| Course Unit Code | 342-0301/03 |
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| Number of ECTS Credits Allocated | 5 ECTS credits |
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| Type of Course Unit * | Compulsory |
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| Level of Course Unit * | First Cycle |
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| Year of Study * | Third Year |
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| Semester when the Course Unit is delivered | Winter Semester |
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| Mode of Delivery | Face-to-face |
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| Language of Instruction | Czech |
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| Prerequisites and Co-Requisites | Course succeeds to compulsory courses of previous semester |
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| Name of Lecturer(s) | Personal ID | Name |
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| BRA37 | doc. Ing. Robert Brázda, Ph.D. |
| Summary |
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There is a direct follow up on initial subjects and in applied mechanics
(statics, kinematics and dynamics). The aim of education is both to deepen the knowledge of
calculations and the approach to the construction of typical and special designs
conveyors such as belt, hrabicových, bucket, etc. It is in teaching
emphasis on the study of selected new structure or new types of
successful conveyors on the EU market meet demanding performance criteria
on operational efficiency, ecology, safety and ergonomics design. In
exercises is the preferred PC skills, self-prepared students
overall study of the selected search type conveyor mostly from the EU, including
patent rights and scientific publishing research. Students should obtain sufficient
information and habits for independent creative work with information in the field. The aim
course is to provide students enough information to select, design and
design of conveyors according to the principles of logistics.
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| Learning Outcomes of the Course Unit |
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| The aim of education is both to deepen the knowledge of computing and access to the construction of typical and special design conveyors such as belt, hrabicových, bucket, etc. Furthermore, the teaching emphasis on the study of selected new structure or new types of conveyors on the market success of the European Union meeting demanding criteria required for operational efficiency, ecology, safety and ergonomics design. The exercises are preferred PC skills, students produce a total self-reviewed studies of the selected type of conveyer most EU countries, including patent rights and publishing scientific research. Students should obtain sufficient |
| Course Contents |
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1. Conveyor distribution, selection criteria. Application of conveyors, economic advantage
2. Belt conveyor, transmission of power from the drive to the belt, coefficient of friction between the drum and the belt, possibilities of its increase
3. Single, double and multi-drum drives, partial drives
4. Construction of belt conveyor drive station, belt conveyor belt tension, selection criteria
5. Continuous modes of belt conveyor movement, acceleration, deceleration. Continuous modes of belt conveyor movement, longitudinal and transverse oscillation
6. Special belt conveyors with steel and wire belts. Sandwich conveyors, assembly belt conveyors, belt conveyor
7. Supporting conveyor belt construction, conveyor belt and its joining, conveyor belts
8. Chain conveyors, chain design, chain calculation, vibration, acceleration and deceleration
9. Articulated conveyor, cell construction, application. Conveyor conveyor, design solution, calculation, application. Redlery, construction, calculation of horizontal Adler
10. Redler application, vertical redler calculation, construction examples. Suspension conveyors, types of hinges, construction of the locomotive system
11. Calculation of suspension conveyors, arc, calculation, application. Calculation of typical gripping devices for suspension conveyors, calculation
12. Bucket elevators, driving and tensioning stations, vibration elimination - design means. Bucket elevators, bucket attachment to the carrier organ, types of hoisting organs, atypical bucket elevators
13. Bucket elevators, spill requirements, rating criteria, drive and tensioning stations. Typical deployment of bucket elevators, technological applications. Vibration conveyors, conveyor types, drive types, construction. Kinematics and dynamics of vibrational transport, basics of calculation
14. Worm conveyor, construction, typical applications, screw and screw conveyor, abrasion elimination measures. Worm conveyor, basic calculation. Roller gravity conveyor, track design, construction equipment construction, roller construction. Gravity gravity conveyor, basic calculation. Roller conveyor driven, design, typical conveyor application. Conveyor roller conveyor, basic calculation, principle of theory |
| Recommended or Required Reading |
|---|
| Required Reading: |
|---|
Jasaň, V.: Teória a stavba dopravníkov. Alfa Bratislava, skriptum.
Jasaň, V.: Teória dopravných a manipulačných zariadení. Alfa Bratislava,
skriptum.
Jasaň, V., Košábek, J.: Teória dopravných a manipulačných zariadení. Alfa
Bratislava.
Patrman, F.: Doprava v hutích. Ostrava, skriptum, 1978.
Polák, J., Pavliska, J., Slíva, A.: Dopravní a manipulační zařízení I. VŠB –
TUO, skriptum.
Polák, J., Bailotti, K., Pavliska, J., Hrabovský, L.: Dopravní a manipulační
zařízení II. VŠB – TUO, skriptum.
Pavliska, J., Hrabovský, L.: Dopravní a manipulační zařízení IV. VŠB – TUO,
skriptum.
Hrabovský, L.: Strmá a svislá doprava pásovými dopravníky I., II., VŠB-TUO,
Ostrava
Časopisy – Schüttgut, Bulk-Solids-Handling, Powder handling and Processing,
Logistika a další. |
Jasaň, V.: Teória a stavba dopravníkov. Alfa Bratislava, skriptum.
Jasaň, V.: Teória dopravných a manipulačných zariadení. Alfa Bratislava,
skriptum.
Jasaň, V., Košábek, J.: Teória dopravných a manipulačných zariadení. Alfa
Bratislava.
Patrman, F.: Doprava v hutích. Ostrava, skriptum, 1978.
Polák, J., Pavliska, J., Slíva, A.: Dopravní a manipulační zařízení I. VŠB –
TUO, skriptum.
Polák, J., Bailotti, K., Pavliska, J., Hrabovský, L.: Dopravní a manipulační
zařízení II. VŠB – TUO, skriptum.
Pavliska, J., Hrabovský, L.: Dopravní a manipulační zařízení IV. VŠB – TUO,
skriptum.
Hrabovský, L.: Strmá a svislá doprava pásovými dopravníky I., II., VŠB-TUO,
Ostrava
Časopisy – Schüttgut, Bulk-Solids-Handling, Powder handling and Processing,
Logistika a další. |
| Recommended Reading: |
|---|
Jasaň, V.: Teória a stavba dopravníkov. Alfa Bratislava, skriptum.
Jasaň, V.: Teória dopravných a manipulačných zariadení. Alfa Bratislava,
skriptum.
Jasaň, V., Košábek, J.: Teória dopravných a manipulačných zariadení. Alfa
Bratislava.
Patrman, F.: Doprava v hutích. Ostrava, skriptum, 1978.
Polák, J., Pavliska, J., Slíva, A.: Dopravní a manipulační zařízení I. VŠB –
TUO, skriptum.
Polák, J., Bailotti, K., Pavliska, J., Hrabovský, L.: Dopravní a manipulační
zařízení II. VŠB – TUO, skriptum.
Pavliska, J., Hrabovský, L.: Dopravní a manipulační zařízení IV. VŠB – TUO,
skriptum.
Hrabovský, L.: Strmá a svislá doprava pásovými dopravníky I., II., VŠB-TUO,
Ostrava
Časopisy – Schüttgut, Bulk-Solids-Handling, Powder handling and Processing,
Logistika a další. |
Jasaň, V.: Teória a stavba dopravníkov. Alfa Bratislava, skriptum.
Jasaň, V.: Teória dopravných a manipulačných zariadení. Alfa Bratislava,
skriptum.
Jasaň, V., Košábek, J.: Teória dopravných a manipulačných zariadení. Alfa
Bratislava.
Patrman, F.: Doprava v hutích. Ostrava, skriptum, 1978.
Polák, J., Pavliska, J., Slíva, A.: Dopravní a manipulační zařízení I. VŠB –
TUO, skriptum.
Polák, J., Bailotti, K., Pavliska, J., Hrabovský, L.: Dopravní a manipulační
zařízení II. VŠB – TUO, skriptum.
Pavliska, J., Hrabovský, L.: Dopravní a manipulační zařízení IV. VŠB – TUO,
skriptum.
Hrabovský, L.: Strmá a svislá doprava pásovými dopravníky I., II., VŠB-TUO,
Ostrava
Časopisy – Schüttgut, Bulk-Solids-Handling, Powder handling and Processing,
Logistika a další. |
| Planned learning activities and teaching methods |
|---|
| Lectures, Individual consultations, Tutorials, Project work |
| Assesment methods and criteria |
|---|
| Task Title | Task Type | Maximum Number of Points
(Act. for Subtasks) | Minimum Number of Points for Task Passing |
|---|
| Exercises evaluation and Examination | Credit and Examination | 100 (100) | 51 |
| Exercises evaluation | Credit | 35 | 18 |
| Examination | Examination | 65 | 16 |