https://reprap.org/mediawiki/api.php?action=feedcontributions&user=Pakito15191&feedformat=atomRepRap - User contributions [en]2024-03-29T00:24:26ZUser contributionsMediaWiki 1.30.0https://reprap.org/mediawiki/index.php?title=Francisco&diff=52622Francisco2012-01-08T20:45:24Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = {{tag|Gada Prize}},<br />
{{tag|polar}}, <br />
{{tag|DriveTrains}},<br />
{{tag|development}}<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
=Other languages=<br />
[[Francisco es]] Spanish (Es)<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I support [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
Supporting [http://www.thevenusproject.com/ The Venus Project].<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hardwood please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco/es&diff=21860Francisco/es2010-10-18T20:17:25Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = Impresora circular en 3D que imprime diferentes materiales<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Descripción del proyecto=<br />
Tengo algunas ideas en mi cabeza. Creo que el mundo podría ser un poco mejor con [http://www.zeitgeistmovie.com/ Zeitgeist], y intento aportar mi granito de arena para mejorar a la sociedad. Pero de los diferentes proyectos que tengo en la cabeza, en algunos estoy atascado o no se la verdadera utilidad que podrían tener. Por eso he decidido diseñar una Reprap, porque hay gente que lo espera (al igual que todos los otros diseños), y como no, hay una buena recompensa en metálico.<br><br><br />
<br />
Estoy diseñando una Reprap con más capacidades, como imprimir 3 materiales diferentes y con mejor cualidad. No es fácil, como ya sabréis todos, pero como aprendemos de nuestros errores, espero que cuando acabe el concurso, al menos, haber mejorado mucho. Oh, se me olvidaba, cualquier ayuda es bienvenida.<br />
<br><br />
<br />
<br />
===The Gada Prize===<br />
El ganador de el PM interim prize será el inventor que pueda hacer una impresora 3D que cumpla con los siguientes requisitos:<br />
* Imprimir al menos 3 materiales diferentes, incluyendo uno que sea usado como conductor eléctrico.<br />
* La habilidad de imprimir circuitos impresos.<br />
* Las camas de impresión† tienen que ser de un material que tenga que ser renovado, como mínimo, tras 20 ciclos de impresión.<br />
* Mantener el total de costes de materiales y partes por debajo de los 200$ y que el 90% del volumen de las partes de la impresora puedan ser impresas.††<br />
* Demostrar un volumen de impresión por encima de 300x300x100mm para asegurar que los objetos cotidianos puedan ser impresos.<br />
* La capacidad de imprimir un set de piezas completo para hacer una replica de la misma en 10 dias de forma inatendida excepto para limpiar nada más que un cabezal de impresión.<br />
* La capacidad de imprimir automaticamente sin un ordenador conectado.<br />
* Que no use más de 60 watts de electricidad.<br />
<br />
†Las camas de impresión son superficies planas en las que las piezas son imprimidas.<br><br />
††Las camas de impresión no son necesariamente una parte permanente de la impresora y no figuran en el coste o el volumen requerido para la impresora.<br />
<br />
<br />
<br />
=Objetivos del proyecto=<br />
Los objetivos son:<br><br />
- Crear una cama giratoria que haga que la superficie horizontal de la impresora sea menos del 150% de la superficie de impresión (lo cual es imposible con el modelo actual Mendel).<br><br />
- El área de impresión mínimo obligatorio es de 300x300x100, pero como es un cilindro, tiene Radio 220mm y Altura 100mm (explicado mas adelante)<br />
- Imprimir circuitos impresos.<br><br />
- Si es posible, una pieza de metal sacará la pieza acabada para empezar con la siguiente<br><br />
<br />
<br />
=Tareas=<br />
===Materiales de impresión===<br />
1: Algún tipo de plástico<br><br />
2: ¿Plástico con alta temperatura de fusión (más alta que el estaño)? ¿Otro material, como cera? Tiene que ser un material barato<br><br />
3: Estaño<br><br />
<br />
===Cama===<br />
Siempre girando, ¿A qué velocidad?<br><br><br />
<br />
=Notas de trabajo. Matemáticas=<br />
<br />
Espacio de trabajo requerido (cuadrado)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|El espacio minimo de impresion requerido (cuadrado verde) y el area real de impresión (círculo)]]<br />
Aquí se ve una foto para dejarlo claro:<br><br />
Se puede ver que "L" mide 300mm (como se especifica), y haciendo algunos cálculos (por ejemplo, el teorema de pitágoras), tenemos que:<br><br />
L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, redondeo hacia arriba, y tengo 220mm de Radio.<br />
<br />
<br><br />
Es importante darse cuenta que en la parte central el volumen de material que es liberado en una vuelta es menor que en los bordes de las camas de impresión, según la fórmula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
Entonces, la diferencia entre el volumen en el círculo menor y en el mayor es: <br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
La diferencia entre un radio y el contiguo es, en todos los casos, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> El círculo menor tiene 439 veces menos volumen de material que el mayor!<br><br />
<br />
<br />
=Archivos y partes=<br />
<br />
===Camas de impresión===<br />
* Una superficie redonda y plana de un material no deformable. Creo que el cristal iría bien, pero como es circular, diría que la madera es incluso mejor. Una madera dura por favor. Los enganches de la cama se pueden ajustar a tamaños inferiores e incluso con camas cuadradas (¡¡con lado 220mm como Máximo!!)<br />
A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extrusores===<br />
* 3 extrusores diferentes debido a que la diferencia de la temperatura de fusión de los materiales, ya que si estuvieran juntos, mientras el estaño se empieza a fundir, el plástico ya está completamente liquido, arruinándolo todo<br />
<br />
===Ejes===<br />
* 3 Ejes (90 grados respecto a cada uno), dejando el cuarto agujero libre para sacar la pieza y para que el estaño se enfríe un poco (estará en el último de los 3 extrusores, antes de el nombrado agujero)<br />
<br />
===Otros===<br />
<br />
<br />
=Proyectos relacionados=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco/es&diff=21770Francisco/es2010-10-17T15:03:00Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = Impresora circular en 3D que imprime diferentes materiales<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Descripción del proyecto=<br />
Tengo algunas ideas en mi cabeza. Creo que el mundo podría ser un poco mejor con [http://www.zeitgeistmovie.com/ Zeitgeist], y intento aportar mi granito de arena para mejorar a la sociedad. Pero de los diferentes proyectos que tengo en la cabeza, en algunos estoy atascado o no se la verdadera utilidad que podrían tener. Por eso he decidido diseñar una Reprap, porque hay gente que lo espera (al igual que todos los otros diseños), y como no, hay una buena recompensa en metálico.<br><br><br />
<br />
Estoy diseñando una Reprap con más capacidades, como imprimir 3 materiales diferentes y con mejor cualidad. No es fácil, como ya sabréis todos, pero como aprendemos de nuestros errores, espero que cuando acabe el concurso, al menos, haber mejorado mucho. Oh, se me olvidaba, cualquier ayuda es bienvenida.<br />
<br><br />
<br />
<br />
===The Gada Prize===<br />
El ganador de el PM interim prize será el inventor que pueda hacer una impresora 3D que cumpla con los siguientes requisitos:<br />
* Imprimir al menos 3 materiales diferentes, incluyendo uno que sea usado como conductor eléctrico.<br />
* La habilidad de imprimir circuitos impresos.<br />
* Las camas de impresión† tienen que ser de un material que tenga que ser renovado, como mínimo, durante 20 ciclos de impresión.<br />
* Mantener el total de costes de materiales y partes por debajo de los 200$ y que el 90% del volumen de las partes de la impresora puedan ser impresas.††<br />
* Demostrar un volumen de impresión por encima de 300x300x100mm para asegurar que los objetos cotidianos puedan ser impresos.<br />
* La capacidad de imprimir un set de piezas completo para hacer una replica de la misma en 10 dias de forma inatendida excepto para limpiar nada más que un cabezal de impresión.<br />
* La capacidad de imprimir automaticamente sin un PC conectado.<br />
* No usa mas de 60 watts de electricidad.<br />
<br />
†Las camas de impresión son superficies planas en las que las piezas son imprimidas.<br><br />
††Las camas de impresión no son necesariamente una parte permanente de la impresora y no figuran en el coste o el volumen requerido para la impresora.<br />
<br />
<br />
<br />
=Objetivos del proyecto=<br />
Los objetivos son:<br><br />
- Crear una cama giratoria que haga que la superficie horizontal de la impresora sea menos del 150% de la superficie de impresión (lo cual es imposible con el modelo actual Mendel).<br><br />
- El área de impresión mínimo obligatorio es de 300x300x100, pero como es un cilindro, tiene Radio 220mm y Altura 100mm (explicado mas adelante)<br />
- Imprimir circuitos impresos.<br><br />
- Si es posible, una pieza de metal sacará la pieza acabada para empezar con la siguiente<br><br />
<br />
<br />
=Tareas=<br />
===Materiales de impresión===<br />
1: Algún tipo de plástico<br><br />
2: ¿Plástico con alta temperatura de fusión (más alta que el estaño)? ¿Otro material, como cera? Tiene que ser un material barato<br><br />
3: Estaño<br><br />
<br />
===Cama===<br />
Siempre girando, ¿A qué velocidad?<br><br><br />
<br />
=Notas de trabajo. Matemáticas=<br />
<br />
Espacio de trabajo requerido (cuadrado)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|El espacio minimo de impresion requerido (cuadrado verde) y el area real de impresión (círculo)]]<br />
Aquí se ve una foto para dejarlo claro:<br><br />
Se puede ver que "L" mide 300mm (como se especifica), y haciendo algunos cálculos (por ejemplo, el teorema de pitágoras), tenemos que:<br><br />
L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, redondeo hacia arriba, y tengo 220mm de Radio.<br />
<br />
<br><br />
Es importante darse cuenta que en la parte central el volumen de material que es liberado en una vuelta es menor que en los bordes de las camas de impresión, según la fórmula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
Entonces, la diferencia entre el volumen en el círculo menor y en el mayor es: <br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
La diferencia entre un radio y el contiguo es, en todos los casos, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> El círculo menor tiene 439 veces menos volumen de material que el mayor!<br><br />
<br />
<br />
=Archivos y partes=<br />
<br />
===Camas de impresión===<br />
* Una superficie redonda y plana de un material no deformable. Creo que el cristal iría bien, pero como es circular, diría que la madera es incluso mejor. Una madera dura por favor. Los enganches de la cama se pueden ajustar a tamaños inferiores e incluso con camas cuadradas (¡¡con lado 220mm como Máximo!!)<br />
A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extrusores===<br />
* 3 extrusores diferentes debido a que la diferencia de la temperatura de fusión de los materiales, ya que si estuvieran juntos, mientras el estaño se empieza a fundir, el plástico ya está completamente liquido, arruinándolo todo<br />
<br />
===Ejes===<br />
* 3 Ejes (90 grados respecto a cada uno), dejando el cuarto agujero libre para sacar la pieza y para que el estaño se enfríe un poco (estará en el último de los 3 extrusores, antes de el nombrado agujero)<br />
<br />
===Otros===<br />
<br />
<br />
=Proyectos relacionados=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21769Francisco2010-10-17T15:02:07Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br><br><br />
=Other languages=<br />
[http://www.reprap.org/wiki/Francisco_es Spanish (Es)] <br><br></div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21768Francisco2010-10-17T15:01:31Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br><br><br />
=Other languages=<br />
[http://www.reprap.org/wiki/Francisco_es/ Spanish (Es)] <br><br></div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21767Francisco2010-10-17T15:00:58Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br><br><br />
=Languages=<br />
[http://www.reprap.org/wiki/Francisco_es/ Spanish]</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco/es&diff=21766Francisco/es2010-10-17T14:59:49Z<p>Pakito15191: Created page with '{{Development |name = Francisco team |description = Impresora circular en 3D que imprime diferentes materiales |license = GPL |author = Francisco |image= Team_Francisco.gif |…'</p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = Impresora circular en 3D que imprime diferentes materiales<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Descripción del proyecto=<br />
Tengo algunas ideas en mi cabeza. Creo que el mundo podría ser un poco mejor con [http://www.zeitgeistmovie.com/ Zeitgeist], y intento aportar mi granito de arena para mejorar a la sociedad. Pero de los diferentes proyectos que tengo en la cabeza, en algunos estoy atascado o no se la verdadera utilidad que podrían tener. Por eso he decidido diseñar una Reprap, porque hay gente que lo espera (al igual que todos los otros diseños), y como no, hay una buena recompensa en metálico.<br><br><br />
<br />
Estoy diseñando una Reprap con más capacidades, como imprimir 3 materiales diferentes y con mejor cualidad. No es fácil, como ya sabréis todos, pero como aprendemos de nuestros errores, espero que cuando acabe el concurso, al menos, haber mejorado mucho. Oh, se me olvidaba, cualquier ayuda es bienvenida.<br />
<br><br />
<br />
<br />
===The Gada Prize===<br />
El ganador de el PM interim prize será el inventor que pueda hacer una impresora 3D que cumpla con los siguientes requisitos:<br />
* Imprimir al menos 3 materiales diferentes, incluyendo uno que sea usado como conductor eléctrico.<br />
* La habilidad de imprimir circuitos impresos.<br />
* Las camas de impresión† tienen que ser de un material que tenga que ser renovado, como mínimo, durante 20 ciclos de impresión.<br />
* Mantener el total de costes de materiales y partes por debajo de los 200$ y que el 90% del volumen de las partes de la impresora puedan ser impresas.††<br />
* Demostrar un volumen de impresión por encima de 300x300x100mm para asegurar que los objetos cotidianos puedan ser impresos.<br />
* La capacidad de imprimir un set de piezas completo para hacer una replica de la misma en 10 dias de forma inatendida excepto para limpiar nada más que un cabezal de impresión.<br />
* La capacidad de imprimir automaticamente sin un PC conectado.<br />
* No usa mas de 60 watts de electricidad.<br />
<br />
†Las camas de impresión son superficies planas en las que las piezas son imprimidas.<br><br />
††Las camas de impresión no son necesariamente una parte permanente de la impresora y no figuran en el coste o el volumen requerido para la impresora.<br />
<br />
<br />
<br />
=Objetivos del proyecto=<br />
Los objetivos son:<br><br />
- Crear una cama giratoria que haga que la superficie horizontal de la impresora sea menos del 150% de la superficie de impresión (lo cual es imposible con el modelo actual Mendel).<br><br />
- El área de impresión mínimo obligatorio es de 300x300x100, pero como es un cilindro, tiene Radio 220mm y Altura 100mm (explicado mas adelante)<br />
- Imprimir circuitos impresos.<br><br />
- Si es posible, una pieza de metal sacará la pieza acabada para empezar con la siguiente<br><br />
<br />
<br />
=Tareas=<br />
===Materiales de impresión===<br />
1: Algún tipo de plástico<br><br />
2: ¿Plástico con alta temperatura de fusión (más alta que el estaño)? ¿Otro material, como cera? Tiene que ser un material barato<br><br />
3: Estaño<br><br />
<br />
===Cama===<br />
Siempre girando, ¿A qué velocidad?<br><br><br />
<br />
=Notas de trabajo. Matemáticas=<br />
<br />
Espacio de trabajo requerido (cuadrado)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|El espacio minimo de impresion requerido (cuadrado verde) y el area real de impresión (círculo)]]<br />
Aquí se ve una foto para dejarlo claro:<br><br />
Se puede ver que "L" mide 300mm (como se especifica), y haciendo algunos cálculos (por ejemplo, el teorema de pitágoras), tenemos que:<br><br />
L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, redondeo hacia arriba, y tengo 220mm de Radio.<br />
<br />
<br><br />
Es importante darse cuenta que en la parte central el volumen de material que es liberado en una vuelta es menor que en los bordes de las camas de impresión, según la fórmula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
Entonces, la diferencia entre el volumen en el círculo menor y en el mayor es: <br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
La diferencia entre un radio y el contiguo es, en todos los casos, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> El círculo menor tiene 439 veces menos volumen de material que el mayor!<br><br />
<br />
<br />
=Archivos y partes=<br />
<br />
===Camas de impresión===<br />
* Una superficie redonda y plana de un material no deformable. Creo que el cristal iría bien, pero como es circular, diría que la madera es incluso mejor. Una madera dura por favor. Los enganches de la cama se pueden ajustar a tamaños inferiores e incluso con camas cuadradas (¡¡con lado 220mm como Máximo!!)<br />
A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extrusor===<br />
* 3 extrusores diferentes debido a que la diferencia de la temperatura de fusión de los materiales, ya que si estuvieran juntos, mientras el estaño se empieza a fundir, el plástico ya está completamente liquido, arruinándolo todo<br />
<br />
===Ejes===<br />
* 3 Ejes (90 grados respecto a cada uno), dejando el cuarto agujero libre para sacar la pieza y para que el estaño se enfríe un poco (estará en el último de los 3 extrusores, antes de el nombrado agujero)<br />
<br />
===Otros===<br />
<br />
<br />
=Proyectos relacionados=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21764Francisco2010-10-17T14:26:29Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
Rn>...>R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
Rn-R(n-1)=R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(Rn²-R(n-1)²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21763Francisco2010-10-17T14:23:07Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br><br />
L=R·√2<br><br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21762Francisco2010-10-17T12:13:36Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br />
L=R·√2<br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21761Francisco2010-10-17T12:13:02Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=Things to do=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br />
L=R·√2<br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21760Francisco2010-10-17T12:12:21Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual design of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, it will print circuit boards<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
<br />
=To design-think=<br />
===Printing materials===<br />
1: Some kind of plastic<br><br />
2: High melting temperature plastic (more than tin)? Other material, like wax? it has to be a cheap material<br><br />
3: Tin<br><br><br />
<br />
===Bed===<br />
Always rotating. Speed?<br><br />
<br />
=Working Notes. Maths=<br />
<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br />
L=R·√2<br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd say wood is even better. A hard one please. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature, as it would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid, messing everything.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21759Francisco2010-10-17T11:38:47Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual version of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes. Maths=<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (green square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br />
L=R·√2<br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd even say wood. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature that would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21758Francisco2010-10-17T11:37:58Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual version of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes. Maths=<br />
Working space (squared)=300x300x100mm<br><br />
[[Image: Bed_maths_Francisco.jpg|100px|right|thumb|The minimum printable area required (square) and the real printable area (circle)]]<br />
Here you can see a picture to make it more clear:<br><br />
Here we can see that the L is the actual size of 300mm (as specified at Gada's Prize), so doing the maths (for example, Pythagorean theorem), we have that L²=R1²+R2²=R²+R²=2R²<br />
L=R·√2<br />
R=L/(√2)=300/(1,4142)=212.134, so I round it up, and make it 220mm of Radius.<br />
<br />
<br><br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
Rn>R(n-1)>...>R2>R1 <br><br />
The difference between one radius and the next is, in all cases, 1 mm<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·(1²-0)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material. I think glass would be great, but as the shape is a circle, I'd even say wood. The bed's grips will be able to adjust to lower sizes (to 150 mm of Radius).<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature that would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=File:Bed_maths_Francisco.jpg&diff=21757File:Bed maths Francisco.jpg2010-10-17T11:32:47Z<p>Pakito15191: uploaded a new version of "File:Bed maths Francisco.jpg":&#32;Math explanation about the size of the bed (circle-shaped)</p>
<hr />
<div>Math explanation about the size of the bed (circle-shaped)</div>Pakito15191https://reprap.org/mediawiki/index.php?title=File:Bed_maths_Francisco.jpg&diff=21756File:Bed maths Francisco.jpg2010-10-17T11:12:33Z<p>Pakito15191: Math explanation about the size of the bed (circle-shaped)</p>
<hr />
<div>Math explanation about the size of the bed (circle-shaped)</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=21754Francisco2010-10-17T09:33:08Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual version of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and, apart of that, it gives a really good prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
===The Gada Prize===<br />
The winner of the PM interim prize will be the inventor who can make a 3-D printer that can demonstrate the following:<br />
<br />
* Print at least three different materials, including one that is usefully electrically conductive.<br />
* The ability to print electronic circuit boards.<br />
* Print beds† must be of a material which may be reused with minimal refurbishment for at least 20 print cycles.<br />
* Maintain a total materials and parts cost under $200 and that 90% of the volume of the printer parts be printed. ††<br />
* Demonstrate a build volume of the printer above 300x300x100mm in order to insure that items daily utility can be printed.<br />
* The capacity to print a full set of parts for a complete replica of itself within 10 days unattended save for clearing no more than one printer head jam.<br />
* The ability to print autonomously without a PC attached.<br />
* Uses no more than 60 watts of electrical power.<br />
<br />
†Print beds are flat surfaces onto which parts are printed.<br><br />
††Print beds are not necessarily a permanent part of the printer and are not figured into either the cost or the volume requirements of a printer. <br />
<br />
<br />
<br />
=Project Goals=<br />
The goals are:<br><br />
- Create a rotating bed that makes the horizontal surface of the printer to be less than 150% of the printable space (which is impossible with the actual Mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cylinder, it's Radius 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the difference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
===Print Bed===<br />
* A flat round bed of any non deformable material.<br />
<br />
===Extruder===<br />
* 3 Different extruders due to the difference of temperature that would make the low temperature melting materials to go all liquid when you tried to make the high temperature melting material to go liquid.<br />
<br />
===Axes===<br />
* 3 Axes (90 degrees of each other), leaving the fourth gap to be free to take out the pieze and to the metal to cool a bit (it'd be the last one in the 3 extruders before of the little gap.<br />
<br />
===Other===<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17870Francisco2010-07-08T09:20:05Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual version of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in my mind, some of them look stuck, or without a good reception, so they are not really an advantage for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say is welcome <br><br />
<br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17869Francisco2010-07-08T08:07:53Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
[[Image: Reprap_c.jpg|left|thumb|Actual version of my Reprap]]<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17868Francisco2010-07-08T08:05:18Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
[[Image: Reprap_c.jpg|thumb]]<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17867Francisco2010-07-08T08:00:19Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
[[Image: Reprap_c.jpg]]<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17866Francisco2010-07-08T08:00:01Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
[[Image: Reprap_c.jpg]]<br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=File:Reprap_c.jpg&diff=17865File:Reprap c.jpg2010-07-08T07:56:36Z<p>Pakito15191: Version C of my personal design of the one I wish become in the future Reprap.
It's not completed, it's just the structure and some basic things that I will modify with time.</p>
<hr />
<div>Version C of my personal design of the one I wish become in the future Reprap.<br />
It's not completed, it's just the structure and some basic things that I will modify with time.</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17851Francisco2010-07-07T14:28:56Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in [http://www.zeitgeistmovie.com/ Zeitgeist], and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17822Francisco2010-07-06T22:52:19Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I "believe" in Zeitgeist, and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17821Francisco2010-07-06T20:53:17Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
I have some ideas in my mind. I believe in Zeitgeist, and I try to give my bit to improve this society. But from the different little projects that I have in the way, some of them look stuck, or without a good reception, so they are not really an advantadge for anyone. Then I decided to do something that could make the difference, that someone want to receive and that many people would use, and apart of that, it gives a prize.<br><br><br />
I'm designing a new Reprap with more capabilities, as printing 3 different materials, and with better quality. It's not easy, as all of you should already know, but we all learn of our mistakes, so any improvement of my machine that you want to say, it's welcome <br><br />
<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17820Francisco2010-07-06T20:41:38Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting [http://www.thevenusproject.com/ The Venus Project], Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17819Francisco2010-07-06T20:39:41Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Supporting Venus Project, Gada Prize, Improve Reprap<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17818Francisco2010-07-06T20:38:58Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer that prints 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17812Francisco2010-07-06T18:09:21Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that makes the surface XY of the printer to be less than 150% of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17811Francisco2010-07-06T18:00:15Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17810Francisco2010-07-06T17:59:42Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=<br />
<br />
{{Link GA|de}}<br />
[[es:Imagen]]</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17809Francisco2010-07-06T17:57:19Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17808Francisco2010-07-06T17:57:01Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image= Team_Francisco.gif<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
[[File:Team_Francisco.gif]]<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17807Francisco2010-07-06T17:54:29Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=[[File:http://reprap.org/mediawiki/images/2/29/Team_Francisco.gif]]<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=File:Team_Francisco.gif&diff=17806File:Team Francisco.gif2010-07-06T17:54:04Z<p>Pakito15191: First and really simple example of the structure of the model of my personal Reprap. There's nothing else than the structure.</p>
<hr />
<div>First and really simple example of the structure of the model of my personal Reprap. There's nothing else than the structure.</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17801Francisco2010-07-05T23:07:58Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula: <br><br />
R2>R1 <br><br />
V=hπ(R2²-R1²) <br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17800Francisco2010-07-05T23:06:45Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula:<br><br />
R4>R3>R2>R1 <br><br />
<br />
Vs=hπ(R2²-R1²)<br><br />
Vb=hπ(R4²-R3²)<br><br><br />
<br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
<br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17799Francisco2010-07-05T23:06:08Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
Important to notice that in the central part the volume of MATERIAL that is released in a circle is smaller than in the borders of the circular beds, within the formula:<br><br />
Vs=hπ(R2²-R1²)<br><br />
Vb=hπ(R4²-R3²)<br><br />
<br><br />
So, the diference between the volume at the smallest circle and the biggest circle is:<br><br />
R4>R3>R2>R1 <br><br />
R4-R3=R2-R1=1 mm <br><br />
Vs=hπ(R2²-R1²)=hπ·1=hπ <br><br />
Vb=hπ(R4²-R3²)=hπ(220²-219²)=hπ·439 -> hπ=Vb/439 <br><br />
Vs=hπ=Vb/439 -> 439Vs=Vb -> The smallest circle has 439 times less volume of material than the biggest one! <br><br />
<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17798Francisco2010-07-05T22:48:22Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
<br />
=Files and Parts=<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17797Francisco2010-07-05T22:46:05Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative bed that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
<br />
=Forum thread=<br />
<br />
<br />
=Files and Parts=<br />
==STL Downloads==<br />
''Model STLs''<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17796Francisco2010-07-05T22:44:56Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. It has also not to be too big compared to the printing volume. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative machine that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
<br />
=Forum thread=<br />
<br />
<br />
=Files and Parts=<br />
==STL Downloads==<br />
''Model STLs''<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17795Francisco2010-07-05T22:43:41Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br><br />
- Create a rotative machine that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br><br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br><br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br><br />
<br />
=Working Notes.=<br />
<br />
=Forum thread=<br />
<br />
<br />
=Files and Parts=<br />
==STL Downloads==<br />
''Model STLs''<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17794Francisco2010-07-05T22:43:11Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals are:<br />
- Create a rotative machine that doesn't occupy more than the 150% on the plane XY of the printable space (which is impossible with the actual mendel model)<br />
- The printable area is 300x300x100, but as it's a cilyndre, it's Radio 220mm and Height 100mm<br />
- If possible, a metal piece will remove the finished piece from the bed and clean it<br />
<br />
=Working Notes.=<br />
<br />
=Forum thread=<br />
<br />
<br />
=Files and Parts=<br />
==STL Downloads==<br />
''Model STLs''<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17793Francisco2010-07-05T22:35:53Z<p>Pakito15191: </p>
<hr />
<div>{{Development<br />
|name = Francisco team<br />
|description = 3D Circular printer prints with 3 different materials<br />
|license = [[GPL]]<br />
|author = Francisco<br />
|image=none<br />
|url=none<br />
|reprap = <br />
|categories = Gada Prize<br />
|status =<br />
}}<br />
<br />
__TOC__<br />
<br />
=Project Description=<br />
<br />
I want to create a RedRap able to replicate itself and able to do good quality items. This will probably take a while.<br />
<br />
=Project Goals=<br />
<br />
<br><br />
The goals of this project are many-fold:<br />
- Creation of an entire machine that is capable of achieving self replication<br />
- The target build area size for my machine is 12" x 12 x 6"<br />
- The majority of the machine will be printed, including fasteners<br />
- The machine will also contain a system for removing items from the build area.<br />
- Creation of cross-platform software necessary for serializing and controlling the build process.<br />
- Development of mechanical systems necessary for completion.<br />
<br />
=Working Notes.=<br />
<br />
=Forum thread=<br />
<br />
<br />
=Files and Parts=<br />
==STL Downloads==<br />
''Model STLs''<br />
<br />
==Firmware Downloads==<br />
''Firmware''<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
<br />
</gallery><br />
<br />
=Related Projects=</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17792Francisco2010-07-05T22:33:10Z<p>Pakito15191: Blanked the page</p>
<hr />
<div></div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17791Francisco2010-07-05T22:33:02Z<p>Pakito15191: Replaced content with '{{Development:Stub}}
{{Development
|name = Example Development
|description = documenting a generic tool/artpiece
|license = GPL
|author = Example_User'</p>
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<div>{{Development:Stub}}<br />
{{Development<br />
|name = Example Development<br />
|description = documenting a generic tool/artpiece<br />
|license = [[GPL]]<br />
|author = Example_User</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Francisco&diff=17790Francisco2010-07-05T22:32:26Z<p>Pakito15191: Created page with '{{Development:Stub}} {{Development |name = Example Development |description = documenting a generic tool/artpiece |license = GPL |author = Example_User |reprap = ? |categorie…'</p>
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<div>{{Development:Stub}}<br />
{{Development<br />
|name = Example Development<br />
|description = documenting a generic tool/artpiece<br />
|license = [[GPL]]<br />
|author = Example_User<br />
|reprap = ?<br />
|categories = [[:Category:Examples|Examples]]<br />
}}<br />
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<br/><br />
{{notice2|Creating a new development page|<br />
Create your new page by logging in, editing the URL of any wiki page, and then clicking "edit". By clicking edit on this page you can see how the examples presented here are written and use them in your new page as needed, and deleting unnecessary parts.}}<br />
<br />
This page represents an example [[:Category:Development|development page]] and showcases many features that can be used in creating new development pages.<br />
__TOC__<br />
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<div id="mainPage.news" style="border: solid 1px #aaaaaa; padding: 0px;"><br />
<h2 id="mainPage.news.title" style="background:#eeeeee; font-size: 105%; line-height: 120%; font-weight: bold; padding: 0px; margin:0px;padding: 0.4em;"><br />
[[Image:20px-Exquisite-khelpcenter.png|frameless|right]][http://forums.reprap.org/feed.php?31 Forum/Mailing List]</h2><br />
<div id="mainPage.news.text" style="padding:0px 10px 10px;"><br />
{{#widget:Feed<br />
|feedurl=http://forums.reprap.org/feed.php?31,replies=1,type=rss<br />
|chan=n<br />
|num=5<br />
|desc=0<br />
|date=y<br />
|targ=n<br />
}}<br />
</div><br />
</div><br />
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=Working Notes. This is a stub!=<br />
''Everything below this point is working notes.''<br />
Here is a '''basic photo example''', which is '''resized''' to 400 pixels wide, and on the '''left''' hand side of the screen. <br />
<br />
[[Image:example.jpg|left|400px|This is 400 pixels wide, and on the left.]]<br />
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'''Here is the Mediawiki code to make that''': <nowiki>[[Image:example.jpg|left|400px|This is 400 pixels wide, and on the left.]]</nowiki><br />
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Text text text text text text text text text text text text text text text text. <br />
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Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text.<br />
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=Forum thread?=<br />
http://dev.forums.reprap.org/<br />
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=Text=<br />
Text text text text [[Example]] text text text! I, ([[User:Example User|Example_User]]) made it because it's cool and [[Interesting]], because I made it with a [[RepRap]], text text text text text text text text innovative new RepRap. Share and Enjoy! (This page was made using the wiki page [[Example]] as a model.) text text text text text text text text.<br />
<br />
==Image Example==<br />
[[Image:example.jpg|thumb|This is a thumbnail]]<br />
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==Related Projects==<br />
Text text text text [[New Example]]. [[Another Example]] text text text text text text text text.<br />
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=Files and Parts=<br />
=Sub Assemblies and Related=<br />
Text text text text [[Example/SubAssembly]] and [[Related Example]] text text text text text text text text text text text text text text text. <br />
<br />
=Files and Parts=<br />
==Downloads==<br />
*[[Image:uploaded_files_example.zip]]<br />
*[[Image:even_more_example_files.zip]]<br />
*[[Image:example_part.stl]]<br />
*[[Image:other_example_part.stl]]<br />
<br />
=Photos and Drawings=<br />
<gallery><br />
Image:Wiki.png<br />
Image:Example.jpg|Captioned<br />
Image:Wiki.png<br />
Image:Example.jpg|[[Help:Contents/Links|Links]] can be put in captions.<br />
Image:Wiki.png<br />
Image:Example.jpg|Full [[MediaWiki]]<br />[[syntax]] may now be used…<br />
</gallery><br />
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=More Examples=<br />
*[[Flickr Example]]<br />
*[[Video Example]]<br />
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=Huge Image=<br />
[[Image:example.jpg|frame|right| Really big example images with lots of descriptive text are a fun part of documentation.]] Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. Text text text text text text text text text text text text text text text text. <br />
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{{Example Artifacts}}</div>Pakito15191https://reprap.org/mediawiki/index.php?title=Gada_Prize&diff=17789Gada Prize2010-07-05T22:31:52Z<p>Pakito15191: Added team "Francisco"</p>
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<div>The rules for the Kartik M. Gada Humanitarian Innovation Prize are specified at<br />
'''http://www.foresight.org/gadaprize.php'''<br />
<br />
While you may have personal blogs and [[Other Spaces|other spaces]] where you enjoy working on RepRap-related research and development, '''please use the RepRap website for your Gada Prize entries''', as the RepRap website is where we keep track of user research and development. This way we (and you) can keep track of user contributions using the mediawiki tools.<br />
<br />
Remember, documentation is fun, and "It's not done 'till it's documented!" More seriously, the fact that you keep your research notes, photographs, video, parts files, renderings, and so on here means we'll know when you had an idea or did a bit of work. Most importantly, note that competition entries have to tell what they are doing while they are doing it; to quote from the rules: "Participating teams are expected to regularly publish and make available their technology on an ongoing basis." These wiki pages are your lab notebooks, only fun. See also [[Full Documentation]].<br />
<br />
Please log-in to register you and your team, create a new page for your project, and please feel free to edit the rest of the wiki!<br />
<br />
__TOC__<br />
<br />
==Team Registration (This is still open and will be for some time.)==<br />
*[[MultiRep | MultiRep Team]] - (Team: PacManFan) - More Info coming soon<br />
*[[Heated Bed| Heated Bed Team]] - (Team: Casainho, Nophead) - http://dev.forums.reprap.org/read.php?1,33327<br />
*[[Recycler| Recycler Team]] - (Team: Forrest Higgs, Sebastien Bailard, Your Name Here) - http://dev.forums.reprap.org/read.php?171,34188<br />
*[[RBS]] (examples [[Eiffel]],[[LeCorb]]) - (Team: Sebastien Bailard, Your Name Here) - http://dev.forums.reprap.org/read.php?171,36472<br />
*[[Cyberdyne T-1| Team Cyberdyne]] - (Team: JohnnyCooper) - Blog: http://teamcyberdyne.blogspot.com/ Forum: http://dev.forums.reprap.org/read.php?171,34580<br />
*[[Team Replicant]] - (Team: CephDon) - Forum: http://dev.forums.reprap.org/read.php?171,37051<br />
*[[V |The V extruder project ]] (Team: Prober, Your Name Here) - more to come<br />
*[[Buckrap | Buckrap team]] - (Team: Zelfje, eightdot, Your Name Here) - Forum: - more to come - Site: http://buckrap.org<br />
*[[Granule Extruder Team]] - (Team: Pablo2m) - http://forums.reprap.org/read.php?171,40341<br />
*[[MAJUSCULE]] - (Team: nospampleasemam, m.g.) - [http://repthis.info repthis.info]<br />
*[[Punnett]] - (Team: Sean Lang (slang800), Your Name Here) - http://reprap.org/wiki/Punnett<br />
*[[SURFACE|Team Surface]] - (Team: VuRaL) - http://forums.reprap.org/read.php?171,50808<br />
*[[Francisco|Team Francisco]] - (Team: Francisco Presencia (pakito15191))<br />
*[[Example|Team Example]] - (Team: JaneTheExampleUser)<br />
*<br />
{{notice|To add a team please edit this section. See [[RepRapWiki:Help#Wiki_Help|Wiki Help]].}}<br />
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[[Category:Gada Prize]]<br />
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==See Also==<br />
* [http://www.foresight.org/gadaprize.php Official Gada Prize Rules]<br />
* [http://dev.forums.reprap.org/list.php?171 RepRap.org's Gada Prize Forum]</div>Pakito15191