Course detail
Construction of Production Machines III
FSI-G2S Acad. year: 2021/2022 Winter semester
The course in Construction Of Production Machines III is focused on the presentation of the latest constructional trends in the field of machining and forming machines. Students are acquainted with principles of a design of production centres and integrated production divisions. The course also focuses on production machines for machining, metal forming. In the branch of forming machines it focuses on high press moulding of metals and extrusion thermoplastics, termosets and polymer matrix composites. It presents production machines for small-lot production technologies. Students will also learn of legal aspects of a constructional activity.
Supervisor
Learning outcomes of the course unit
Students will acquire sufficient knowledge of technological principles of machining, metal forming, extrusion, and forming of thermoplastics, termosets, ceramics and polymer composites. They will knows functional principles of basic representatives of production machines for these technologies. They will be able to analyse and use acquired information in the branch of design machines. They will be aware of legal aspects of constructional activity from the point of the patent law, national technical rules, safety requirements, ecology, quality management, the commercial law and other acts and rules relating to the production of machines in the framework of a legislation of the CR and EU.
Prerequisites
Students are assumed to have the knowledge of theory and technology of machining, forming, founding, welding, mounting and surface finish. They should know general basics of the construction of production machines, basic methods for computation parts and mechanisms of machine, pneumatic and hydraulic systems and basic application of servodrive and electromotors. They are supposed to know physical, static, kinematic and dynamic rules. Knowledge of stress analysis. Basic knowledge of mechanization and automation.
Planned learning activities and teaching methods
The course is taught through lectures explaining the basic principles and theory of the discipline.
Assesment methods and criteria linked to learning outcomes
The examination is written and oral. Students are examined from machine tools and from forming machines separately.
Each part of the examination is evaluated with the score.
Based on the total score, an ECTS grade is assigned to students.
At the beginning of the semester, the student or group of students is assigned to solve the problem. The student's solution is included in the joint assessment and is defended before the examiner on the exam day.
Language of instruction
Czech
Aims
The aim of the subject is to extend students knowledge of an issue of production machines building into a sufficient and logical framework. Students will master higher forms of engineering work in the field of machine design using modern computing methods. Regarding getting the latest knowledge from different technical branches students will be able to make a systematic search, critical evaluation and meaningful use.
Specification of controlled education, way of implementation and compensation for absences
The attendance at lectures is recommended.
The study programmes with the given course
Programme N-VSR-P: Production Machines, Systems and Robots, Master's
branch ---: no specialisation, 4 credits, compulsory
Type of course unit
Lecture
52 hours, optionally
Teacher / Lecturer
Syllabus
1. Power hammers. Essentials of single purpose machines.
2. Screw presses. Substructure of single purpose machines.
3. Mechanical presses – eccentric presses. Rotary circular tables.
4. Mechanical presses – crank, single- and multiple-point presses. Rotary annular tables.
5. Hydraulic presses. Tailstock sleeve working units.
6. Scrap processing equipment. Slide working units.
7. Open-die forging equipment. Units with operating tool heads.
8. Material cutting equipment. Tool system for single purpose machines.
9. Bending rolls. Hydraulic circuits and hydraulic control.
10. Rolling and straightening machines. Workpiece transport and workpiece manipulation.
11. Machines for unconventional technologies. Fine machine tools.
12. Accessories of forging machines. Automated production lines and systems.
13. Lines and in-process manipulation. Project structure of a single purpose machine.