Seed Drill Punch

Edit the infobox
Seed Drill Punch
SeedHolder.JPG
Description In the most basic form, a seed drill is a device that will position seeds in soil, without waste. This idea was an improvement over sowing seeds, where soil was tilled and seeds were thrown over the dirt.
Keywords 3D printing, seed drill, sowing, tilling, farming
Uses agriculture, development
Authors Jeff Brookins
Status Prototype
Made? Yes
Replicated? Was this project made independently by someone other than the authors and without their guidance? No
Countries of design United States
Estimated cost USD $ 38,815
Sustainable Development Goals SDG02 Zero hunger
SDG08 Decent work and economic growth
SDG11 Sustainable cities and communities
Documentation data
Language English
Manifest data
Language English
Updated 2020-06-04
Author Kathy Nativi
Author affiliation Appropedia
Author email info@appropedia.org

3D Printed Seed Drill Punch for Hard SoilEdit

Project developed by --Jmbrooki (talk) 07:05, 2 December 2014 (PST)


AbstractEdit

  1. In the most basic form, a seed drill is a device that will position seeds in soil, without waste. This idea was an improvement over sowing seeds, where soil was tilled and seeds were thrown over the dirt. Before a mechanical device was invented, the solution was to individually plant seeds, by hand.[1]
  2. My proposed improvement is to create a seed reservoir, which will resemble a funnel, with the drill punch going through the center. This design will allow seed to be distributed into individual holes, regardless of soil compaction. While this design may not permit the fast movement of the powered-tiller designs[2], it will allow an individual the ability to seed a field regardless of soil composition.

Bill of MaterialsEdit

  1. Printed Parts
    1. One (1) Seed Reservoir
    2. One (1) Spring Support and Drill Guide
    3. One (1) Lid
  2. PVC Pipe
  3. Rope, Cord, Twine, etc.
  4. Spring

Tools needed for fabrication of the OSATEdit

  1. MOST Delta RepRap or similar RepRap 3-D printer
  2. PVC Pipe for Low-Cost Handle
  3. Epoxy for Gluing Handle
  4. Spring
  5. Twine, Cord, Rope, etc.

SCAD Files and Thingiverse LinkEdit

Technical Specifications and Assembly InstructionsEdit

  • Total Printing Time was around ~25 hours. However, this was with extremely slow printing speeds.
  • Given a faster printer, this will easily be a one-day build project.

Assembly InstructionsEdit

  1. Ensure that all printed pieces fit together. Place the spring guide into the seed reservoir, then guide the drill bit through both holes, exposing the tip of the drill through the reservoir.
  2. Glue your handle to the center of the seed drill plunger.
  3. Assemble all the parts, and lace the tie downs with twine.

Common Problems and SolutionsEdit

  • A problem I ran into was that I scaled all parts to 2000%. Unfortunately, the seed drill plunger came out to large, and the corresponding holes needed to be filed down. I would recommend scaling the plunger less than the reservoir and guide.

Cost savingsEdit

  • Commercial Equivalent: $39,000+
  • Small Household Equivalent: $99.95[3]
  • OSAT Seed Drill: $13.50 - $18.50
  1. Printed Parts: $10-15
  2. PVC Pipe, 1.5in x 4ft: $2.50
  3. Spring: $1


  • Total Cost Savings from Commercial Equivalent, assuming you print 10 Seed Drills: $39,000 - $185.00 = $38,815

ReferencesEdit

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