Stitch Era - creating embroidery patches

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Draft

Introduction

This article describes how to create embroidery patches, also called cloth badges for example, and that you can attach to cloth by various means.

A typical embroidery patch has the following properties

  • It is stitched on some solid fabric (or special plastic)
  • It usually covers the whole surface
  • It is relatively small, i.e. 3cm to 8cm
  • It can have various shapes, e.g. astronaut patches are round.

The difficulty consists in getting the borders right.

Example study - 3D printing badge

3d-printed-hand-noun 353559.svg

Let us start with a 3D printed hand from the noun-project.

Before importing it to Stitch Era we made some adjustment to the SVG in Inksacpe

  • Adjust size to 8cm by 8cm using Inkscape.
  • Adapt document size to drawing size plus 1mm (File -> Document Properties)
  • Save as optimized SVG
  • Save as simple SVG

Import to stitch Era, adjust size (again) and ungroup

  • Importing to Stitch Era was OK, but the size was wrong
  • Artwork Tab -> Layout. Set the size to 80
  • Artwork Tab -> Layout. Un group all

We now have three vector objects, i.e. the printer, the hand and a platform. We changed colors for each one.

3D printing icon imported and ungrouped

Since a back is supposed to be stitched fully, we now will add a background. The simplest way to do this, is to create a contour and then fill it:

  • Select all or just the printer object
  • Artwork Tab -> Layout. Click on Contour with Offset
  • Select Custom and keep the defaults (outer offset)
  • Kill the superfluous objects created inside the printer (2 red vector lines)
Kill the two selected lines

Now transform the red rounded rectangle into a light blue filled rectangle with a fat border.

Background with a fat black border

Unfortunately Stitch Era cannot deal with SVG path that have holes inside, i.e. the printer will appear differently than planned. We tried "Trim shapes" and "Simplify to not effect". We now have two choices, either accept the result (i.e. a more massive 3D printer with most holes filled) or else either exporting the printer shape, and reimporting it as PNG image or start from the original SVG (export the printer shape from Inkscape). We just exported the printer shape, transformed the shape with paint and brought it back as PNG and then digitized. This took no more than 2 minutes.

[... to be continued]