Theory: 67 %

Practice: 33 %

Recommended semester: 6

Study mode: full-time

Prerequisites:

Evaluation type: signature

Course category:

Language: english

Responsible instructor: Dr. Kovács Zsolt Ferenc

Instructor(s): Dr. Kovács Zsolt Ferenc , Sándor Roland

Course objectives:
The aim of the course Assembly is to acquisition of knowledge for the students the related to mechanical engineering technologies, assembly planning and organization, and on-site constructions.

Course content - lectures:

Concept and object of assembly Mounted joints, assembly tools Product segmentation, assembly family tree Mounting size chains On-site constructions Mounting systems

Course content - labs:

Acquired competences:
Knowledge:

- Have a comprehensive knowledge of the basic facts, directions and limits of the subject area of engineering. - Knowledge of the general and specific mechanical principles, rules, contexts and procedures necessary for the operation of the field of engineering. - Knowledge of the terminology, the most important relationships and theories related to the field. - Comprehensive knowledge of the main theories and problem-solving methods in the field.

Skills:

- Choosing the right assembly joint and assembly tool tool - Compiling the assembly family tree and technology sequenceSolving assembly size chainsChoosing the assembly location constructionChoosing the assembly system

Attitude:

- He/She is open to learning about, adopting and authentically communicating professional, technological development and innovation in the field of engineering. - He/She strives to make self-learning a means to achieve its professional goals. - Strives to solve problems, preferably in cooperation with others. - He/she shall strive to make his/her self-learning in mechanical engineering continuous and consistent with his/her professional goals. - He/she strives to solve problems and make management decisions by listening to the opinions of his/her colleagues, preferably in cooperation. - Have the stamina and tolerance of monotony required to carry out practical activities.

Autonomy and responsibilities:

- In unexpected decision situations, he/she independently thinks through and develops comprehensive, substantiating professional questions on the basis of given sources. - Responsibly upholds and represents the values of the engineering profession and is open to professionally informed critical comment. - In the performance of his/her professional duties, he/she will cooperate with qualified professionals from other disciplines (primarily technical, economic and legal). - Identify shortcomings in the technologies used, process risks and take the initiative to mitigate them. - He/she is responsible for the consequences of his/her technical analyses, the proposals he/she makes and the decisions he/she takes.

Additional professional competences:

Requirements, evaluation, grading:
Mid-term study requirements:
During the semester, one paper will be written, which can be corrected or made up once. A satisfactory result for the exam is a prerequisite for obtaining at least 50% performance and active participation in practical classes. The exam consists of a written part (60 minutes) followed by an oral part.
Exam requirements:

Study aids, laboratory background:

M. Kathiresh, R. Neelaveni (2021): Automotive Embedded Systems, Key Technologies, Innovations, and Applications, ISBN: 978-3-030-59897-6

Compulsory readings:

Koichi Shimokawa, Ulrich Jürgens, Takahiro Fujimoto (1997): Transforming Automobile Assembly, Experience in Automation and Work Organization, ISBN: 978-3-642-60374-7

Recommended readings:

Károly Jármai, Betti Bolló: Vehicle and Automotive Engineering, Proceedings of the JK2016, Miskolc, Hungary, ISBN: 978-3-319-51189-4