Adapto/es
Release status: En desarrollo
Description | Es una impresora 3d que puede ser construída con diferentes tipos de marcos y diferentes materiales.
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License | GPL
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Contents
ADAPTO
Información
La idea detrás de la impresora 3d Adapto es que uno puede utilizar las mismas piezas impresas y combinarlas con diferentes tipos de materiales para construir el marco de la máquina.
La historia detrás de este diseño es que conseguí unas extrusiones de aluminio que iba a utilizar para hacer una MendelMax. Mientras construía la MM me molestó muchísimo el diseño tan complejo y decidí desarmar la MM y utilizar las piezas para una máquina que únicamente ocupara el 50% de las extrusiones de aluminio. Esto quiere decir que ahora tengo suficientes extrusiones para 2 impresoras! :D
También diseñé las piezas impresas de forma que la persona que está construyendo la impresora puede utilizar extrusiones de aluminio (de 20x20), madera, aluminio, acrílico o placas/vigas/marco de cualquier material siempre y cuando este sea lo suficientemente resistente.
No recomiendo utilizar nada más grueso que 20mm para las placas/vigas/marco (debido al montaje de las piezas en el eje Y: motor y cojinete). Además recomiendo que el ancho del marco no supere los 34mm (debido al diseño de las patas de la impresora). Puede ser más delgado, siempre y cuando sea lo suficientemente rígido.
Para ver una descripción general (en inglés) de la Adapto puedes ver: http://www.youtube.com/watch?v=RWmtuGsg8Us
Some variants
As known this is a VERY "hackable" design and have a lot of options. It is impossible to cover all the things one can do to make the Adapto printer design work but if you are interested you can read about some more options and things that is possible on the Sample BOM for a Big T-Slot Adapto page. That BOM page lists parts, gives sample sources, and discusses possible alternatives.
ChristianS have made a awesome job making that page and it is highly recommended to pop by to read it.
Open your mind and let the creativity flow!
More info
This is also posted on:
- GitHub: https://github.com/rotorit/Adapto
- Thingiverse: http://www.thingiverse.com/thing:29850
The most up to date Files will always be on GitHub.
This is such an easy build it dont need much instructions.
- Print the parts
- choose your frame material
- look at the pictures
- BUILD IT! :D
Thanks to the entire RepRap- and Thingiverse- comunity for all the inspiration.
All the pictures can be viewed and downloaded from Thingiverse and GitHub
If you decide to build one, please feel free to add a pin on the Adapto map.
ENJOY!
Parts
Although this is a easy to build printer one need some parts for it.
- RP parts that is the Printet plastic parts like extruder, smooth rod holders and parts that holds the frame together.
- Frame that in this case is 20x20mm aluminum t-slot extrusions.
- Smooth rods that in this case is 8mm thick.
- Vitamins like screws, nuts, bearings, hobbed bolt, belts, pulleys springs and more.
- Electronics that controls and drive the unit and also things like stepper motors, PSU, thermistors, heated bed, hot end, wires and more.
RP parts
This is the RP parts you need to build a 20x20mm alu extrusion framed Adapto with 8mm smooth rods, M5 Z-threaded rods and makes a 200x240mm build area with a Z travel up to about 270mm
So if you have a MendelMax frame laying around you can build 2 of this Adapto 3D printer :-)
Quantity | Part Name | Part Type | Used Where | Comment | Looks like | File Download | 4 |
Y_Rod_Clamp_4_Off.stl |
RP | Holds the Y smooth rods firmly to the frame. You need 4 of these for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[1]GitHub,
[2]Direct |
1 |
Y_Motor_Mount_1_Off.stl |
RP | Holds the Y motor to the frame. Fits a Nema 17 stepper motor just fine. You need 1 of this for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[3]GitHub,
[4]Direct |
1 |
Y_Idler_1_Off.stl |
RP | This is the Y axes belt idler that holds the Y belt idler bearing(s) firmly to the frame. You need to print 1 of this .stl file (that actually contains 2 plastic parts) for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[5]GitHub,
[6]Direct |
1 |
Y_Belt_Block_1_Off.stl |
RP | This part is to be mounted under the bed. It holds both ends of the Y belt firmly to the bed making the stepper able to move the Y akses. The belt can for example be mounted to this with Zipties and make you able to get the belt nice and tight. You need one of this for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[7]GitHub,
[8]Direct |
3 |
Y_Bearing_Holder_LM8UU_3_Off.stl |
RP | Holds the Y axes bearings that slide on the Y smooth rods. Is to be mounted under the bed and holds a firm grasp on the y linear bearings of choice as long as the bearings have a outer diameter of about 15mm. You need at least 3 of these on each Adapto printer you build. Some people prefer to use 4.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[9]GitHub,
[10]Direct |
2 |
Z_Motor_Holder_2_Off.stl |
RP | Holds the Z motors firmly to the frame. You need 2 of this for each Adapto you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[11]GitHub,
[12]Direct |
1 |
Z_Couplers_M5.stl |
RP | Couples the Z threaded rods firmly to the Z motors. You need to print 1 of this .stl file (that actually contains 2 plastic parts) for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[13]GitHub,
[14]Direct |
4 |
Foot_4_Off.stl |
RP | Holds the lower frame firmly assembled and also work as the feet clearing the Z motors from the table keeping the nice look intact. You need 4 of these for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[15]GitHub,
[16]Direct |
2-10 |
90_innerCorner.stl |
RP | Primary to support the frame on the opposite side of the extrusion from the Z_Smooth_Rod_Holder_Lower_2_Off.stl helps to keep the high frame at 90 degrees onto the lower frame. Recommended is to also use 4 more supporting the high frame in x direction. Some people also prefer to use even 4 more of these on the inside corner on the back side of the feet. Optional buy some metal corners to do the job if you like overkill and don't trust your mother.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[17]GitHub,
[18]Direct |
1 |
Extruder_Idler_1_Off.stl |
RP | Holds the extruder idler that squeeze the filament up against the hobbed bolt for consistent plastic feeding. Holds a 608 bearing with a short M8 threaded rot or preferably a sjort 8mm smooth rod. You need 1 of this for each Adapto Printer you build.
For printing this part, recommended is 60% infill, 2 top/bottom/perimeter layers or more. |
[19]GitHub,
[20]Direct |
1 |
Large_Gear_T36_1_Off.stl |
RP | Turns the hobbed bolt for filament feeding. It have 36 tooths and fits a M8 hobbed bolt nicely and have room for a M8 captive nut allowing it to lock on to the hobbed bolt using an additional nut. You need 1 of this for each Adapto printer you build.
For printing this part, recommended is 60% infill, 2 top/bottom/perimeter layers or more. |
[21]GitHub,
[22]Direct |
1 |
Small_Gear_T13_1_Off.stl |
RP | Sits on the extruder motor and turns the large gear. Locks to the motor axle with a M3 captive nut with M3 screw. You need 1 of this for each Adapto printer you build.
For printing this part, recommended is 60% infill, 2 top/bottom/perimeter layers or more. |
[23]GitHub,
[24]Direct |
1 |
Extruder_X_Carriage_Combo_1_Off.stl |
RP | This is both the X-carriage and extruder combined in one plastic part. It holds the weight of the nema17 close to the X-smooth rods to prevent shaking and holds the 3 linear bearings making the x akses slide smoothly. You need 1 of this for each Adapto printer you build.
For printing this part, recommended is 60% infill, 2 top/bottom/perimeter layers or more. |
[25]GitHub,
[26]Direct |
2 |
Z_Smooth_Rod_Holder_Lower_2_Off.stl |
RP | To hold the lower end of the Z smooth rod firmly to the frame. It fits a 8mm smooth rod nicely and ads another good looking part to the design. You need 2 of these for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[27]GitHub,
[28]Direct |
2 |
Z_Smooth_Rod_Holder_Upper_2_Off.stl |
RP | To hold the upper end of the Z smooth rod firmly to the frame. It fits a 8mm smooth rod nicely and ads another good looking part to the design. You need 2 of these for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[29]GitHub,
[30]Direct |
1 |
X_End_Idler_1_Off.stl |
RP | Holds the X smooth rods, Z threaded rods firmly to the frame, the Z linear bearings in place and X idler in position to make the best possible print results. You need 1 of this for each Adapto Printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[31]GitHub,
[32]Direct |
1 |
X_End_Motor_1_Off.stl |
RP | Holds the X smooth rods, Z threaded rods firmly to the frame, the Z linear bearings in place and X motor in position to make the best possible print results. You need 1 of this for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[33]GitHub,
[34]Direct |
1 |
Endstop_Holders_X_3.stl |
RP | Holds the end stops firmly to the frame. Some changes may be expected in these soonish but will do for now. you need to print 1 of this STL (that actually contains 3 plastic parts) for each Adapto printer you build.
For printing this part, recommended is 35% infill, 2 top/bottom/perimeter layers or more. |
[35]GitHub,
[36]Direct |
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Frame
Quantity | Length | Part Type | Used Where | Comment | Looks like | 2 | 300mm | 20x20mm aluminum extrusion | This is the frame parts that determine the width of the frame.(X direction) Using 300mm extrusions here will result in about 250mm X-travel.
In other words, about 50mm loss of X-travel relative to these frame parts. (If you need for example 300mm X-travel you have to use 350mm extrusions here.) You need 2 of these 300mm lengths for each Adapto printer you build. |
2 | 340mm | 20x20mm aluminum extrusion | This is the frame parts that determine the length of the frame.(Y direction) Using 340mm extrusions here will result in about 210mm Y-travel.
In other words, about 130mm loss of Y-travel relative to these frame parts. (If you need for example 300mm Y-travel you have to use 430mm extrusions here.) You need 2 of these 340mm lengths for each Adapto printer you build. |
3 | 420mm | 20x20mm aluminum extrusion | This is the frame parts that determine the Height of the frame.(Z direction) Using 420mm extrusions here will result in about 270mm Z-travel.
In other words, about 150mm loss of Z-travel relative to these frame parts. (If you need for example 300mm Z-travel you have to use 450mm extrusions here.) You need 3 of these 420mm lengths for each Adapto printer you build. |
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Smooth rods
Part | Used Where | Quantity | Recommended minimum lengths. | Comment | Looks like | X-smooth rods | 2 | 400mm | Can without problems be longer than recommended minimum lengths. | Y-smooth rods | 2 | 380mm | Can without problems be longer than recommended minimum lengths. | Z-smooth rods | 2 | 440mm | Can without problems be longer than recommended minimum lengths. |
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Vitamins
work | in | progress..... | Some more | awesomeness | coming soon here :-) |
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Electronics
work | in | progress..... | Some more | awesomeness | coming soon here :-) |
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How to build
Under construction ;-)
This guide is JUST A GUIDE and you don't have to follow this to the point. It is made to give you a good idea of how to do it and is not meant to be a ultimate blueprint of how to build the Adapto Printer. There might be a chance that you don't have the exact same parts as in this guide. The nuts might be slightly different, maybe you use thicker smooth rods and have the 10mm parts from the Adapto GitHub or maybe even use another frame material and color. There might be some upgrades that haven't been picked up and implemented in the guide just yet so please use it as a GUIDE, nothing else :-)
Anyway.. HERE WE GO! :D
Build step 1: Y belt idler assembly.
Parts needed in this step
- The 2 RP parts from the Y_Idler_1_Off.stl file
- 2x 608 bearings
- 4X washers (for the M8 bolt)
- 2x M8 nuts
- 1x M8 bolt (or some M8 threaded rod )
- 4x T-slot nuts
- 4x M5x12mm screws
- 4X washers(for the M5 screws)
- 1x of the 300mm long frame aluminum extrusions
Mounted as shown in the pictures
1. Exploded view | 2. Mount the parts in this order like this. | 3. Slide in the T-Slot nuts.
Make sure the M5 screws fit into the RP part holes. Drilling might be required. |
4. Center the idler, move the nut away from the M5 screw so you can tighten it.
Tighten the M8 nuts and the rest of the M5 screws. |
5. Top side view | 6. Bottom side view |
Build step 2: Assemble the Y-motor mount.
Parts needed in this step:
- The RP part from the Y_Motor_Mount_1_Off.stl file.
- The other 300mm long frame extrusion.
- 3x T-slot nuts
- 3x M5 screws (preferarly 2xM5x12 and 1x M5x10)
- 3x washers
1. Parts view | 2. Slide in the T-slot nuts. | 3. Mount the Rp part like this loosely. Aligning comes later on. | 4.Bottom side view. |
Build step 3: Mount the Y smooth rod holders.
Parts needed in this step:
- The same 2x 300mm long frame extrusions as in step 1 and 2.
- 8x M5x12mm screws.
- 8x T-slot nuts.
- 8x washers.(To be honest, I didn't use any washers here because, my screw heads is so big and these parts don't need much screw force.)
1. Slide in the T-slot nuts. | 2. Mount the Rp part like this, loosely. Aligning comes later on. |
Simple as that :-) center