Technical Drawing and CADLaajuus (5 cr)
Code: TE00CG88
Credits
5 op
Teaching language
- Finnish
Responsible person
- Antti Henell
Objective
Skills in technical drawing and CAD design provide the ability to transfer design product information and manufacturing technical knowledge digitally in various fields of technology. Mastering CAD design and knowing the markings on drawings are the foundation for an engineer’s day-to-day performance of work tasks.Digityalization is very important subject.
You will learn to draw different projections of a part by hand and with the help of a computer, as well as different sectional views. You will learn to make standard drawing markings on drawings, such as dimensions, surface markings, welding markings, and various tolerances.
In addition, you will learn to understand the importance of item and product information management. Your skills will develop from an understanding of basic concepts to applied technical drawing tasks.
Knowledge and understanding:
You have an understanding of the importance of technical drawing in preparing unambiguous documents for design, production and sales.
Engineering practice:
You can read ready-made drawings and make unambiguous working drawings of machine parts or other products. You control a CAD system that allows you to produce working and assembly drawings. You will understand the importance of product management and revision in design.
Multidisciplinary competences:
After the course you will be able to attach pictures and technical documents to your assignments and theses. You will have the necessary knowledge and skills to start working in ancillary design tasks.
Content
Basics of technical drawing: drawings and scales, projections, line types, dimensioning, surface marks, welding marks, fittings and geometric tolerances.
CAD software: Drawing parts both manually and with the help of a computer. Computer-aided modeling of individual parts and assemblies.
Qualifications
No prior knowledge required.
Assessment criteria, satisfactory (1)
The overall assessment consists of 60% of the exam and 40% of the learning assignments. To receive a numerical grade, a student must take a supervised exam. The examinations are held three times a year in accordance with the degree rule. If a remote exam is arranged, the student must have a printer and scanner available. Photo submissions are not accepted.
Adequate (1): You are familiar with technical drawing terminology and drawing symbols. You can produce drawings by copying annotations from finished drawings, but you have difficulties interpreting the annotations and lacks in putting them into practice.
Satisfactory (2): You are familiar with technical drawing terminology and drawing symbols. You are able to produce drawings independently, but you have lacks in the practical application of technical drawing standards.
Assessment criteria, good (3)
Good (3): You are familiar with the drawing symbols of technical drawing and know how to apply them in practice. You can take advantages of the features of CAD programs and produce drawings in accordance with standards. In addition, you understand the importance of project scheduling and product management in planning.
Very good (4): You are familiar with the drawing symbols of technical drawing and are able to apply them comprehensively in practice. You can make extensive use of the features of CAD programs and produce drawings in accordance with standards. The drawings may have some minor flaws or slightly misinterpretation possibilities. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Assessment criteria, excellent (5)
Excellent (5): You know the drawing symbols of technical drawing and know how to apply them professionally in practice. You can make extensive use of the features of CAD programs and produce standard drawings with correct symbols. You also have a versatile control over the use of the ISO tolerance system and geometric product specification in machine drawing. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Assessment criteria, approved/failed
You have completed all the assignments and received 50% of the points from the exam.
Further information
Studies are offered in parts of one credit point through the open university of applied sciences also as a review for engineers who have already graduated and through CampusOnline for students from other polytechnics. The course can be offered outside of degree programs without a supervised exam with passed-failed assessment.
Enrollment
01.11.2024 - 09.01.2025
Timing
13.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 30
Degree programmes
- Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
- Sami Koponen
Groups
-
TER24S1Energia- ja ympäristötekniikka (AMK)
-
ZJATER24S1Avoin amk, Energia- ja ympäristötekniikka , päivä
Objectives
Skills in technical drawing and CAD design provide the ability to transfer design product information and manufacturing technical knowledge digitally in various fields of technology. Mastering CAD design and knowing the markings on drawings are the foundation for an engineer’s day-to-day performance of work tasks.Digityalization is very important subject.
You will learn to draw different projections of a part by hand and with the help of a computer, as well as different sectional views. You will learn to make standard drawing markings on drawings, such as dimensions, surface markings, welding markings, and various tolerances.
In addition, you will learn to understand the importance of item and product information management. Your skills will develop from an understanding of basic concepts to applied technical drawing tasks.
Knowledge and understanding:
You have an understanding of the importance of technical drawing in preparing unambiguous documents for design, production and sales.
Engineering practice:
You can read ready-made drawings and make unambiguous working drawings of machine parts or other products. You control a CAD system that allows you to produce working and assembly drawings. You will understand the importance of product management and revision in design.
Multidisciplinary competences:
After the course you will be able to attach pictures and technical documents to your assignments and theses. You will have the necessary knowledge and skills to start working in ancillary design tasks.
Content
Basics of technical drawing: drawings and scales, projections, line types, dimensioning, surface marks, welding marks, fittings and geometric tolerances.
CAD software: Drawing parts both manually and with the help of a computer. Computer-aided modeling of individual parts and assemblies.
Learning materials and recommended literature
Lecture material
Tekniikan taulukkokirja, Valtanen E, Genesis-kirjat Mikkeli, 22 painos 2019. ISBN 978-952-9867-42-4 Koneenpiirustus 1 & 2, Pere A, Kirpe Oy, Helsinki, 2021. ISBN 978-952-67419-3-2
or newer.
Teaching methods
Lectures, Video lectures and learning tasks and exercises based on problem-based learning, which introduce the various aspects of technical drawing.
Free-form anonymous feedback is collected in the middle of the course.
The implementation of the course is based on classroom-based contact teaching. About eight main areas of technical drawing are covered in the contact courses. About half of the contact course is theory lectures and half is learning practical drawing/modelling with CAD software. The subjects are familiarized with the written lecture material and the course book. During the study period, students do 6 evaluable learning assignments. In addition, self-directed practice can be done with additional tasks in Moodle. In addition, the part of the study unit related to product information management is done as group work in groups of about four students independently and returned to Moodle.
The responsible and transparent use of AI applications is encouraged in this course. Instructions for using artificial intelligence can be found in chapter 3.2 (https://help.jamk.fi/raportointiohje/fi/3-kirjoittamisprosessi/tekoalyn-kaytto-oppimistehtavissa-ja-opinnaytetyossa/) of the thesis reporting instructions. If necessary, the instructions for each learning assignment contain more detailed information on how to use it in that particular task.
If the student has not been present at the first contact class, and does not return the first learning task with the group within the deadline, he/she will be removed from the course, and after that he/she can no longer participate in this implementation of the course.
There is an 80% attendance requirement for contact classes in the course.
Practical training and working life connections
If possible, a representative of the manufacturing industry will give a visiting lecture during the study period.
Exam dates and retake possibilities
Exam on week number 15. The final exam is so-called near-term exam that is carried out in class.. Two re-exams, the first in May 2025 and the second in September 2025.
Alternative completion methods
The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study.
Student workload
Lectures 50 h
Learning assignments 35 h
Independent work 60 h
A total of 135 h
Content scheduling
Contact classes are implemented according to a separate implementation-specific course plan, which is published in Moodle.
Further information for students
Continuous developmental feedback is given in the learning tasks.
Assessment consists of exam 57% and learning assignments 43%.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
The overall assessment consists of 60% of the exam and 40% of the learning assignments. To receive a numerical grade, a student must take a supervised exam. The examinations are held three times a year in accordance with the degree rule. If a remote exam is arranged, the student must have a printer and scanner available. Photo submissions are not accepted.
Adequate (1): You are familiar with technical drawing terminology and drawing symbols. You can produce drawings by copying annotations from finished drawings, but you have difficulties interpreting the annotations and lacks in putting them into practice.
Satisfactory (2): You are familiar with technical drawing terminology and drawing symbols. You are able to produce drawings independently, but you have lacks in the practical application of technical drawing standards.
Evaluation criteria, good (3-4)
Good (3): You are familiar with the drawing symbols of technical drawing and know how to apply them in practice. You can take advantages of the features of CAD programs and produce drawings in accordance with standards. In addition, you understand the importance of project scheduling and product management in planning.
Very good (4): You are familiar with the drawing symbols of technical drawing and are able to apply them comprehensively in practice. You can make extensive use of the features of CAD programs and produce drawings in accordance with standards. The drawings may have some minor flaws or slightly misinterpretation possibilities. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Evaluation criteria, excellent (5)
Excellent (5): You know the drawing symbols of technical drawing and know how to apply them professionally in practice. You can make extensive use of the features of CAD programs and produce standard drawings with correct symbols. You also have a versatile control over the use of the ISO tolerance system and geometric product specification in machine drawing. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Evaluation criteria, pass/failed
You have completed all the assignments and received 50% of the points from the exam.
Prerequisites
No prior knowledge required.
Further information
Studies are offered in parts of one credit point through the open university of applied sciences also as a review for engineers who have already graduated and through CampusOnline for students from other polytechnics. The course can be offered outside of degree programs without a supervised exam with passed-failed assessment.
Enrollment
01.11.2024 - 09.01.2025
Timing
13.01.2025 - 18.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 30
Degree programmes
- Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
- Sami Koponen
- Riikka Kankainen
Groups
-
TER24SMEnergia- ja ympäristötekniikka (AMK)
-
ZJATER24SMAvoin amk, Energia- ja ympäristötekniikka, monimuoto
Objectives
Skills in technical drawing and CAD design provide the ability to transfer design product information and manufacturing technical knowledge digitally in various fields of technology. Mastering CAD design and knowing the markings on drawings are the foundation for an engineer’s day-to-day performance of work tasks.Digityalization is very important subject.
You will learn to draw different projections of a part by hand and with the help of a computer, as well as different sectional views. You will learn to make standard drawing markings on drawings, such as dimensions, surface markings, welding markings, and various tolerances.
In addition, you will learn to understand the importance of item and product information management. Your skills will develop from an understanding of basic concepts to applied technical drawing tasks.
Knowledge and understanding:
You have an understanding of the importance of technical drawing in preparing unambiguous documents for design, production and sales.
Engineering practice:
You can read ready-made drawings and make unambiguous working drawings of machine parts or other products. You control a CAD system that allows you to produce working and assembly drawings. You will understand the importance of product management and revision in design.
Multidisciplinary competences:
After the course you will be able to attach pictures and technical documents to your assignments and theses. You will have the necessary knowledge and skills to start working in ancillary design tasks.
Content
Basics of technical drawing: drawings and scales, projections, line types, dimensioning, surface marks, welding marks, fittings and geometric tolerances.
CAD software: Drawing parts both manually and with the help of a computer. Computer-aided modeling of individual parts and assemblies.
Learning materials and recommended literature
Lecture material
Tekniikan taulukkokirja, Valtanen E, Genesis-kirjat Mikkeli, 22 painos 2019. ISBN 978-952-9867-42-4 Koneenpiirustus 1 & 2, Pere A, Kirpe Oy, Helsinki, 2021. ISBN 978-952-67419-3-2
or newer.
Teaching methods
Lectures, Video lectures and learning tasks and exercises based on problem-based learning, which introduce the various aspects of technical drawing.
Free-form anonymous feedback is collected in the middle of the course.
The implementation of the course is based on classroom-based contact teaching. About eight main areas of technical drawing are covered in the contact courses. About half of the contact course is theory lectures and half is learning practical drawing/modelling with CAD software. The subjects are familiarized with the written lecture material and the course book. During the study period, students do 6 evaluable learning assignments. In addition, self-directed practice can be done with additional tasks in Moodle. In addition, the part of the study unit related to product information management is done as group work in groups of about four students independently and returned to Moodle.
The responsible and transparent use of AI applications is encouraged in this course. Instructions for using artificial intelligence can be found in chapter 3.2 (https://help.jamk.fi/raportointiohje/fi/3-kirjoittamisprosessi/tekoalyn-kaytto-oppimistehtavissa-ja-opinnaytetyossa/) of the thesis reporting instructions. If necessary, the instructions for each learning assignment contain more detailed information on how to use it in that particular task.
If the student has not been present at the first contact class, and does not return the first learning task with the group within the deadline, he/she will be removed from the course, and after that he/she can no longer participate in this implementation of the course.
There is an 80% attendance requirement for contact classes in the course.
Practical training and working life connections
If possible, a representative of the manufacturing industry will give a visiting lecture during the study period.
Exam dates and retake possibilities
Exam on week number 15. The final exam is so-called near-term exam that is carried out in class.. Two re-exams, the first in May 2025 and the second in September 2025.
Alternative completion methods
The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study.
Student workload
Lectures 50 h
Learning assignments 35 h
Independent work 60 h
A total of 135 h
Content scheduling
Contact classes are implemented according to a separate implementation-specific course plan, which is published in Moodle.
Further information for students
Continuous developmental feedback is given in the learning tasks.
Assessment consists of exam 57% and learning assignments 43%.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
The overall assessment consists of 60% of the exam and 40% of the learning assignments. To receive a numerical grade, a student must take a supervised exam. The examinations are held three times a year in accordance with the degree rule. If a remote exam is arranged, the student must have a printer and scanner available. Photo submissions are not accepted.
Adequate (1): You are familiar with technical drawing terminology and drawing symbols. You can produce drawings by copying annotations from finished drawings, but you have difficulties interpreting the annotations and lacks in putting them into practice.
Satisfactory (2): You are familiar with technical drawing terminology and drawing symbols. You are able to produce drawings independently, but you have lacks in the practical application of technical drawing standards.
Evaluation criteria, good (3-4)
Good (3): You are familiar with the drawing symbols of technical drawing and know how to apply them in practice. You can take advantages of the features of CAD programs and produce drawings in accordance with standards. In addition, you understand the importance of project scheduling and product management in planning.
Very good (4): You are familiar with the drawing symbols of technical drawing and are able to apply them comprehensively in practice. You can make extensive use of the features of CAD programs and produce drawings in accordance with standards. The drawings may have some minor flaws or slightly misinterpretation possibilities. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Evaluation criteria, excellent (5)
Excellent (5): You know the drawing symbols of technical drawing and know how to apply them professionally in practice. You can make extensive use of the features of CAD programs and produce standard drawings with correct symbols. You also have a versatile control over the use of the ISO tolerance system and geometric product specification in machine drawing. In addition, you have a good command of the basics of project scheduling and the use of items in planning.
Evaluation criteria, pass/failed
You have completed all the assignments and received 50% of the points from the exam.
Prerequisites
No prior knowledge required.
Further information
Studies are offered in parts of one credit point through the open university of applied sciences also as a review for engineers who have already graduated and through CampusOnline for students from other polytechnics. The course can be offered outside of degree programs without a supervised exam with passed-failed assessment.