Difference between revisions of "VTube Rectangular Tubes"

From ATTWiki
Jump to: navigation, search
(Created page with "<table> <tr> <td width=300> ==VTube Rectangular Tubes== * Back to VTube-STEP * Back to VTube-LASER </td> <td> 300px<br> image:Vtube-la...")
 
(Measuring Rectangular Tubes)
 
(58 intermediate revisions by one user not shown)
Line 1: Line 1:
 +
 
<table>
 
<table>
 
<tr>
 
<tr>
 
<td width=300>
 
<td width=300>
==VTube Rectangular Tubes==
+
__TOC__
 
* Back to [[VTube-STEP]]
 
* Back to [[VTube-STEP]]
 
* Back to [[VTube-LASER]]
 
* Back to [[VTube-LASER]]
 +
  
 
</td>
 
</td>
Line 21: Line 23:
 
<tr>
 
<tr>
 
<td width=600>
 
<td width=600>
VTube-STEP and VTube-LASER can handle rectangular tube shapes as well as cylindrical.</td>
+
As of version 1.82, VTube-STEP and VTube-LASER can draw, calculate, and measure rectangular tube shapes.</td>
 
</tr>
 
</tr>
 
</table>
 
</table>
  
 +
==Drawing Rectangular Tube Shapes==
  
==3D-Tool==
 
[[image:vtube-step_3dtoolscreen.jpg|500px]]
 
 
<table width=700>
 
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
 
<td width=400>
 
<td width=400>
 
+
VTube can draw rectangular or square tubing.  The dimensional controls are in the Part Setup menu of both STEP and LASER modes:<br><br>
 +
[[image:vtube-1.82_rectangular_partsetup_dimensions.jpg|300px]]<br><br>
 
</td>
 
</td>
<td>
+
<td width=300>
 +
[[image:vtube-step-1.82.rectangulartube_7points.jpg|300px]]
 
</td>
 
</td>
 
</tr>
 
</tr>
 +
</table>
 +
<br><br>
  
<tr valign="top">
+
===VTube - Profile Shapes===
<td>
+
This Premium version of 3D-Tool includes a converter that converts the native models to standard file formats like STEP.  The program is also excellent for measuring any geometry available in the model.
+
  
<table>
 
  
 +
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
<td width=200><font size=3>FORMAT</font></td>
+
<td width=400>
<td width=200><font size=3>FILE EXTENSIONS</font></td>
+
====Square Tube====
</tr>
+
[[image:vtube-1.82_rectangular_endsample_values_3.jpg|300px]]<br><br>
 +
Set Width1 and Width2 to the same values to draw square tube.<br><br>
 +
The rectangular fillet radius controls the four corner radii.<br><br>
 +
</td>
 +
<td width=300>
  
 
+
[[image:vtube-1.82_rectangular_endsample_3.jpg|300px]]<br><br>
<tr valign="top">
+
</td>
<td width=200>CATIA V5 R2 - R22</td>
+
<td width=200>(*.CATPart, *.CATProduct)</td>
+
 
</tr>
 
</tr>
 +
</table>
  
 +
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
<td>CATIA V4 4.1.9 - 4.2.4</td>
+
<td width=400>
<td>(*.model, *.exp, *.session)</td>
+
</tr>
+
  
<tr valign="top">
+
====Rectangular - Bending "Easy Way"====
<td>Pro/E 16 - Wildfire 5, Creo1.0 </td>
+
[[image:vtube-1.82_rectangular_endsample__values_1.jpg|300px]]<br><br>
<td>(*.prt, , *.asm , *.xpr, *.xas)</td>
+
This profile orientation is referred to as the "easy way" bending in the tubing industry. The reason is because this orientation is easier to bend than a profile rotated 90 degrees to this.
 +
</td>
 +
<td width=300>
 +
[[image:vtube-1.82_rectangular_endsample_1.jpg|300px]]
 +
</td>
 
</tr>
 
</tr>
 +
</table>
  
 +
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
<td>Autodesk Inventor</td>
+
<td width=400>
<td>6-2012 (*.ipt), 11-2012 (*.iam)</td>
+
</tr>
+
  
<tr valign="top">
+
====Rectangular - Bending "Hard Way"====
<td>Solidworks, 98-2012</td>
+
[[image:vtube-1.82_rectangular_endsample__values_2.jpg|300px]]<br><br>
<td>(*.sldasm, sldprt)</td>
+
You can switch the values in the Width1 and Width2 to rotate the tube shape into the "hard way" bending method.
 +
</td>
 +
<td width=300>
 +
[[image:vtube-1.82_rectangular_endsample_2.jpg|300px]]<br><br>
 +
</td>
 
</tr>
 
</tr>
 +
</table>
  
<tr valign="top">
+
===VTube - Profile Rotations===
<td>Unigraphics 11-18, NX-NX8</td>
+
<td>(*.prt)</td>
+
</tr>
+
  
<tr valign="top">
 
<td>STEP files</td>
 
<td>(*.stp, *.step)</td>
 
</tr>
 
  
 +
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
<td>IGES files</td>
+
<td width=400>
<td>(*.igs, *.iges)</td>
+
====Square Tube Rotation====
 +
[[image:vtube-1.82_rectangular_endsample_values_4.jpg|300px]]<br><br>
 +
Set the Rectangular Angle to rotate the profile of a square tube relative to the plane of the first bend.</td>
 +
<td width=300>
 +
[[image:vtube-1.82_rectangular_endsample_4.jpg|300px]]<br><br>
 +
</td>
 
</tr>
 
</tr>
 +
</table>
  
 +
<table width=700>
 
<tr valign="top">
 
<tr valign="top">
<td>VDA files</td>
+
<td width=400>
<td>(*.vda)</td>
+
</tr>
+
  
<tr valign="top">
+
====Rectangular Tube Rotation====
<td>SAT files</td>
+
[[image:vtube-1.82_rectangular_endsample_values_5.jpg|300px]]<br><br>
<td>(*.sat)</td>
+
The same rotation feature works for rectangular tubing.</td>
 +
<td width=300>
 +
[[image:vtube-1.82_rectangular_endsample_5.jpg|300px]]<br><br>
 +
</td>
 
</tr>
 
</tr>
 +
</table>
  
<tr valign="top">
 
<td>PARASOLID files V10-V25</td>
 
<td>(*.x_t; *.x_b)</td>
 
</tr>
 
  
<tr valign="top">
+
<br><br>
<td>STL-Dateien</td>
+
<td>(*.stl)</td>
+
</tr>
+
  
<tr valign="top">
+
==Extracting Rectangular Shape Centerlines from Models==
<td>VRML1, VRML2 files</td>
+
<td>(*.wrl)</td>
+
</tr>
+
  
<tr valign="top">
+
<table cellpadding=10>
<td>Render files</td>
+
<tr valign=top>
<td>(*.slp)</td>
+
<td width=400>
</tr>
+
  
<tr valign="top">
+
VTube can calculate the centerline of rectangular tube solid models.  The operator imports the STEP and IGES model, collects the fillet corners of a rectangular shape to calculate the centerline of the rectangular solid model, then calculates the centerline.<br><br>
<td>PLY files</td>
+
<td>(*.ply)</td>
+
</tr>
+
  
<tr valign="top">
+
* <b>OUTER DIAMETER SELECTION:</b>Three fillets are selected in each straight's out diameter. This will calculate the centerline.<br><br>
<td>XGL files</td>
+
<td>(*.xgl *.zgl)</td>
+
</tr>
+
  
<tr valign="top">
+
* <b>WALL THICKNESS:</b> The wall thickness can also be extracted from the model by selecting one of the inner diameter fillets in any straight.<br><br>
<td>OBJ files</td>
+
<td>(*.obj)</td>
+
</tr>
+
  
<tr valign="top">
+
* <b>RECTANGULAR PROFILE:</b> If possible, VTube will calculate the rectangular profile widths, fillet radii, and the profile start angle to the first bend plane.<br><br>
<td>3DS files</td>
+
<td>(*.3ds *prj *.pli)</td>
+
</tr>
+
  
<tr valign="top">
 
<td>ASC files</td>
 
<td>(*.asc)</td>
 
</tr>
 
  
<tr valign="top">
+
</td>
<td>DXF files 3D</td>
+
<td width=300>
<td>(*.dxf , 3D-Faces)</td>
+
[[image:vtube-1.82_rectangular_fillet_collection.jpg|300px]]<br><br>
 +
</td>
 
</tr>
 
</tr>
 +
</table>
  
<tr valign="top">
+
<br><br>
<td>Inventor files</td>
+
<td>(*.iv)</td>
+
</tr>
+
  
<tr valign="top">
+
==Measuring Rectangular Tubes==
<td>3D-Tool files</td>
+
<td>(*.ddd)</td>
+
</tr>
+
  
<tr valign="top">
+
<table cellpadding=10>
<td>3D-Tool-EXE files</td>
+
<tr valign=top>
<td>(*.exe)</td>
+
<td width=400>
</tr>
+
  
<tr valign="top">
+
VTube measures rectangular and square tube shapes with the laser or ball probes.<br><br>
<td>DXF files (2D)</td>
+
<td>(*.dxf)</td>
+
</tr>
+
  
<tr valign="top">
+
[[image:vtube-laser-1.82_rectangulartubes_scanneddata.jpg|300px]]<br><br>
<td>DWG files (2D)</td>
+
<td>(*.dwg)</td>
+
</tr>
+
  
<tr valign="top">
+
* <b>FILLET EDGE DETECTION:</b>The laser scanning feature includes edge detection in order to remove the fillet from the plane calculations. In this image, see how VTube detects edge fillets and removes them automatically from the calculation of the planes.<br><br>
<td>HPGL (2D)</td>
+
<td>(*.plt, *.plo, *.hpg)</td>
+
</tr>
+
  
</table>
+
* <b>TRUE CENTERLINE LOCATION:</b> The process and logic automatically calculates the location of the centerline from the true surface data. The nominal width data is not needed to find the centerline. <br><br>
  
</td>
+
* <b>OVAL TUBE with FLAT SIDES:</b> VTube can also measure rectangular oval tube shapes with large radius edges using the ball probe.  (This profile shape of tube is often used on exercise equipement like [[http://www.cybexintl.com Cybex machines]], and in custom exhaust like [http://www.spintechmufflers.com/oval-tubing/customized-tubing/cat_137.html SpinTech Performance].)<br><br>
<td>
+
</td>
+
</tr>
+
</table>
+
*This company web site is http://3d-tool.com.
+
*The file format list is [http://3d-tool.com/english/cad-viewer-formats.htm here]
+
  
<br><br>
 
  
==Magic View & Converter==
 
<table>
 
 
<tr valign="top">
 
<td width=400>
 
We recommend Magic View & Converter to import and view CATIA notes files.  (This is only a viewer program.)
 
<br><br>
 
*The company web site is http://magic-m-soft.com
 
 
</td>
 
</td>
<td>
 
</td>
 
</tr>
 
</table>
 
[[image:magicviewconverter_screen_solid.jpg|400px]]<br><br>
 
[[image:magicviewconverter_screen.jpg|400px]]
 
<br><br>
 
 
== AutoCAD to STEP Plug-in ==
 
[[image:syscode_autocad_step.jpg|400px]]
 
<table>
 
<tr>
 
 
<td width=300>
 
<td width=300>
* Website for [http://www.sycode.com/products/step_export_ac/index.htm Syscode AutoCAD to STEP Converter]
+
[[image:vtube-laser-1.82_rectangulartubes_aligned.jpg|300px]]<br><br>
</td>
+
[[image:vtube-laser-1.82_rectangular_scanneddata_closeup.jpg|300px]]<br><br>
<td>
+
[[image:vtube-laser-1.82_rectangular_endsample_largefillet.jpg|300px]]
 
</td>
 
</td>
 
</tr>
 
</tr>

Latest revision as of 16:02, 27 June 2013

Contents


Vtube-step logo.jpg
Vtube-laser logo.jpg

As of version 1.82, VTube-STEP and VTube-LASER can draw, calculate, and measure rectangular tube shapes.

Drawing Rectangular Tube Shapes

VTube can draw rectangular or square tubing. The dimensional controls are in the Part Setup menu of both STEP and LASER modes:

Vtube-1.82 rectangular partsetup dimensions.jpg

Vtube-step-1.82.rectangulartube 7points.jpg



VTube - Profile Shapes

Square Tube

Vtube-1.82 rectangular endsample values 3.jpg

Set Width1 and Width2 to the same values to draw square tube.

The rectangular fillet radius controls the four corner radii.

Vtube-1.82 rectangular endsample 3.jpg

Rectangular - Bending "Easy Way"

Vtube-1.82 rectangular endsample values 1.jpg

This profile orientation is referred to as the "easy way" bending in the tubing industry. The reason is because this orientation is easier to bend than a profile rotated 90 degrees to this.

Vtube-1.82 rectangular endsample 1.jpg

Rectangular - Bending "Hard Way"

Vtube-1.82 rectangular endsample values 2.jpg

You can switch the values in the Width1 and Width2 to rotate the tube shape into the "hard way" bending method.

Vtube-1.82 rectangular endsample 2.jpg

VTube - Profile Rotations

Square Tube Rotation

Vtube-1.82 rectangular endsample values 4.jpg

Set the Rectangular Angle to rotate the profile of a square tube relative to the plane of the first bend.

Vtube-1.82 rectangular endsample 4.jpg

Rectangular Tube Rotation

Vtube-1.82 rectangular endsample values 5.jpg

The same rotation feature works for rectangular tubing.

Vtube-1.82 rectangular endsample 5.jpg




Extracting Rectangular Shape Centerlines from Models

VTube can calculate the centerline of rectangular tube solid models. The operator imports the STEP and IGES model, collects the fillet corners of a rectangular shape to calculate the centerline of the rectangular solid model, then calculates the centerline.

  • OUTER DIAMETER SELECTION:Three fillets are selected in each straight's out diameter. This will calculate the centerline.

  • WALL THICKNESS: The wall thickness can also be extracted from the model by selecting one of the inner diameter fillets in any straight.

  • RECTANGULAR PROFILE: If possible, VTube will calculate the rectangular profile widths, fillet radii, and the profile start angle to the first bend plane.


Vtube-1.82 rectangular fillet collection.jpg



Measuring Rectangular Tubes

VTube measures rectangular and square tube shapes with the laser or ball probes.

Vtube-laser-1.82 rectangulartubes scanneddata.jpg

  • FILLET EDGE DETECTION:The laser scanning feature includes edge detection in order to remove the fillet from the plane calculations. In this image, see how VTube detects edge fillets and removes them automatically from the calculation of the planes.

  • TRUE CENTERLINE LOCATION: The process and logic automatically calculates the location of the centerline from the true surface data. The nominal width data is not needed to find the centerline.

  • OVAL TUBE with FLAT SIDES: VTube can also measure rectangular oval tube shapes with large radius edges using the ball probe. (This profile shape of tube is often used on exercise equipement like [Cybex machines], and in custom exhaust like SpinTech Performance.)


Vtube-laser-1.82 rectangulartubes aligned.jpg

Vtube-laser-1.82 rectangular scanneddata closeup.jpg

Vtube-laser-1.82 rectangular endsample largefillet.jpg



Other Pages