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* must be printed in PP and tested in autoclave before mass use
==3D Printable Thermometer Jar for UNICEF Supply Catalogue ==
==3D Printable Thermometer Jar for UNICEF Supply Catalogue ==
  Project developed by [[User:Ztverran|Zachary Verran]]
  Project developed by [[User:Ztverran|Zachary Verran]]
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==Abstract==
==Abstract==
# UNICEF's supply catalogue is used to acquire commodities to respond to the needs of children and their families worldwide. In this catalogue, there is a product for use as a thermometer jar. In the catalogue, it is specified what the jar is made out of, the dimensions of the jar, and what the jar needs to be capable of. In the catalogue, it specifies that the jar needs to be made of plastic (polypropylene) and be able to be autoclavable, which means it needs to have the ability to be steam cleaned and sterilized. Following the dimension guidelines set in the catalogue, a 3D model of a jar was created using OpenScad and then printed used a RepRap Athena Delta Bot printer. The jar was printed using PLA, however the model can be printed using polypropylene filament if the proper adjustments are made to the printer and print parameters.
# UNICEF's supply catalogue is used to acquire commodities to respond to the needs of children and their families worldwide. In this catalogue, there is a product for use as a thermometer jar. In the catalogue, it is specified what the jar is made out of, the dimensions of the jar, and what the jar needs to be capable of. In the catalogue, it specifies that the jar needs to be made of plastic (polypropylene) and be able to be autoclavable, which means it needs to have the ability to be steam cleaned and sterilized. Following the dimension guidelines set in the catalogue, a 3D model of a jar was created using OpenScad and then printed used a RepRap Athena Delta Bot printer. The jar was printed using PLA, however the model can be printed using polypropylene filament if the proper adjustments are made to the printer and print parameters. It is thought that PLA is also capable of being a viable material for this jar, however more research in this area is needed.
[[Image:Wood_WorkingClamp_Parts.png|200px|right]]
[[Image:Thermometer_Jar_11cm.JPG|200px|right]]


== Bill of Materials==
== Bill of Materials==
# PLA printer filament from [http://pushplastic.com/ | PushPlastic] for model of product
# PLA printer filament from [http://pushplastic.com/ PushPlastic] for model of product
# OR Polypropylene printer filament found at [http://gizmodorks.com/polypropylene-3d-printer-filament/ | GIZMODORKS PP Printer Filament]
# OR Polypropylene printer filament found at [http://gizmodorks.com/polypropylene-3d-printer-filament/ GIZMODORKS PP Printer Filament]
## Upload and link to all source files from open source CAD
## [http://www.thingiverse.com/thing:1941655 Files on Thingiverse Page]
## Upload and link to all STLs


== Tools needed for fabrication of the OSAT==
== Tools needed for fabrication of the OSAT==
Line 25: Line 27:


== Technical Specifications and Assembly Instructions==
== Technical Specifications and Assembly Instructions==
# Provide directions for print/assembly - be detailed enough in your “how to” to ensure that someone could construct the device from your description. Consider the elegance of IKEA like instructions.
* No assembly necessary for this device, simply print the part using the desired infill.
# Include print time estimate
* The infill used for the most recent prototype was 15%, however more research can be done to optimize the infill percentage for the given use.
# Include assembly time estimate
* With 15% infill, estimated print time is 3 hours and 45 minutes with a print speed of 50mm/s.
# Including drawings or pictures of the device at stage of assembly at minimum. (http://www.appropedia.org/Special:Upload)
** Layer height: 0.20
# Consider video if appropriate
** Shell, bottom and top layer thickness: 1.0
{|style="border:1px solid #73BF73; background-color: #E6FFE6; margin-left:.1em; margin-top:2px; -moz-border-radius:15px;" align="right" width="150px"
 
!<big>Example video summary of textbook</big>
 
|-
* Technical Specifications:
|<center>{{#widget:YouTube|id=yiJDx9dCfEQ}} </center>
** Material: Polypropylene, autoclavable.
|-
** Internal diameter: approximately 30mm.
|}
** Depth: approximately 110mm.
** Overall height: approximately 120mm.


=== Common Problems and Solutions===
=== Common Problems and Solutions===
* Include common mistakes/problems to avoid in building your OSAT and how to overcome them
* No assembly necessary, only problems with device is printer issues, which can be solved using the Most Delta Google group for example.


== Cost savings==
== Cost==
* If your solution is not a low cost one then it is not really appropriate.
*Cost of print based on material usage and $30/kg for filament:
# Estimate your costs
** $1.57
# Find a commercial equivalent
# Calculate $ savings and % savings


==References==
==References==


* The sources of information (e.g. engineering handbooks, journal articles, government documents, webpages, books, magazine articles etc.). References should use the <nowiki> <ref> </ref> and <references/>  </nowiki>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: <ref> web page: Department of Energy (DOE) Landscaping and Energy Efficiency, DOE/GO-10095 (1995) Available: http://www.eren.doe.gov/erec/factsheets/landscape.html</ref>
*web page: "Jar,thermometer,pp,11cm,w/o Cover." Supply Catalogue. UNICEF Web. Available: [https://supply.unicef.org/unicef_b2c/app/displayApp/(cpgsize=5&layout=7.0-12_1_66_69_115_2&uiarea=2&carea=4FB33C8B49B94843E10000009E710FC1&cpgnum=2&citem=4FB33C8B49B94843E10000009E710FC14EBA1106BBC20F68E10000009E71143E)/.do?rf=y | UNICEF Supply Catalogue]


<references/>  
<references/>  
<nowiki>
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:How tos]]
[[Category:Electricity]]
[[Category:Health]]
[[Category:Electric lighting]].
[[Category:Clinical safety]].
 
</nowiki>


[[category:OSAT 3D-Printable Designs]]
[[category:OSAT 3D-Printable Designs]]

Revision as of 11:47, 16 December 2016

  • must be printed in PP and tested in autoclave before mass use

3D Printable Thermometer Jar for UNICEF Supply Catalogue

Project developed by Zachary Verran

Template:Statusboxtop Template:Status-design Template:Status-prototype You can help Appropedia by contributing to the next step in this OSAT's status. Template:Boxbottom

Abstract

  1. UNICEF's supply catalogue is used to acquire commodities to respond to the needs of children and their families worldwide. In this catalogue, there is a product for use as a thermometer jar. In the catalogue, it is specified what the jar is made out of, the dimensions of the jar, and what the jar needs to be capable of. In the catalogue, it specifies that the jar needs to be made of plastic (polypropylene) and be able to be autoclavable, which means it needs to have the ability to be steam cleaned and sterilized. Following the dimension guidelines set in the catalogue, a 3D model of a jar was created using OpenScad and then printed used a RepRap Athena Delta Bot printer. The jar was printed using PLA, however the model can be printed using polypropylene filament if the proper adjustments are made to the printer and print parameters. It is thought that PLA is also capable of being a viable material for this jar, however more research in this area is needed.
Thermometer Jar 11cm.JPG

Bill of Materials

  1. PLA printer filament from PushPlastic for model of product
  2. OR Polypropylene printer filament found at GIZMODORKS PP Printer Filament
    1. Files on Thingiverse Page

Tools needed for fabrication of the OSAT

  1. MOST Delta RepRap or similar RepRap 3-D printer

Skills and Knowledge Necessary to Make the OSAT

  • Knowledge of 3D printing as taught by the MY477 Class at Michigan Technological University.

Technical Specifications and Assembly Instructions

  • No assembly necessary for this device, simply print the part using the desired infill.
  • The infill used for the most recent prototype was 15%, however more research can be done to optimize the infill percentage for the given use.
  • With 15% infill, estimated print time is 3 hours and 45 minutes with a print speed of 50mm/s.
    • Layer height: 0.20
    • Shell, bottom and top layer thickness: 1.0


  • Technical Specifications:
    • Material: Polypropylene, autoclavable.
    • Internal diameter: approximately 30mm.
    • Depth: approximately 110mm.
    • Overall height: approximately 120mm.

Common Problems and Solutions

  • No assembly necessary, only problems with device is printer issues, which can be solved using the Most Delta Google group for example.

Cost

  • Cost of print based on material usage and $30/kg for filament:
    • $1.57

References

.

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