Difference between revisions of "MakerBot"
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== Symbols == | == Symbols == | ||
All the components below has been compiled into a Frizing library to be used for prototyping, the connection-points has bin omitted. The original illustrator files is in the second link. | All the components below has been compiled into a Frizing library to be used for prototyping, the connection-points has bin omitted. The original illustrator files is in the second link. | ||
'''Packages:''' | |||
* [http://beta.ivc.no/makerbot/makerbot_thingomatic_fritzing_lib.zip Download MakerBot Thing-O-Matic Frizing library] - Open with [http://fritzing.org/download/ Fritzing] | * [http://beta.ivc.no/makerbot/makerbot_thingomatic_fritzing_lib.zip Download MakerBot Thing-O-Matic Frizing library] - Open with [http://fritzing.org/download/ Fritzing] |
Revision as of 22:37, 10 September 2011
The MakerBot is an open source 3D-printer. Great for experimenting with designs and small manufacturing. The latest model, Thing-O-Matic, has improved printing accuracy and expanded electronics.
I don't currently own a Makerbot.
Schematics
Electronics
On the Thing-O-Matic all the electronics are neatly hidden away under the build platform, including the power-supply.
The electrical connections is shown in the overview image below. It shows all the components and how they're connected. For more details and photos of the assembly, check the official Thing-O-Matic electronics installation pages.
Schematic:
- Download Thing-O-Matic MK5 electronics schematic - PDF vector version
- Download Thing-O-Matic MK6 electronics schematic - PDF vector version
- Download Thing-O-Matic MK6 Plus electronics schematic - PDF vector version
MK5
MK6
MK6 Plus
Symbols
All the components below has been compiled into a Frizing library to be used for prototyping, the connection-points has bin omitted. The original illustrator files is in the second link.
Packages:
- Download MakerBot Thing-O-Matic Frizing library - Open with Fritzing
- Download MakerBot Thing-O-Matic vector files - Illustrator, PDF, PNG versions
Motherboard
The main board is mounted together with a Arduino-controller. An external USB-interface allow commands to be sent via [1] ReplicatorG] and a SD-card slot can be used to load files to be printed in sequence locally. A row of connectors hooks up the stepper motor controllers, extruder controller, and endstops.
Extruder
This board has inputs from the thermalcouple temperature measuring probe, high-power MOSFET to drive current the main heater to melt plastic and heat the assembly board. Auxiliary connections for controlling the automated assembly plate and heat sensor for the board temperature control.
On top of the extruder is the feed for the plastic, driven by a DC-motor from the extruder controller. The heat element is a long piece of metal tube to keep the heat and melting process even. Two heat resistors exerts heat onto the main metal block before the plastic is extruded through a narrow nozzle. The thermocouple is mounted on the main block.
On the newer MK6 and MK6 Plus models the DC-motor is swapped in favor of a more precise stepper motor. The heater element is also upgraded to a custom made heater cartridge coupled with a safety cutoff board.
Stepper Controller
To drive the stepper motors, a controller can control the motion of the axis down to an accuracy of 1.8 degrees per step. The operation can be fine tuned using 4 potentiometers on the controller. Two dip-switches determine the type of stepper-motor that will be attached.
End stops
Each axis has an end-stop to signal when its at the farthest/closes point in its range.
Heaterboard
To keep the plastic from shrinking during the printing process, the base where the object sits is heated by a copper maze on the board. A thermistor underneath is monitoring the temperature. On the automated model the base can roll out when the object is finished.