https://wiki.fablabbcn.org/api.php?action=feedcontributions&user=Ujang&feedformat=atomFab Lab Bcn WIKI - User contributions [en]2024-03-29T11:34:06ZUser contributionsMediaWiki 1.22.15https://wiki.fablabbcn.org/PopUp_LabPopUp Lab2018-05-11T17:59:43Z<p>Ujang: </p>
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<div>The International Football Federation aka FIFA will announce the host of the 2026 World Cup organizer in May 2020. On Tuesday (10/05/2016) local time, FIFA also announced that initial submissions will commence and run until May 2017. Official bids from non- interested countries will be awaited until 2018 before being evaluated until February 2020.<br />
<br />
The announcement time is [http://bismilah.xyz/pialadunia stremaing live piala dunia] two years before the 2022 World Cup was held in Qatar. The 22nd World Cup was held for the first time in the Middle East region known to have high temperatures. As for the World Cup 2018 or the closest of now will be held in Russia.<br />
<br />
The host selection stage for the 2018 and 2022 World Cups begins in January 2009. Each national football parent of the interested country has until February 2 to register. At first there were seven countries that signed up for the 2022 World Cup, but then Mexico resigned.<br />
<br />
During the election process, non-UEFA countries gradually resigned from 2018 host elections, ultimately won by Russia. While UEFA countries resigned from host elections in 2022, [http://bismilah.xyz/tvonline live online piala dunia streaming] until the remaining five countries only, namely the United States, Japan, Australia, South Korea, and Qatar. On voting on December 22, 2010, Qatar got the most votes.<br />
<br />
Indonesia had proposed the official nomination to host the 2022 World Cup on behalf of the Football Association of Indonesia (PSSI). On 19 March 2010 the nomination was rejected by FIFA due to lack of support from the government. The government feels that the nomination will not be supported by the people of Indonesia (ANT).</div>Ujanghttps://wiki.fablabbcn.org/Roland_ModelaRoland Modela2018-05-11T17:59:21Z<p>Ujang: </p>
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<div>The Brazilian striker, Neymar, is claimed to join Real Madrid before the 2018 World Cup and re-create a transfer record.<br />
<br />
Neymar move to Madrid increasingly widely reported Spanish media. Even one of the Spanish football observers, Eduardo Inda, claims Neymar move to Santiago Bernabeu will happen soon.<br />
<br />
See also: Marquez Sindir Rossi After the Spanish MotoGP Accident Incident<br />
Inda claims Madrid will announce Neymar's move before the 2018 World Cup takes place. Parties Los Blancos reportedly ready to spend a transfer of up to € 270 million or equivalent to Rp4, 5 trillion to bring Neymar from Paris Saint-Germain.<br />
<br />
"I'm expecting a surprise [http://bismilah.xyz/pialadunia live stremaing piala dunia] Neymar will play at Real Madrid next season and the Brazilian could be a Real Madrid player before the World Cup," Inda was quoted as saying by the Daily Express.<br />
<br />
Transfer value € 270 million which Inda claimed will make Neymar beat his own transfer record. Last year Neymar created a transfer record when PSG bought from Barcelona with a transfer of € 222 million.<br />
<br />
Neymar Claimed Join Real Madrid Before World Cup 2018<br />
Confidence Neymar will join Madrid also disclosed Paul Breitner. The former Madrid player of the 1974-1977 era said Neymar will be the flagship player of Zinedine Zidane's next season.<br />
<br />
"Neymar will be an important player of Real Madrid next season," said Breitner was quoted from Marca.<br />
<br />
Neymar still has a contract with PSG [http://bismilah.xyz/tvonline live tv online piala dunia] until 2022. But, the former Santos player was reportedly not at home in Paris. Neymar had a fight with his teammate, Edinson Cavani, and got scorn from PSG supporters.<br />
<br />
Neymar has now rejoined the PSG squad after missing since February 2018 with a metatarsal bone injury on his right foot against Olympique Marseille. Neymar then underwent surgery in Belo Horizonte, Brazil.</div>Ujanghttps://wiki.fablabbcn.org/Insights_for_millingInsights for milling2018-05-11T17:59:08Z<p>Ujang: </p>
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<div>Belgium became one of the new powers in world football. Having long been a team of 'cheerleaders' in the championships such as the World Cup and the European Cup, in the last six years they have been transformed into a respected team in the world.<br />
<br />
Belgian national team really quite often enter the World Cup. Recorded, Belgium has 12 times entered the four-year championship. However, they are more often stuck in the group stage or round one. Even so, they were listed as a semifinalist in 1986.<br />
<br />
Now, after escaping from the shadows of Dutch purity, Belgium is slowly getting incorporated into the leading teams in every tournament. In the 2014 World Cup and 2016 [http://bismilah.xyz/pialadunia stremaing piala dunia rusia] European Cup, Belgian national team considered as a championship team. In fact, in the 2014 World Cup, they could break through the quarterfinals before being stopped by Argentina.<br />
<br />
In FIFA rankings, Belgium's ranking is also always consistent in the top 10. In fact, from the last FIFA rankings list in April 2018, the Belgian national team is in third [http://bismilah.xyz/tvonline trans tv online piala dunia] position under world champions Germany (one) and Brazil (two). Surely this is an extraordinary achievement that can not even be equaled by the Netherlands in recent decades. Belgium managed to bypass countries that are notoriously strong in football such as Argentina, Spain, England, to Italy.<br />
<br />
Belgian strength is true not apart from the golden forces that are running within the team. Today Belgium has a squad that is arguably the best in their history. Almost all Belgian core players are the stars of their respective clubs. Names such as Eden Hazard (Chelsea), Ousman Dembele (Barcelona), Romelu Lukaku (Man United), until Kevin De Bruyne (Man City) are world stars who fill the Belgium squad. Naturally it feels if the team's achievements soared with a list of players like this.</div>Ujanghttps://wiki.fablabbcn.org/SketchupSketchup2018-05-11T17:59:04Z<p>Ujang: </p>
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<div>The Children's Street World Cup The third theme themed 'The Future Depends On You' will begin in Moscow in the middle of this week.<br />
<br />
More than 200 street children will represent their country to play in the competition, which is held to draw attention to the rights of millions of children living on the streets of the world and to change their negative views about them.<br />
<br />
The tournament involving 12 men's teams and 12 women's teams (Indonesia represented by a men's team) is hosted by Save the Children and Russian telecommunications company Megafon and will be enlivened by an art festival as well as a congress for equality.<br />
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"When people saw us on the streets, they said we were street children, but when they saw us playing football, they said we were not street children - they said we were people like them," said Andile, who is part of the African team. South at the World Cup of Street Children 2010.<br />
<br />
Goal will broadcast live competition via Facebook account, starting with the opening ceremony and a friendly match between the Russian and Brazilian women's teams. The tournament footage will be available throughout the competition, with all matches being held at Russian league champions Lokomotiv Moscow, Sapsan Arena.<br />
<br />
Many big names support this competition, including England coach Gareth Southgate.<br />
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"World Cup of Street Children: The Future Depends On You is a fantastic event," he said.<br />
<br />
"It's about using football [http://bismilah.xyz/pialadunia stremaing piala dunia online] to make a positive impact and not talking to vulnerable youngsters but giving them the stage to talk.I have the English team, and all the young people who participated, got the best in football but more importantly changed the world . "<br />
<br />
Former Arsenal midfielder Gilberto Silva works with Street Child United, a charity that runs the competition, and feels blessed to have the opportunity to work with high-spirited individuals.<br />
<br />
"I am honored to be an ambassador for Street Child United," said the British Premier League championship winner.<br />
<br />
"It's a special thing for me to meet ex-inspirational street children, they're great leaders and I'm happy to be able to support them on the way to the Street Children World Cup: The Future Depends On You."<br />
<br />
Each team is represented by an [http://bismilah.xyz/tvonline live streaming piala dunia] organization that protects street children in each participating country. In order to fit in the squad, the children have been in the organization for one year and are following a development program.<br />
<br />
This competition will be the opening of the 2018 World Cup in the summer, and previously held in Durban, South Africa in 2010, and in Rio de Janeiro, Brazil, 2016 ago.</div>Ujanghttps://wiki.fablabbcn.org/BlenderBlender2018-05-11T17:58:20Z<p>Ujang: </p>
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<div>In the beginning, this coach Oscar Tabarez troop had been underestimated by his own public. La Celeste perfomance is considered less stable in the qualification that triggers the assessment of italics. They were arrested by Venezuela's caretaker team 0-0. Fortunately a great 4-2 win over Bolivia in the last game made them finally qualify as runners-up under Brazil, with 10 points adrift. The two goals of suicide committed by Uruguayan players in the game was forgotten. Public began sympathy.<br />
<br />
Armed with two-time champion title, Uruguay was optimistic they can repeat the old history. Since the world champions in 1930 and 1950 their performance is declining. The semifinals at the 2010 World Cup went on to become the best achievers to date.<br />
<br />
In appearance, Uruguay from 18 times the qualifying match held held a pretty satisfactory results. Five times lost and the remaining 9 wins and 4 draws. Their results are even better than Argentina in this session.<br />
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Not only the result of qualifying, in the international tournament which is also a warm-up event, such as the Chinese Cup, they successfully become champions by [http://bismilah.xyz/pialadunia stremaing piala dunia 2018] beating the host, Wales, and Czech Republic. So obviously they can not be underestimated in the allowance of Group A later with the host Russia, Saudi Arabia, and Egypt.<br />
<br />
Many assume that they get a relatively easy group, given the ratings of their opposing candidates under Uruguay. Russia is expected to be the only serious threat to them.<br />
<br />
Both have met twice on stage at the World Cup when Russia is still called the Soviet Union. Of the two meetings, the two had mutually defeated each other. Russia's first victory in the Group A 1962 World Cup qualifier with a 2-1 result. But then, at the 1970 World Cup in Mexico, Uruguay avenged their defeat by 1-0 in the quarter-finals.<br />
<br />
Create Tabarez, the opposing forces of [http://bismilah.xyz/tvonline tv online world cup 2018] who threatens them and who is not a threat is not the main thing to think about. He admitted really just focus to build the readiness of his team, without seeing the readiness of other teams.<br />
<br />
"Our performance will be really impressive if there are no injured or jetlag players. This is important, because the time span of more than 12 hours so important points for us to note, "he said.<br />
<br />
However, the problem of Uruguay is actually not just that. The health condition of the coach "El Maestro" (Tabarez's call) was also a concern, considering he is now battling a rare disease called Guillain-Barre Syndrome. This disease has suffered since 2016, when the beginning of Uruguay to the World Cup finals.</div>Ujanghttps://wiki.fablabbcn.org/Test_pageTest page2018-05-11T17:57:52Z<p>Ujang: </p>
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<div>Manuel Neuer could have missed the 2018 World Cup. The reason he did not know whether to recover on time from his injury right now.<br />
<br />
Neuer has been sidelined since last September because of a metatarsal bone, an injury that also kept him out for the 2016/2017 season. These streaks have made the recovery process hampered.<br />
<br />
Neuer even returned to training last month. However, 32-year-old goalkeeper has been reminded not to rush the comeback considering his physical condition is not fit properly.<br />
<br />
Therefore Neuer will not play in the [http://bismilah.xyz/pialadunia stremaing piala dunia] remaining two matches Bayern in the Bundesliga and also the final DFB-Pokal counter Eintracht Frankfurt. The fact that there is certainly make Neuer anxiety related to his chances to play in the World Cup.<br />
<br />
With the World Cup only about 38 days, then Neuer chased time to be fit to perform there. Neuer's presence certainly expected Germany to remember he is the captain of the team and members of the squad when the champion 2014.<br />
<br />
However, Neuer did not want to rush and chose to focus on his recovery instead of thinking too far.<br />
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"I can not say anything anymore [http://bismilah.xyz/tvonline tv online piala dunia] at this time, I feel better with the training program I'm doing, but certainly not predictable (when recovered)," said Neuer as quoted Soccerway.<br />
<br />
"I have to make the right decision for myself, team, and also Germany, you can not help anything in a hurry, I want to improve this condition slowly and I want to recover as soon as possible," he continued.<br />
<br />
"What I'm doing now is good and very positive, I'm trying to defend it, so let's see if that's enough," he concluded.<br />
<br />
If Neuer really fails to the World Cup, Marc-Andre Ter Stegen is likely to become Germany's main goalkeeper with Bernd Leno, Loris Karius, and Kevin Trapp competing for two remaining slots.</div>Ujanghttps://wiki.fablabbcn.org/InkscapeInkscape2018-05-11T17:57:49Z<p>Ujang: </p>
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<div>Germany will undergo their first match in the 2018 World Cup on June 17, 2018. The first opponent to be faced by Germany is Mexico.<br />
<br />
As defending champions, their strength will certainly return to become one of the champions. However, Der Panzer's squad is currently in a bad shape to face the World Cup in Russia later, given that their main goalkeeper and captain Manuel Neuer has been smothered by a foot injury he suffered since September 2017.<br />
<br />
Because of the injury he suffered, along with Bayern Munich during this season, Neuer only appeared three times in the Bundesliga and once in the Champions League. The 32-year-old also will not be shown by Bayern when undergoing a final match at the DFB Pokal against Einracht Frankfurt (19/5), given that his condition has not recovered yet.<br />
<br />
"Manuel will not play against Stuttgart [Bayern's last game in the Bundesliga this season]. Not for the final [DFB Pokal] game, "Bayern coach Jupp Heynckes told Goal.<br />
<br />
For the 2018 World Cup to be held about a month away, Neuer was still doubtful to perform. Even if finally come down to compete, most likely Neuer can only appear after the group phase. This is as described by former German national team physiotherapist Oliver Schmidtlein.<br />
<br />
"I think the soonest he [Neuer] could join was at the World Cup knock-out phase. Manuel does not allow practice in these situations. Although [World Cup] time is getting urgent, or he should be risking his own recovery process, "Schmidtlein said.<br />
<br />
The goalkeeper himself is still not convinced he can recover during the World Cup later. Neuer said that he does not want to rush in making decisions about his chances of participating in the World Cup this year.<br />
<br />
"I can not say anything now. I feel good about what I do in the recovery process, but still there is no guarantee. I have to make the right decisions for myself, for the club, and for the German national team. It will not help anything if you make a quick decision. I want to increase with certainty day by day, and try to get back my fitness as soon as possible, "he explained to Goal.<br />
<br />
If true until the World Cup later Neuer can not recover, of course the strength of the German national team will be quite reduced in defense. The 1.93 meter long goalkeeper was so relied upon under the German crossbar.<br />
<br />
Since debuting in the German national team in June 2009, Neuer's performance under the crossbar was able to captivate the coach, Joachim Loew. A year later, at the 2010 World Cup, Neuer immediately trusted to escort the German goalkeeper. During the German appearance in the event until the semi-finals, Neuer conceded only three goals.<br />
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Two years later, in the Euro 2012 event, Neuer again relied upon as a German goalkeeper. Neuer always performs fully in every German game at the event.<br />
<br />
Continued in the 2014 World Cup, Germany still entrust the net to be escorted Neuer. His performance was so stunning in the event. Of the seven matches that German acted to become champions, Neuer always appear full. Throughout the performance, the man who was born in Gelsenkirchen-Buer was only conceded four goals.<br />
<br />
In 2016, Neuer began to be trusted by [http://bismilah.xyz/pialadunia stremaing piala dunia] Loew to captain the German national team to replace retired Philipp Lahm. His first appearance as captain began when Germany underwent a friendly fight against Argentina, 3 September 2016. Until now, Neuer is still trusted by the German national team as a captain.<br />
<br />
In fact, Germany still has some other goalkeeper names that could be used as a substitute Neuer if the injury has not healed until this year's World Cup was held. Barcelona goalkeeper, Marc-Andre ter Stegen, and Bernd Leno who played for Bayern Leverkusen, are two names that can be projected to temporarily [http://bismilah.xyz/tvonline booming tv piala dunia] replace Neuer. In addition, Neuer team mate at Bayern Munchen who has replaced his position at club since injury, Sven Ulreich, can also be the option Joachim Loew at the World Cup later.<br />
<br />
But it seems Loew still want Neuer to appear to escort the German goalkeeper in the 2018 World Cup. He said that Neuer is still included in the plan for the 2018 World Cup.<br />
<br />
"He remains in the plan. I always make contact with Manuel Neuer, and also the goalkeeping coach, Andi Koepke. We are always told by him [Neuer] about the progress of his recovery. We believe in him, he is very strong and his foot injury is no big deal, "Loew told the First Post.<br />
<br />
Loew may wish, but Neuer's condition does not depend on his decision. But the World Cup is an event that can not be missed by every player. Now Neuer teru</div>Ujanghttps://wiki.fablabbcn.org/IModelaIModela2018-05-11T17:48:59Z<p>Ujang: </p>
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<div>This page is about the Roland iModela desktop cnc milling machine. <br />
<br />
= Fab Modules with iModela support =<br />
<br />
[[File:Fab-modules-imodela.zip]]<br />
<br />
This is a compiled version of an old version of Fab Modules ([http://kokompe.cba.mit.edu/ kokompe.cba.mit.edu]) with support for the '''Roland iModela''' ready to be deployed. (C source code is missing except for path_rml_imodela.c)<br />
<br />
== Quick changes added to provide support for the iModela ==<br />
<br />
This instructions are provided in order to port the changes to the current version of Fab Modules.<br />
<br />
'''Communications'''<br />
<br />
The iModela has a printer driver. You can add it to your computer as a regular printer and select '''&quot;Raw queue&quot;''' on the printer drivers. That is the same setup as for the Roland Vinyl Cutter (.camm). &quot;Raw Queue&quot; is by default on the drivers list on Ubuntu and under the CUPS admin in Mac OS http://localhost:631<br />
<br />
The '''fab_send''' module knows which file to send where depending on the file extension. That is not a really good solution in the case you have two different machines which communicate different but use the same file. This is the case of the MDX-20 that runs on .rml and uses the serial port and the iModela, which uses the same [http://www.mesincuci.co/mesin-cuci-polytron-1-tabung Mesin Cuci Polytron 1 Tabung] extension but the printer driver described above.<br />
<br />
To solve this issue in an easy but not nice [http://bismilah.xyz/pialadunia semifinal piala dunia streaming] way we used the *.imodela extension for the *.rml files we want to send to the iModela. That is not a problem because the file extension is meaningful less for the machine to operate.<br />
<br />
To be able to create the files with another [http://www.mesincuci.co/harga-mesin-cuci-sanken-2-tabung Mesin Cuci Sanken 2 Tabung] extension we created a file called '''make_png_imodela''' which does runs the '''path_rml_imodela''' (see below about units) and saves the output with the .imodela extension. Notice that is not a clean solution for maintenance but it works.<br />
<br />
'''Units'''<br />
<br />
The Roland MDX-20 units are based on '''1/40 mm''', however the iModela uses a '''1/100 mm''' unit base system. This implies a small change in the '''path_rml.c'''. The new file is '''path_rml_imodela.c'''.<br />
<br />
'''Z-Axis'''<br />
<br />
The iModela does [http://www.mesincuci.co/harga-mesin-cuci-toshiba-2-tabung Mesin Cuci Toshiba 2 Tabung] not have physical buttons for adjusting the Z 0. This must be done by software as in the XY axis. See '''rml_moveimodela''' and '''panel_path_imodela'''. See also how the units are changed from 1/40mm to 1/100mm here also. <br />
<br />
== Resources ==<br />
<br />
For RML commands reference: [[File:RML1 Command GuideENVer100.pdf]]<br />
<br />
[[Category:Old Machines]]</div>Ujanghttps://wiki.fablabbcn.org/FabduinoFabduino2018-05-11T17:48:05Z<p>Ujang: </p>
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<div>[[Fabduino | Fabduinos]] are compatible [[Arduino]] boards designed to be [http://bismilah.xyz/pialadunia nonton final piala dunia streaming] made using Fab Lab's standard tools and inventory. All the boards are designed to be one side PCB's and be made on a milling machine.<br />
<br />
{| border="1"<br />
| Version Name || Chip || Clock || Bootloader || Serial - Usb || Voltage Regulator || Other<br />
|-<br />
|}</div>Ujanghttps://wiki.fablabbcn.org/DiezelSun_3D_culture.DiezelSun 3D culture.2018-05-11T17:48:02Z<p>Ujang: </p>
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<div>'''DiezelSun''' - artist, developer of engines 3d, founder of a [http://bismilah.xyz/pialadunia bola live streaming] new direction in art. The theme of the poster is very popular and it is associated with religion, the cosmos and the ancient scriptures.<br />
<br />
== References ==<br />
*[http://wikinfo.org/w/index.php/UFOlism_(creative_style)]<br />
<br />
[[File:3d culture - Fatima miracle, Virgin Mary's appearance in 1917, angels aliens, alien gods.jpg]]</div>Ujanghttps://wiki.fablabbcn.org/TroteclaserTroteclaser2018-05-11T17:46:14Z<p>Ujang: </p>
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<div>[[Category:Old Machines]]<br />
<br />
[[File:Machines 8.jpg| thumb |Laser cutter Trotec Speedy 400]]<br />
<br />
==Precaution==<br />
<br />
* '''Never leave the laser device unattended while the system is operating.'''<br />
* Always have a fire extinguisher available, as the laser beam can ignite flammable materials.<br />
* Do not put any flammanle materials in the inside of the device or in the immediate surroundings of the device.<br />
* Be aware of all Laser safety stickers on the machine and follow them.<br />
* The system must be used only by authorized and trained personnel.<br />
* Avoid electrostatic charging during cable connections / plug-in.<br />
* Do not start the Laser machine without an adequate exhaust system.<br />
* In case of a broken lens: avoid direct skin contact and inhaling.<br />
* "EMERGENCY-STOP": on any risk: LIFT THE COVER LID!<br />
<br><br />
[http://wiki.fablabbcn.org/Material_laser Material Laser Cut]<br />
<br><br />
<br><br />
==Procedures on the softwares==<br />
===Rhino===<br />
====Geometry====<br />
* Join the geometry<br />
[[File:Join.jpg| 700 × 402 pixels]]<br><br><br />
* Check the scale of the drawing , make sure you are in millimeters and that your material fits in the laser.<br />
[[File:Scale.jpg| 700 × 402 pixels]]<br><br><br />
* Seldup command selects duplicate lines. Keep in mind that is there are more than one lines the laser cutter will pass more times over the same place.<br />
[[File:3SelDup.jpg| 700 × 402 pixels]]<br><br><br />
* Make2d if you import your drawing from other programs other than rhino and to make sure that everything is on 0 in Z plane.<br />
[[File:4Make2D.jpg| 700 × 402 pixels]]<br><br><br />
* Change object layer : hairline<br />
[[File:Hairline.jpg| 500 × 202 pixels]]<br><br><br />
[[File:4LayersColour.jpg| 700 × 402 pixels]]<br><br><br />
{| class="wikitable"<br />
|-valign="top"<br />
|[[File:4ColourSelection.jpg| 700 × 402 pixels]]<br />
|<br>Engrave <br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br>Cut<br />
|}<br />
<br><br />
<br />
====Printing====<br />
* Ctrl+p : Print <br />
[[File:4WindowPrint.jpg| 4WindowsPrint ]]<br><br><br />
* Properties<br />
[[File:5Print.jpg| 700 × 402 pixels]]<br><br><br />
[[File:5Preference.jpg| 700 × 402 pixels]]<br><br><br />
* Material Database<br />
[[File:5MaterialDataBase.jpg|Material]]<br><br><br />
*Process options<br />
[[File:5Process options.jpg|Process options]]<br><br><br />
[[File:5Valid.jpg|Valid]]<br><br><br />
* Set the view<br />
[[File:Settheview.jpg|Set the view]]<br><br><br />
* Drag the square to define your print window<br />
[[File:PrintWindow.jpg|Print Window]]<br><br><br />
* Press enter and once you come back to the previous screen clic on print.<br />
<br><br />
===Job control===<br />
[http://www.troteclaser.com/en-US/Support/Documents/JobControl-Manual-EN.pdf JobControl Manual]<br />
<br><br />
* Selection of your file<br />
[[File:Selection.jpg|Selection]]<br><br><br />
<br />
<br><br><br><br />
<br />
==The Machine : Trotec Speedy 400==<br />
[http://www.troteclaser.com/en-US/Support/Documents/Speedy-300-Manual-EN.pdf Operation Manual]<br />
===Characteristics===<br />
{| class="wikitable"<br />
|-<br />
| Overall dimensions (W x D x H)<br />
| 1400 * 950 * 1070 mm<br />
|-<br />
| Working area<br />
| 1000 * 610 mm<br />
|-<br />
| Max. height of workpiece<br />
| 305 mm<br />
|-<br />
| Max. processing speed<br />
| 355 cm / second, acceleration 4g<br />
|-<br />
| Accuracy<br />
| Addressable accuracy: 5 microm<br> Static repeat accuracy: < +/- 15microm<br />
|-<br />
| Mechanical design<br />
| Fully enclosed chassis with double safety interlock system laser safety class, <br>CE coñpliant maintenance-free, brushless DC servo motors<br>InPack-Technology<br />
|-<br />
| Laser Design<br />
| Sealed-Off CO2 laser<br> from 40 - 120 Watt<br />
|-<br />
| Weight<br />
| Approx. 300kg (depending on laser power)<br />
|}<br />
<br />
===Accessories===<br />
* Focus Tool<br />
* Cone<br />
* Allen Key set 1.5 - 10mm<br />
* 2 Wrenches<br />
* Lens cleaning tissues<br />
* Optics cleaning tissues<br />
* AC power cord<br />
<br />
<br />
===The lens===<br />
{| class="wikitable"<br />
|-<br />
! Colours<br />
! Focal (mm)<br />
! Thickness material Used <br />
|-<br />
| Red<br />
| 1.5<br />
| Very fine<br />
|-<br />
| Black<br />
| 2<br />
| Used mainly<br />
|-<br />
| Pink<br />
| 2.5<br />
| Thick<br />
|}<br />
[http://www.troteclaser.com/en-US/Laser-Machines/Accessories/Options/Pages/Focus-Lenses.aspx Focus Lenses for Trotec Laser Machines]<br />
<br />
===Cleaning optics===<br />
*Do not touch directly the lens during the operation.<br />
*Pour on it a drop of the specific product : "Lens clens".<br />
*Clean it with the appropriate electrostatic tissues : "Edmund Industrial Optic".<br />
<br />
===Vacuum===<br />
<br />
{| class="wikitable"<br />
|-<br />
| Accrylic<br />
| Not Compress Air<br />
|-<br />
| Rubber<br />
| Compress Air<br />
|-<br />
| Wood<br />
| Compress Air <br />
|}<br />
<br />
===Turn on the machine===<br />
* Turn the key.<br />
* Clean and insert the lens in the laser head : the curved portion above.<br />
* Move the head with the arrows on the machine.<br />
* Use the focus for [http://bismilah.xyz/pialadunia piala dunia streaming] positionning the table.<br />
* When the lid is closed, a light flashes at a reduced frequency.<br />
* Turn on the vacuum, if it is necessary.<br />
* On "Job control", connect the machine and align your document with the target thanks the following commands :<br />
[[File:7tool.jpg|tool]]<br />
* Then, play.</div>Ujanghttps://wiki.fablabbcn.org/ASK_ShieldASK Shield2018-05-11T17:46:09Z<p>Ujang: /* DO'S and DONT'S */</p>
<hr />
<div>=Source Code=<br />
*https://github.com/fablabbcn/ASK-Shield<br />
<br />
=IAAC Studio I Deployment=<br />
*http://goo.gl/WnQxh<br />
<br />
=Quick tips for soldering=<br />
<br />
==Guía para soldar==<br />
<br />
===DO'S and DONT'S===<br />
<br />
'''No empezar si estos componentes no están!'''<br />
*U1 Lo soldan Tomas / Guillem<br />
*IC 3 Lo soldan Tomas / Guillem<br />
<br />
'''No soldar!'''<br />
*R5 No poner<br />
*R2 No es necesario<br />
*R4 No es necesario<br />
*C1 No es necesario<br />
*R12 No poner [http://bismilah.xyz/pialadunia live piala dunia streaming]<br />
*R8 No poner<br />
*Socket GPS No poner<br />
*Socket LCD No poner<br />
*Socket Current No poner<br />
<br />
'''Cambiar!'''<br />
*Q2 Girar 180º su posición respeto la serigrafía<br />
<br />
'''Tienen Polaridad !'''<br />
*LED1, LED2, LED3 Pata corta ( - ) lado plano de la serigrafía.<br />
*C10, C11, C5, C13 ,C12, C15 Pata larga ( + ) + en la serigrafía<br />
*IC1, IC2, IC3, IC4, IC5, IC6, Q1 Tienen polaridad. Ver la serigrafía. <br />
<br />
'''Otros!'''<br />
*U3 SD Lo soldan Tomas / Guillem<br />
*PHOTOTR No tiene patas. No tiene polaridad. SMD<br />
<br />
=Parts List=<br />
*Consultar referencias en el excel http://goo.gl/kfgDl<br />
<br />
{| class="wikitable sortable" style="font-size: smaller; text-align: center; width: auto;"<br />
|----<br />
!GROUP<br />
!REF<br />
!VALUE<br />
!DEVICE<br />
!SUPPLY REF<br />
!NOTES<br />
|----<br />
|PASSIVE<br />
|C1<br />
|10u<br />
|CPOL-EUE2.5-5<br />
|<br />
|----<br />
|PASSIVE<br />
|C2<br />
|100n/0.1uF<br />
|C-EU050-025X075<br />
|<br />
|----<br />
|PASSIVE<br />
|C5<br />
|47u<br />
|CPOL-EUE2.5-5<br />
|<br />
|----<br />
|PASSIVE<br />
|C7<br />
|220n/0.22uF<br />
|C-EU050-025X075<br />
|<br />
|----<br />
|PASSIVE<br />
|R1<br />
|470<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R2<br />
|470k<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R3<br />
|49.9k<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R5<br />
|15<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R6<br />
|10k<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R7<br />
|1k<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R8<br />
|?<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R9<br />
|3k3<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R10<br />
|1k8<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R12<br />
|?<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|R13<br />
|100<br />
|R-EU_0207/10<br />
|<br />
|----<br />
|PASSIVE<br />
|LED1<br />
|Red<br />
|LED5MM<br />
|<br />
|----<br />
|PASSIVE<br />
|LED3<br />
|Yellow<br />
|LED5MM<br />
|<br />
|----<br />
|PASSIVE<br />
|LED4<br />
|Green<br />
|LED5MM<br />
|<br />
|----<br />
|IC<br />
|IC1<br />
|MCP1700INLINE<br />
|579-MCP1700-1802E/TO (Mouser)<br />
|<br />
|----<br />
|IC<br />
|IC2<br />
|LM386N-4<br />
|LM386N-4<br />
|9488332 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|IC3<br />
|MAX1674<br />
|MAX1674<br />
|700-MAX1674EUA (Mouser)<br />
|<br />
|----<br />
|IC<br />
|IC4<br />
|LM1117-5VTO220<br />
|LM1117-5VTO220<br />
|1215183 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|IC5<br />
|TLC271P<br />
|TLC271P<br />
|1103011 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|IC6<br />
|4050N<br />
|4050N<br />
|380908 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|L1<br />
|22R223C<br />
|22R223C<br />
|1077051 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|U1<br />
|MAX1555<br />
|MAX1555<br />
|1628222 (Farnell)<br />
|<br />
|----<br />
|IC<br />
|U5<br />
|LM1117-3,3VTO220<br />
|LM1117-3,3VTO220<br />
|1469056 (Farnell)<br />
|<br />
|----<br />
|MOSFETS<br />
|Q1<br />
|BS170<br />
|BS170<br />
|1017687 (Farnell)<br />
|<br />
|----<br />
|MOSFETS<br />
|Q2<br />
|BSS110<br />
|BSS110<br />
|689-VP2106N3-G (Mouser)<br />
|<br />
|----<br />
|SOCKETS<br />
|BAT <br />
|PINHD-1X2<br />
|Terminal Block 2.54mm Screws<br />
|<br />
|----<br />
|SOCKETS<br />
|CURRENT - SOCKET<br />
|PINHD-1X2<br />
|Pin Socket 1x2 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|MIC - SOCKET<br />
|PINHD-1X2<br />
|Pin Socket 1x2 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|MCP9700 - SOCKET<br />
|PINHD-1X3<br />
|Pin Socket 1x3 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|808H5V5 - SOCKET<br />
|PINHD-1X3<br />
|Pin Socket 1x3 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|MICS2710 - SOCKET<br />
|PINHD-1X4<br />
|Pin Socket 1x4 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|TGS - SOCKET<br />
|PINHD-1X4<br />
|Pin Socket 1x4 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|LCD-HEADERS<br />
|PINHD-1X5<br />
|Pin Socket 1x5 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|GPS - SOCKET<br />
|PINHD-1X8<br />
|Pin Socket 1x8 2.54mm Receptacle<br />
|<br />
|----<br />
|SOCKETS<br />
|XBEE - SOCKET<br />
|XBEE-1B1<br />
|Pin Socket 1x2 2.54mm Receptacle<br />
|<br />
|----<br />
|SWITCHES<br />
|RESET<br />
|10-XX<br />
|1555981<br />
|<br />
|----<br />
|SENSORS<br />
|MCP9700<br />
|TEMP<br />
|MCP9700 TO-92<br />
|1332166 (Farnell)<br />
|<br />
|----<br />
|SENSORS<br />
|808H5V5<br />
|HUMIDITY<br />
|Humidity Module (Cooking-hacks)<br />
|<br />
|----<br />
|SENSORS<br />
|MIC<br />
|NOISE<br />
|Microphone Omi Solder Pad (Farnell)<br />
|<br />
|----<br />
|SENSORS<br />
|MICS2710<br />
|NO2<br />
|MiCS-2710<br />
|NO2 Sensor (?)<br />
|<br />
|----<br />
|SENSORS<br />
|TGS<br />
|H2<br />
|HYDROGEN GAS SENSOR<br />
|SEN-10916 (Sparkfun)<br />
|<br />
|----<br />
|SENSORS<br />
|PHOTOTR<br />
|LG_T679-E1F1-1<br />
|PLCC2<br />
|1470167<br />
|<br />
|----<br />
|ADD-ONS<br />
|LCD1<br />
|UOLED-96<br />
|UOLED-96<br />
|UOLED-96 (Sparkfun)<br />
|<br />
|----<br />
|ADD-ONS<br />
|GPS - MODULE<br />
|GPS MODULE<br />
|GPS Module for Arduino v1037A (Cooking Hacks)<br />
|<br />
|----<br />
|ADD-ONS<br />
|XBEE<br />
|XBEE Pro.<br />
|XBEE (Cooking-hacks)<br />
|<br />
|----<br />
|ADD-ONS<br />
|U3<br />
|USD-SOCKETNEW<br />
|USD-SOCKETNEW<br />
|PRT-00127 (Sparkfun)<br />
|<br />
|----<br />
|ADD-ONS<br />
|BATERIA<br />
|LIPO 3.7V 1000mAh / 2000mAh<br />
|LIPO BAT<br />
| PRT-00339 (Sparkfun)<br />
|<br />
|----<br />
|}<br />
<br />
[[Category:Projects]]</div>Ujanghttps://wiki.fablabbcn.org/Epilog_Laser_CutterEpilog Laser Cutter2018-03-21T23:26:11Z<p>Ujang: /* External links */</p>
<hr />
<div>[[Category:Machines]]<br />
<br />
[[File:IMG 1600.JPG| frame |widths="180px" heights="120px" |Epilog Laser Cutter]]<br />
<br />
==Technical specifications==<br />
*Cutting area 900 x 600 millimeters / 35.4" x 23.6" inches<br />
*Cutting power max. 50 Watt.<br />
*Maximum Power Consumption:<br />
<br />
==Health & Safety==<br />
==CAM==<br />
*'''2D''' Printer driver from most CAD or ilustration software<br />
* From PDF<br />
<br />
==Caution==<br />
*this remark should go on all pages for lasers:<br />
The honeycomb structure of the bed of the machine is very expensive and it easily gets damaged.<br />
The quality of the cuts is only going to be good if the bed is perfectly flat and undamaged.<br />
Take good care of the honeycomb<br />
<br />
<br />
==Materials and configurations==<br />
<br />
===Settings===<br />
<br />
{| class="wikitable sortable" <br />
|+Laser settings for common materials - Epilog 50W<br />
! rowspan="3"|Material<br />
! colspan="3" style=" text-align: center;"|Cut <br />
! colspan="2" |<u>Raster</u> Engraving - 600 DPI<br />
|-<br />
|<br />
|style="text-align:center;"|Speed (%)<br />
|style="text-align:center;"|Power (%)<br />
|style="text-align:center;"|Frequency (Hz)<br />
|style="text-align:center;"|Speed (%)<br />
|style="text-align:center;"|Power (%)<br />
|-<br />
|Polypropylene - 0.5mm<br />
|style="text-align:center;"|45<br />
|style="text-align:center;"|55<br />
|style="text-align:center;"|5000<br />
|<br />
|<br />
|-<br />
|Polypropylene - 1.2mm<br />
|style="text-align:center;"|15<br />
|style="text-align:center;"|90<br />
|style="text-align:center;"|5000<br />
|<br />
|<br />
|-<br />
|Acrylic (methacrylate/Plexiglass) - 1mm<br />
|style="text-align:center;"|60<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|5000<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|35<br />
|-<br />
|Acrylic (methacrylate/Plexiglass) - 2mm<br />
|style="text-align:center;"|20<br />
|style="text-align:center;"|90<br />
|style="text-align:center;"|5000<br />
|<br />
|<br />
|-<br />
|Acrylic (methacrylate/Plexiglass) - 3mm<br />
|style="text-align:center;"|15<br />
|style="text-align:center;"|90<br />
|style="text-align:center;"|5000<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|35<br />
|-<br />
|Acrylic- Black color (methacrylate/Plexiglass) - 3mm<br />
|style="text-align:center;"|10<br />
|style="text-align:center;"|95<br />
|style="text-align:center;"|10<br />
|<br />
|<br />
|-<br />
|Acrylic (methacrylate/Plexiglass) - 6mm<br />
|style="text-align:center;"|5<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|5000<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|35<br />
|-<br />
|EVA foam (Etilvinilacetato) - 3mm<br />
|style="text-align:center;"|60<br />
|style="text-align:center;"|40<br />
|style="text-align:center;"|1000<br />
|<br />
|<br />
|-<br />
|Paper - 3mm / 250gr<br />
|style="text-align:center;"|60<br />
|style="text-align:center;"|30<br />
|style="text-align:center;"|5000<br />
|<br />
|<br />
|-<br />
|Wood - Cherry/Alder/Walnut - 3mm<br />
|style="text-align:center;"|25<br />
|style="text-align:center;"|80<br />
|style="text-align:center;"|500<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|100<br />
|-<br />
|Wood - Cherry/Alder/Walnut - 6mm<br />
|style="text-align:center;"|10<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|500<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|100<br />
<br />
|-<br />
|Wood - Plywood (2mm) / Madera<br />
|style="text-align:center;"|15<br />
|style="text-align:center;"|40<br />
|style="text-align:center;"|500<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|100<br />
|-<br />
|Wood - Plywood (3mm) / Madera<br />
|style="text-align:center;"|10<br />
|style="text-align:center;"|85<br />
|style="text-align:center;"|2000<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|100<br />
|-<br />
|Wood - Plywood (5mm) / Madera<br />
|style="text-align:center;"|15<br />
|style="text-align:center;"|85<br />
|style="text-align:center;"|500<br />
|style="text-align:center;"|70<br />
|style="text-align:center;"|100<br />
|-<br />
|Wood - Plywood (0.5mm) / Madera<br />
|style="text-align:center;"|30<br />
|style="text-align:center;"|20<br />
|style="text-align:center;"|500<br />
|style="text-align:center;width: 8em;"|70<br />
|style="text-align:center;width: 8em;"|100<br />
|-<br />
|Wood - MDF (4mm)<br />
|style="text-align:center;"|20<br />
|style="text-align:center;"|100<br />
|style="text-align:center;"|30<br />
|style="text-align:center;"|60<br />
|style="text-align:center;"|20<br />
|-<br />
|Felt (1mm) / Fieltro<br />
|style="text-align:center;"|80<br />
|style="text-align:center;"|25<br />
|style="text-align:center;"|250<br />
|<br />
|<br />
|-<br />
|Fabric - Thin<br />
|style="text-align:center;"|80<br />
|style="text-align:center;"|30<br />
|style="text-align:center;"|500<br />
|<br />
|<br />
|-<br />
|Paper - 0.3mm<br />
|style="text-align:center;"|50<br />
|style="text-align:center;"|50<br />
|style="text-align:center;"|500<br />
|<br />
|<br />
|-<br />
|Paper - Parchment (for lamp making)<br />
|style="text-align:center;"|80<br />
|style="text-align:center;"|10<br />
|style="text-align:center;"|500<br />
|<br />
|<br />
|-<br />
|Cardboard - Corrugated (5mm/2 layers)<br />
|style="text-align:center;"|55<br />
|style="text-align:center;"|45<br />
|style="text-align:center;"|500<br />
|<br />
|<br />
|}<br />
'''Note:''' Settings above are a good starting point. Laser cutting quality is affected by several factors including lens cleanliness, maintenance and/or aging laser tube. If you are not achieveing a cut, try to increase the power, decrease the speed or a do combination of both. Change settings with 5-10% step at a time.<br />
<br />
===Suppliers===<br />
[http://fablabbcn.org/maquinas/provedores-materiales/ For a supplier list take a look at this table maintained by de Fab Lab BARCELONA]<br />
<br />
<br />
==Machine work flow==<br />
<br />
*If you are not going to use the computer in the Fab Lab, install the Epilog drivers in your computer (you can reach the machine inside the Fab Lab network).<br />
*Turn on the main fume extractor in the big laser cutter switch panel.<br />
*Turn on the small air compressor on the left hand side of the machine.<br />
*Turn on the laser cutter (left side of the machine).<br />
*Make sure the material you want to use is in the 'Materials and configuration' list. If it is not there, ask the Fab Lab responsible.<br />
*Measure the size of your material board.<br />
*From your vector editing software, once you are ready for printing and if you already installed the driver, press Ctrl+P or select 'Print'.<br />
*Select 'Epilog Engraver' from the printer list and go to 'Printer settings' or 'Properties'.<br />
*The laser cutter driver interface should appear. Here you can set-up the laser's power and speed according to how the vector paths in your drawing are organized (you can also print raster images). <br />
*For a vector job:<br />
**In the 'General' tab, under 'Job type' select 'Vector'.<br />
**Set the size of the material sheet under 'Piece Size'.<br />
**Set to 'Vector sorting' and 'Optimize'.<br />
**In the 'Color mapping' tab select the check box 'Color mapping'. You should have organized your drawing in different colors if you need to do different types of jobs (for example engraving and cutting).<br />
**Once this is activated, you can set the power, the speed, and other parameters for every single color in your drawing. Take a look at the 'Materials and configuration' list above for the proper power/speed values according to the material you are using.<br />
**The list order determines the execution sequence of every type of job. You should allays engrave first and cut later. You can change the order by selecting a color and pressing the up and down arrows.<br />
**Once you are done with this configuration, press 'OK'.<br />
*For a raster job:<br />
**You should see the parts that you want to cut/engrave fitting the material in the preview. If not, you should scale, move, rotate or change the units of the drawing to get it as you want.<br />
**Finalize the process with 'Print' and the file will be sent to the laser cutter.<br />
*At the machine:<br />
**Open the hood and place the material on the metal bed without hitting the cutting head.<br />
**If the material you use is to thick (engraving bigger objects), you should lower the bed.<br />
***To lower the bed:<br />
****Press 'X/Y off' and bring the bed to the desired z position by pressing the 'up' and 'down' arrows.<br />
**Turn on the laser pointer 'Puntero'.<br />
**Set the machine head to the origin by pressing 'Restaur.' and focus the laser by pressing 'Enfocar' and 'GO/Entra'.<br />
***If you want to change the x/y origin follow this steps:<br />
****Press 'X/Y off' and bring the laser manually to the desire origin.<br />
****Then press 'Ajuste Inicio' and you should have now a new origin point. <br />
*If you already sent the job to the machine you will see 'Job:job name' in the display.<br />
*Pressing the up and down arrows will allow you to select the different jobs stored in the machine.<br />
*Press 'GO/Entra' to start cutting/engraving.<br />
*Press 'STOP/Salir' if something burns inside the machine or the material moves from its original position.<br />
*Don't leave the machine unattended.<br />
<br />
[[File:Epilog_legend_md.png|frame|none|alt=the Epilog Legend 36 interface pannel|Epilog Legend 36 interface pannel]]<br />
<br />
==Important commands==<br />
Structure: <br /> <br />
*http://issuu.com/fablabbcn/docs/epilog_quick_start?mode=window&backgroundColor=%23222222/<br /><br />
<br />
==External links==<br />
<br />
*[http://bismilah.xyz/tvonline tv online indonesia]<br />
*[http://www.epiloglaser.com/legend_series.htm Epilog Legend Series]<br />
*[http://en.wikipedia.org/wiki/Laser_cutting 'Laser cutting' in the Wikipedia]<br />
*[http://bismilah.xyz/transtv live streaming piala dunia]<br />
<br />
==Maintenance==<br />
<br />
==Downloads==<br />
<br />
*[https://www.epiloglaser.com/downloads/pdf/ext_4.22.10.pdf User Manual]<br />
<br />
[[Category: Machines]]</div>Ujanghttps://wiki.fablabbcn.org/Epilog_Laser_CutterEpilog Laser Cutter2017-06-09T22:40:41Z<p>Ujang: /* External links */</p>
<hr />
<div>[[Category:Machines]]<br />
<br />
[[File:IMG 1600.JPG| frame |widths="180px" heights="120px" |Epilog Laser Cutter]]<br />
<br />
==Technical specifications==<br />
*Cutting area 900 x 600 millimeters / 35.4" x 23.6" inches<br />
*Cutting power max. 75 Watt.<br />
<br />
==CAM==<br />
*'''2D''' Printer driver from most CAD or ilustration software<br />
* From PDF<br />
<br />
==Tools==<br />
*Tools here<br />
<br />
==Materials and configurations==<br />
<br />
===Suppliers===<br />
[http://fablabbcn.org/maquinas/provedores-materiales/ For a supplier list take a look at this table maintained by de Fab Lab BARCELONA]<br />
<br />
===Polypropylene (0.5mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 85% <br />
*Power: 20%<br />
<br />
===Polypropylene (1.2mm) / Polipropileno===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 90%<br />
ENGRAVE:<br />
*Speed: 60% <br />
*Power: 40%<br />
<br />
===Polypropylene (0.8mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
<br />
===Poly(methyl methacrylate)(3mm) / Plexiglass===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Poly(methyl methacrylate)(1mm) / Plexiglass===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 15%<br />
<br />
===Poly(methyl methacrylate) (5mm) / Plexiglass===<br />
CUT:<br />
*Speed: 10% / 15% <br />
*Power: 90% / 80%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Etilvinilacetato (3mm) / Foami - Eva===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 60%<br />
<br />
===Paper(250gr/3mm) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 30%<br />
ENGRAVE:<br />
*Speed: 85%<br />
*Power: 6%<br />
<br />
===Paper (0.3mm) / Papel===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 95%<br />
*Power: 3%<br />
<br />
===Paper(shine 1 side) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 25%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
===Parchment Paper(for lamp making) / Papel Pergamino (para hacer lamparas)===<br />
CUT:<br />
*Speed: 85% <br />
*Power: 10%<br />
<br />
===Transparent Paper / Papel transparente=== <br />
CUT:<br />
*Speed: 75% <br />
*Power: 20%<br />
<br />
===Cardboard Corrugated (5mm/2 layers) / Carton Corrugado===<br />
CUT:<br />
*Speed: 55% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 10%<br />
<br />
===Generic Cardboard / Cartulina común===<br />
CUT:<br />
*Speed: 100% <br />
*Power: 15%<br />
ENGRAVE:<br />
*Speed: 100% <br />
*Power: 4%<br />
<br />
===Stone Cardboard (3mm) / Carton Piedra===<br />
CUT:<br />
*Speed: 20% <br />
*Power: 50%<br />
<br />
===Plywood (0.6mm) (Rolling roll)/ Madera (Laminada rollo)===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 10%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
<br />
===Plywood (0.6mm) (Plywood)/ Madera (contrachapado Abedul)===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (2mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 40%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (3mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===MDF (3mm) / Madera DM===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 65%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (5mm) / Madera ===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 85%<br />
ENGRAVE:<br />
*Speed: 40%<br />
*Power: 10%<br />
<br />
===Plywood (0.5mm deep)/ Madera RASTER SOLID===<br />
ENGRAVE:<br />
*Speed: 30%<br />
*Power: 20%<br />
<br />
===Felt (3mm) / Fieltro===<br />
CUT:<br />
*Speed: 60%-70%<br />
*Power: 110%<br />
<br />
===Felt (1mm) / Fieltro===<br />
CUT:<br />
*Speed: 90% (70%) <br />
*Power: 10%<br />
<br />
===Grabar sobre piedra/ Raster Image on stone===<br />
ENGRAVE:<br />
*Speed: 90% <br />
*Power: 20%<br />
<br />
===Thin Fabric===<br />
CUT:<br />
*Speed: 80% <br />
*Power: 30%<br />
<br />
==Machine work flow==<br />
<br />
*If you are not going to use the computer in the Fab Lab, [http://www.buletinac.com/ Harga AC Murah]install the Epilog drivers in your computer (you can reach the machine inside the Fab Lab network).<br />
*Turn on the main fume extractor in the big laser cutter switch panel.<br />
*Turn on the small air compressor on the left hand side of the machine.<br />
*Turn on the laser cutter (left side of the machine).<br />
*Make sure the material [http://www.buletinautomotif.com/ Harga Ban Motor Corsa] you want to use is in the 'Materials and configuration' list. If it is not there, ask the Fab Lab responsible.<br />
*Measure the size of your material board.<br />
*From your vector editing software, once you are ready for printing and if you already installed the driver, press Ctrl+P or select 'Print'.<br />
*Select 'Epilog Engraver' from the printer list and go to 'Printer settings' or 'Properties'.<br />
*The laser cutter driver interface should appear. Here you can set-up the laser's power and speed according to how the vector paths in your drawing are organized (you can also print raster images). [http://www.buletinsamsung.com/ Harga HP Samsung]<br />
*For a vector job:<br />
**In the 'General' tab, under 'Job type' select 'Vector'.<br />
**Set the size of the material sheet under 'Piece Size'.<br />
**Set to 'Vector sorting' and 'Optimize'.<br />
**In the 'Color mapping' tab select the check box 'Color mapping'. You should have organized your drawing in different colors if you need to do different types of jobs (for example engraving and cutting).<br />
**Once this is activated, you can set the power, the speed, and other parameters for every single color in your drawing. Take a look at the 'Materials and configuration' list above for the proper power/speed values according to the material you are using.<br />
**The list order determines the execution sequence of every type of job. You should allays engrave first and cut later. You can change the order by selecting a color and pressing the up and down arrows.<br />
**Once you are done with this configuration, press 'OK'.<br />
*For a raster job:<br />
**You should see the parts that you want to cut/engrave fitting the material in the preview. If not, you should scale, move, rotate or change the units of the drawing to get it as you want.<br />
**Finalize the process with 'Print' and the file will be sent to the laser cutter.<br />
*At the machine:<br />
**Open the hood and place the material on the metal bed without hitting the cutting head.<br />
**If the material you use is to thick (engraving bigger objects), you should lower the bed.<br />
***To lower the bed:<br />
****Press 'X/Y off' and bring the bed to the desired z position by pressing the 'up' and 'down' arrows.<br />
**Turn on the laser pointer 'Puntero'.<br />
**Set the machine head to the origin by pressing 'Restaur.' and focus the laser by pressing 'Enfocar' and 'GO/Entra'.<br />
***If you want to change the x/y origin follow this steps:<br />
****Press 'X/Y off' and bring the laser manually to the desire origin.<br />
****Then press 'Ajuste Inicio' and you should have now a new origin point. <br />
*If you already sent the job to the machine you will see 'Job:job name' in the display.<br />
*Pressing the up and down arrows will allow you to select the different jobs stored in the machine.<br />
*Press 'GO/Entra' to start cutting/engraving.<br />
*Press 'STOP/Salir' if something burns inside the machine or the material moves from its original position.<br />
*Don't leave the machine unattended.<br />
<br />
[[File:Epilog_legend_md.png|frame|none|alt=the Epilog Legend 36 interface pannel|Epilog Legend 36 interface pannel]]<br />
<br />
==Important commands==<br />
Structure: <br /> <br />
*http://issuu.com/fablabbcn/docs/epilog_quick_start?mode=window&backgroundColor=%23222222/<br /><br />
<br />
==External links==<br />
*[https://goo.gl/Kh6ih6 program turun berat badan]<br />
*[http://www.epiloglaser.com/legend_series.htm Epilog Legend Series]<br />
*[http://www.buletintupperware.com/ tupperware promo]<br />
*[http://en.wikipedia.org/wiki/Laser_cutting 'Laser cutting' in the Wikipedia]<br />
[[Category: Machines]]</div>Ujanghttps://wiki.fablabbcn.org/Fab_Lab_House_ModelFab Lab House Model2017-02-14T07:32:16Z<p>Ujang: /* Assembly Instructions */</p>
<hr />
<div>[[Category:Projects]]<br />
<br />
== Fab Lab House Model 1:9 ==<br />
<br />
A project created for the 2010 Solar Decathlon by the Institute for Advanced Architecture of Catalonia and the Fab Lab Barcelona. <br />
<br />
== Assembly Instructions ==<br />
<br />
Start by watching the following video to get an idea of the order of assembly. <br /> <br />
*http://www.youtube.com/watch?v=JD9QhN5ObZg&feature=player_embedded <br /> <br />
<br /> <br />
Structure: <br /> <br />
*https://picasaweb.google.com/fablabbcn/20110224?feat=directlink/<br /> <br />
1. Start by fabricating [http://www.buletinautomotif.com/ Harga Mobil Toyota] the structure out of 5mm plywood. <br /> <br />
2. All the ribs are numbered so once they are fabricated, lay them out or stack them in order to keep the assembly organized. <br /> <br />
3. The assembly of the ribs is a bit tricky. So, we would suggest doing a dry run before you start gluing together the ribs. You will discover that some ribs need to installed before others because of the direction of the notching changes direction. <br /> <br />
4. The whole structure is divided into two sections, so that a portion of the roof can removed once the model is complete <br /> <br />
5. While you are assembling the ribs, you will need to start adding the short cross members in between each rib. These pieces are also numbered and have corresponding numbers on the ribs so make sure you follow that order because each piece is specific to one location. <br /> <br />
6. For the short cross members, we started to use super glue because white glue and hot glue did not hold together after some time. In general we used a lot of super glue to assemble the model, because it was fast drying which allowed for fast assembly. <br /> <br />
<br /> <br />
<br />
Skin: <br /> <br />
*https://picasaweb.google.com/fablabbcn/May182011?authkey=Gv1sRgCJzM3sDAxMOPDA&feat=directlink/<br /> <br />
1. Start by fabricating the skin out of (2) layers 1mm wood veneer adhered together. We used veneer which came in long skinny sheets (27cm x 250cm). The fabrication files are optimized for this sheet size, so you will have to change the files if you change the material dimensions. <br /> <br />
2. Gluing the two layers of 1mm together is also fairly tricky because the wood warps which makes it hard to stick together at times. After several tests, we discovered that super glue once again was the fastest option to keep the pieces together. <br /> <br />
3. VERY IMPORTANT - Make sure you study the grain of the wood to make sure it is running perpendicular to the curve on the house. <br /> <br />
4. Regarding the assembly order, there is a order you should try to follow. Start by picking either edge of the house and do one complete row followed by another complete row, etc...The best way to start is by gluing (super glue again) at the bottom of the structure and working towards the top. <br /> <br />
5. The skin is designed to overlap each other like shingles so make sure account for that. <br /> <br />
6. On the top of the roof there is a ridge where the roof begins to slope either direction. As this point you should change the direction of the overlap so that if it were to rain on the house, the overlaps would allow for the rain to flow down the roof. <br /> <br />
7. We recommend using super glue for the skin, especially at locations where there the structure is bending considerably. <br /> <br />
8. For the legs, we used the 1mm veneer (for aesthetic purposes), but you could also use 2mm or 3mm plywood if necessary. <br /> <br />
9. Make sure you cut the skin at the connection points between the two sections so that you can disassemble to roof later. <br /> <br />
10. For the windows, we used 2mm clear plastic sheets. Make sure you follow the plan which outlays the location of windows so that you don't install wood panels where there should be windows. For each window, we cut the pieces out by hand and super glued them to the structure. <br /> <br />
11. Finally, the solar panels were cut using the vinyl cutter and applied based on the plan found in the fabrication file. <br /> <br />
<br /><br />
Interior:<br /> <br />
*https://picasaweb.google.com/fablabbcn/20110307?feat=directlink<br /> <br />
1. Start by fabricating all the pieces out of 3mm plywood. <br /> <br />
2. For the interior cabinets which are curved at the top, we once again used (2) layers of 1mm wood veneer glued together. There are not fabrication files for those, because we cut those pieces by hand. <br /> <br />
3. The stairs were modified once on the model, so the fabrication files may not match the house exactly. <br /> <br />
3. For the people, we used 12mm acrylic for something different.<br /> <br />
4. Furniture fabrication files are included and can modified based on your needs. <br /> <br />
<br /><br />
<br />
== Images of the Model ==<br />
<br />
[[:File:P1000157.JPG]] <br /> <br />
[[:File:P1000156.JPG]]<br />
<br />
== Fabrication Files ==<br />
Use the following username and password to download the fabrication files: <br /> <br />
Username: fablabfiles@fablabbcn.org <br /> <br />
Password: Blank (Meaning just hit enter) <br /> <br />
<br /> <br />
<br />
2D Laser cutting files (.dwg) <br /> <br />
*[ftp://ftp.fablabbcn.org/FABLAB_KNOWHOW/FabLabHouse/Fab%20Lab%20House%20Model%201:9/]<br />
<br />
3D Model of Exterior (.3dm) <br /> <br />
*[ftp://fablabfiles%40fablabbcn%2Eorg@ftp.fablabbcn.org/FABLAB_KNOWHOW/FabLabHouse/Fab%20Lab%20House%20Model%201:9/exterior_model.3dm]<br />
<br />
==External links==<br />
*http://www.fablabhouse.com/<br />
*http://iaac.net/<br />
*http://fablabbcn.org/</div>Ujanghttps://wiki.fablabbcn.org/MakerbotMakerbot2017-02-14T07:30:15Z<p>Ujang: /* ABS - Acrylonitrile butadiene styrene */</p>
<hr />
<div>[[Category:Old Machines]]<br />
<br />
[[File:Makerbot-original.jpg| thumb |The original Makerbot Cupcake built at Fab Lab Barcelona in 2010]]<br />
<br />
==Technical specifications==<br />
<br />
Makerbot Replicator 2<br />
*build area : 285 x 153 x 155 milimeters<br />
<br />
Makerbot Replicator (Dual)<br />
*build area : 225 x 145 x 150 milimeters<br />
<br />
<br />
<br />
==Materials and configurations==<br />
<br />
<br />
===PLA - polylactide ===<br />
* color : black, white, yellow, orange, green, <br />
* settings : MakerBot PLA (default)<br />
<br />
<br />
===ABS - Acrylonitrile butadiene styrene ===<br />
* color : black, white, yellow, red <br />
* settings : MakerBot ABS (default)<br />
* only for Makerbot Replicator (Dual)<br />
* [http://www.buletinautomotif.com/ Harga Helm Ink]<br />
<br />
===ABS - THERMOCHROMATIC ===<br />
* color : purple to pink, blue to white<br />
* settings : MakerBot ABS (default)<br />
* only for Makerbot Replicator (Dual)<br />
<br />
<br />
===ABS - CONDUCTIVE ===<br />
* color : black<br />
* settings : MakerBot ABS (default)<br />
* only for Makerbot Replicator (Dual)<br />
<br />
<br />
===FLEXIBLE FILAMENTS ===<br />
NinjaFlex<br />
* color : red<br />
* settings : speed 15mm/s - temp. 245°<br />
* flexibility : high<br />
<br />
<br />
FormFutura<br />
* color : white <br />
* settings : speed 15mm/s - temp. 230°<br />
* flexibility : medium<br />
<br />
<br />
Makerbot Flexible Filament (PCL)<br />
* color : white<br />
* settings : MakerBot Flexible Filament (default)<br />
* flexibility : when heated with hot water or air<br />
* only for Makerbot Replicator 2<br />
<br />
=== WOOD ===<br />
* color : light - dark<br />
* settings : speed 60mm/s - temp. 160° - 200°<br />
* darker color = higher temprature<br />
<br />
<br />
===NYLON ===<br />
* color : transparent<br />
* settings : speed 20-30 mm/s - temp. 240°</div>Ujanghttps://wiki.fablabbcn.org/Epilog_Laser_CutterEpilog Laser Cutter2017-02-14T07:25:14Z<p>Ujang: </p>
<hr />
<div>[[Category:Machines]]<br />
<br />
[[File:IMG 1600.JPG| frame |widths="180px" heights="120px" |Epilog Laser Cutter]]<br />
<br />
==Technical specifications==<br />
*Cutting area 900 x 600 millimeters / 35.4" x 23.6" inches<br />
*Cutting power max. 75 Watt.<br />
<br />
==CAM==<br />
*'''2D''' Printer driver from most CAD or ilustration software<br />
* From PDF<br />
<br />
==Tools==<br />
*Tools here<br />
<br />
==Materials and configurations==<br />
<br />
===Suppliers===<br />
[http://fablabbcn.org/maquinas/provedores-materiales/ For a supplier list take a look at this table maintained by de Fab Lab BARCELONA]<br />
<br />
===Polypropylene (0.5mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 85% <br />
*Power: 20%<br />
<br />
===Polypropylene (1.2mm) / Polipropileno===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 90%<br />
ENGRAVE:<br />
*Speed: 60% <br />
*Power: 40%<br />
<br />
===Polypropylene (0.8mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
<br />
===Poly(methyl methacrylate)(3mm) / Plexiglass===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Poly(methyl methacrylate)(1mm) / Plexiglass===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 15%<br />
<br />
===Poly(methyl methacrylate) (5mm) / Plexiglass===<br />
CUT:<br />
*Speed: 10% / 15% <br />
*Power: 90% / 80%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Etilvinilacetato (3mm) / Foami - Eva===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 60%<br />
<br />
===Paper(250gr/3mm) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 30%<br />
ENGRAVE:<br />
*Speed: 85%<br />
*Power: 6%<br />
<br />
===Paper (0.3mm) / Papel===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 95%<br />
*Power: 3%<br />
<br />
===Paper(shine 1 side) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 25%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
===Parchment Paper(for lamp making) / Papel Pergamino (para hacer lamparas)===<br />
CUT:<br />
*Speed: 85% <br />
*Power: 10%<br />
<br />
===Transparent Paper / Papel transparente=== <br />
CUT:<br />
*Speed: 75% <br />
*Power: 20%<br />
<br />
===Cardboard Corrugated (5mm/2 layers) / Carton Corrugado===<br />
CUT:<br />
*Speed: 55% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 10%<br />
<br />
===Generic Cardboard / Cartulina común===<br />
CUT:<br />
*Speed: 100% <br />
*Power: 15%<br />
ENGRAVE:<br />
*Speed: 100% <br />
*Power: 4%<br />
<br />
===Stone Cardboard (3mm) / Carton Piedra===<br />
CUT:<br />
*Speed: 20% <br />
*Power: 50%<br />
<br />
===Plywood (0.6mm) (Rolling roll)/ Madera (Laminada rollo)===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 10%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
<br />
===Plywood (0.6mm) (Plywood)/ Madera (contrachapado Abedul)===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (2mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 40%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (3mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===MDF (3mm) / Madera DM===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 65%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (5mm) / Madera ===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 85%<br />
ENGRAVE:<br />
*Speed: 40%<br />
*Power: 10%<br />
<br />
===Plywood (0.5mm deep)/ Madera RASTER SOLID===<br />
ENGRAVE:<br />
*Speed: 30%<br />
*Power: 20%<br />
<br />
===Felt (3mm) / Fieltro===<br />
CUT:<br />
*Speed: 60%-70%<br />
*Power: 110%<br />
<br />
===Felt (1mm) / Fieltro===<br />
CUT:<br />
*Speed: 90% (70%) <br />
*Power: 10%<br />
<br />
===Grabar sobre piedra/ Raster Image on stone===<br />
ENGRAVE:<br />
*Speed: 90% <br />
*Power: 20%<br />
<br />
===Thin Fabric===<br />
CUT:<br />
*Speed: 80% <br />
*Power: 30%<br />
<br />
==Machine work flow==<br />
<br />
*If you are not going to use the computer in the Fab Lab, [http://www.buletinac.com/ Harga AC Murah]install the Epilog drivers in your computer (you can reach the machine inside the Fab Lab network).<br />
*Turn on the main fume extractor in the big laser cutter switch panel.<br />
*Turn on the small air compressor on the left hand side of the machine.<br />
*Turn on the laser cutter (left side of the machine).<br />
*Make sure the material [http://www.buletinautomotif.com/ Harga Ban Motor Corsa] you want to use is in the 'Materials and configuration' list. If it is not there, ask the Fab Lab responsible.<br />
*Measure the size of your material board.<br />
*From your vector editing software, once you are ready for printing and if you already installed the driver, press Ctrl+P or select 'Print'.<br />
*Select 'Epilog Engraver' from the printer list and go to 'Printer settings' or 'Properties'.<br />
*The laser cutter driver interface should appear. Here you can set-up the laser's power and speed according to how the vector paths in your drawing are organized (you can also print raster images). [http://www.buletinsamsung.com/ Harga HP Samsung]<br />
*For a vector job:<br />
**In the 'General' tab, under 'Job type' select 'Vector'.<br />
**Set the size of the material sheet under 'Piece Size'.<br />
**Set to 'Vector sorting' and 'Optimize'.<br />
**In the 'Color mapping' tab select the check box 'Color mapping'. You should have organized your drawing in different colors if you need to do different types of jobs (for example engraving and cutting).<br />
**Once this is activated, you can set the power, the speed, and other parameters for every single color in your drawing. Take a look at the 'Materials and configuration' list above for the proper power/speed values according to the material you are using.<br />
**The list order determines the execution sequence of every type of job. You should allays engrave first and cut later. You can change the order by selecting a color and pressing the up and down arrows.<br />
**Once you are done with this configuration, press 'OK'.<br />
*For a raster job:<br />
**You should see the parts that you want to cut/engrave fitting the material in the preview. If not, you should scale, move, rotate or change the units of the drawing to get it as you want.<br />
**Finalize the process with 'Print' and the file will be sent to the laser cutter.<br />
*At the machine:<br />
**Open the hood and place the material on the metal bed without hitting the cutting head.<br />
**If the material you use is to thick (engraving bigger objects), you should lower the bed.<br />
***To lower the bed:<br />
****Press 'X/Y off' and bring the bed to the desired z position by pressing the 'up' and 'down' arrows.<br />
**Turn on the laser pointer 'Puntero'.<br />
**Set the machine head to the origin by pressing 'Restaur.' and focus the laser by pressing 'Enfocar' and 'GO/Entra'.<br />
***If you want to change the x/y origin follow this steps:<br />
****Press 'X/Y off' and bring the laser manually to the desire origin.<br />
****Then press 'Ajuste Inicio' and you should have now a new origin point. <br />
*If you already sent the job to the machine you will see 'Job:job name' in the display.<br />
*Pressing the up and down arrows will allow you to select the different jobs stored in the machine.<br />
*Press 'GO/Entra' to start cutting/engraving.<br />
*Press 'STOP/Salir' if something burns inside the machine or the material moves from its original position.<br />
*Don't leave the machine unattended.<br />
<br />
[[File:Epilog_legend_md.png|frame|none|alt=the Epilog Legend 36 interface pannel|Epilog Legend 36 interface pannel]]<br />
<br />
==Important commands==<br />
Structure: <br /> <br />
*http://issuu.com/fablabbcn/docs/epilog_quick_start?mode=window&backgroundColor=%23222222/<br /><br />
<br />
==External links==<br />
*[http://buletinnews.com/ berita hari ini]<br />
*[http://www.epiloglaser.com/legend_series.htm Epilog Legend Series]<br />
*[http://www.buletintupperware.com/ tupperware promo]<br />
*[http://en.wikipedia.org/wiki/Laser_cutting 'Laser cutting' in the Wikipedia]<br />
[[Category: Machines]]</div>Ujanghttps://wiki.fablabbcn.org/ShopBotShopBot2017-02-11T16:48:08Z<p>Ujang: </p>
<hr />
<div>[[File:Shopbot_cutting.jpg ]]<br />
<br />
<br />
<br />
==CAM==<br />
<br />
*'''2D''' Pathworks<br />
*'''3D''' Pathworks 3D or Rhino CAM<br />
<br />
==MCS==<br />
<br />
*ShopBot 3<br />
<br />
==Tools==<br />
===Currently load tools===<br />
*1. wood 6mm<br />
*2. engraving 60º<br />
*3. alucubon and non-ferrous metals (aluminium) 6mm<br />
*4. surfacing wood. <br />
*5. alucubon 96º<br />
*6. alucubon 3mm<br />
<br />
''important. check it every time and try to maintain the list updated''<br />
<br />
==Selecting the Right Bit for the Job==<br />
<br />
'''Bit material:''' Router bits are made from a variety of materials. The most common are solid carbide,<br />
carbide-tipped steel, and high-speed steel. Both solid carbide and carbide- tipped are good choices.<br />
We do not recommend using high-speed steel bits as they dull quickly and must be re-sharpened.<br />
<br />
'''Flute type:''' There are four basic flute types: Straight, spiral up-cut, spiral down-cut, and compression.<br />
Each type has its own advantages and disadvantages, which are outlined in the chart below.<br />
[http://www.buletinsamsung.com/hp-second-singapura-samsung-galaxy HP X Singapura]<br />
<br />
[[File:Schermata 2017-01-13 alle 17.01.41.png|800px]]<br />
<br />
==Parameters: Feeds and Speeds==<br />
<br />
A challenge of getting [http://www.mesincuci.co/cara-merawat-dan-membersihkan-mesin-cuci Merawat Mesin Cuci]a good CNC cut is in selecting the best bit, best cutting speed (feed rate) and<br />
router/spindle RPM (speed of rotation). Bits, feeds, and speeds are a critical part of machining and<br />
should be fully understood before deviating from recommended settings. Bits choice is important in<br />
chip load, which is a representation of the size of the chips produced during cutting. The goal is to get<br />
the maximum chip load possible to increase productivity, reduce heat, and prevent premature dulling. [http://www.buletinac.com/ Kebutuhan AC]<br />
When chip load is too small, bits will get too hot and dull quicker. When chip load is too high, the tool<br />
will deflect creating a bad surface finish and, in extreme cases, chip or break the bit. <br />
<br />
Optimising feed rates and speeds:<br />
1. Start off using an RPM derived for the chip load for the material being cut (see charts).<br />
2. Increase the cutting speed (feed rate) until the quality of the part’s finish starts to decrease or the<br />
part is starting to move from hold downs. Then decrease speed by 10%.<br />
3. Decrease RPM until finish deteriorates, then bring RPM back up until finish is acceptable.<br />
4. This optimises RPM and speed to remove the largest possible chips.<br />
<br />
'''Feeds and Speed:'''<br />
<br />
*PLYWOOD<br />
<br />
<br />
Flat 6mm, 1 flute<br />
<br />
RPM: 13000<br />
<br />
Plunge: 1000<br />
<br />
Travelling clearance plane: 4000<br />
<br />
Rest of the parameters:2000<br />
<br />
Step down: 4mm max (always depending on the diameter of the tool)<br />
<br />
<br />
*FOAM<br />
<br />
Flat 6mm, 1 flute<br />
<br />
RPM: 12000<br />
<br />
Plunge: 2000<br />
<br />
Travelling clearance plane: 4000<br />
<br />
Rest of the parameters:3500<br />
<br />
Step down: 20mm max (always depending on the diameter of the tool)<br />
<br />
<br />
*CHIPBOARD<br />
<br />
Flat 6mm, 1 flute<br />
<br />
RPM: 12500<br />
<br />
Plunge: 1000<br />
<br />
Travelling clearance plane: 4000<br />
<br />
Rest of the parameters:2000<br />
<br />
Step down: 4mm max (always depending on the diameter of the tool)<br />
<br />
Parameters given by ShopBot<br />
<br />
[[File:Schermata 2017-01-13 alle 16.45.07.png|800px]]<br />
<br />
[[File:Schermata 2017-01-13 alle 16.51.02.png|800px]]<br />
<br />
[[File:Schermata 2017-01-13 alle 16.53.13.png|800px]]<br />
<br />
[[File:Schermata 2017-01-13 alle 16.54.38.png|800px]]<br />
<br />
[[File:Schermata 2017-01-13 alle 16.55.34.png|800px]]<br />
<br />
[[File:Schermata 2017-01-13 alle 16.56.29.png|800px]]<br />
<br />
==Use of SHOPBOT==<br />
<br />
-Always wear safety glasses when operating the ShopBot or observing the machine when it is in use.<br />
<br />
-Never leave the machine when it is in operation.<br />
<br />
-If you need a bathroom break, the machine can be paused by pressing the Space Bar on the control PC keyboard.<br />
<br />
-Make sure the bed of the machine is clean before use. Inform us if it is not clean.<br />
<br />
-Securely fasten your material to the bed of the machine. Consult us every time you are faced with a different, challenging or unusual work-holding scenario.<br />
<br />
-Perform command “C3” Homing routine to establish the true machine home X-0 Y-0 (in the machine coordinates system)<br />
<br />
-Jog X, Y to your personal Work Home coordinates, ie: the corner of your material & the X,Y origin of your drawing. <br />
<br />
-Take a photo of the Control PC screen or take note of the machine [http://www.mesincuci.co/harga-mesin-cuci-toshiba-1-tabung-2017 Mesin Cuci Toshiba 1 Tabung] coordinates system to your chosen Work Home position. Example: X - 105.499, Y - 145.376 (do not worry about Z yet). Work Home X Y coordinates are simply offset measurements from the true Home (X-0, Y-0) of the Machine.<br />
<br />
-Zero work coordinates to X-0 Y-0<br />
<br />
-Install tool in collet/tool holder + install tool/tool holder on spindle.<br />
<br />
-Use command ”C2” & follow [http://www.mesincuci.co/harga-mesin-cuci-panasonic Mesin Cuci Panasonic] prompts on the PC screen (You will place the Z-0 plate directly under the tool on your material & place the Alligator Clip onto the collet nut on the tool holder) to set the Z-0 of your home position coordinates. You now have all 3 of your X, Y & Z work home coordinates loaded into the CNC system.<br />
<br />
-Load part file, to choose the file you need to launch, you will see your “G-Code” which you generated in RhinoCam on the screen.<br />
<br />
-Visually check again the machine bed to ensure all tools have been removed and that material is securely fastened to the bed.<br />
<br />
-Start in ShopBot software, follow prompts.<br />
<br />
-Start the spindle with the green button on the ShopBot remote.<br />
<br />
-Monitor the machine closely until the machine stops. Laser Cutters and CNC Routers have a high risk of fire if left unattended.<br />
<br />
-If you need to pause the machine, press the Spacebar on the PC Keyboard. The machine will pause, then follow the prompts to restart or end the process.<br />
<br />
-Emergency stop buttons are located in 2 places: On your remote, next to the Control PC, and On the end of the Y - Axis gantry. The Emergency Stop buttons are large, round Red buttons which will completely shut-down the machine.<br />
<br />
-Remove the tool-holder & tool from the spindle and store it in the tool-holder rack.<br />
<br />
-Clean the machine and your work area completely after you have removed your material.<br />
<br />
-Skeletons and scraps created during the process should be cut up & placed in the recycling cart.<br />
<br />
<br />
==Important commands==<br />
<br />
===Set Z zero===<br />
<br />
Run command C2. Put the metal plate under the machine head and connect the alligator grip to the tool head. Run Enter. The machine will go down and adjust its Z zero. Done.<br />
<br />
===Set XY zero===<br />
<br />
Run command C3. The machine will move. Wait. Done.<br />
<br />
===Change a toolpath tool===<br />
<br />
Run command 72 (press CN and then 72). The machine will leave its tool on its tool holder and will go to look for the new tool. Once the new tool is load the machine will move to the Z tool distance area in the toolpath. Connect the aligator grip to the tool head. The machine will go down and save the tool length. Done.<br />
<br />
==External Links==<br />
<br />
*[http://shopbotwiki.com/ ShopBot wiki]<br />
*[http://www.kameraku.co/kamera-cctv Paket CCTV]<br />
<br />
[[Category:Machines]]</div>Ujanghttps://wiki.fablabbcn.org/IModelaIModela2017-02-11T16:25:41Z<p>Ujang: </p>
<hr />
<div>This page is about the Roland iModela desktop cnc milling machine. <br />
<br />
= Fab Modules with iModela support =<br />
<br />
[[File:Fab-modules-imodela.zip]]<br />
<br />
This is a compiled version of an old version of Fab Modules ([http://kokompe.cba.mit.edu/ kokompe.cba.mit.edu]) with support for the '''Roland iModela''' ready to be deployed. (C source code is missing except for path_rml_imodela.c)<br />
<br />
== Quick changes added to provide support for the iModela ==<br />
<br />
This instructions are provided in order to port the changes to the current version of Fab Modules.<br />
<br />
'''Communications'''<br />
<br />
The iModela has a printer driver. You can add it to your computer as a regular printer and select '''&quot;Raw queue&quot;''' on the printer drivers. That is the same setup as for the Roland Vinyl Cutter (.camm). &quot;Raw Queue&quot; is by default on the drivers list on Ubuntu and under the CUPS admin in Mac OS http://localhost:631<br />
<br />
The '''fab_send''' module knows which file to send where depending on the file extension. That is not a really good solution in the case you have two different machines which communicate different but use the same file. This is the case of the MDX-20 that runs on .rml and uses the serial port and the iModela, which uses the same [http://www.mesincuci.co/mesin-cuci-polytron-1-tabung Mesin Cuci Polytron 1 Tabung] extension but the printer driver described above.<br />
<br />
To solve this issue in an easy but not nice way we used the *.imodela extension for the *.rml files we want to send to the iModela. That is not a problem because the file extension is meaningful less for the machine to operate.<br />
<br />
To be able to create the files with another [http://www.mesincuci.co/harga-mesin-cuci-sanken-2-tabung Mesin Cuci Sanken 2 Tabung] extension we created a file called '''make_png_imodela''' which does runs the '''path_rml_imodela''' (see below about units) and saves the output with the .imodela extension. Notice that is not a clean solution for maintenance but it works.<br />
<br />
'''Units'''<br />
<br />
The Roland MDX-20 units are based on '''1/40 mm''', however the iModela uses a '''1/100 mm''' unit base system. This implies a small change in the '''path_rml.c'''. The new file is '''path_rml_imodela.c'''.<br />
<br />
'''Z-Axis'''<br />
<br />
The iModela does [http://www.mesincuci.co/harga-mesin-cuci-toshiba-2-tabung Mesin Cuci Toshiba 2 Tabung] not have physical buttons for adjusting the Z 0. This must be done by software as in the XY axis. See '''rml_moveimodela''' and '''panel_path_imodela'''. See also how the units are changed from 1/40mm to 1/100mm here also. <br />
<br />
== Resources ==<br />
<br />
For RML commands reference: [[File:RML1 Command GuideENVer100.pdf]]<br />
<br />
[[Category:Old Machines]]</div>Ujanghttps://wiki.fablabbcn.org/Internet_0Internet 02017-01-20T00:21:21Z<p>Ujang: /* External links */</p>
<hr />
<div>== i0 seven principles ==<br />
<br />
The Scientific American article Krikorian co-authored (cited in “References”) describes seven principles that define Internet-0.<br />
<br />
*Each Internet-0 device uses the Internet Protocol.<br />
*“Implementing the communications protocols jointly rather than separately” simplifies software.<br />
*Two Internet-0 devices “do not require the existence of a third one in order to operate”.<br />
*Each Internet-0 device “is responsible for keeping track of its own identity”.<br />
*“The use of big bits allows the data that make up a packet to be represented in the same way no mater what physical medium conveys them.”<br />
*Internet-0 uses open standards.<br />
<br />
==Requirements==<br />
The design intent is to provide a simple, very inexpensive system that can transmit data slowly over many types of media, and yet still connect devices to the internet. Connecting to the internet is a crucial part of the design, because much of the value of a networked device is provided by easy, wide access to it. The higher layers of an Internet 0 network are usually [[SLIP]], [[Internet Protocol|IP]], and above that, usually [[User Datagram Protocol|UDP]] or more rarely [[Transmission Control Protocol|TCP]]. <br />
<br />
The protocol layers are chosen to need a minimum of code, to keep the expense of the computer low. Internet 0 has been implemented in small [[Atmel AVR|AVR]] microcontrollers. In most existing implementations, the layers are not distinct, because small code is more important than elegant design.<br />
<br />
A small translation device normally attaches a local network of Internet 0 devices to the serial port of a [[personal computer|PC]] that acts as a [[gateway (telecommunications)|gateway]] and [[Firewall (computing)|firewall]] to the [[Internet]].<br />
<br />
Devices can talk directly to each other without requiring a server. The distributed architecture ensures that there is no central point of failure. <br />
<br />
Address assignment and cryptographic key intialization is sometimes performed by closing a contact on the device while having a master controller broadcast an assignment message. Security is via a simplified encryption system.<br />
<br />
==Details==<br />
Internet 0 is similar to a [[serial port]] running at 9600 BAUD except it sends data by pulse-position modulation, and accepts up to 30% timing deviations. <br />
<br />
A zero bit is a pulse in the center of the first half of a bit time, and a one is a pulse in the second half of a bit time. Data is sent as 8 bit bytes. A byte is preceded by a bit time that has two pulses (at both 1 and 0 times), and ends with a bit time that has another two pulses.<br />
<br />
In some variations, the stop bit-time is optional, and the dual-pulse bit times are treated as byte separators. <br />
<br />
The dual-pulse start and stop bit times permit a receiver to synchronize with the beginnings of bytes, and also measure the baud rate of a sender. Synchronizing on 8-bit bytes permits a 9600-baud internet-0 connection to easily translate to a standard, low-speed 19,200 BAUD TCP/IP serial port. The baud rate measurement permits senders and receivers to use inexpensive low-precision oscillators such as ceramic resonators or resistor-capacitor oscillators.<br />
<br />
The most common interface uses the power supply wiring to the device. The circuit is a small [[surface mount]]ed [[capacitor]] between an [[AC power|AC]] mains wire or a [[Direct current|DC]] power wire and a single digital pin of a small [[microcontroller]]. The pulses are normally generated by having software toggle a digital I/O pin on the microcontroller. They are received through another capacitor, by a microcontroller with a pin configured as an interrupt, or as a hardware timer's gate.<br />
<br />
The pulse position modulation works in many media. Internet 0 has been tested over [[Radio frequency|RF]], [[IR]], ultrasonics, optical, DC and AC power wiring, and even physical representations such as printed bar codes and engraving on a key.<br />
<br />
==Fab Academy Related Projects==<br />
*[http://fab.cba.mit.edu/classes/MIT/863.04/people/arikan/08networking.htm Good Reference]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/dcarr/networking/net.html Meetting]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/florence/week11/Index.html Case 1]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/mellis/communication/index.html IR LED]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/john/NWK.PDF Case 2]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/hannah/week12.html Globos]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/hannah/week11.html 2 arduinos]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.09/people/lifeform/13/index.html Record]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.07/people/simon/assign_sysFinale/MAS863_sysFINALE.html Power]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.06/people/suelin/project10.html Case 3]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.06/people/vanessa/WEB/week10.htm Case 4]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.06/people/matt/eleven.html Case 5]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.04/people/harrison/ Case 6]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.04/people/jerry/main.html Case 7]<br />
<br />
==Helpful links==<br />
*[http://www.youtube.com/watch?v=-_E7xWLvjxc&feature=related First 5 Minutes Programming with Python]<br />
*[http://www.youtube.com/watch?v=w8ubXgXM7kk Programming Bits and Atoms]<br />
*[http://fab.cba.mit.edu/classes/MIT/863.07/people/stephen/tutorialPython.pdf Py Tutorial]<br />
<br />
==External links==<br />
*[http://cba.mit.edu/projects/I0/ Internet 0 at MIT's Center for Bits and Atoms]<br />
*[http://www.youtube.com/watch?v=w8ubXgXM7kk Programming Bits and Atoms] Google TechTalk by Neil Gershenfeld, 27 October 2008<br />
*[http://www.media.mit.edu/physics/publications/papers/04.10.sciam/ Internet 0: Inter-device Internetworking]<br />
*[http://www.tabloidharga.com/samsung-galaxy-z2 Samsung Galaxy Z2]<br />
*[http://www.ldeo.columbia.edu/~dale/projects/Internet-0_info.html Internet 0 info]<br />
*[http://www.hyperhabitat.net/ Hyperhabitat: Reprogramming the World] - Venice Biennale Architecture Exhibition<br />
*[http://wapedia.mobi/en/Internet_0 i0 Wapedia]<br />
*[http://www.tabloidharga.com/hp-htc Harga Hp HTC]<br />
*[http://www.boingboing.net/2003/04/25/internet-0-bringing-.html Boing Boing - "Internet 0 -- Bringing IP to the Leaf Node]<br />
*[http://www.mesincuci.co/harga-mesin-cuci-electrolux Harga Mesin Cuci Electrolux]<br />
<br />
[[Category:Technologies]]</div>Ujanghttps://wiki.fablabbcn.org/Urban_sensor_kitUrban sensor kit2017-01-17T00:31:02Z<p>Ujang: </p>
<hr />
<div>[[Category:Projects]]<br />
<br />
=Version 1:=<br />
Credits: Felipe Pecegueiro do Amaral Curado, Oriol Carrasco, Alba Armengol Gasul, Luis E. Fraguada<br />
Production Assistance: Fab Lab BCN<br />
<br />
Parts List<br />
<br />
* 1 x Arduino Deumilanove<br />
* 1 x Light Sensor (Cadmium Sulfide Sensor, Light Dependent Resistor, Photocell)<br />
* 1 x Sound Sensor<br />
* 1 x Motion Sensor (Passive InfaredRed Sensor)<br />
* 1 x Temperature Sensor<br />
* 1 x Electromagnetism Sensor<br />
* Wood Case (laser cut)<br />
* Wire<br />
* Resistors<br />
<br />
<table><br />
<tr><td>[[File:Urban_Sensing_Kit_sm.png]]</td></tr><br />
<tr><td>Image:Felipe Pecegueiro do Amaral Curado</td></tr><br />
</table><br />
<br />
<br />
[[File:IMG_6540_sm.jpg]]<br />
<br />
= Goals for version 2=<br />
<br />
===1. Find sensors who’s data can be easily read and translated to useful units (sound sensor - dB)===<br />
===2. Autonomy of kit: GPS Unit, On Board Data Logger, Battery===<br />
====Power Options====<br />
* Solar Kit (With Battery) €50: http://www.cooking-hacks.com/index.php/shop/arduino/solar-module-for-arduino.html<br />
* Adafruit Solar Panel $25: http://www.adafruit.com/index.php?main_page=product_info&cPath=35&products_id=200<br />
* Li-ion Battery €35: http://www.cooking-hacks.com/index.php/shop/arduino/5v-regulator-module-for-arduino.html<br />
* HiCap Li-ion Pack $47.36 + shipping: http://www.liquidware.com/shop/show/BP/Lithium+BackPack<br />
* 9v battery adapter for arduino: http://www.arduino.cc/playground/Learning/9VBatteryAdapter<br />
* Solar Shield - Bat. and Panel Not Inc. http://www.seeedstudio.com/depot/solar-charger-shield-p-594.html?cPath=104_107<br />
<br />
==== Option 1: Custom Shield ====<br />
Protoshield with all of the components we want:<br />
GPS (positioning), XBee (communication), SD (data storage)<br />
<br />
* Pros: Totally customizable system<br />
* Cons: More startup overhead<br />
<br />
==== Option 2 ====<br />
* Datalogging Shield http://www.adafruit.com/index.php?main_page=product_info&cPath=17_21&products_id=243 $19.50<br />
* GPS Antena: $60 http://www.adafruit.com/index.php?main_page=product_info&products_id=99&zenid=81afc967efbe914e06705a35e5c900da<br />
* XBee Adapter kit http://www.adafruit.com/index.php?main_page=product_info&cPath=29&products_id=126 $10.00<br />
* XBee Antena http://www.adafruit.com/index.php?main_page=product_info&cPath=29&products_id=128 $23.00<br />
* Shipping: $15, $39<br />
* TOTAL: $127.50<br />
* x5 = €453.22<br />
* Pros: <br />
* Cons: <br />
<br />
==== Option 3a ====<br />
* 'Arduino Deluxe Pack' http://www.cooking-hacks.com/index.php/arduino-deluxe-pack-119.html - €101<br />
* GPS Module + Zigbee + Arduino<br />
* GPS Antena http://www.cooking-hacks.com/index.php/internal-gps-antenna.html - €8<br />
* MicroSD module http://www.cooking-hacks.com/index.php/shop/arduino/microsd-2gb-module-for-arduino.html - €20.00<br />
* TOTAL €129<br />
* x5 = €645<br />
* Pros: Arduino Included<br />
* Cons: Micro SD (not SD)<br />
<br />
==== Option 3b ====<br />
* 'Arduino Deluxe Pack' http://www.cooking-hacks.com/index.php/arduino-deluxe-pack-119.html - €101<br />
* GPS Module + Zigbee + Arduino<br />
* GPS Antena http://www.cooking-hacks.com/index.php/internal-gps-antenna.html - €8<br />
* Datalogging Shield (Big but space for prototyping) http://www.adafruit.com/index.php?main_page=product_info&cPath=17_21&products_id=243 $19.50<br />
* TOTAL: €119<br />
* x5 = €595<br />
* Pros: Arduino included (ask if can be UNO), can datalogging shield be used to interface other modules?<br />
* Cons: Datalogging Shield is big<br />
<br />
==== Option 4 ====<br />
* GPS Module http://www.cooking-hacks.com/index.php/gps-module-for-arduino.html €42<br />
* XBee Module http://www.cooking-hacks.com/index.php/arduino-xbee-802-15-4.html €39<br />
* Datalogging Shield (Big but space for prototyping) http://www.adafruit.com/index.php?main_page=product_info&cPath=17_21&products_id=243 $19.50<br />
* TOTAL €91 (no arduino)<br />
* x5 = €455<br />
* Pros: <br />
* Cons: No Arduino<br />
<br />
==== Option 5 ====<br />
<br />
*Seeeduino Stalker (Arduino-compatible board + microSD datalog + xBee header + Battery connector / No usb, buy FTDI cable) http://www.seeedstudio.com/depot/seeeduino-stalker-atmega-328-p-600.html €27<br />
**GPS Module http://www.cooking-hacks.com/index.php/gps-module-for-arduino.html €42<br />
**XBee 802.15.4 module http://search.digikey.com/scripts/DkSearch/dksus.dll?Detail?name=XB24-AWI-001-ND €13<br />
* TOTAL €85 (inc. arduino / no inc. serial-usb (ftdi) for programming)<br />
* x5 = €425<br />
* Pros: Arduino Included. Small. <br />
* Cons: Serial connection (FTDI cables for programming) / MicroSD / International Shipping, more expensive<br />
<br />
==== Option 6 ====<br />
* Libelium Waspmote http://www.libelium.com/products/waspmote €495 (For 5 units GPS, SD, 802.15.4)<br />
* GPS Antennae: €59 * 5 = €295<br />
* Waspmote Gateway €55<br />
<br />
* TOTAL: €845 for 5 units<br />
<br />
=== 3. Additional Sensors===<br />
====Air Quality / Water Measurement====<br />
*Libelium / Waspmote Sensors http://www.libelium.com/products/waspmote/sensors<br />
*Solder-less sensors add-ons http://www.seeedstudio.com/depot/electronic-brick-c-48.html (available at http://www.cooking-hacks.com/index.php/shop/arduino/eb-sensor-chassis-v1-1.html )<br />
<br />
=== 4. Size / Packaging ===<br />
Fabricated at Fab Lab BCN<br />
<br />
=== 5. Visual Feedback (Tenemos en el Fab Lab)===<br />
<br />
=== 6. Technical info Links ===<br />
*[http://www.ladyada.net/make/xbee/modules.html XBee Know How by Ladyada]<br />
<br />
=Version 2:=<br />
<br />
*Smart Geometry [http://www.buletintupperware.com/ tupperware april] [http://smartgeometry.org/index.php?option=com_community&view=groups&task=viewgroup&groupid=6&Itemid=0]<br />
<br />
=Version 3:=<br />
*Data tree (DIY Shields for Arduino) [http://academy.cba.mit.edu/labs/barcelona/areti.mark/DataTree/DataTree.html Data Tree, by Areti Markopoulou, Fab Academy 2011]<br />
<br />
=Version 4:=<br />
*Custom Arduino Shield. More info [[ASK Shield]]<br />
<br />
<br />
<br />
=Sensor notes =<br />
<br />
==Sound sensor==<br />
<br />
db son una unidad que mide la ratio entre una unidad de ref y una de entrada. además son una unidad logarítmica, su incremento no es lineal, esto es útil pq el rango de representación es muy grande<br />
<br />
importante no liarse entre db's de potencia y db's de presión sonora http://en.wikipedia.org/wiki/Sound_pressure<br />
<br />
para calcular los dB (dB así a secas es potencia o sea W) dB = 10 * Log (PowerInput/ PowerReference) <br />
<br />
de momento yo he probado de calcular dBv... prueba el código y dime el que<br />
<br />
int dBv = 20 * log(analogRead(A0) / 0.00378787879); // esto es dBv = 10 * Log (Vrms / Vrms referencia) // 0.00378787879 sale de considerar que 0dBv son 0.775V <br />
<br />
también así a saco al igual podrías probar <br />
<br />
int dBv = 20 * log(analogRead(A0) / calibration);<br />
<br />
calibration saldría de comparar con el iphone…<br />
<br />
===para probar...===<br />
<br />
<code><br />
int cycles = 20;<br />
long reads = 0;<br />
int average = 0;<br />
double dB = 0;<br />
<br />
<br />
void setup() {<br />
Serial.begin(9600);<br />
}<br />
<br />
void loop(){<br />
for (int i=0; i >= cycles; i++){<br />
reads = analogRead(A0) + reads; <br />
}<br />
average = reads / cycles;<br />
reads = 0;<br />
dB = 20*log10(average/250);<br />
Serial.println(dB, DEC);<br />
}<br />
</code><br />
<br />
----<br />
<br />
en principio el valor tendría que ser el valor RMS pero como no queremos medir una onda súper precisa sino ruido ambiental yo creo que podría funcionar a saco.<br />
<br />
aun así medir dB directamente con el ADC por lo que he leído no es nada fácil pq en seguida te quedas o a 0 o te quedas saturado, 1023. estos se podría solucionar con un amplificador logarítmico algo que es como un op amp normal [http://buletinnews.com/ berita news] pero que en vez de amplificar la senyaseñall linealmente (como una multiplicación) la amplifica exponencialmente por lo que cuanto más pequeño es el número más resolución te da.<br />
<br />
----<br />
<br />
[http://mit.ocw.universia.net/6.101/NR/rdonlyres/Electrical-Engineering-and-Computer-Science/6-101Introductory-Analog-Electronics-LaboratoryFall2002/0F920C22-BEF2-47C4-A4BE-499279077036/0/decibels.pdf Articulo sobre calculo de decibelios]</div>Ujanghttps://wiki.fablabbcn.org/Multicam_Laser_CutterMulticam Laser Cutter2017-01-17T00:29:02Z<p>Ujang: </p>
<hr />
<div>[[Category:machines]]<br />
<br />
[[File:Machines 1.jpg| frame |Multicam 2000 Laser Cutter]]<br />
<br />
==Technical specifications==<br />
*Slew speed: 800”/min (0.33 m/sec) in X axis, 2400”/min (1 m/sec) in Y axis <br />
*Cut speed: 800”/min (0.33 m/sec)<br />
*Repeatability: +/- 0.001” (0.025 mm)<br />
*Raster speeds up to 1800”/min (0.8 m/sec) using up to 256 gray scale with up to a 1200 DPI resolution<br />
*Precision servo drives with helical rack and pinion and linear ball bearing guide ways on the X and Y-axis<br />
*Ball lead screw and linear ball bearing guides ways on Z axis<br />
*Gantry clearance 1.875” (48 mm)<br />
*Z axis stroke 3.25” (82 mm)<br />
*Y axis stroke 60” (1524 mm) and 80” (2032 mm)<br />
*X axis stroke 50” (1270 mm), 100” (2540 mm), 120” (3048 mm),144” (3658 mm), 168” (4267 mm), and 240” (6096 mm)<br />
<br />
==Materials and configuration==<br />
<br />
==='''Wood:'''===<br />
*Plywood is a manufactured wood panel made from thin sheets of wood veneer. It is one of the most widely used wood products. It is flexible, inexpensive, workable, re-usable, and can usually be locally manufactured.<br />
*Medium-density fibreboard (MDF) is an engineered wood product formed by breaking down hardwood or softwood residuals into wood fibres, often in a defibrator, combining it with wax and a resin binder, and forming panels by applying high temperature and pressure. MDF is denser than plywood.<br />
<br />
<br />
====0.5mm====<br />
CUT <br />
*Speed: 100<br />
*Power: 52<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 15<br />
<br />
====3mm==== <br />
CUT <br />
*Speed: 30<br />
*Power: 190<br />
ENGRAVE<br />
*Speed: 70<br />
*Power: 60<br />
<br />
==='''Plywood:'''===<br />
<br />
====4mm====<br />
CUT <br />
*Speed: 40<br />
*Power: 180<br />
<br />
==='''Bent Plywood:'''===<br />
<br />
====5mm====<br />
CUT <br />
*Speed: 90<br />
*Power: 130<br />
<br />
ENGRAVE<br />
*Speed: 110<br />
*Power: 40<br />
<br />
==='''MDF'''===<br />
====4mm====<br />
CUT<br />
*Speed: 30<br />
*Power: 185<br />
ENGRAVE<br />
*Speed: <br />
*Power: <br />
====4mm====<br />
CUT<br />
*Speed: 35<br />
*Power: 150<br />
ENGRAVE<br />
*Speed: 60<br />
*Power: 50<br />
<br />
====5mm====<br />
CUT <br />
*Speed: 20<br />
*Power: 185<br />
ENGRAVE<br />
*Speed: 60<br />
*Power: 50<br />
<br />
====6mm====<br />
CUT <br />
*Speed: 20<br />
*Power: 220<br />
ENGRAVE<br />
*Speed: 60<br />
*Power: 60<br />
<br />
====7mm====<br />
CUT <br />
*Speed: 15<br />
*Power: 260<br />
ENGRAVE<br />
*Speed: 60<br />
*Power: 60<br />
<br />
====10mm====<br />
CUT <br />
*Speed:13<br />
*Power: 330-340<br />
ENGRAVE<br />
*Speed: 60<br />
*Power: 60<br />
RASTER<br />
*Speed: 600<br />
*Power: 80<br />
<br />
====12mm====<br />
CUT <br />
*Speed: 15<br />
*Power: 370<br />
ENGRAVE<br />
*Speed: 50<br />
*Power: 60<br />
<br />
====12mm====<br />
CUT <br />
*Speed: 15<br />
*Power: 380<br />
ENGRAVE<br />
*Speed: 50<br />
*Power: 60<br />
<br />
====13mm====<br />
CUT <br />
*Speed: 10<br />
*Power: 370<br />
<br />
====15mm====<br />
CUT <br />
*Speed: 5<br />
*Power: 375<br />
ENGRAVE<br />
*Speed: 50<br />
*Power: 70<br />
<br />
IN HIGH DENSITY WOOD SUCH AS MDF THE MAXIMUM THICKNESS IS 15 mm<br />
<br />
==='''Poplar Plywood / Contraplacat Pollancre'''===<br />
<br />
====4mm====<br />
CUT <br />
*Speed: 35<br />
*Power: 150<br />
ENGRAVE<br />
*Speed: 90<br />
*Power: 30<br />
<br />
====5mm====<br />
CUT <br />
*Speed: 20<br />
*Power: 185<br />
ENGRAVE<br />
*Speed: <br />
*Power: <br />
====10mm====<br />
CUT <br />
*Speed: 20<br />
*Power: 375<br />
ENGRAVE<br />
*Speed: 90<br />
*Power: 30<br />
<br />
====15mm====<br />
CUT <br />
*Speed: 5<br />
*Power: 375<br />
ENGRAVE<br />
*Speed: <br />
*Power: <br />
<br />
====25mm====<br />
CUT <br />
*Speed: 22<br />
*Power: 255<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 60<br />
RASTER <br />
*Speed: 500<br />
*Power: 150<br />
<br />
==='''Cardboard:'''===<br />
*Cardboard is a generic term for a heavy-duty paper of various strengths, ranging from a simple arrangement of a single thick sheet of paper to complex configurations featuring multiple corrugated and uncorrugated layers.<br />
<br />
====1mm====<br />
CUT <br />
*Speed: 100<br />
*Power: 80<br />
<br />
====1.5mm Grey====<br />
CUT<br />
*Speed: 70<br />
*Power: 100<br />
<br />
====2mm Grey====<br />
CUT <br />
*Speed: 110<br />
*Power: 115<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 80<br />
<br />
====3mm Grey====<br />
CUT <br />
*Speed: 50<br />
*Power: 90<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 35<br />
<br />
====1mm Black====<br />
CUT<br />
*Speed: 90<br />
*Power: 90<br />
<br />
====4mm Rippled====<br />
CUT<br />
*Speed: 100<br />
*Power: 150<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 65<br />
<br />
====6mm Rippled====<br />
CUT<br />
*Speed: 100<br />
*Power: 160<br />
<br />
====Acuarela====<br />
CUT<br />
*Speed: 100<br />
*Power: 96<br />
ENGRAVE<br />
*Speed: 100<br />
*Power: 48<br />
<br />
====Cartulins Común / Generic Cardboard====<br />
CUT<br />
*Speed: 120<br />
*Power: 90<br />
ENGRAVE<br />
*Speed: 200<br />
*Power: 46<br />
<br />
==='''Metacrilato/Methacrylate:'''===<br />
*Poly(methyl methacrylate) (PMMA) is a transparent thermoplastic, often used as a light or shatter-resistant alternative to glass. It is sometimes called acrylic glass. Chemically, it is the synthetic polymer of methyl methacrylate.<br />
<br />
====2mm====<br />
CUT<br />
*Speed: 12<br />
*Power: 290<br />
<br />
====3mm====<br />
CUT<br />
*Speed: 20<br />
*Power: 90<br />
<br />
====3mm Verde Opal====<br />
CUT<br />
*Speed: 45<br />
*Power: 112<br />
<br />
====4mm====<br />
CUT<br />
*Speed: 10<br />
*Power: 85<br />
ENGRAVE<br />
*Speed: 120<br />
*Power: 80<br />
<br />
====5mm====<br />
CUT<br />
*Speed: 15<br />
*Power: 100<br />
<br />
====5mm Blanco Opal====<br />
CUT<br />
*Speed: 33<br />
*Power: 200<br />
<br />
====6mm====<br />
CUT<br />
*Speed: 40<br />
*Power: 200<br />
<br />
====8mm====<br />
CUT<br />
*Speed: 15<br />
*Power: 275<br />
ENGRAVE<br />
*Speed: 120<br />
*Power: 160<br />
<br />
====10mm====<br />
CUT<br />
*Speed: 10<br />
*Power: 270<br />
ENGRAVE<br />
*Speed: 110<br />
*Power: 40<br />
<br />
==='''Polypropylene:'''===<br />
*Polypropylene (PP), also known as polypropene, is a thermoplastic polymer used in a wide variety of applications including packaging, textiles (e.g., ropes, thermal underwear and carpets), stationery, plastic parts and reusable containers of various types, laboratory equipment, loudspeakers, automotive components, and polymer banknotes.<br />
<br />
====0.5mm====<br />
CUT<br />
*Speed: 90<br />
*Power: 90<br />
ENGRAVE<br />
*Speed: 90<br />
*Power: 60<br />
<br />
====0.8mm====<br />
CUT<br />
*Speed: 90<br />
*Power: 140<br />
ENGRAVE<br />
*Speed: 110<br />
*Power: 40<br />
<br />
====1.5mm====<br />
CUT<br />
*Speed: 70<br />
*Power: 350<br />
ENGRAVE<br />
*Speed: 90<br />
*Power: 90<br />
<br />
==='''Fabrics'''===<br />
<br />
====Cotton====<br />
CUT<br />
*Speed: 90<br />
*Power: 15<br />
ENGRAVE<br />
*Speed: 70<br />
*Power: 40<br />
<br />
====Suede====<br />
RASTER<br />
*Speed: 600<br />
*Power: 32<br />
<br />
====Felt/Fieltro====<br />
CUT<br />
*Speed: 60-70<br />
*Power: 110<br />
<br />
==='''Other:'''===<br />
<br />
====Plastico dos capas con aire 4mm / Plastic 2 layers with air====<br />
CUT<br />
*Speed: 90<br />
*Power: 200<br />
<br />
====Acrylic 3mm====<br />
CUT<br />
*Speed: 40<br />
*Power: 170<br />
<br />
====Plastic sheets welding====<br />
ENGRAVE<br />
*Cut pressure 6<br />
*Pierce pressure 6<br />
*Power 80<br />
*Pierce power 80<br />
*Speed 30<br />
<br />
==How to prepare and send files==<br />
* 1. Open EnRoute. If it's already open – go straight to step 2<br />
* 2. Open a new file ( File - New ) and set your sheet size (width/heigh in mm, thickness is not important)<br />
* 3. Import your .dxf file: File – Import – find your file<br />
* 4. Make sure that your drawing is inside the red border. If you need to scale or move your drawing: select everything and press F2 on the keyboard<br />
* 5. Select everything and go to Transform – Merge selection… and click OK <br />
* 6. If you are using two strategies (engraving and cutting) [http://www.tabloidharga.com/tablet-murah harga tablet terbaru] then go to Layers ( Setup - Layers ) and turn the engraving layer ON and the cutting layer OFF<br />
* 7. Select all and click on the 'Engraving...' button (Toolpath - Engraving), in the drop-down menu select your Strategy – 'eng' and click OK. You will see the generated paths for your design<br />
* 8. Go to Layers again and switch your cutting layer ON and the engraving one OFF<br />
* 9. Select all and go to Engraving again but this time choose 'cut' in the drop-down menu<br />
* 10. Switch all the layers ON. You will see all your paths together<br />
* 11. Click the 'Output option' ( Machining - Output ) icon. Go to the 'Tool Order' section and make sure that 'engrave' is the first. If not – drag it up (click on the left box next to the number when the cursor will be an arrow to drag it up). If you have smaller pieces inside bigger pieces (holes, openings, etc.) then in 'Object Order' check 'Inside out'. Also check 'Small parts first'. Press 'To File'<br />
* 12. Save your file inside 'Dnc files' folder. Use one of the existing folders (MAA, FabAcademy, etc.). You can also create your own folder<br />
* 13. Done! Your file is sent to the machine<br />
<br />
<gallery widths=400 heights=400 mode=packed style="text-align:center"><br />
File:image.png|1<br />
File:Image (laser1).png|2<br />
File:Image (laser3).png|3<br />
File:Image (laser4).png|5<br />
File:Image (laser5).png|6<br />
File:Image laser(6).png|7<br />
File:Image laser(7).png|8<br />
File:Image laser(8).png|9<br />
File:Image laser(9).png|10<br />
File:Image laser(10).png|11<br />
</gallery><br />
<br />
===Notes===<br />
**Bring your files in .dxf 2004 format so that you can import them directly to EnRoute.<br />
**You are not allowed to edit your files on this computer.<br />
**Do not open EnRoute multiple times, you can just open a new file in the same window.<br />
**If you have engraving and cutting you should have them in different layers.<br />
**Do not change material thickness.<br />
**All the dimensions are in millimeters. Your file units have to be millimeters. <br />
**If you have a grid put all the horizontal elements in one layer and all the vertical ones – in another.<br />
**If you are using AutoCAD or Grasshopper: use Rhino command 'Make2D' in all your layers separately.<br />
**Your file has to be flat (on 0 in Z axis).<br />
**Your home is in the lower left edge of your sheet and has to be in 0, 0, 0.<br />
<br />
==How to turn on the machine==<br />
*On the control panel:<br />
**Turn System to 'ON'<br />
**Turn Laser to 'ON'<br />
**Turn Shutter to 'OPEN'<br />
**Turn Mode to 'RUN'<br />
**Fume collector to 'ON'<br />
**All the light should be on <br />
<br />
<br />
<br />
<br />
<br />
*On the wall:<br />
**Turn on the main compressor (there's a small box on the wall with two blue caps and two red caps: the switches inside this box have to be up)<br />
*On the machine:<br />
**Turn on the internal Ventilator(There's a small switch on the far rear of the machine)<br />
*On the remote:<br />
**SHIFT + HOME to home the machine (SHIFT is button № 20 and HOME is button № 1)<br />
<br />
<br />
<gallery widths=400 heights=400 mode=packed style="text-align:center"><br />
File:Multicam_buttons_md.png|Multicam 2000 interface pannel<br />
File:IMG 20160419 133302.jpg| Control panel <br />
File:IMG 20160419 133349.jpg| On the wall <br />
File:IMG 20160419 133404.jpg| On the machine <br />
</gallery><br />
<br />
==How to cut==<br />
* 1. Place your material on the bed of the machine. The X axis is the longer part of the laser cutter and the Y axis is the sorted one. Home (0,0,0) is on the lower left corner.<br />
* 2. Set material thickness and surface height. Press SET SURFACE (button № 6) and ENTER (button № 30) and set the thickness of your material. The values are in millimeters [http://www.tabloidharga.com/sepeda-gunung sepeda gunung murah]. Press ENTER again, then button 0 and hold it until the sensor touches the surface to automatically set the height.<br />
* 3. Set home. Move the machine with the arrow buttons 2, 4, 6, 8 and place it at the point where you want your zero. Press SET HOME (button № 11) and ENTER to set home for your file.<br />
* 4. Set speed and power. In MENU (button № 15) choose Params_2d by pressing ENTER. Set speed (X Y feedrate) and power for your material according to the table.<br />
* 5. Find your file. By pressing button № 16 you will enter the DNC files folder on the computer. Use the up and down arrows to find your file and choose it by pressing ENTER.<br />
* 6. Start the job. Press GO (button № 10) twice.<br />
* 7. If something goes wrong hit PAUSE to stop the machine (button № 5).<br />
* 8. To continue press ENTER.<br />
<br />
<br />
<br />
<gallery widths=300 heights=300 mode=packed style="text-align:center"><br />
File:IMG 20160419 134015.jpg| Original 0,0 point <br />
File:IMG 20160419 134145.jpg| Set the material thikness <br />
File:IMG 20160419 134418.jpg| Set Home <br />
File:IMG 20160419 134514.jpg| Touch sensor <br />
File:IMG 20160419 134858.jpg| speed and power<br />
</gallery><br />
<br />
==What not to do==<br />
* Do not use materials that are not suitable for laser cutting! Ask the FabLab operators if you're not sure about your material.<br />
* Do not stand on the side of the machine! Only in the front. The machine can move suddenly and quickly and can hit you.<br />
* Do not continue cutting if something is going wrong! For example: if there is flame or a lot of smoke or it's not cutting or the material is melting. Pause the machine and call a FabLab operator.<br />
* Do not change the material on the remote! It has to be "cardboard" always.<br />
<br />
==Advanced commands==<br />
* To make a test on a new material you can cut a small square or circle. Set the surface, set home on the place that you're not using, set speed and power that you want to try and then go to MENU, select Cut_utils, choose a square or any other shape [https://www.tabloidharga.com/ hp terbaru murah], set dimensions and press GO.<br />
* After you paused the cutting you can navigate with arrows and choose Params 2d to change any settings before continuing.<br />
* I you need to adjust something while cutting: press PAUSE, then cancel the job, do whatever you need (reset the surface, move to continue from another place, etc.) Then to continue your cutting press SHIFT, GO, ENTER, GO.<br />
<br />
==Downloads==<br />
<br />
• [[Media:EnRoute Instructions.pdf]]: how to prepare and send your files to the big laser cutter using EnRoute.<br />
<br />
* [[Media:EnRoute instructions in .dxf.zip]]: EnRoute instructions in .dxf format (e.g. for engraving).<br />
<br />
• [[Media:MultiCam Instructions.pdf]]: how to turn on and use the machine.<br />
<br />
* [[Media:Multicam instruction in .dxf.zip]]: MultiCam instructions in .dxf format (e.g. for engraving).<br />
<br />
• [[Media:MultiCam Settings.pdf]]: settings for different material types and thickness.</div>Ujanghttps://wiki.fablabbcn.org/Epilog_Laser_CutterEpilog Laser Cutter2017-01-17T00:26:35Z<p>Ujang: /* External links */</p>
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<div>[[Category:Machines]]<br />
<br />
[[File:IMG 1600.JPG| frame |widths="180px" heights="120px" |Epilog Laser Cutter]]<br />
<br />
==Technical specifications==<br />
*Cutting area 900 x 600 millimeters / 35.4" x 23.6" inches<br />
*Cutting power max. 75 Watt.<br />
<br />
==CAM==<br />
*'''2D''' Printer driver from most CAD or ilustration software<br />
* From PDF<br />
<br />
==Tools==<br />
*Tools here<br />
<br />
==Materials and configurations==<br />
<br />
===Suppliers===<br />
[http://fablabbcn.org/maquinas/provedores-materiales/ For a supplier list take a look at this table maintained by de Fab Lab BARCELONA]<br />
<br />
===Polypropylene (0.5mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 85% <br />
*Power: 20%<br />
<br />
===Polypropylene (1.2mm) / Polipropileno===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 90%<br />
ENGRAVE:<br />
*Speed: 60% <br />
*Power: 40%<br />
<br />
===Polypropylene (0.8mm) / Polipropileno===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
<br />
===Poly(methyl methacrylate)(3mm) / Plexiglass===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 60%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Poly(methyl methacrylate)(1mm) / Plexiglass===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 70%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 15%<br />
<br />
===Poly(methyl methacrylate) (5mm) / Plexiglass===<br />
CUT:<br />
*Speed: 10% / 15% <br />
*Power: 90% / 80%<br />
ENGRAVE:<br />
*Speed: 65%<br />
*Power: 10%<br />
<br />
===Etilvinilacetato (3mm) / Foami - Eva===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 60%<br />
<br />
===Paper(250gr/3mm) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 30%<br />
ENGRAVE:<br />
*Speed: 85%<br />
*Power: 6%<br />
<br />
===Paper (0.3mm) / Papel===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 95%<br />
*Power: 3%<br />
<br />
===Paper(shine 1 side) / Papel===<br />
CUT:<br />
*Speed: 60% <br />
*Power: 25%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
===Parchment Paper(for lamp making) / Papel Pergamino (para hacer lamparas)===<br />
CUT:<br />
*Speed: 85% <br />
*Power: 10%<br />
<br />
===Transparent Paper / Papel transparente=== <br />
CUT:<br />
*Speed: 75% <br />
*Power: 20%<br />
<br />
===Cardboard Corrugated (5mm/2 layers) / Carton Corrugado===<br />
CUT:<br />
*Speed: 55% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 90%<br />
*Power: 10%<br />
<br />
===Generic Cardboard / Cartulina común===<br />
CUT:<br />
*Speed: 100% <br />
*Power: 15%<br />
ENGRAVE:<br />
*Speed: 100% <br />
*Power: 4%<br />
<br />
===Stone Cardboard (3mm) / Carton Piedra===<br />
CUT:<br />
*Speed: 20% <br />
*Power: 50%<br />
<br />
===Plywood (0.6mm) (Rolling roll)/ Madera (Laminada rollo)===<br />
CUT:<br />
*Speed: 40% <br />
*Power: 10%<br />
ENGRAVE:<br />
*Speed: 95% <br />
*Power: 4%<br />
<br />
<br />
===Plywood (0.6mm) (Plywood)/ Madera (contrachapado Abedul)===<br />
CUT:<br />
*Speed: 50% <br />
*Power: 50%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (2mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 40%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (3mm) / Madera===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 45%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===MDF (3mm) / Madera DM===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 65%<br />
ENGRAVE:<br />
*Speed: 40% <br />
*Power: 10%<br />
<br />
===Plywood (5mm) / Madera ===<br />
CUT:<br />
*Speed: 15% <br />
*Power: 85%<br />
ENGRAVE:<br />
*Speed: 40%<br />
*Power: 10%<br />
<br />
===Plywood (0.5mm deep)/ Madera RASTER SOLID===<br />
ENGRAVE:<br />
*Speed: 30%<br />
*Power: 20%<br />
<br />
===Felt (3mm) / Fieltro===<br />
CUT:<br />
*Speed: 60%-70%<br />
*Power: 110%<br />
<br />
===Felt (1mm) / Fieltro===<br />
CUT:<br />
*Speed: 90% (70%) <br />
*Power: 10%<br />
<br />
===Grabar sobre piedra/ Raster Image on stone===<br />
ENGRAVE:<br />
*Speed: 90% <br />
*Power: 20%<br />
<br />
===Thin Fabric===<br />
CUT:<br />
*Speed: 80% <br />
*Power: 30%<br />
<br />
==Machine work flow==<br />
<br />
*If you are not going to use the computer in the Fab Lab, install the Epilog drivers in your computer (you can reach the machine inside the Fab Lab network).<br />
*Turn on the main fume extractor in the big laser cutter switch panel.<br />
*Turn on the small air compressor on the left hand side of the machine.<br />
*Turn on the laser cutter (left side of the machine).<br />
*Make sure the material you want to use is in the 'Materials and configuration' list. If it is not there, ask the Fab Lab responsible.<br />
*Measure the size of your material board.<br />
*From your vector editing software, once you are ready for printing and if you already installed the driver, press Ctrl+P or select 'Print'.<br />
*Select 'Epilog Engraver' from the printer list and go to 'Printer settings' or 'Properties'.<br />
*The laser cutter driver interface should appear. Here you can set-up the laser's power and speed according to how the vector paths in your drawing are organized (you can also print raster images).<br />
*For a vector job:<br />
**In the 'General' tab, under 'Job type' select 'Vector'.<br />
**Set the size of the material sheet under 'Piece Size'.<br />
**Set to 'Vector sorting' and 'Optimize'.<br />
**In the 'Color mapping' tab select the check box 'Color mapping'. You should have organized your drawing in different colors if you need to do different types of jobs (for example engraving and cutting).<br />
**Once this is activated, you can set the power, the speed, and other parameters for every single color in your drawing. Take a look at the 'Materials and configuration' list above for the proper power/speed values according to the material you are using.<br />
**The list order determines the execution sequence of every type of job. You should allays engrave first and cut later. You can change the order by selecting a color and pressing the up and down arrows.<br />
**Once you are done with this configuration, press 'OK'.<br />
*For a raster job:<br />
**You should see the parts that you want to cut/engrave fitting the material in the preview. If not, you should scale, move, rotate or change the units of the drawing to get it as you want.<br />
**Finalize the process with 'Print' and the file will be sent to the laser cutter.<br />
*At the machine:<br />
**Open the hood and place the material on the metal bed without hitting the cutting head.<br />
**If the material you use is to thick (engraving bigger objects), you should lower the bed.<br />
***To lower the bed:<br />
****Press 'X/Y off' and bring the bed to the desired z position by pressing the 'up' and 'down' arrows.<br />
**Turn on the laser pointer 'Puntero'.<br />
**Set the machine head to the origin by pressing 'Restaur.' and focus the laser by pressing 'Enfocar' and 'GO/Entra'.<br />
***If you want to change the x/y origin follow this steps:<br />
****Press 'X/Y off' and bring the laser manually to the desire origin.<br />
****Then press 'Ajuste Inicio' and you should have now a new origin point. <br />
*If you already sent the job to the machine you will see 'Job:job name' in the display.<br />
*Pressing the up and down arrows will allow you to select the different jobs stored in the machine.<br />
*Press 'GO/Entra' to start cutting/engraving.<br />
*Press 'STOP/Salir' if something burns inside the machine or the material moves from its original position.<br />
*Don't leave the machine unattended.<br />
<br />
[[File:Epilog_legend_md.png|frame|none|alt=the Epilog Legend 36 interface pannel|Epilog Legend 36 interface pannel]]<br />
<br />
==Important commands==<br />
Structure: <br /> <br />
*http://issuu.com/fablabbcn/docs/epilog_quick_start?mode=window&backgroundColor=%23222222/<br /><br />
<br />
==External links==<br />
*[http://buletinnews.com/ berita hari ini]<br />
*[http://www.epiloglaser.com/legend_series.htm Epilog Legend Series]<br />
*[http://www.buletintupperware.com/ tupperware promo]<br />
*[http://en.wikipedia.org/wiki/Laser_cutting 'Laser cutting' in the Wikipedia]<br />
[[Category: Machines]]</div>Ujang