Course title, code: Computer-integrated Manufacturing, GAGEBAN-SZAMINGY-1
The basics of CNC programming: interpolators, the principles of two-axis path control, and numerical control methods. Classification of coordinate systems and their assignment to machines. Application of turning and milling cycles, drilling cycles, and transformations.
The aim of the course is to master the basics of CNC programming. Students will become familiar with the principles of interpolators and two-axis path control, as well as various numerical control methods. The course will also cover the classification of coordinate systems and their assignment to machines. Additionally, the curriculum includes the application of turning and milling cycles, drilling cycles, and various transformations, all of which are necessary for effective CNC programming and machining.
Course content - labs:
Knowledge:
Students will acquire the basics of CNC programming, including the principles of interpolators and two-axis path control, as well as various numerical control methods. They will become familiar with the classification of coordinate systems and their assignment to machines. They will gain detailed knowledge on the application of turning and milling cycles, drilling cycles, and transformations.
Students will be capable of programming and operating CNC machines, with particular emphasis on two-axis path control. They will be able to correctly apply and assign coordinate systems to machines. By using turning and milling cycles, as well as drilling cycles and transformations, they will effectively optimize manufacturing processes.
Students are committed to precise and accurate work, and are open to learning new technologies and methods in the field of CNC programming. They willingly collaborate with their peers and actively participate in group tasks. They approach their tasks responsibly and pay great attention to adhering to safety regulations in the workshop.
Students will be able to independently program and maintain CNC machines, as well as solve technical problems that arise. They will be responsible for correctly creating and properly applying programs. They will ensure the quality and efficiency of manufacturing processes, adhere to safety regulations, and look out for the safety of their peers in the workshop. They will seek assistance and consult on professional issues when necessary.
Mid-term study requirements:
The mid-term exam is mandatory. There is one opportunity for retake during the term. The duration of the exam is 60 minutes, with a maximum score of 100 points. The grading scale is as follows: sufficient - 50 points, satisfactory - 61 points, good - 76 points, and excellent - 86 points. The exam includes both CNC programming and theoretical questions. The practical grade is determined based on the mid-term exam; however, students who have not had their programming assignments accepted by the end of the term cannot receive a valid practical grade. During the semester, two programming assignments must be completed (lathe and milling programming). Assignments must be submitted in person to the instructors, and students must answer questions related to the completion of the assignments.
Exam requirements:
The computer simulation program for NCT controls. Description of programming and operation for NCT lathe and milling controls. It can be downloaded from the department's server.
Dr. Boza Pál: CNC-TECHNOLÓGIA és -PROGRAMOZÁS, Jegyzet 2008. H-379.Dr. Boza Pál, Burunyi Pál: CNC Forgácsolás 1 CNC Programszerkesztés, CNC Forgácsolás 2 CNC Gépkezelés. Tankönyv, NSZFI 2007. Budapest. (ISBN 978 96 3746 967-1 ö).Dr. Boza Pál, Dr. Pintér József: Digitális Tankönyvtár http://www.tankonyvtar.hu (Gyártásautomatizálás)
Michael Fitzpatrick: Machining and CNC Technology, 2005 by the Mc.Graw. Hill (Higher Education). Dr. Mátyási Gyula: CNC technológia és programozás.