Difference between revisions of "PrintrBot Play"

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A pre-assembled [https://printrbot.com/shop/assembled-printrbot-play/ Printrbot Play (model 1505)] (''dead link - [https://web.archive.org/web/20170228085949/https://printrbot.com/shop/assembled-printrbot-play/ archived version]'')was donated around 7 November 2016. It is one of several [[3D Printers]] Bloominglabs has.
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A pre-assembled [https://web.archive.org/web/20160731181454/http://printrbot.com/project/play/ Printrbot Play (model 1505)] was donated around 7 November 2016. It is one of several [[3D Printers]] Bloominglabs has.
  
Documentation can be found on [https://drive.google.com/drive/u/0/folders/0B9oj0J-4qhdjVldxdkt4TkdxbzQ?tid=0B9oj0J-4qhdjNU1VcmVhS3IwLXc this Google Drive folder].
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The complete, official documentation can be found on [https://drive.google.com/drive/u/0/folders/0B9oj0J-4qhdjVldxdkt4TkdxbzQ?tid=0B9oj0J-4qhdjNU1VcmVhS3IwLXc this Google Drive folder].
  
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==Capabilities==
  
----
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===Materials===
Printer has been in a nonfunctional state.
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As a basic, low-end model, the Printrbot Play is best suited for printing in PLA.
  
February 23, 2017 reloaded bootloader and firmware with avrdude and a USBtinyISP programmer.
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Unlike earlier 3D printers offered by Printrbot, the Play's hotend can get hot enough to handle higher-temperature plastics like ABS.
 +
However, without the heated bed (which was available as an upgrade), these plastics will be very difficult to print due to warping.
  
Reference  [http://reprap.org/wiki/Printrboard reprap.org/wiki/printrboard]
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The Printrbot Play is supposed to be able to print flexible filaments.
  
[https://github.com/scwimbush/Printrboard-HID-Arduino-IDE-Support/tree/master/printrboard/avr/bootloaders  BootloaderHID.hex ]
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===Dimensions===
[https://github.com/Printrbot/firmware-updater/blob/gh-pages/binaries/ play-0.6.hex]
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The Printrbot Play has a build volume of 100mm wide, 100mm deep, and 130mm tall, or about 4"x4"x5".
  
With an ATX power supply, controller board, firmware, steppers, and sensors seem to be working fine.
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With its 0.4mm nozzle, the Printrbot Play can produce layers from around 0.05mm thick (if you are very patient) up to 0.35mm thick.
 +
The typical layer height is 0.2mm.
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If you are feeling impatient, you can try 0.4mm thick layers, but the prints may be weak due to poor layer adhesion.
  
Challenge now is test various filaments and to locate printer in a more permanent location with a dedicated ag150.
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Like most stepper-motor-and-belt-driven 3D printers, the Printrbot Play can reproduce horizontal movements as small as 0.05mm.
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==Slicing Settings==
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[https://ultimaker.com/en/products/ultimaker-cura-software Cura] is the [[3D_Printers#Slicing | slicing]] program recommended by Printrbot. It has a built-in profile for the Printrbot Play.
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[[File:PrintrbotPlaySlic3rSettings20171120.ini.zip]] is a profile for [http://slic3r.org/ Slic3r] and [https://www.prusa3d.com/slic3r-prusa-edition/ Slic3r Prusa Edition]. It is based roughly off of the profile [https://github.com/Ultimaker/Cura/blob/master/resources/definitions/printrbot_play.def.json included] in Cura.
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==Original Condition==
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When the Printrbot Play was donated, it was nonfunctional.
 +
On February 23, 2017, [[User:Apple | Apple]] reloaded the bootloader and firmware using:
 +
* avrdude
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* a USBtinyISP programmer.
 +
* the RepRap wiki page on the Printrbot's control board: [http://reprap.org/wiki/Printrboard reprap.org/wiki/printrboard]
 +
* [https://github.com/scwimbush/Printrboard-HID-Arduino-IDE-Support/tree/master/printrboard/avr/bootloaders  BootloaderHID.hex ]
 +
* [https://github.com/Printrbot/firmware-updater/blob/gh-pages/binaries/ play-0.6.hex]
 +
 
 +
The controller board, new firmware, steppers, and sensors seem to be working fine.
 +
 
 +
==Future Improvements==
 +
 
 +
(Feel free to take some of these on!)
 +
 
 +
* test different filaments, come up with slicer profiles for each
 +
* develop high-resolution slicer profiles
 +
* develop high-speed slicer profiles
 +
* set up octoprint server for this printer
 +
* build an enclosure to keep dust out
 +
* set up a webcam for viewing progress and creating timelapses
 +
* build a heated bed
  
 
      
 
      

Latest revision as of 17:28, 28 February 2019

A pre-assembled Printrbot Play (model 1505) was donated around 7 November 2016. It is one of several 3D Printers Bloominglabs has.

The complete, official documentation can be found on this Google Drive folder.

Contents

[edit] Capabilities

[edit] Materials

As a basic, low-end model, the Printrbot Play is best suited for printing in PLA.

Unlike earlier 3D printers offered by Printrbot, the Play's hotend can get hot enough to handle higher-temperature plastics like ABS. However, without the heated bed (which was available as an upgrade), these plastics will be very difficult to print due to warping.

The Printrbot Play is supposed to be able to print flexible filaments.

[edit] Dimensions

The Printrbot Play has a build volume of 100mm wide, 100mm deep, and 130mm tall, or about 4"x4"x5".

With its 0.4mm nozzle, the Printrbot Play can produce layers from around 0.05mm thick (if you are very patient) up to 0.35mm thick. The typical layer height is 0.2mm. If you are feeling impatient, you can try 0.4mm thick layers, but the prints may be weak due to poor layer adhesion.

Like most stepper-motor-and-belt-driven 3D printers, the Printrbot Play can reproduce horizontal movements as small as 0.05mm.

[edit] Slicing Settings

Cura is the slicing program recommended by Printrbot. It has a built-in profile for the Printrbot Play.

File:PrintrbotPlaySlic3rSettings20171120.ini.zip is a profile for Slic3r and Slic3r Prusa Edition. It is based roughly off of the profile included in Cura.

[edit] Original Condition

When the Printrbot Play was donated, it was nonfunctional. On February 23, 2017, Apple reloaded the bootloader and firmware using:

The controller board, new firmware, steppers, and sensors seem to be working fine.

[edit] Future Improvements

(Feel free to take some of these on!)

  • test different filaments, come up with slicer profiles for each
  • develop high-resolution slicer profiles
  • develop high-speed slicer profiles
  • set up octoprint server for this printer
  • build an enclosure to keep dust out
  • set up a webcam for viewing progress and creating timelapses
  • build a heated bed
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