Search results
- Draw a line on the paper from the zero mark on the ruler to the number mark on the ruler that matches the length of the wall you’re drawing. For example, if the scale is ¼” = 1’, and the wall you measure is 11 feet, you would draw to the eleventh ¼” mark.
www.wikihow.com/Draw-a-Floor-Plan-to-Scale
People also ask
How do you draw a section on a sketch?
How to draw a sectional view?
How do you use sectioning in a drawing?
How do you cut a section on a sheet of paper?
How do you use a break in a drawing?
What is a section view?
Dec 19, 2021 · Learn the basic steps in preparing cross section and longitudinal sections for your architectural drawings. Follow me on my official facebook account for your questions about architecture ...
- 19 min
- 120.4K
- ARCHITECT CHANNEL
- Cutting Plane. A surface cut by the saw in the drawing above is a cutting plane. Actually, it is an imaginary cutting plane taken through the object, since the object is imagined as being cut through at a desired location.
- Cutting Plane Line. A cutting plane is represented on a drawing by a cutting plane line. This is a heavy long-short-short-long kind of line terminated with arrows.
- Section Lining. The lines in the figure above, which look like saw marks, are called section lining. They are found on most sectional views, and indicate the surface which has been exposed by the cutting plane.
- Full Sections. When a cutting plane line passes entirely through an object, the resulting section is called a full section Fig. 7 illustrates a full section.
- Section Lining. The lines in the figure above, which look like saw marks, are called section lining. They are found on most sectional views, and indicate the surface which has been exposed by the cutting plane.
- Full Sections. When a cutting plane line passes entirely through an object, the resulting section is called a full section Fig. 7 illustrates a full section.
- Half Sections. If the cutting plane is passed halfway through an object, and one-quarter of the object is removed, the resulting section is a half section.
- Broken Out Sections. In many cases only a small part of a view needs to be sectioned in order to show some internal detail. In the figure below, the broken out section is removed by a freehand break line.
- Full Sections. A Full section view is where the entire part or assembly is cut on a single plane. The generated section view that is created may form part of the same view as the reference view, permitted the correct projection method (first or third angled projection) is used.
- Half Section. The half section view may be used where a part or assembly is symmetrical about the centerline of the part or assembly. This will save space on the drawing with over population of reference and section views.
- Partial Section. A Partial section is used when only a certain portion of a part or assembly is cut in order to show important detail or geometry. The whole part or assembly is not sectioned as that may minimize the other information show.
- Revolved Section. A revolved section is a section that is made at a certain point in a part and revolved 90° to show the cross section of the part. The part can be broken to show the revolved section or the revolved section can be superimposed on the part itself.
This section will cover the different types of section views, corresponding technical vocabulary, and help you determine which section view would best communicate important aspects of an object or assembly to others.
Identify the differ-ent types of sectional views. Identify symbols used in sectioning. Use the correct tech-niques for section lining. Identify features that are not sectioned. Explain section-ing techniques that increase effi ciency. Prepare a drawing with sectional views using board-drafting and CAD techniques.
The long dash can be lengthened for large section drawings to save time and create a more readable drawing. Multiple sections can be done on a single object. Cutting planes shall not be shown on sectional views.
