1、TECH 104 Technical Graphics Communication,Week 6:Section Views,TECH 104 Technical Graphics Communication,Week 6: Section Views,Heres what we talked about last time,TECH 104 Technical Graphics Communication,Week 6: Section Views,We can also use the glass box technique to add an additional Picture Pla
2、ne (PP) to project inclined surfaces to. By doing so, we can show the slanted surfaces true shape and size. NOTE: The new glass plane is parallel to the surface it describes just like the other glass projection planes.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Heres how to lay
3、out an auxiliary view:,Step 1: Make a new PP line labeled “1” that is parallel to Line AD in the FRONT view. This PP may be placed any distance from the object you wish.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Step 2: Add the other PP lines as shown so they will connect to PP
4、 1.It is always a good idea to label the PPs as shown.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Step 3: Project the end points of Line AD at a 90 degree angle from the front view.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Step 4: Transfer the distance fro
5、m PP to point C in the TOP view to its new position from PP 1 in the auxiliary view.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Step 5: Connect the new point C with the projected line to find point B. Do the same thing for points A and D.,TECH 104 Technical Graphics Communicatio
6、n,Week 6: Section Views,Step 6: Snap your lines in the auxiliary view to create its final form. NOTE: You do not need to label all points on your drawing.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Lets now take a look at how we can show hidden information using section views,TE
7、CH 104 Technical Graphics Communication,Week 6: Section Views,Section views are used to expose hidden features. When we “open up” an object and view interior features, we see them not as hidden lines, but as object lines.,TECH 104 Technical Graphics Communication,Week 6: Section Views,The “Cutting P
8、lane” is a flat surface that identifies: Which section of the object is to be shown, and 2. The path of the imaginary cut through the object,TECH 104 Technical Graphics Communication,Week 6: Section Views,Figure A illustrates the proper technique that should be used to show a section viewA correctly
9、 drawn section view which uses both object and section lines. An improperly drawn section view where the hidden lines have not been replaced with object lines. C. A normal multiview projection of the part.,TECH 104 Technical Graphics Communication,Week 6: Section Views,The Cutting Plane Line:Is used
10、 to show where the object is being cut Shows the Line of Sight (LOS) so a proper section view can be drawn. Replaces the need to draw an entire cut-ting planeWhy is the example shown on the right incorrect?,TECH 104 Technical Graphics Communication,Week 6: Section Views,Cutting Plane lines are the h
11、eaviest of all lines used in drafting. They are drawn much like center lines, but have 2 short dashes in them. The arrows on their end show the line of sight.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Every material has a “hatch line “ pattern. Cast Iron can be used as the gene
12、ric hatch line for any material. If you use this symbol, a “general note” should be added to the plate to identify the proper material used in the part.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Please review images 14.20 through 14.23 to review how hatch lines are drawn in div
13、erse applications. Here are some general rules:Hatch lines should never be drawn parallel to the edge of an object. Always use a slightly different angle so it makes the object easier to read.2. If you have large interior areas to hatch, using short hatch lines around the perimeter is an acceptable
14、practice.3. If there needs to be notes or dimensions placed inside a hatched area, leave “white space” in the center of the hatch area to add these items.,TECH 104 Technical Graphics Communication,Week 6: Section Views,The full section is the most common type of section view used. It is known as a “
15、FULL” section because the cutting plane passes through the full length of the object.,TECH 104 Technical Graphics Communication,Week 6: Section Views,“Half” sections show the interior of an object where the cutting plane has penetrated only half way through the object. NOTE: The cutting plane line m
16、ay only have one arrow on it.,TECH 104 Technical Graphics Communication,Week 6: Section Views,“Broken” sections have no cutting plane line and are used to show a small, localized area of the object.,TECH 104 Technical Graphics Communication,Week 6: Section Views,“Revolved” section views are used to
17、show diverse shapes that may appear in a part.Here we see that the section lies on the area it describes and may be placed on top of object lines, or be shown as part of a broken out section to assist whoever is reading the plate.,TECH 104 Technical Graphics Communication,Week 6: Section Views,“Remo
18、ved” sections allow the sectional view to be placed in another area of the plate so as not to crowd other views. All removed views are labeled on their cutting plane and the view.,TECH 104 Technical Graphics Communication,Week 6: Section Views,“Offset” sections use a cutting plane that jogs to pick
19、up valuable features of the part.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Sectioned assemblies are used to show relationships between parts. NOTE: The hatching lines alternate direction on parts that are adjacent to one another.,TECH 104 Technical Graphics Communication,Week
20、6: Section Views,Drawing styles may sometimes be combined with one another. Here we see an auxiliary and section view combined.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Examples of sectioning conventions.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Examples
21、 of sectioning conventions.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Examples of sectioning conventions.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Examples of sectioning conventions.,TECH 104 Technical Graphics Communication,Week 6: Section Views,Examples of sectioning conventions.,TECH 104 Technical Graphics Communication,Week 7:Dimensioning,
