Czech

2

Ing. Milan Omasta, Ph.D.

Institute of Machine and Industrial Design

Knowledge:

• materials science (choice of materials),
• statics (load analysis),
• elasticity and strength (stress and strain analysis),
• basics of design (creation of drawing documentation),
• design of machine parts (bearings, joints).

The course is classified with course-unit credit. The condition for obtaining it is more than 60% attendance at lectures. In the case of a collision with the class schedule or in other justified cases, the lectures can be taken as online streams.

Lectures: attendance at lectures is mandatory and controlled by the lecturer. In case of long-term absence, the replacement of missed classes is the responsibility of the course supervisor.

Graduates will be able to analyze and design basic machine components used to transmit power and rotary motion, such as gears, shaft clutches, brakes and flywheels.

• Knowledge of the principle and use of basic transmission mechanisms.
• Ability to solve computational problems related to transmission mechanisms design.
• Ability to apply the acquired knowledge in the design of new machines and devices.

Programme B-MET-P: Mechatronics, Bachelor's, elective

Programme B-PDS-P: Industrial Design, Bachelor's, elective

Programme B-ZSI-P: Fundamentals of Mechanical Engineering, Bachelor's
specialization STI: Fundamentals of Mechanical Engineering, elective

26 hours, optionally

• Introduction to gears. Analysis of semester project assignments.


• Fundamentals of the theory of spur gears. Manufacturing and standardization of gears.


• Straight and helical spur gears. Gear mechanisms.


• Failures of gears. Lubrication of gears. Calculation of bending stress in the tooth root. Calculation of contact stress.


• Strength analysis of straight and helical spur gears.


• Bevel gears.


• Worm gears.


• Belt drives. Synchronous belt drives.


• Chain drives. Flexible shafts.


• Rope drives. Friction drives.


• Shaft couplings and brakes.


• Flywheels.