Difference between revisions of "Push Bending Profile Table"

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(About)
(Description of Values)
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<td></td>
 
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<td bgcolor="#d3e0f7"><b>Profile Name</b></td>
 
<td bgcolor="#d3e0f7"><b>Profile Name</b></td>
<td bgcolor="#f7ebc3">The name is how the profile is displayed and selected in the Bend Options.</td>
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<td bgcolor="#f7ebc3"><br><br>The name is how the profile is displayed and selected in the Bend Options.<br><br></td>
 
</tr>
 
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>Arm Angle</b></td>
 
<td bgcolor="#d3e0f7"><b>Arm Angle</b></td>
<td bgcolor="#f7ebc3">This is the final angle of the arm during push-bending.</td>
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<td bgcolor="#f7ebc3"><br><br>This is the final angle of the arm during push-bending.<br><br></td>
 
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>Arm vAdjust</b></td>
 
<td bgcolor="#d3e0f7"><b>Arm vAdjust</b></td>
<td bgcolor="#f7ebc3">This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.</td>
+
<td bgcolor="#f7ebc3"><br><br>This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.<br><br></td>
 
</tr>
 
</tr>
  
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>Arm vAdjust</b></td>
 
<td bgcolor="#d3e0f7"><b>Arm vAdjust</b></td>
<td bgcolor="#f7ebc3">This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.</td>
+
<td bgcolor="#f7ebc3"><br><br>This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.<br><br></td>
 
</tr>
 
</tr>
  
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>Feed Position</b></td>
 
<td bgcolor="#d3e0f7"><b>Feed Position</b></td>
<td bgcolor="#f7ebc3">This is how far the carriage must travel to achieve the "@ Degrees" value.</td>
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<td bgcolor="#f7ebc3"><br><br>This is how far the carriage must travel to achieve the "@ Degrees" value.<br><br></td>
 
</tr>
 
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>Feed Velocity</b></td>
 
<td bgcolor="#d3e0f7"><b>Feed Velocity</b></td>
<td bgcolor="#f7ebc3">This is the velocity of the carriage during the bend.  The velocity of the carriage is used to calculate a starting bend arm motion speed.</td>
+
<td bgcolor="#f7ebc3"><br><br>This is the velocity of the carriage during the bend.  The velocity of the carriage is used to calculate a starting bend arm motion speed.<br><br></td>
 
</tr>
 
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<td></td>
 
<td></td>
 
<td bgcolor="#d3e0f7"><b>@ Degrees</b></td>
 
<td bgcolor="#d3e0f7"><b>@ Degrees</b></td>
<td bgcolor="#f7ebc3">This is the angle of the tube that is achieved by the "Feed Position" value above.</td>
+
<td bgcolor="#f7ebc3"><br><br>This is the angle of the tube that is achieved by the "Feed Position" value above.<br><br></td>
 
</tr>
 
</tr>
  
 
</table>
 
</table>

Revision as of 16:56, 25 April 2008

Cncbender logo.jpg

Operatorstation model.jpg

About

This is a sample Push Bend Profile Table. Each profile row contains a profile setup for a given radius. An unlimited number of profile values can be entered. Using this method of calculation, it is possible to calculate different Push Bends by indicating the new bend angles.

Because we use this method of calculation, it is possible to correct push bent parts using measuring center connections. Correct the bend value, and the push bend values are automatically calculated during AutoBuild.


Cncbender v11 pushbend profilesetup.jpg



Description of Values

This is a description of each value in the Profile Table:

Value Name Description
Profile Name

The name is how the profile is displayed and selected in the Bend Options.

Arm Angle

This is the final angle of the arm during push-bending.

Arm vAdjust

This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.

Arm vAdjust

This allows the velocity of the bend arm to be adjusted by a percentage of the original calculated velocity.

Feed Position

This is how far the carriage must travel to achieve the "@ Degrees" value.

Feed Velocity

This is the velocity of the carriage during the bend. The velocity of the carriage is used to calculate a starting bend arm motion speed.

@ Degrees

This is the angle of the tube that is achieved by the "Feed Position" value above.