SolidWorks in Machine DesignLaajuus (5 cr)
Code: TKVS0105
Credits
5 op
Teaching language
- Finnish
Responsible person
- Kalevi Jaaranen
Objective
In addition to 3D modeling and making drawings, modern design software can be used more extensively in product development. You learn how to do motion analysis for mechanism and animations that illustrate a product. You learn to estimate products manufacturing costs. Your competence is growing in product manufacturing tolerances and making analysis of tolerance chains. After you have passed the course, you will be able to evaluate the environmental impact of your design during its life cycle.
Knowledge and understanding:
You are familiar with various analysis tools used in design software and able to apply them in evaluating the products, taking into account their limitations.
Engineering practice:
You have an understanding of design methods and an ability to use them. You learn to identify, formulate and solve engineering problems using taught methods. You can apply your knowledge and understanding when making analyses and select relevant analytic and modelling methods.
Multidisciplinary competences:
You are able to choose the materials and manufacturing methods for your product design, taking into account environmental considerations. You are trained to take business view into account when making choices and reflections.
Content
3D modeling methods. Creating drawings from a 3D model. Product configuration at both model and assembly levels. Motion analysis of the mechanisms. Environmental impact analysis of the product (Sustainability). Estimation of manufacturing costs. Analysis of product tolerance chains
Qualifications
You master the basics of machine drawings like projections, sectional views, dimensions, tolerances and other markings on the drawing. You master parametric feature modelling. You are able to make workshop- and assembly drawings based on a 3D model. You have basic knowledge of material technology and you know the different groups of materials, their properties and their most common uses in technical applications.
Assessment criteria, satisfactory (1)
Assessment consists of learning assignments 100%.
Sufficient (1): You identify the basic knowledge and terminology but can only sufficiently apply them to simple planning tasks.
Satisfactory (2): You are familiar with the basic knowledge and terminology but can only satisfactorily apply them to practical design tasks.
Assessment criteria, good (3)
Good (3): You master the essential knowledge and skills covered by the course and you are able to apply them in machine design. You can:
- configure models and assemblies
- produce machine drawings of 3D models
- use software analysis tools to design machine parts and assemblies
- evaluate the environmental impact of the product
Very good (4): You master the essential knowledge and skills and can apply the knowledge acquired in a critical and innovative manner to machine design
Assessment criteria, excellent (5)
Excellent (5): You master master the essential knowledge and skills of the course and can apply the knowledge acquired in a critical and innovative manner to demanding machine design.
Assessment criteria, approved/failed
Approved:
You have completed each class assignment and all exercise assignments.
Enrollment
01.08.2024 - 22.08.2024
Timing
26.08.2024 - 18.12.2024
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 - 23
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Kalevi Jaaranen
Groups
-
TKN22SAKonetekniikka (AMK)
Objectives
In addition to 3D modeling and making drawings, modern design software can be used more extensively in product development. You learn how to do motion analysis for mechanism and animations that illustrate a product. You learn to estimate products manufacturing costs. Your competence is growing in product manufacturing tolerances and making analysis of tolerance chains. After you have passed the course, you will be able to evaluate the environmental impact of your design during its life cycle.
Knowledge and understanding:
You are familiar with various analysis tools used in design software and able to apply them in evaluating the products, taking into account their limitations.
Engineering practice:
You have an understanding of design methods and an ability to use them. You learn to identify, formulate and solve engineering problems using taught methods. You can apply your knowledge and understanding when making analyses and select relevant analytic and modelling methods.
Multidisciplinary competences:
You are able to choose the materials and manufacturing methods for your product design, taking into account environmental considerations. You are trained to take business view into account when making choices and reflections.
Content
3D modeling methods. Creating drawings from a 3D model. Product configuration at both model and assembly levels. Motion analysis of the mechanisms. Environmental impact analysis of the product (Sustainability). Estimation of manufacturing costs. Analysis of product tolerance chains
Learning materials and recommended literature
Lecture material. Solidworks-software educational documents, user quide and tutorials.
Teaching methods
Lectures, information retrieval and applied learning assigments. Recorded lectures and examples Assignments are based on Problem-based learning. You can do assignments individually or in groups, but you must always return the assignments individually. In distance learning you can join the webinars to get help in the assignments. In the middle of the course you give anonymous feedback.
The implementation of the course is based on contact and distance learning (videos). During the course, students make learning assignments, which are returned as agreed.
Artificial intelligence is not used in this course due to the nature of the learning tasks.
Exam dates and retake possibilities
No exam
Student workload
Lectures 45 h, learning assignments 65 h and independent work 25 h. Total 135 h learning work.
Further information for students
Assessment consists of learning assignments 100%
On the learning assignments there is continuous developing feedback.
Those registered for the course will be removed from the implementation if they have not completed the task announced at the beginning.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Assessment consists of learning assignments 100%.
Sufficient (1): You identify the basic knowledge and terminology but can only sufficiently apply them to simple planning tasks.
Satisfactory (2): You are familiar with the basic knowledge and terminology but can only satisfactorily apply them to practical design tasks.
Evaluation criteria, good (3-4)
Good (3): You master the essential knowledge and skills covered by the course and you are able to apply them in machine design. You can:
- configure models and assemblies
- produce machine drawings of 3D models
- use software analysis tools to design machine parts and assemblies
- evaluate the environmental impact of the product
Very good (4): You master the essential knowledge and skills and can apply the knowledge acquired in a critical and innovative manner to machine design
Evaluation criteria, excellent (5)
Excellent (5): You master master the essential knowledge and skills of the course and can apply the knowledge acquired in a critical and innovative manner to demanding machine design.
Evaluation criteria, pass/failed
Approved:
You have completed each class assignment and all exercise assignments.
Prerequisites
You master the basics of machine drawings like projections, sectional views, dimensions, tolerances and other markings on the drawing. You master parametric feature modelling. You are able to make workshop- and assembly drawings based on a 3D model. You have basic knowledge of material technology and you know the different groups of materials, their properties and their most common uses in technical applications.
Enrollment
01.08.2023 - 24.08.2023
Timing
28.08.2023 - 19.12.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 18
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Kalevi Jaaranen
Groups
-
TKN21SAKonetekniikka (AMK)
Objectives
In addition to 3D modeling and making drawings, modern design software can be used more extensively in product development. You learn how to do motion analysis for mechanism and animations that illustrate a product. You learn to estimate products manufacturing costs. Your competence is growing in product manufacturing tolerances and making analysis of tolerance chains. After you have passed the course, you will be able to evaluate the environmental impact of your design during its life cycle.
Knowledge and understanding:
You are familiar with various analysis tools used in design software and able to apply them in evaluating the products, taking into account their limitations.
Engineering practice:
You have an understanding of design methods and an ability to use them. You learn to identify, formulate and solve engineering problems using taught methods. You can apply your knowledge and understanding when making analyses and select relevant analytic and modelling methods.
Multidisciplinary competences:
You are able to choose the materials and manufacturing methods for your product design, taking into account environmental considerations. You are trained to take business view into account when making choices and reflections.
Content
3D modeling methods. Creating drawings from a 3D model. Product configuration at both model and assembly levels. Motion analysis of the mechanisms. Environmental impact analysis of the product (Sustainability). Estimation of manufacturing costs. Analysis of product tolerance chains
Learning materials and recommended literature
Lecture material. Solidworks-software educational documents, user quide and tutorials.
Teaching methods
Lectures, information retrieval and applied learning assigments. Recorded lectures and examples Assignments are based on Problem-based learning. You can do assignments individually or in groups, but you must always return the assignments individually. In distance learning you can join the webinars to get help in the assignments. In the middle of the course you give anonymous feedback.
Exam dates and retake possibilities
No exam
Student workload
Lectures 45 h, learning assignments 65 h and independent work 25 h. Total 135 h learning work.
Further information for students
On the learning assignments there is continuous developing feedback.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Assessment consists of learning assignments 100%.
Sufficient (1): You identify the basic knowledge and terminology but can only sufficiently apply them to simple planning tasks.
Satisfactory (2): You are familiar with the basic knowledge and terminology but can only satisfactorily apply them to practical design tasks.
Evaluation criteria, good (3-4)
Good (3): You master the essential knowledge and skills covered by the course and you are able to apply them in machine design. You can:
- configure models and assemblies
- produce machine drawings of 3D models
- use software analysis tools to design machine parts and assemblies
- evaluate the environmental impact of the product
Very good (4): You master the essential knowledge and skills and can apply the knowledge acquired in a critical and innovative manner to machine design
Evaluation criteria, excellent (5)
Excellent (5): You master master the essential knowledge and skills of the course and can apply the knowledge acquired in a critical and innovative manner to demanding machine design.
Evaluation criteria, pass/failed
Approved:
You have completed each class assignment and all exercise assignments.
Prerequisites
You master the basics of machine drawings like projections, sectional views, dimensions, tolerances and other markings on the drawing. You master parametric feature modelling. You are able to make workshop- and assembly drawings based on a 3D model. You have basic knowledge of material technology and you know the different groups of materials, their properties and their most common uses in technical applications.
Enrollment
01.11.2021 - 09.01.2022
Timing
01.01.2022 - 15.05.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 30
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Kalevi Jaaranen
Teacher in charge
Kalevi Jaaranen
Scheduling groups
- TKN20SA (Capacity: 30. Open UAS: 0.)
- TKN20SB (Capacity: 30. Open UAS: 0.)
Groups
-
TKN20SAKonetekniikka (AMK)
Small groups
- Pienryhmä 1
- Pienryhmä 2
Objectives
In addition to 3D modeling and making drawings, modern design software can be used more extensively in product development. You learn how to do motion analysis for mechanism and animations that illustrate a product. You learn to estimate products manufacturing costs. Your competence is growing in product manufacturing tolerances and making analysis of tolerance chains. After you have passed the course, you will be able to evaluate the environmental impact of your design during its life cycle.
Knowledge and understanding:
You are familiar with various analysis tools used in design software and able to apply them in evaluating the products, taking into account their limitations.
Engineering practice:
You have an understanding of design methods and an ability to use them. You learn to identify, formulate and solve engineering problems using taught methods. You can apply your knowledge and understanding when making analyses and select relevant analytic and modelling methods.
Multidisciplinary competences:
You are able to choose the materials and manufacturing methods for your product design, taking into account environmental considerations. You are trained to take business view into account when making choices and reflections.
Content
3D modeling methods. Creating drawings from a 3D model. Product configuration at both model and assembly levels. Motion analysis of the mechanisms. Environmental impact analysis of the product (Sustainability). Estimation of manufacturing costs. Analysis of product tolerance chains
Learning materials and recommended literature
Lecture material. Solidworks-software educational documents, user quide and tutorials.
Teaching methods
Lectures, information retrieval and applied learning assigments. Recorded lectures and examples Assignments are based on Problem-based learning. You can do assignments individually or in groups, but you must always return the assignments individually. In distance learning you can join the webinars to get help in the assignments. In the middle of the course you give anonymous feedback.
Exam dates and retake possibilities
No exam
Student workload
Lectures 45 h, learning assignments 65 h and independent work 25 h. Total 135 h learning work.
Further information for students
On the learning assignments there is continuous developing feedback.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Assessment consists of learning assignments 100%.
Sufficient (1): You identify the basic knowledge and terminology but can only sufficiently apply them to simple planning tasks.
Satisfactory (2): You are familiar with the basic knowledge and terminology but can only satisfactorily apply them to practical design tasks.
Evaluation criteria, good (3-4)
Good (3): You master the essential knowledge and skills covered by the course and you are able to apply them in machine design. You can:
- configure models and assemblies
- produce machine drawings of 3D models
- use software analysis tools to design machine parts and assemblies
- evaluate the environmental impact of the product
Very good (4): You master the essential knowledge and skills and can apply the knowledge acquired in a critical and innovative manner to machine design
Evaluation criteria, excellent (5)
Excellent (5): You master master the essential knowledge and skills of the course and can apply the knowledge acquired in a critical and innovative manner to demanding machine design.
Evaluation criteria, pass/failed
Approved:
You have completed each class assignment and all exercise assignments.
Prerequisites
You master the basics of machine drawings like projections, sectional views, dimensions, tolerances and other markings on the drawing. You master parametric feature modelling. You are able to make workshop- and assembly drawings based on a 3D model. You have basic knowledge of material technology and you know the different groups of materials, their properties and their most common uses in technical applications.