In the Exercise of Basic Drawing, students acquire the fundamental skills necessary for reading engineering drawings and creating
them. During the first half of the class, lectures on JIS mechanical drawing are conducted, covering topics such as dimensioning
methods, scales, fits, tolerances, materials, welding methods, and their symbols. These topics are practically mastered through
drafting exercises. Additionally, students learn about machine elements frequently used as mechanical components, such as
screws, gears, bearings, and flanges. Drawing is done using AutoCAD, and students attain proficiency to handle various types
of drawings.
Acquire the ability to create drawings through mechanical drafting tracing.
Develop the foundational skill of reading drawings through inspection.
Master JIS mechanical drafting (dimensioning methods, scales, fits, tolerances, materials, welding symbols, etc.).
Learn about mechanical elements such as screws, gears, bearings, and flanges.
Master the basic operations of AutoCAD and create various mechanical drawings.
Develop the foundational skill of reading drawings through inspection.
Master JIS mechanical drafting (dimensioning methods, scales, fits, tolerances, materials, welding symbols, etc.).
Learn about mechanical elements such as screws, gears, bearings, and flanges.
Master the basic operations of AutoCAD and create various mechanical drawings.
- You are able to create mechanical drawings through tracing.
You are able to identify errors in drawings through inspection. - You can create drawings compliant with JIS mechanical drafting standards. (dimensioning methods, scales, fits, tolerances, materials, welding symbols, etc.).
- You can create drawings for various mechanical components using AutoCAD.
You can explain the roles of mechanical elements such as screws, gears, bearings, and flanges.
| Drawings | Final exam | Total. | |
|---|---|---|---|
| 1. | 25% | 8% | 33% |
| 2. | 25% | 8% | 33% |
| 3. | 25% | 9% | 34% |
| Total. | 75% | 25% | - |
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Class guidance Lecture: Structure of drawings Exercise 01: V-block packing retainer |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 2. | Lecture: Dimensioning Exercise 02: Mawashigane and eyebolts |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 3. | Lectures: drawing scale Exercise 03: Toskan |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 4. | Lecture: screw drafting Exercise 04: Bolts and nuts |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 5. | Lecture: Types of drawings Exercise 05: Mini Jack |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 6. | Lecture: Tolerance and Fit (Dimensional Tolerance1) Exercise 06: Spanner |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 7. | Lecture: Gears Exercise 07: Gears |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 8. | Lecture: Tolerance and Fit (Dimensional Tolerance2) Exercise 08: Handle car |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 9. | Lecture: surface texture Exercise 09: Bearings with bushings |
Check the contents of the lesson, Submission of exercises | 120minutes |
| 10. | Lecture: Omitting Figures, Sectional Views Exercise 11: Flanged flexible shaft coupling |
Check the contents of the lesson, Submission of drawings | 120minutes |
| 11. | Lecture: Welding symbols Exercise 11: Air Tank |
Check the contents of the lesson, Submission of drawings | 120minutes |
| 12. | Lecture: material symbol Exercise 12: Gear pump |
Check the contents of the lesson, Submission of drawings | 120minutes |
| 13. | Lecture: Tolerance and Fit (Geometric tolerance) Exercise 12: Gear pump |
Check the contents of the lesson, Submission of drawings | 120minutes |
| 14. | Final exam and review | Total review of all learning content | 120minutes |
| Total. | - | - | 1680minutes |
The assessment consists of drafting (mechanical drawings conducted each session, totaling 12 assignments) and a final exam.
To pass, a total score of 60 points or higher is required. Each drafting assignment is graded out of 100 points, and the final
score is calculated by multiplying the average of these scores by 0.75. The final exam is also graded out of 100 points, and
its score is multiplied by 0.25. The 60-point benchmark signifies the ability to draw mechanically readable drawings using
AutoCAD.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in the class | 毎回の課題は次の授業の開始前に提出する.集めた課題は授業後半に無作為に受講生に配布し,図面の間違い箇所を指摘する検図を実施する.また,課題および検図の提出により,出欠をチェックする.※各回の課題内容は変わることがある |
Distribute the textbooks needed in class.
はじめてでもよくわかる図面の描き方,飯島晃良,成美堂出版
新編JIS機械製図、吉澤武男、森北出版
はじめてでもよくわかる図面の描き方,飯島晃良,成美堂出版
新編JIS機械製図、吉澤武男、森北出版
Install AutoCAD on your own computer
Learn AutoCAD to a level where you can draw simple drawings
It is desirable to take production processing studies
Learn AutoCAD to a level where you can draw simple drawings
It is desirable to take production processing studies
- E-mail, Q & A when in the room (appointment required)
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| Applicable | I was involved in design and product development tasks at a mechanical manufacturing company. |
Last modified : Thu Feb 06 04:08:48 JST 2025