Brackets Tutorial 4: Basic Cardboard Aided Design: Difference between revisions

From Artisans Asylum Wiki
Line 59: Line 59:
[[File:Tut4_paint_can_tool.png|250px|paint can]]
[[File:Tut4_paint_can_tool.png|250px|paint can]]


In the three images that follow, the "Paint Can" tool is used white the colors in sequence: RED, WHITE, BLACK to color the appropriate areas of the image.  
In the three images that follow, the "Paint Can" tool is used with the colors in sequence: RED, WHITE, BLACK to color the appropriate areas of the image. The body of the bracket should end up black; the space around it and also the holes should end up white.


[[File:Tut4_red_paint.png|250px|red paint]]
[[File:Tut4_red_paint.png|250px|red paint]]

Revision as of 16:39, 17 November 2024


Link to: Bracketage Main Page

Introduction

Some people may find it easier to make a cardboard prototype of a sheet metal part rather than designing it in CAD. This tutorial shows how to convert a cardboard prototype into an image file and upload it to the CNC plasma cutter.

Prototyping

If you don't have the time or the inclination to use a CAD system or a 3D printer, you can perform what we call "Rapid Prototyping" using drafting tools and paints.

Cut a cardboard prototype as shown at actual size. Make sure it is colored either bright white or deep black to ease the scanning step. Note the dangling feature along the bottom edge, which is folded to make an angle brace.

Holes are defined by drawing spots of the contrasting color.

cutting thin strip thin strip folded proto

Image Processing

Scan the Prototype

If the prototype is 8-1/2" x 11" or smaller, you can scan it on a regular flatbed scanner. This is particularly convenient because it preserves the original scale of the part.

If the prototype is larger than the bed of the scanner, you will need to scan it in sections and paste them together using a graphics utility such as Photoshop or Paint.

Please note: You will need to place a solid background over the prototype to make a good scan. The image shown left is just an illustration. The scanned image to the right was made with a black piece of paper over the cardboard, and the scanner cover closed.

scanning thin strip thin strip raw scan

Reversing the Contrast

In the example shown, the cardboard prototype was painted white, with the holes marked in black. The Torchmate CAD utility program will only accept a black-on-white image.

In this section we will show how to accentuate and reverse the image contrast using the "Paint" utility program as an example.

  • First, you may need to clean up the image a bit. First, open the scan and save it as a "monochrome bitmap."

Please note that the first image has been modified to round out the circular holes and tidy up the edges. An ear has been added on the upper left edge. Not how the color options are limited when working with monochrome images.

  • Once the black-and-white image has been saved, select it (CTRL-A) and copy it to the clipboard (CTRL-C)
  • Open the "File" menu and pick "New"
  • The new file will open in full color. Paste the black-and-white version into the new window.
  • Select some color that isn't black or white and select the "Paint Can" tool as shown.

monochrome cleaned paint util thin strip new file thin strip paint can

In the three images that follow, the "Paint Can" tool is used with the colors in sequence: RED, WHITE, BLACK to color the appropriate areas of the image. The body of the bracket should end up black; the space around it and also the holes should end up white.

red paint thin strip white paint thin strip black paint

Save the new image. This is what will be uploaded to Torchmate CAD.