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== How To Change The Sheet Metal Defaults  In Inventor To Match Harris Shop Requirements ==
<p><span style="font-size: 18pt;">NEW PROCESS IN&nbsp; DEVELOPMENT FOR USE WITH ONSHAPE. PLEASE BE PATIENT!</span></p>
== How To Submit Parts for Fabrication at L3Harris, for the PHS Shop (Team Made), or for the PHS CNC (Team Made) ==


<span style="font-size:small;"><span style="line-height: 19.5px;">a. Click o</span><span style="line-height: 19.5px;">n SHEET&nbsp;METAL DEFAULTS on the sheet metal ribbon. you will get a pop-up window.</span></span>
Follow the steps below for proper modeling and submittal of parts. It is critical to understand the type of part that is being made (sheet metal 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.


<span style="font-size:small;"><span style="line-height: 19.5px;">b. click on the lower right PENCIL icon. you will get a pop-up window.</span></span>
If you have any questions for parts going to L3Harris for manufacturing, please ask Amy Averill (amy.averill@L3harris.com).


<span style="font-size:small;"><span style="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></span>
=== Steps For Fabrication ===


<span style="font-size:small;"><span style="line-height: 19.5px;">d. click DONE in the lower right corner.</span></span>
#Determine if the part will be a sheet metal part, Machined (solid) part, or a 3-d printed part</br>
#*'''Sheetmetal Parts:''' flat parts with holes that go all the way through the material, and may get bent into a shape
#*'''Machined Parts:''' (1) pieces with intricate surfaces made from a block of metal or plastic, square or rectangular tube. (2) pieces made with bar stock, tube stock, hex rods or churro tube that needs to be cut to length, and or other features added.
#*'''3-D printed parts:''' pieces designed to be manufactured using the 3-D printing process.
#<p style="margin-top: 25px">Open the year specific Parts and Assembly Log (in Teams Robot Design channel) – assign the next number and complete the associated columns of the log for the part design phase.</p>
#<p style="margin-top: 25px">Design the part in OnShape and create a part drawing for it:</br><span style="margin-left: 40px">NOTE: If you need to rename the part in OnShape: in the Part Studio, right-click in instances panel, then select Rename.</span></br><span style="margin-left: 40px">NOTE: Be sure to follow the instructions carefully! Your part will be rejected and not made if you do not follow the instructions!</span></br><span style="margin-left: 40px; color: #ff0000">NOTE: Have all files checked by a mentor!</span></br><span style="margin-left: 40px">NOTE: [[OnShape Tips and Tricks|OnShape Tips and Tricks]]</span></p>
#*<p style="margin-top: 25px">'''Sheetmetal Parts:'''</p>
#**You '''must''' meet very specific requirements in the design of your part. Follow these steps <span style="font-size: 14pt;" >[[Creating_a_Sheet_Metal_Part_in_OnShape_for_the_L3Harris_Model_Shop|Creating a Sheet Metal Part Drawing]]</span>
#*<p style="margin-top: 25px">'''Machined Parts''' (for our shop):</p>
#**Create your part
#**Create a drawing following the instructions here: <span style="font-size: 14pt;" >[[Creating_a_Part_Drawing_Using_OnShape|Creating a Part Drawing]]</span>
#*<p style="margin-top: 25px">'''Machined Parts''' (for our CNC):</p>
#**Create your part
#**Create a drawing following the instructions here: <span style="font-size: 14pt;" >[[Creating_a_Part_Drawing_Using_OnShape|Creating a Part Drawing]]</span>
#**TBD [[Fabrication - .stp|.stp]]
#*<p style="margin-top: 25px">'''Machined Parts''' (for L3Harris):</p>
#**Create your part
#**Create a drawing following the instructions here: <span style="font-size: 14pt;" >[[Creating_a_Part_Drawing_Using_OnShape|Creating a Part Drawing]]</span>
#**Create a .PDF following the instructions here: <span style="font-size: 14pt;" >[[Create_a_.PDF_of_the_part_drawing|Creating a .PDF of a part drawing]]</span>
#**Create a .STP file following the instructions here: <span style="font-size: 14pt;" >[[Creating a .STP file]]</span>
#**Send your .STP file and .PDF to L3Harris using the instructions here: <span style="font-size: 14pt;">[[Sending Files to L3Harris]]</span>
#*<p style="margin-top: 25px">'''3D Printed Parts''':</p>
#**Create your part
#**Create a drawing following the instructions here: <span style="font-size: 14pt;" >[[Creating_a_Part_Drawing_Using_OnShape|Creating a Part Drawing]]</span>
#**Create a .STL file for the 3D printer following the instructions here: <span style="font-size: 14pt;" >[[Creating a .STL File]]</span>


<span style="font-size:small;"><span style="line-height: 19.5px;">e. you will be returned to the pop-up window</span></span>


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


<span style="font-size:small;"><span style="line-height: 19.5px;">g. click APPLY&nbsp;</span></span>


<span style="font-size:small;">h. change thickness to .062, .093, or .125.</span>


<span style="font-size:small;">i. click upper right PENCIL icon</span>
<span style="color: #ff0000">THE FOLLOWING ARE OLD STEPS, SO SKIP THEM</span>


<span style="font-size:small;">j. click on BEND tab</span>
#*You made the required files in the prior step!
 
#*;''Sheetmetal Parts''
<span style="font-size:small;">k. Change BEND RADIUS thickness to .032</span>
#**[[SHEETMETAL PARTS|.pdf]] (''[[Fabrication - .pdf|old instructions]]'')
 
#**[[SHEETMETAL PARTS|.dxf]] - '''Must be 2000LT''' (''[[Fabrication - .dxf|old instructions]]'')
<span style="font-size:small;">l. click DONE</span>
#*;''Machined Parts''
 
#**[[Fabrication - .pdf|.pdf]]
<span style="font-size:small;">m. CLOSE</span>
#**[[Fabrication - .stp|.stp]]
 
#Update the Google Drive Part & Assembly log to indicate that the part has been sent to L3Harris for fabrication.<br><br>
<span style="font-size:small;">n. click SAVE</span>
<span class="mwt-editable mwt-comment" id="R1737408841880" " draggable="false" contenteditable="true">
 
{| style="height:50px;width:760px;" border="1" cellspacing="1.5" cellpadding="1"
<span style="font-size:small;">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.</span>
|-
 
! scope="col" | Date Files Emailed
== How To Submit Parts for Fabrication At Harris ==
! scope="col" | Requested Item (Filename)
! scope="col" | Requestor
! scope="col" | Parts Ordered By/Date
! scope="col" | Quantity Per Robot
! scope="col" | Received Date
|}


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>
== How To 3D Print Parts ==
#*''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!


''Sheetmetal Parts'':
Follow the steps below for proper modeling of 3D printed parts.
<ul style="margin-left: 40px;">
<li>[[Fabrication - .pdf|.pdf]]</li>
<li>[[Fabrication - .dxf|.dxf]] - '''Must be 2000LT'''</li>
</ul>


'''​​​​'''​​''Machined Parts'':
If you have any questions, please ask Dave.
<ul style="margin-left: 40px;">
<li>[[Fabrication - .pdf|.pdf]]</li>
<li>[[Fabrication - .stp|.stp]]</li>
</ul>


'''<span style="color: #ff0000">Fill in the chart below with the date, requested item, your name and the quantity required.</span>'''
=== Steps For 3D Printing [https://docs.google.com/document/d/14irjYK9dBww8BxdWR39N614V5eNRXdvq/edit?usp=sharing&ouid=110982024978805285401&rtpof=true&sd=true (Detailed Instructions)] ===
#Open the part file you want to 3D Print
#Do an Export --> CAD Format
#Change the Save As Type to STL Files (*STL)
#In the file Dialog press the Options... button.
#Make sure the Format is set to Binary.
#Set the Units pull down selector to mm.
#Set the Resolution to High.
#Leave everything else as default.
#Press the OK button.
#Back in the file dialog navigate to the location you want to save the file and update the file name.  Put 3D printer files in ..\02 Build Season (ROBOT)\10 Shop Drawings\3D Printer.
#Press the Save button in the file dialog.
#Create a drawing of the part and put it in the shop binder.
#Uncheck the box for Export Colors


'''<span style="color: #ff0000"></span>'''


== Files to be made ==
 


{| style="height:50px;width:760px;" border="1" cellspacing="1.5" cellpadding="1"
''<u>NOTE:</u>'' The dimensions for a clearance hole for 1/2 inch hex axle is .60 inches from a corner of the hexagon to the opposite corner, as per photo below. 
|-
! scope="col" | Date Files Emailed
! scope="col" | Requested Item (Filename)
! scope="col" | Requestor
! scope="col" | Parts Ordered By/Date
! scope="col" | Quantity Per Robot
! scope="col" | Received Date
|}


&nbsp;
[[File:Hexagon.png|RTENOTITLE]]


== Archives ==
== Archives ==


*[[2009:Fabrication|2009 Fabrication Page]]
*[[2009:Fabrication|2009 Fabrication Page]]

Latest revision as of 13:14, 1 February 2025

NEW PROCESS IN  DEVELOPMENT FOR USE WITH ONSHAPE. PLEASE BE PATIENT!

How To Submit Parts for Fabrication at L3Harris, for the PHS Shop (Team Made), or for the PHS CNC (Team Made)

Follow the steps below for proper modeling and submittal of parts. It is critical to understand the type of part that is being made (sheet metal 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 for parts going to L3Harris for manufacturing, please ask Amy Averill (amy.averill@L3harris.com).

Steps For Fabrication

  1. Determine if the part will be a sheet metal part, Machined (solid) part, or a 3-d printed part
    • Sheetmetal Parts: flat parts with holes that go all the way through the material, and may get bent into a shape
    • Machined Parts: (1) pieces with intricate surfaces made from a block of metal or plastic, square or rectangular tube. (2) pieces made with bar stock, tube stock, hex rods or churro tube that needs to be cut to length, and or other features added.
    • 3-D printed parts: pieces designed to be manufactured using the 3-D printing process.

  2. Open the year specific Parts and Assembly Log (in Teams Robot Design channel) – assign the next number and complete the associated columns of the log for the part design phase.

  3. Design the part in OnShape and create a part drawing for it:
    NOTE: If you need to rename the part in OnShape: in the Part Studio, right-click in instances panel, then select Rename.
    NOTE: Be sure to follow the instructions carefully! Your part will be rejected and not made if you do not follow the instructions!
    NOTE: Have all files checked by a mentor!
    NOTE: OnShape Tips and Tricks



THE FOLLOWING ARE OLD STEPS, SO SKIP THEM

  2. Update the Google Drive Part & Assembly log to indicate that the part has been sent to L3Harris for fabrication.

Date Files Emailed Requested Item (Filename) Requestor Parts Ordered By/Date Quantity Per Robot Received Date


.

How To 3D Print Parts

Follow the steps below for proper modeling of 3D printed parts.

If you have any questions, please ask Dave.

Steps For 3D Printing (Detailed Instructions)

  1. Open the part file you want to 3D Print
  2. Do an Export --> CAD Format
  3. Change the Save As Type to STL Files (*STL)
  4. In the file Dialog press the Options... button.
  5. Make sure the Format is set to Binary.
  6. Set the Units pull down selector to mm.
  7. Set the Resolution to High.
  8. Leave everything else as default.
  9. Press the OK button.
  10. Back in the file dialog navigate to the location you want to save the file and update the file name.  Put 3D printer files in ..\02 Build Season (ROBOT)\10 Shop Drawings\3D Printer.
  11. Press the Save button in the file dialog.
  12. Create a drawing of the part and put it in the shop binder.
  13. Uncheck the box for Export Colors


 

NOTE: The dimensions for a clearance hole for 1/2 inch hex axle is .60 inches from a corner of the hexagon to the opposite corner, as per photo below. 

RTENOTITLE

Archives

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