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Seed Spreader / Salt Shaker

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MOST Delta filament as guide.JPG This page was part of an MTU course MSE4777 OA and MSE4777 OB/MSE5777/EE4777/EE5777: Open-source 3-D printing

Please leave comments using the discussion tab. The course runs in the Fall semester. It is not open edit.


2L Seeder / Salt Shaker

Project developed by [[[User:Kjkurtz|Kjkurtz]] (talk)]
Status
This OSAT has been designed but not yet tested - use at own risk.
This OSAT has been prototyped.

You can help Appropedia by contributing to the next step in this OSAT's status.

Abstract

  1. With an over abundance of plastic bottles, there should be some attachments that can be made to make tools out of them! This design can fit any 2L bottle and can be scales down to fit other size bottles. This takes an old 2L pop bottle and turns it into a seed spreader/shaker. With the handle and easy to use adjuster, it is easy to control the flow of whatever you are spreading. Here in the North, this could also be used as a salt spreader for the winter months.
  2. Picture of completed print using your printer
    Wood WorkingClamp Parts.png

Bill of Materials

  1. 4 6/32 Hex Nuts
  2. 4 6/32 0.5in Bolts
  3. 100g of PLA Filament
  1. Link to all Source CAD and STL's [1]

Tools needed for fabrication of the OSAT

  1. MOST Delta RepRap or similar RepRap 3-D printer
  2. Screwdriver and Pliers needed for Final Assembly

Skills and Knowledge Necessary to Make the OSAT

  • If you used special skill – link to relevant Wikipedia or Wikiversity articles/courses

Technical Specifications and Assembly Instructions

  1. Lay out all printed parts and hardware.
  2. Cut off Bottom of 2L Bottle
  3. Slip Handle top over the top of bottle
  4. Slip the end cap over the connecting cap as shown in the image
  5. Cut a small hole in the bottle for the securement screws
  6. Add the screws and the handle to the bottle
  1. print time estimate - 6.5 hours
  2. assembly time estimate - 10 minutes
  1. Including drawings or pictures of the device at stage of assembly at minimum. (http://www.appropedia.org/Special:Upload)

Common Problems and Solutions

  • Do not cut the hole too large for the connecting hardware, use a knife to cut a small slot or use a drill to avoid frustration

Cost savings

  • If your solution is not a low cost one then it is not really appropriate.
  1. Hardware Costs for Nuts and Bolts $1
  2. Filament Costs @100g is approximately $2
  3. Total Cost is $3
  4. Find a commercial equivalent for a salt shaker [2]
  5. For the salt shaker savings of $5 or 62.5%, however it can be used to spread multiple sizes where the example has a maximum diameter is can spread.

Benefited Internet Communities

  • Name and add links to at least 5 using single brackets around [url name]

References

  • The sources of information (e.g. engineering handbooks, journal articles, government documents, webpages, books, magazine articles etc.). References should use the <ref> </ref> and <references/> tags and can be in any format but should include all the information necessary for someone else to find the same information you did. For example: [1]
  1. web page: Department of Energy (DOE) Landscaping and Energy Efficiency, DOE/GO-10095 (1995) Available: http://www.eren.doe.gov/erec/factsheets/landscape.html

Based on the developmental needs addressed (e.g. food, heat, electricity, clean water, health care, etc.) be sure to label your device in the proper categories e.g. use [[Category:Water]]. Be sure to categorize your device so that it will be easy to find – for example “Low voltage connection basics” is categorized in [[Category:How tos]] [[Category:Electricity]] [[Category:Electric lighting]].