1. Methodical procedures in solving design tasks - the role of the designer, setting requirements, effective design solutions, research work.
2. Variant design, teamwork and critical evaluation.
3. Technological design - requirements, main stages influencing the designer, product evaluation.
4. Design with regard to economics - labor and overhead costs, aspects of labor, machining, assembly, choice of type of semi-finished product, surface treatment, material and tolerance.
5. Design with regard to the technological design - forgings, castings and weldments. Rotating and non-rotating components.
6. Design with regard to manual assembly - efficiency and evaluation of assembly, rules for assembly. Influences on handling times (symmetry, thickness, weight), two-handed handling, gripping and inserting.
7. Methods of mounting bearings on shafts and in housings - rolling bearings, plain bearings, effects on shafts. Disassembly of bearings. Bearing failures.
8. Electric motors and their application - types, characteristics, suitability for use, design of drive motor, multi-motor drives.
9. Gearboxes and their application - types, suitability for use. Simple planetary gearbox, principle, conditions of functionality. Differential.
10. Shaft couplings and their application - types, use, design.
11. Parametric design of machine parts and mechanisms in CAD systems.
12. Use of design applications in the design of machine parts and mechanisms.
13. Use of additive technologies in the construction of simple machine parts.
14. Use of 3D scanning and processing of data files in construction.
2. Variant design, teamwork and critical evaluation.
3. Technological design - requirements, main stages influencing the designer, product evaluation.
4. Design with regard to economics - labor and overhead costs, aspects of labor, machining, assembly, choice of type of semi-finished product, surface treatment, material and tolerance.
5. Design with regard to the technological design - forgings, castings and weldments. Rotating and non-rotating components.
6. Design with regard to manual assembly - efficiency and evaluation of assembly, rules for assembly. Influences on handling times (symmetry, thickness, weight), two-handed handling, gripping and inserting.
7. Methods of mounting bearings on shafts and in housings - rolling bearings, plain bearings, effects on shafts. Disassembly of bearings. Bearing failures.
8. Electric motors and their application - types, characteristics, suitability for use, design of drive motor, multi-motor drives.
9. Gearboxes and their application - types, suitability for use. Simple planetary gearbox, principle, conditions of functionality. Differential.
10. Shaft couplings and their application - types, use, design.
11. Parametric design of machine parts and mechanisms in CAD systems.
12. Use of design applications in the design of machine parts and mechanisms.
13. Use of additive technologies in the construction of simple machine parts.
14. Use of 3D scanning and processing of data files in construction.