Building a Delta Printer – Part I: Prerequisites

Introduction and Motivation

A few years ago, 3D-printing caught my attention. When you’re a maker and constantly in need of specialized parts in small batches for your projects, rapid prototyping is a technique that can be extraordinary useful – and once tried out, I’d say your hobbyist life can’t be imagined without it.

A short time reading into the topic passed, and I decided to build a printer on my own. Vincent Grampp from the german reprap-subforum developed the Sparkcube, which is a cartesian printer based on the CoreXY system. I think that this particular approach is very sophisticated and so I ordered the printed parts from his shop and started gathering the remaining components from my own findings or chinese suppliers.

It didn’t take long until I could deposit the first sausages of molten plastic on the printing bed, and some meaningful prints were to follow as well. Somehow though, I never managed to increase the print quality beyond a certain point. These days, I also know why: Being the cheapo that I am, I always chose the money-saving options, and instead of sticking to the BOM, I searched for ways to improvise with stuff that I had lying around. The result was a printer that worked quite good, but not as good as it could. Moreover, I completely lost the motivation to improve the printer as a complete makeover would have been necessary.

A few days ago, 3D-printing recaught my attention. Somehow, I stumbled across a video of a Delta printer in action. This was the point where I knew what was needed to finally have a printer that was fun to operate. The footprint of a Delta is small enough so it can be placed in my student apartment. This is a huge benefit, as I can only operate my old printer whenever I drive home (every couple months).

BOM

My decision fell on the standard Kossel by Johann C. Rocholl. Instead of printed parts, which are prone to fractures when e.g. the screws are tightened a tad to much, I opted for a set of injection molded parts from chinese manufacturer Micromake.

Framing and Structural Parts

  • Set of injection molded Kossel parts, Micromake – 32 €
  • 9x 240mm + 3x 600mm 20x20mm aluminium extrusions, Motedis – 20 €
  • 50+ T-slot nuts, mostly M4 size
  • 6x Carbon rods for mounting the extruder, Micromake – 13€
  • 3x Aluminium effectors, Aliexpress – 15€
  • 5m GT2 Timing Belt, Aliexpress – 4€
  • 3x HIWIN MGN12-H linear guide rail, Aliexpress – 3×22€
  • 6x F623zz flanged bearing, eBay – 7€

Electronics

  • RAMPS 1.4 control board with Arduino MEGA
  • 4x DRV8825 stepper driver
  • 4x NEMA17 stepping motor, 1.8 deg/step
  • 2004 LCD Smart Controller, Micromake – 10€

Additional Parts

  • J-Head MkV Hotend

This bill of materials is by no means complete and more items will be added throughout the build. I am currently waiting for the first components to arrive from the various suppliers. In the next article, you will learn about the assembly of the framing and the main structural parts.

Alex