Course detail

Industrial Robots and Manipulators I

FSI-GPZ-KAcad. year: 2025/2026

The course contains the lectures concemed with the design of industrial robots and manipulators. With this aim, the economic relationship between the production, prices of production machines and effective manipulation is analysed, and industrial robots are defined. On the basis of a system approach, their basic subsystems are analysed, and an actuation system of industrial robots is highlighted. In view of this, a kinematic chain of industrial robots and manipulators is studied, and on the basis of the theory of combinatorial algorithms, a positioning system of PRaM is described in a greater detail. Further, basic and derived types of industrial robots and manipulators are defined and presented. Orientation system of PRaM, design of translatory and rotary units, drives and gearboxes in the design of PRaM, and some other design solutions to PRaM are studied in a greater detail. The lectures include the issue of kinematic and dynamic analysis of robots. Tutorials are focused on practical demonstrations of industrial robots and their programming.

Language of instruction

Czech

Number of ECTS credits

4

Mode of study

Not applicable.

Entry knowledge

Through and detailed knowledge of the mechanisms and parts of the machines, their design and calculation.

Rules for evaluation and completion of the course

Conditions for awarding the cource-unit credit:
1.Attendance at obligatory tutorials (100 %).
2.Fulfilling conditions of systematic checkups (preparation for tutorials, active participation in tutorials); this will be specified at the beginning of the semester in the respective tutorial.
3.Corrected and agreed up end-of-semester project from the laboratory tutorial if needed.


Attendance at the exercises is checked. Absence may be in justified cases compesated for via special make-up work. Change in covid-19 containments reserved.

Aims

The aim of the course Industrial Robots and Manipulators II is to make students familiar with the basics of uptodate technical robotics. The task is to provide the students with the necessary interconnection between the findings from the areas of designing, projection, control, and application of PRaM that are the grounds for their future working activities as designers of robots and manipulators, or if appropriate designers of robotized workplaces.


The course enables the students to acquire the latest finding from design, projection and possible use of stationary industrial robots and manipulators in industrial practice and also to enlarge the scope of programming skills. The emphasis is also laid on the practical skills of students developed in laboratories from robotics branch.

Study aids

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

Buda, J. - Kováč, M.: Priemyselné roboty, , 0
Industrieroboter: Industrieroboter, , 0
Warnecke, H.J.- Schraft, R.D.: Industrieroboter, , 0

Recommended reading

Chvála,B.- Matička,R.- Talácko,J.: Průmyslové roboty a manipulátory, , 0
Kolíbal, Z.: Průmyslové roboty I.-Konstrukce průmyslových robotů a manipulátorů , , 0
Matička,R.- Talácko,J.: Mechanismy manipulátorů a průmyslových robotů, , 0

Classification of course in study plans

  • Programme N-VSR-K Master's 1 year of study, winter semester, compulsory

Type of course unit

 

Guided consultation in combined form of studies

9 hod., compulsory

Teacher / Lecturer

Syllabus

1. Introduction to problems, development from mechanization and automation systems to industrial robots, economics of industrial robots deployment
2. Industrial robots in production machines, definition, robot generation, robot system concept, robot action, sensing and control systems
3. Aspects for robot assessment, basic concepts for control and programming of industrial robots. Industrial robot action system.
4. Kinematic pairs in the PRaM construct, basic kinematic chain (positioning and orientation), kinematic pair arrangement and their combinatorial algorithms
5. Basic and derived types of industrial robots
6. Industrial Robots Orientation - Principles and Concepts of Construction
7. Basic building blocks (units) of industrial robots. Drives and gears in the construction of industrial robots
8. Design of drives of basic types of industrial robots
9. Mechanics of manipulation devices - fundamentals of kinematics and dynamics of spatial mechanisms
10. The direct and indirect role of kinematics
11. The direct and indirect role of dynamics - Part 1.
12. The direct and indirect role of dynamics - Part 2.
13. Industrial Robots with Parallel Kinematics

Laboratory exercise

9 hod., compulsory

Teacher / Lecturer

Syllabus

The one-hour exercises are joined in to the six two-hour blocks and one hour for the course-unit credit:
1. Introduction to industrial robots at the institute laboratory
2. Foundamentalss of the programming motions and activities of robots and manipulators
3. Programmig industrial robots workplace with robot PROB-20
4. Programmig and measurement correction of the industrial robot SPR-10
5. Programmig and measurement correction of the industrial robot APR-20
6. Programmig and measurement correction of the industrial robot IRB 4400/60
7. Course-unit credit

Guided consultation

34 hod., optionally

Teacher / Lecturer

Syllabus

1. Introduction to problems, development from mechanization and automation systems to industrial robots, economics of industrial robots deployment
2. Industrial robots in production machines, definition, robot generation, robot system concept, robot action, sensing and control systems
3. Aspects for robot assessment, basic concepts for control and programming of industrial robots. Industrial robot action system.
4. Kinematic pairs in the PRaM construct, basic kinematic chain (positioning and orientation), kinematic pair arrangement and their combinatorial algorithms
5. Basic and derived types of industrial robots
6. Industrial Robots Orientation - Principles and Concepts of Construction
7. Basic building blocks (units) of industrial robots. Drives and gears in the construction of industrial robots
8. Design of drives of basic types of industrial robots
9. Mechanics of manipulation devices - fundamentals of kinematics and dynamics of spatial mechanisms
10. The direct and indirect role of kinematics
11. The direct and indirect role of dynamics - Part 1.
12. The direct and indirect role of dynamics - Part 2.
13. Industrial Robots with Parallel Kinematics