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==
== '''How To Change The Sheet Metal Defaults  In Inventor To Match Harris Shop Requirements''' ==


'''Updates to Making Sheet Metal Parts for Harris'''
== <span style="font-size: 16px; line-height: 19.5px;">a. Click on SHEET METAL DEFAULTS on the sheet metal ribbon. you will get a pop-up window.</span> ==


Harris Standards:
<span style="font-size: 16px; line-height: 19.5px;">b. click on the lower right PENCIL icon. you will get a pop-up window.</span>


Thicknesses:&nbsp; .062, .093, .125
<span style="font-size: 16px; line-height: 19.5px;">c. click on the lower left&nbsp;IMPORT button. you will get a browser to locate a file. you are looking for the file in the 2015/build season (ROBOT) file called'''"90 Degree Harris Sheet Metal Bend Styles.styxml"'''</span>


Bend Radius:&nbsp; 0.032
<span style="font-size: 16px; line-height: 19.5px;">d. click DONE in the lower right corner.</span>


We need two types of drawings for Harris:
<span style="font-size: 16px; line-height: 19.5px;">e. you will be returned to the pop-up window</span>


#pdf
<span style="font-size: 16px; line-height: 19.5px;">f.scroll down below the UNFOLD RULE and select "HARRIS SHOP".</span>
#dxf


pdf files – Step by Step Creation:
<span style="font-size: 16px; line-height: 19.5px;">g. click APPLY&nbsp;</span>


#Open the “[year] Part and Assembly File Log” on the Google Drive ([year]/[year] Build Season folder) and sign up for the part drawing you are about to make.&nbsp; Note, it must have a “Y” or “Yes” in the “Mentor approved to Make Drawing” column.
h. change thickness to .062, .093, or .125.
#Open Inventor – you will be using this as a tool to make the .pdf file.&nbsp; We do not need to send the Inventor .ipw file to Harris.
 
#Open the “2015 Drawing template” in the [year] Build Season (ROBOT)/06 Drawings folder and '''''immediately''''' SAVE AS your part drawing.&nbsp; If you SAVE A COPY AS instead of SAVE AS please remember you will need to then close the template and open your part drawing before changing anything in the file.<ol style="list-style-type:lower-alpha;">
i. click upper right PENCIL icon
</ol></ol>
 
j. click on BEND tab
 
k. Change BEND RADIUS thickness to .032
 
l. click DONE
 
m. CLOSE
 
n. click SAVE
 
o. ALTERNATE: open the 'Sheet Metal Starting Point.ipt" and SAVE AS your new part drawing. do this immediately as we will overwrite or delete any part accidentally aved in the template file.
 
== How To Submit Parts for Fabrication At Harris ==
 
Follow the steps below for proper modeling and submittal of parts. It is critical to understand the type of part that is being made (sheetmetal or machined) as this will dictate the model generation along with the types of files that will be required in order to physically make the part.
 
If you have any questions, please ask Amy Averill (aaverill ---AT--- harris --DOT-- com).
 
=== Steps For Fabrication ===
 
#<span style="color: #ff0000">'''Determine if the part will be a sheetmetal part or a solid part'''</span>
#*''Sheetmetal Parts:'' flat parts with holes that go all the way through the material, bar stock that needs to be&nbsp;cut to length, flat parts that get bent into a shape
#*''Machined Parts:'' pieces with intricate surfaces made from a block of aluminum
#<span style="color: #ff0000">Model the part appropriately depending on if the part is Sheetmetal or Machined from a solid part in Inventor:</span>
#*''Sheetmetal Parts:'' Click on the link for general tips on bend radius and material thickness: [[Sheetmetal 2011|Sheetmetal Parts]]
#*''Machined Parts:''
#<span style="color: #ff0000">Create the necessary supporting documentation for fabrication:</span>
#*''Sheetmetal Parts'': Click this link for steps on generating documentation for '''<span style="font-size: large">[[SHEETMETAL PARTS|Sheetmetal Files and Documents]]</span>'''<br/>''-- OR --''
#*''Machined Parts'': Click this link for steps on generating documentation for '''<span style="font-size: large">[[MACHINED PARTS|Machined Part Files and Documents]]</span>'''
#<span style="color: #ff0000">'''Email''' the required files to aaverill ---AT--- harris --DOT-- com.</span>
#*'''CLICK''' the links below for each file type needed to get a detailed set of instructions on what is required for each format and how to save the files!
#*Failure to click these links and read the directions will result in your part taking longer to be made since you will have to revise the files and resubmit!
#*''Sheetmetal Parts'':
 
*[[Fabrication - .pdf|.dwg]] Do save copy as a autoCAD dwg file. '''Must be 2000LT'''


*Fill in the Title Block<ol style="list-style-type:lower-roman;">
<li>Title should match exactly the Part and Assembly File Log title '''beginning with the part number.'''</li>
<li>Date:&nbsp; This must be updated each time the part is sent – it tracks revisions.</li>
<li>Name of student</li>
<li>Name of mentor who has reviewed the drawing.</li>
</ol><li>Edit the text in the lower right<ol style="list-style-type:lower-roman;">
<li>Number of parts per robot</li>
<li>Size of material using Harris standards (see top of this page)</li>
</ol></li>
<li>Open the model part file (it must be open to place it).</li>
<li>Check that the model file has sheet metal defaults as follows:<ol style="list-style-type:lower-roman;">
<li>Unfold rule is “Harris Shop”</li>
<li>Thickness if Harris standard (see top of page).</li>
</ol></li>
<li>Place views as you normally would to best represent the part.&nbsp; Include an ISOMETRIC view.<ol style="list-style-type:lower-roman;">
<li>Dimension Overall length, width and height of the part</li>
<li>Dimension all hole diameters – '''precision to three places'''</li>
<li>For holes of the same size in the same area, use the “x 4” type of notation to indicate multiple hole locations
#
#
#Exceptions:&nbsp; Do not dimension rivet holes
 
##Do not dimension parts with excessive amounts of holes (check with a mentor)</li>
*
*[[Fabrication - .pdf|.pdf]]


#
#
#Dimension each bend – height and angles other that 90 degrees</li>


*
*[[Fabrication - .dxf|.dxf]] - '''Must be 2000LT'''


#
#
#Save the drawing to the 06 Drawings folder
*''Machined Parts'':
#Save the drawing as a .pdf file:<ol style="list-style-type:lower-alpha;">
</ol></ol>


*EXPORT as a PDF
*[[Fabrication - .pdf|.dwg]]
*Save it to the 06 Drawings/HARRIS PDF DXF FILES folder<ol style="list-style-type:lower-roman;">
<li>When sent to Harris, they will be moved into a “sent [date]” folder.</li>
</ol></ul>


&nbsp;
#


.dxf Files – Step by Step Creation:
*
*[[Fabrication - .pdf|.pdf]]


&nbsp;
#


#Start a new standard .idw file in Inventor.&nbsp; If possible, pick on with no border.&nbsp; If there is a border:<ol style="list-style-type:lower-alpha;">
*
</ol></ol>
*[[Fabrication - .stp|.stp]]


*Delete the border and any other lines on the sheet before proceeding.
#<span style="color: #ff0000">Fill in the chart below with the date, requested item, your name and the quantity required.</span>
*Go to BASE, select the model file, and place the “Flat Pattern” view on the sheet.<ol style="list-style-type:lower-alpha;">
<li>If it says it is not available, go to the model file and create the flat (unbent) view of the part.</li>
<li>Make sure your scale is '''1:1'''</li>
<li>Adjust sheet size as needed so that the entire part is on the sheet.</li>
</ol><li>Save the drawing:<ol style="list-style-type:lower-alpha;">
<li>Go to SAVE A COPY AS and change the “file types” to .dxf</li>
<li>Click the “OPTIONS” button to the left of SAVE</li>
<li>The OPTIONS menu will appear.&nbsp; Click on the drop down menu called “File Versions” and select “'''AutoCAD 2000/LT2000 DXF”.'''</li>
<li>Without changing any other settings, click “Next” and then click&nbsp;:Finish”</li>
<li>Save it in the 06/Drawings/HARRIS PDF DXF file.</li>
</ol></li>
<li>Open AutoCAD.<ol style="list-style-type:lower-alpha;">
<li>Open the .dxf file you just made.&nbsp; You may need to change file type to .dxf to see your file</li>
<li>Delete any dashed bend lines (click on the line with the mouse and hit the delete button).</li>
<li>Save the file – '''Be sure to keep the same version:&nbsp; '''“'''AutoCAD 2000/LT2000 DXF”''' from the drop down menu.</li>
</ol></li>
<li>Update Part & Assembly File Log on Google Drive</li>
</ul>


----
----

Revision as of 14:39, 24 January 2015

How To Change The Sheet Metal Defaults  In Inventor To Match Harris Shop Requirements

a. Click on SHEET METAL DEFAULTS on the sheet metal ribbon. you will get a pop-up window.

b. click on the lower right PENCIL icon. you will get a pop-up window.

c. click on the lower left IMPORT button. you will get a browser to locate a file. you are looking for the file in the 2015/build season (ROBOT) file called"90 Degree Harris Sheet Metal Bend Styles.styxml"

d. click DONE in the lower right corner.

e. you will be returned to the pop-up window

f.scroll down below the UNFOLD RULE and select "HARRIS SHOP".

g. click APPLY 

h. change thickness to .062, .093, or .125.

i. click upper right PENCIL icon

j. click on BEND tab

k. Change BEND RADIUS thickness to .032

l. click DONE

m. CLOSE

n. click SAVE

o. ALTERNATE: open the 'Sheet Metal Starting Point.ipt" and SAVE AS your new part drawing. do this immediately as we will overwrite or delete any part accidentally aved in the template file.

How To Submit Parts for Fabrication At Harris

Follow the steps below for proper modeling and submittal of parts. It is critical to understand the type of part that is being made (sheetmetal or machined) as this will dictate the model generation along with the types of files that will be required in order to physically make the part.

If you have any questions, please ask Amy Averill (aaverill ---AT--- harris --DOT-- com).

Steps For Fabrication

  1. Determine if the part will be a sheetmetal part or a solid part
    • Sheetmetal Parts: flat parts with holes that go all the way through the material, bar stock that needs to be cut to length, flat parts that get bent into a shape
    • Machined Parts: pieces with intricate surfaces made from a block of aluminum
  2. Model the part appropriately depending on if the part is Sheetmetal or Machined from a solid part in Inventor:
    • Sheetmetal Parts: Click on the link for general tips on bend radius and material thickness: Sheetmetal Parts
    • Machined Parts:
  3. Create the necessary supporting documentation for fabrication:
  4. Email the required files to aaverill ---AT--- harris --DOT-- com.
    • CLICK the links below for each file type needed to get a detailed set of instructions on what is required for each format and how to save the files!
    • Failure to click these links and read the directions will result in your part taking longer to be made since you will have to revise the files and resubmit!
    • Sheetmetal Parts:
  • .dwg Do save copy as a autoCAD dwg file. Must be 2000LT
  • .dxf - Must be 2000LT
  • Machined Parts:
  1. Fill in the chart below with the date, requested item, your name and the quantity required.


Files to be made

Date Files Emailed Requested Item (Filename) Requestor Parts Ordered By/Date Quantity Per Robot Received Date
1/23/2014 P029 Cradle Bent Tube Roseanne A. Averill 2
1/23/2014 P031 Cradle Gusset Roseanne A. Averill 4
1/23/2014 P042 Linkage Trapezoid Roseanne A. Averill 2
1/23/2014 P053 Small Angle Support Bracket Roseanne A. Averill 1
1/23/2014 P055 Small Angle support Bracket Mirror Roseanne A. Averill 1
1/23/2014 P057 Battery Tray Roseanne A. Averill 1
1/23/2014 P069 U-Channel Roseanne A. Averill 1
1/23/2014 P073 U Mounting Motor Roseanne A. Averill 1
1/23/2014 P087 Support L Bracket Roseanne A. Averill 1
1/23/2014 P093 Solenoid bracket Mirror Roseanne A. Averill 2
1/26/2014 P029 Cradle Bent Tube Updated Roseanne A. Averill 2
1/26/2014 P042 Linkage Trapezoid Roseanne A. Averill 4
1/26/2014 P053 Small Angle Support Bracket Updated Roseanne A. Averill 1
1/26/2014 P055 Small Angle Support Bracket Mirror Updated Roseanne A. Averill 1
1/26/2014 P069 U-Channel Updated Roseanne A. Averill 1
1/26/2014 P095 Kicker Limit Sensor Mount Roseanne A. Averill 1
1/26/2014 P096 Kicker Limit Sensor Mount Mirror Roseanne A. Averill 1
1/26/2014 P106 Optical Sensor Mounting Board Roseanne A. Averill 2
1/26/2014 P108 Electrical Side Panel Right Roseannne A. Averill 1
1/26/2014 P109 Electrical Side Panel Left Roseanne A. Averill 1
1/26/2014 P110 Strenghting Bracket Roseanne A. Averill 2
1/26/2014 P115 Intake Ball Sensor Bracket Roseanne A. Averill 2
P A. Averill
P A. Averill
A. Averill

 


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