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Course info
KTO / PNCSA
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Course description
Department/Unit / Abbreviation
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KTO
/
PNCSA
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Academic Year
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2023/2024
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Academic Year
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2023/2024
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Title
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NC-Machine Tool Programming
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Form of course completion
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Exam
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Form of course completion
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Exam
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Accredited / Credits
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Yes,
6
Cred.
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Type of completion
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Combined
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Type of completion
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Combined
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Time requirements
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Lecture
3
[Hours/Week]
Tutorial
3
[Hours/Week]
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Course credit prior to examination
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Yes
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Course credit prior to examination
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Yes
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Included in study average
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YES
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Language of instruction
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English
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Occ/max
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Automatic acceptance of credit before examination
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Yes in the case of a previous evaluation 4 nebo nic.
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Summer semester
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0 / -
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0 / -
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0 / -
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Included in study average
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YES
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Winter semester
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0 / -
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0 / -
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4 / -
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Repeated registration
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NO
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Repeated registration
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NO
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Timetable
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Yes
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Semester taught
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Winter semester
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Semester taught
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Winter semester
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Minimum (B + C) students
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10
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Optional course |
Yes
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Optional course
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Yes
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Language of instruction
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English
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Internship duration
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0
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No. of hours of on-premise lessons |
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Evaluation scale |
1|2|3|4 |
Periodicity |
každý rok
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Evaluation scale for credit before examination |
S|N |
Periodicita upřesnění |
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Fundamental theoretical course |
No
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Fundamental course |
Yes
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Fundamental theoretical course |
No
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Evaluation scale |
1|2|3|4 |
Evaluation scale for credit before examination |
S|N |
Substituted course
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None
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Preclusive courses
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KTO/PNCS
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Prerequisite courses
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N/A
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Informally recommended courses
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KTO/AVP
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Courses depending on this Course
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N/A
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Histogram of students' grades over the years:
Graphic PNG
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XLS
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Course objectives:
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To understand the systems for programming NC machine tools, know how to use CAM systems to create NC programs, to become acquainted with the possibilities of using cycles, subroutines and parametric programming.
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Requirements on student
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Class credit:
Processing and defence of a semester work
Time limit for submission: before 15.1. of actual academic year
Examination:
Practical part - processing of a NC program of a given part
Oral part - 2 questions
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Content
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1. Control system SINUMERIK 810T/M description. NC programming. Demonstration of NC program use at education lathe EMCO PC TURN 120
2. Description and demonstration of NC program use at education milling machine EMCO PC MILL 100
3. KOVOPROG, partprogram framework, geometry - semestral task engage
4. demonstration of partprogram design - language Kovoprog, basic regime operations
5. SolidCAM, modeling, import of graphics data from another system, NC technology design, postprocessors
6.CAD/CAM system SolidCAM -basic information, operations, demonstration of modeling, NC, simulation and NC technology design.
7. Separate work by semestral task solving
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Activities
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Fields of study
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viz PORTÁL ZČU - Courseware
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Guarantors and lecturers
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Literature
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Basic:
Lynch, M. Computer Numerical Control, Advanced Techniques. McGraw-Hill, Inc.New York St. Luis, 1992. ISBN 0-07-039224-2.
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Recommended:
AlphaCAM ? Reference Manual.
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Recommended:
ASM Handbook, Vol. 16: Machining. Ohio, 1999. ISBN 0871700077.
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Recommended:
CATIA ? Reference Manual.
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Recommended:
JANDEČKA, K. Error Size of the Helix (screw) Groove by Grinding. Springdale Lane, Millersville, U.S.A., 2012. ISBN 978-3-03785-297-2.
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Recommended:
Náprstková, Nataša; Jandečka, Karel. Programování výrobních strojů. 1. vyd. Ústí nad Labem : Univerzita J.E. Purkyně v Ústí nad Labem, 2010. ISBN 978-80-7414-216-1.
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On-line library catalogues
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Time requirements
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All forms of study
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Activities
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Time requirements for activity [h]
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Contact hours
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26
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Graduate study programme term essay (40-50)
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40
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Preparation for an examination (30-60)
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40
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Practical training (number of hours)
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39
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Total
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145
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Prerequisites
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Knowledge - students are expected to possess the following knowledge before the course commences to finish it successfully: |
to explain the concepts of engineering technology, especially machining technology |
to explain terms from analytical geometry |
to explain the basic principles of manual NC programming |
To understand the systems for programming NC machine tools, know how to use CAM systems to create NC programs, to become acquainted with the possibilities of using cycles, subroutines and parametric programming. |
Skills - students are expected to possess the following skills before the course commences to finish it successfully: |
to apply the knowledge of mathematics, especially in the field of analytical geometry
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to compile a simple NC program in ISO code |
to set up the manufacturing process |
Competences - students are expected to possess the following competences before the course commences to finish it successfully: |
N/A |
to use practically knowledge from the field of analytical geometry
to create NC programs for simple parts |
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Learning outcomes
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Knowledge - knowledge resulting from the course: |
to clarify the possibilities of building the NC program manually, with the help of workshop programming systems and / or automatically |
to explain basic machining strategies of NC machining |
to explain the meaning of cycles and parametric programming |
Skills - skills resulting from the course: |
to compile the NC program manually, with the help of workshop programming or automatically with PC support |
to compile a NC program using cycles and parameterization |
to use NC machining strategies in CAM systems |
Competences - competences resulting from the course: |
N/A |
N/A |
use modern CAD / CAM systems
create NC programs for complex parts |
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Assessment methods
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Knowledge - knowledge achieved by taking this course are verified by the following means: |
Seminar work |
Practical exam |
create a machining strategy
explain the selected machining strategy |
Skills - skills achieved by taking this course are verified by the following means: |
Seminar work |
Practical exam |
program the proposed strategy in the CAM system
generate NC programs and setup sheet |
Competences - competence achieved by taking this course are verified by the following means: |
Seminar work |
Practical exam |
to suggest machining technology in general for complex parts |
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Teaching methods
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Knowledge - the following training methods are used to achieve the required knowledge: |
Lecture |
Practicum |
Multimedia supported teaching |
Task-based study method |
Project-based instruction |
General description of technology creation for NC machines |
Skills - the following training methods are used to achieve the required skills: |
Individual study |
One-to-One tutorial |
Task-based study method |
Multimedia supported teaching |
Project-based instruction |
Practicing the creation of NC programs on specified components |
Competences - the following training methods are used to achieve the required competences: |
Practicum |
Lecture |
Project-based instruction |
Task-based study method |
Multimedia supported teaching |
Elaboration of individual projects - technology design |
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