Brackets Tutorial 2b: Fabricating a Bracket from a Solidworks Design

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Link to: Bracketage Main Page

Backward to: Tutorial 2a

Solidworks and Metal Shop tutorial by Jim Bredt 20240611

Introduction

This tutorial is the continuation of an earlier tutorial where an existing metal bracket was rendered in Solidworks.

Here we will show how to export the Solidworks data to the Torchmate CNC plasma cutter located in the Metal Shop at Artisans Asylum. After cutting the flat piece from steel sheet it is bent into shape and welded at the seams.

Some of the tools used in this tutorial require training and tool testing. Classes are available. The planned class that incorporates these tutorials will include training on the tools.

Load the Solidworks Design

In the previous Solidworks tutorial a design was created for a sheet metal bracket. Load this design into Solidworks now.

bracket rendering


Under the "Sheet Metal" tab, click on the "Flatten" tool to render the design without the bends.

bracket flattened


Save the Part in DXF Format

Next we export a DXF file. Click on the (SW arrowhead icon.png) small arrowhead next to the Solidworks logo at the top left corner of the window. This will open up a conventional menu bar. Select "File" and then "Save As New". Browse to the desired location (such as your USB thumb drive) and choose a file name.

save as dxf


A listing opens in the left margin of the window (below left) that allows you to select an edge in the design and make it parallel to one of the axes on the CNC machine.

Click on the (SW check icon-.png) green check mark and another window opens that shows the contour of the cut in the DXF file. This window allows you to select erroneous features and exclude them from the saved file. Click on "Save".

select y axis
dxf check window
thin strip

Import DXF into Torchmate

Now we move to the CNC plasma cutter.

Run the Torchmate software. There are copies of the program on all of the Solidworks computers at AA. These can be used to check the validity of the data. To cut the part you need to move the DXF file via a USB thumb drive to the computer attached to the CNC plasma cutter.

On the "File" menu, select "Import DXF..." This will open a "Save As" dialog box asking for a file name and location of the converted data. Then it will open a second dialog box asking for data on certain parameters. For the most part the machine defaults should be okay. With experience you may find adjustments to make at this stage.

For example, if you had designed the part in millimeters instead of inches, the "Scale" parameter in the dialog box could be set to 0.03937 to size the part correctly.

import dxf menu
dxf import dbox
thin strip

When you click "Okay" the contour of the cut should appear in red in the graphic window on the screen. The "G-Code" representation of the cut appears at the bottom of the screen. Double-clicking on the code listing will open an Edit box that allows the data to be changed manually.


torchmate window

Check the speed setting for the cut. The graph below left indicates the speed should be about 120 inches/min for 1/8" sheet with a 45-amp nozzle. If the nozzle is worn, you may need to reduce it to 110 or 100. See Line 12 in the G-code fragment below right. The statement "F70.00" needs to be changed to "F100" in the Edit window. Double-click on the code listing to open the edit window and change the speed setting.

The speed setting might have been inserted into the "DXF Import" window, but usually that detail is uncertain when the operation is performed. There is another chance to change the speed using a percentage control (visible above) on the lower left of the Torchmate main window.


speed setting
code window
thin strip

You are now ready to cut the sheet. If you are unsure what to do, please review the user training document. This is a red tool. You must be trained and tool-tested to use it.

Set up the Cut

Get a sheet of 1/8" steel that is at least 12½" x 3½" in size. Place it on the cutting bed with the long axis oriented in the Y (transverse) direction of the table.

Install a nozzle. For cutting 1/8" steel, use the 45-Amp nozzle hardware.

nozzle pack
nozzle install
thin strip


Jog the torch over to a clean section of metal sheet in the correct orientation.

Verify that all of the settings on the torch height control are correct (refer to the user training document) and arm the torch.

torch to metal
set AVHC
thin strip

Cut the Part

Warning Safety glasses Eye protection required!


Put on shaded goggles and hit the "Start" button on the computer to start cutting.


torchmate cutting

Sheet Metal Blank

Shown below is the blank piece for the bracket as cut. Compare with the flat design at the top of this document.


sheet as cut


Sometimes you will find some dross adhering to the bottom edge of cuts made on the plasmatron. Often this material flakes off very easily, but occasionally it is necessary to grind the edges of the workpiece.

Bend the Sheet

The 1/8" sheet used in this project is too thick to be bent on the shop box and pan brake. To make the bends in the bracket, use the hydraulic shop press in the back of the Metal Shop with its bending hardware installed.

press
bending tool
thin strip


Mark lines on the sheet with a Sharpie marker to help line the bends up on the tool. Place all of the components carefully and pump the handle gradually. Check the bend with a square periodically to ensure you don't overshoot and make a bend greater than 90°. It will be nearly impossible to bend back if you go too far.

bending
bracket bent
thin strip

Weld the Bracket

  MIG welding is the most convenient method to use on this part.  These welders are red tools.  Training and tool-testing are required.
MIG welding


The ideal settings for the machine are found on a pull-down reference on the front panel.

MIG settings
bracket welded
thin strip


The piece can be finished by sand-blasting and powder coating. Those processes may be the subject of a later tutorial.

This concludes the tutorial on reverse-engineering a bracket.