Orthographic Projection Sectional Views Section Views When a

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Orthographic Projection Sectional Views

Orthographic Projection Sectional Views

Section Views § When a part has a lot of interior details, hidden lines

Section Views § When a part has a lot of interior details, hidden lines can make the part hard to understand dimension. To see the interior of these parts, we cut some of the part away. This allows for details to be seen clearly, as well as, giving us alternative locations to properly dimension the part.

Sectional Views § Types of Sectional Views § § § § Half Full Offset

Sectional Views § Types of Sectional Views § § § § Half Full Offset Removed Revolved Broken-out Aligned

Half Section § Notice how the cutting plane line runs through the center of

Half Section § Notice how the cutting plane line runs through the center of the part and there is no arrow head. In a half section, one quarter of the part is cut away. This is done with symmetrical parts where you would like to show the outside, as well as, the inside details.

Full Section A cutting. Aplane line is used to indicate how the front full

Full Section A cutting. Aplane line is used to indicate how the front full section is a view that shows what view was cut. is alsolooks labeled inifcase another Section lines called Hatch lines are used to show where the. Itobject like it were cut insection is necessary. The arrows should in the linethat of would sight be part is solid. This helps topoint see the detail half. asnormally you are looking onshown at the section. blockedstraight and only as hidden lines.

Offset Section Interior features not in line with each other can be shown in

Offset Section Interior features not in line with each other can be shown in an offset section view. Note how the cutting plane line changes and follows the center of each feature.

Revolved Sections § § Used when an object has a constant shape throughout the

Revolved Sections § § Used when an object has a constant shape throughout the length that cannot be illustrated in an external view. The section is revolved 90 degrees. It may be represented one of two ways, either broken away or not.

Not Broken Away Revolved Section is revolved 90 degrees

Not Broken Away Revolved Section is revolved 90 degrees

Broken Away Revolved Section is revolved 90 degrees and broken away from part

Broken Away Revolved Section is revolved 90 degrees and broken away from part

Broken-out Section Views § A small portion of an object may be broken away

Broken-out Section Views § A small portion of an object may be broken away to clarify an interior surface or feature. No cutting plane line is used.

Broken-out Section View Section exposes the interior surfaces

Broken-out Section View Section exposes the interior surfaces

Removed Sections § A cutting plane is placed through the part where the section

Removed Sections § A cutting plane is placed through the part where the section is taken. The removed sections are not aligned with the view. Placement is in the surrounding area.

Removed Sections are not aligned with the view.

Removed Sections are not aligned with the view.

Aligned Section Views § A true projection of a part with inclined ribs, spokes,

Aligned Section Views § A true projection of a part with inclined ribs, spokes, and arms will be foreshortened. An aligned section view is recommended to acquire accurate dimensions of the part. The cutting plane is bent at an angle as it passes through the object. The section view is then projected 90 degrees from the cutting plane and is in alignment to the original view.

Aligned Section Views View is projected 90 degrees from the cutting plane and is

Aligned Section Views View is projected 90 degrees from the cutting plane and is in alignment to the original view. Cutting plane is bent at an angle