquainted with work space and rules related to work place and use of laboratory. PL-2: Measurement of length, angles, roughness, and getting familiar with standards for machining quality notation; PL-3: Practical realization of lathe and bore machining; PL-4: Practical realization of milling and grinding machining; PL-5: Practical realization of press machining; PL-6: Practical realization of the application of robotics and manufacturing automation systems; PL-7: Getting familiar with the contents of technical-technological documentation; PL-8: A visit to a producing enterprise, so that students are acquainted with spatial plan, development function and warehouse operating process. PL-9: A visit to a producing enterprise, so that students get acquainted with machine layout in its plants and material transport flow; PL-10: Getting acquainted with assembly procedures in complex products and quality control systems; PL-11: Getting acquainted with functions of producing enterprise and developed information systems.
[1] Handouts (pdf files). 18.6 [2] Laboratory equipment (tools and machines) at the Institute for machine tools. 18.12 [3] Laboratory experimental equipment (LEE) at the Institute for machine tools. 18. 12 [4] SAx software workstation (CAD, CAM, CAE, CAPP,…) (CAX) (18.13)