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Rip rap 3d printer


Build a reprap - RepRap

This page has been flagged as containing duplicate material that PartsSupplies also attempts to cover.
These pages should be merged such that both pages do not attempt to cover the duplicate topics.

This page has been flagged as containing duplicate material that Darwin/Buyers Guide also attempts to cover.
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This page has been flagged as containing duplicate material that What Tooling Do You Have also attempts to cover.
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This page is out of date --Sebastien Bailard 04:34, 31 October 2010 (UTC) 
This page is not only out of date, but contains in part simply nonsense - especially the "Software installation" section. For the lack of editors, this page should be removed. --Traumflug 21:18, 13 April 2011 (UTC)

Contents

  • 1 Build a RepRap
  • 2 Overview
    • 2. 1 Object Creation Software
    • 2.2 System control Software
    • 2.3 Installing the Software (experimental)
    • 2.4 Thermoplast extruder
    • 2.5 Positioning system
    • 2.6 Shopping list

There are multiple ways to build a RepRap or RepStrap; the method selected for these instructions has been chosen to minimize skills and tools needed. If you wish to explore other options click Alternative Build Documentation.


The Classic RepRap Design is "Darwin" pictured on the right. There are very full and accurate building instructions in Make Your Own RepRap.

The RepRap was carefully designed to use only parts that can be made on a RepRap and other cheap parts that you can get anywhere. It was also designed to require few skills to assemble. The one snag is you have to find someone to supply you with the parts that must be made on a RepRap.


RepStrap Darwin Clones are RepRap designs which are fairly accurately copies of the Darwin design but the RepRapped parts are replaced by parts created some other way, Perhaps molded plastic or laser cut acrylic or plywood. Generally parts of one of these machines are interchangeable with RepRapped Darwin parts. Here are some Parts Suppliers.


Other RepStraps, these are 3D printers capable of making RepRap (Darwin) parts but are not structurally similar to Darwin. These machines may vary a lot but may be separated into two kinds. Those like Darwin in which the extruder (print head) is moved in the x and y directions and the work is slowly lowered as the print progresses and others where the work is moved in the x and y directions under a stationary head which gradually moves upwards as the print progresses. Here are some references to various RepStrap Machines.

If this is your first RepRap that you are building, here is a basic guide of which build option you should choose:

  • If you have a friend nearby that can print out the RepRap part on their RepRap or some other 3D printer. Choose the Classic Darwin
  • If you don't have access to a 3d printer then you have 3 options.
    • You can build a Classic Darwin, but this means you will have to use a commercial service to print out parts for you; it can easily cost over $1000 for just those parts depending on what deals you can get. This option is probably the most expensive option.
    • You can build a RepStrap Darwin Clone. This means you can either buy a lasercut acrylic kit from Bits from Bytes or make some part yourself by machining them. This option is becoming the more common option especially because soon you will be able to buy a lasercut kit from Ponoko which has offices in the US. This is also usually cheaper than the first option.
    • The third option is to build non-clone RepStrap that does not have the same frame as a Darwin, such as McWire which uses pipes for the frame. This option is usually the cheapest, but each RepStrap has it own weaknesses. The good thing is that when complete they can print out parts so that you can build a Classic Darwin. The electronics are compatible with Darwin so you only have to buy them once.

A RepRap or RepStrap (A RepRap can build itself, a RepStrap can build something that can build itself) can be divided into several key areas:

  • Object creation Software
  • System control Software
  • Thermoplastic extruder
  • Positioning system (the Cartesian Bot)
  • The electronics to control the positioning system

Object Creation Software

Art of Illusion is currently the software most recommended for designing objects to be printed. It's not a CAD package but it is easy to use. The software allows you to create and manipulate 3D shapes. You can store these shapes in STL file format. STL files are object files that are used in Rapid Prototyping. These STL files can be printed off into real 3D objects using your 3D printer (RepRap).

The software is free (GNU GPL version 2) and it is available for Mac OS X, Windows and Linux. If you want to try it out without installing it's available bundled in the Linux distribution liveCD with the rest of the hosted software for the RepRap project.

System control Software

RepRap is controlled via USB or an RS232 interface. You may find a description or download from RepRap Host Software.

There is a RepRap variant which allows you to print an object from a file saved onto a SD card.

Installing the Software (experimental)

This set of instructions tells you how to set up all the software you need for a Reprap in one big blow under Linux Debian.
It involves 5 steps that anyone should be able to complete in a few hours of his/her spare time.
It's easy.
Really.

Warning: Proceed at your own risk. The instructions are not double checked yet.


Prerequisites
You'll need

  • a PC (not too old)
  • broadband internet access
  • some time

Step 1: If you have Windows, go to [Here], get your copy of the Debian installer with one click and start it.

If you already have Linux: Install Debian Lenny some way or the other (you know how to do that ;-)) and continue with Step 3.

Step 2: Follow the instructions. I suggest installing on a 4GB USB stick - but you can also install it all on your hard disk. Be careful to select "testing" instead of stable - this installs Lenny instead of etch. Otherwise the standard settings should be ok in most cases. Don't say "yes" to things you might regret. After a while, a standard system should be installed. Don't forget to install the GRUB boot loader.

Step 3: Log in and say 

 sudo apt-get install firefox

on the command line.

Step 4: Start firefox and download this Media:Reprap_setup.sh script.

Step 5: Run the script from the shell with 

 sudo ./Reprap_setup.sh"

Now all the software specific to Reprap is retrieved and installed.
This includes the AVR-Tools, Subversion, Java3d, the Reprap-source tree etc. Installing all that will take some time.
Having successfully reached this point you should try to start the software in reprap-host with: 

 ant run

If you now see the main window of the host software, you're done.
Congrats! You have made it!
You still have to learn how to use it - but that is another story and another tutorial.

Thermoplast extruder

There are three different extruders all of which, in the end, perform the same function. There is the "official" extruder that can be made by another RepRap. Then there are the kits which are mass produced so it is easier to start printing your first parts. Both kits are designed to be interchangeable with the official extruder.

  • RepRapable Thermoplast Extuder
    Can be made by another RepRap or commercial rapid prototyper. These are not the only ways the parts can be made but are the easiest. Some builders have made them from machining aluminum or plastic. Others by making molds and casting from resin. This is only for the main pieces of the extruder. The drive screw and other mechanics must be bought or machined.
  • Kit from Bits from Bytes (laser cut acrylic)
    There is an extruder kit currently available from Bits from Bytes who are based in the UK. The kit is part of the silver or gold kits and doesn't need ordering separately unless you want a spare. Assembly instructions are available on the Bits from Bytes website in the 'Assembly Instructions' area:
    Bits from Bytes Extruder Assembly instructions
    Bits from Bytes Extruder 3d Model - the model requires a recent copy of Adobe Acrobat.
    There are videos of the construction process, in the 'Tutorials' section of the website.
    Bits from Bytes Heater Barrel Assembly
    Bits from Bytes Extruder Drive Assembly
  • Kit from Ponoko (laser cut plywood)
    A kit will soon be available via Ponoko which has offices in the US.

Positioning system

The positioning system is the greatest part of the size of a RepRap. It is what moves the extruder head from place to place. Kits are available from Bits from Bytes, either the FULL Mechanical Kit - Silver or Gold contain all the components necessary to build a positioning system and extruder. Assembly instructions are available on the bits from bytes website in the 'Assembly Instructions' area:

Bits from Bytes Assembly Instructions

Shopping list

The following list contains all the components necessary to build a RepStrap and enough plastic to print a RepRap. Some handtools are required for assembly, but the only power tool used is a soldering iron.


Extruder and Positioning System

Bits from Bytes - FULL Mechanical Kit - Silver or Gold

Ponoko - coming soon

(only one required)


Electronics

Plastic

The extruders all use 3mm diameter plastic filament/wire. ABS is the recommended plastic for its combination of strength, availability and dimensional stability. Suitable plastic is available from RRRF in 5lb reels. It is also available by request from plasticweldingrod.com.

Total

Shipping and tax vary by country of order but $1000 total is a reasonable approximation.

About - RepRap

From RepRap

Jump to: navigation, search

About | Development | Community | RepRap Machines | Resources | Policy

an exhibition of repraped parts

Look at your computer setup and imagine that you hooked up a 3D printer. Instead of printing on bits of paper this 3D printer makes real, robust, mechanical parts. To give you an idea of how robust, think Lego bricks and you're in the right area. You could make lots of useful stuff, but interestingly you could also make most of the parts to make another 3D printer. That would be a machine that could copy itself.

Contents

  • 1 The Realization
  • 2 Machine Self-Replication
  • 3 Scholarship and History
  • 4 Spread the Word
  • 5 Glossary
  • 6 Also See
  • 7 Longer Video

The Realization

RepRap was invented by Adrian Bowyer and the idea first appeared online in February 2004.

The word RepRap is short for Replicating Rapid-prototyper. It is the practical self-copying 3D printer introduced in the video on the left - a self-replicating machine. This 3D printer builds the parts up in layers of plastic. This technology existed before RepRap, but the cheapest commercial machine then would have cost you about €30,000. And it wasn't even designed so that it could make itself. So what the RepRap team are doing is to develop and to give away the designs for a much cheaper machine with the novel capability of being able to self-copy (material costs are about €350). That way it's accessible to small communities in the developing world as well as individuals in the developed world. Following the principles of the Free Software Movement we are distributing the RepRap machine at no cost to everyone under an open source license (the GNU General Public License). So, if you have a RepRap machine, you can use it to make another and give that one to a friend...

The RepRap project became widely known after a large press coverage in March 2005.

Machine Self-Replication

Not counting nuts and bolts the latest RepRap can make 70% of its parts; the other parts are designed to be cheaply available everywhere. The primary goal of the RepRap project is to create and to give away a makes-useful-stuff machine that, among other things, allows its owner cheaply and easily to make another such machine for someone else.

To increase that 70%, future versions of RepRap will be able to make their own electric circuitry - a technology we have already proved experimentally - though not their electronic chips. After that we'll look to doing transistors with it, and so on...

Adrian Bowyer (left) and Vik Olliver (right) with a parent RepRap machine, made on a conventional rapid prototyper, and the first complete working child RepRap machine, made by the RepRap on the left. The child machine made its first successful grandchild part at 14:00 hours UTC on 29 May 2008 at Bath University in the UK, a few minutes after it was assembled.

Scholarship and History

Academics and others seeking peer-reviewed journal articles on RepRap may care to start with this paper in Robotica. The citation and link are:

  • Jones, R., Haufe, P., Sells, E., Iravani, P., Olliver, V., Palmer, C., and Bowyer, A.,: RepRap - The Replicating Rapid Prototyper, Robotica (2011) volume 29, pp. 177–191. Cambridge University Press.

For great insight to RepRap as a self replictor see:

  • Bowyer, A., 2014. 3D printing and humanity's first imperfect replicator. 3D Printing and Additive Manufacturing, 1(1), pp.4-5. https://www.liebertpub.com/doi/abs/10.1089/3dp.2013.0003

If you are interested in the legal aspects of this technology, then you may care to read this paper:

  • Bradshaw, S., Bowyer, A. and Haufe, P.: The Intellectual Property Implications Of Low-Cost 3D Printing, ScriptEd, April 2010 pp.5-31. Also available here.

If you are interested in how the RepRap can be used to assist in sustainable development see:

  • J. M. Pearce, C.M. Blair, K.J. Laciak, R. Andrews, A. Nosrat, and I. Zelenika-Zovko, 3-D Printing of Open Source Appropriate Technologies for Self-Directed Sustainable Development, Journal of Sustainable Development', 3(4), 17-29, 2010. '

If you are interested in the economics of RepRap see:

  • B.T. Wittbrodt, A.G. Glover, J. Laureto, G.C. Anzalone, D. Oppliger, J.L. Irwin, J.M. Pearce (2013), Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers, Mechatronics, 23 (2013), pp. 713-726. http://dx.doi.org/10.1016/j.mechatronics.2013.06.002 open access (self built Mendel)
  • Emily E. Petersen and Joshua Pearce. Emergence of Home Manufacturing in the Developed World: Return on Investment for Open-Source 3-D Printers. Technologies 2017, 5(1), 7; doi:10.3390/technologies5010007 open access (commercial Lulzbot RepRap)
  • Emily E. Petersen, Romain W. Kidd, Joshua M. Pearce, Impact of DIY Home Manufacturing with 3-D Printing on the Toy and Game Market. Technologies 2017, 5(3), 45; doi: 10.3390/technologies5030045 open access
  • Aubrey L. Woern and Joshua M. Pearce. Distributed Manufacturing of Flexible Products: Technical Feasibility and Economic Viability, Technologies 2017, 5(4), 71; doi:10. 3390/technologies5040071 open access
  • André O. Laplume, Bent Petersen, Joshua M. Pearce, Global value chains from a 3D printing perspective, Journal of International Business Studies 47(5), 595–609 (2016). doi:10.1057/jibs.2015.47 open access

If you are interested in the environmental benefits of RepRap see:

  • Megan Kreiger and Joshua M. Pearce (2013). Environmental Life Cycle Analysis of Distributed 3-D Printing and Conventional Manufacturing of Polymer Products, ACS Sustainable Chemistry & Engineering, Engineering, 1 (12), (2013) pp. 1511–1519DOI: 10.1021/sc400093k Open access
  • Megan Kreiger and Joshua M. Pearce (2013). Environmental Impacts of Distributed Manufacturing from 3-D Printing of Polymer Components and Products. MRS Online Proceedings Library, 1492, mrsf12-1492-g01-02  open access

There is also a study on the spread of RepRap and its population:

  • Erik de Bruijn: On the viability of the open source development model for the design of physical objects, November 8th 2010, University of Tilburg, The Netherlands.

For a reasonably up-to-date literature review of RepRap technology see:

  • RepRap Lit Review

To get a copy of the entire RepRap Blog from its very start as a single PDF file download this (41MB; thanks to Gary Hodgson). The images in the early posts of the online blog are broken, but they are all in that file.

There are many reports, student RepRap projects and theses that are available as PDF files from this site. They are all linked from relevant pages but in addition we should, perhaps, index them as well. In the mean time you can get a complete list of all of them by following this link.

The very first RepRap - the RepRap Darwin made by Adrian Bowyer and Ed Sells at Bath University - is now in the collection of the London Science Museum.

Spread the Word

You can freely use the RepRap Logo (see the licence terms on the left) and QR code:

Glossary

  • RepRap - n. any free rapid prototyping machine that can manufacture a significant fraction of its own parts; v. t. (in lower case: to reprap) to make something in a RepRap machine.
  • RepStrap - n. any free rapid prototyping machine that doesn't make its own parts, but is intended to make parts for a RepRap.
  • reprapper - n. a person engaged in making or using RepRaps or RepStraps.
  • reprapable - adj. capable of being made in a RepRap machine.

Also See

  • Adrian Bowyer's One sheet Description of the RepRap Project
  • Background

Longer Video

Here is a recent talk and Q&A by Adrian Bowyer about RepRap and self-replicating manufacturing machines.

Category "RepRap" - a community of 3D printer owners 3DToday

A section for real do-it-yourselfers: all sorts of information on building and improving handicraft printers.

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Compact, easy-to-use feeder for "short" bar feed into the hot end. It was originally designed with a cable drive as an alternative to the Zesty Nimble for Delta Cybenimatic typewriters. Then, after rethinking, it was finalized to install Nema8 with a feeding unit with a "groove".

And when I ran into the limitations of this drive (it turned out to be a very demanding assembly for manufacturing accuracy) - I remade it into a "drum" ...

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Good day to all!

Do not judge strictly. This is my first note and the first product of this kind.

It all started this spring. There was an acute desire to do something interesting and necessary. And at the same time CNC. Well, it was really interesting to try it, everything was itchy. And the choice initially fell on a portal milling cutter. Despite the fact that there was a chance to somehow monetize this product. And even drew a machine tool in the Compass. Counted everything. And wept. I didn't want to make a toy...

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I had SUCH a project that went to be rethought and then on the shelf.

SOURCES are here. You will have to deal with them on your own. The most current version has been lost somewhere, but it will be possible to do something from a frame with the Z axis from one file and X beam details from another. nine0003

The reason for sending to the shelf - over-engineering. Some solutions included in this unit, even taking into account the prospects for modernization, turned out to be redundant and expensive....

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Good afternoon, dear friends. I slightly decided to tell you about my giant, which I threw on a laptop with the help of "solid" and assembled it in a room from which it cannot be pulled out :)0003

The concept was simple: I made a print on rails, on one of my favorite kinematics, on a structural profile frame :)

Chinese classic head, the only one with water cooling. Brass block, nozzles from 0.6 to 1.2.

Table for 4 ball screws and 4 screws 23

Var...

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Even when I posted the first reports on the creation of this fat man, some of the candy lovers asked when it would be possible to purchase something like this

In short - this is IDEX. "IDYOKH" in our opinion. Indypendent extruder. Independent all of himself, krch. A printer that has two print heads at once or one at a time. He can do anything.

It can print with two multicolor printing materials:

It can print with easily detachable and soluble...

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I deliberately postponed this publication until the end of the competition, so to speak, to stay out of it)))

In September I reported ON THE END OF THE PROJECT, I should tell you how he is doing now. nine0003

In general, it all started a long time ago - when I was just about to get my first printer in 2017, I literally fell ill with an E3d device called "BigBox".

Then I had at my disposal a sheet of composite in an interesting color, a bunch of spare parts...

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It's been a long time since I wrote anything about bringing the Imprint company's creative work to normal. Basically, my hands didn’t reach to model the head, so that in addition to blowing from the second side (which I originally wanted, but the priority was normal stable operation, and then fans, lights and other fun and blinking) add a new interesting sensor for removing the table map. nine0003

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Good day, dear colleagues.

FB902 was bought a long time ago and various models were printed on it, including PLA (recently), ABS (initially), but the print quality was not satisfactory, and the table dimensions 220x220 left no room for creativity. nine0003

I decided to make a printer with a print area larger than 310x310 mm.

Dashing trouble, the beginning.

Yes, what's so complicated, now we'll do everything.

It seems that the most difficult p...

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I started to miss Mitya's print area, and the features of delta kinematics involve scaling with reference to the diameter, but here the places in my workshop turned out to be only 480 * 380 - the delta is not suitable in any way climbs. I don't need two printers either, so the delta is either for sale or for spare parts. I did not want to sell my favorite machine for nothing, so it was decided to put it on the organs. Of the organs, the 12th Khiva rails and the brain of Duet2 Wifi seemed the most valuable. Plus...

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The Voron V0 is a great printer. However, there are a few things I didn't like about it. And there are a couple of tasks that I would like to implement in an FDM 3D printer, and, in particular, high-precision printing from thermoplastics. nine0003

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What is a 3D printer?

What is RepRap technology and what are its advantages

RepRap project

When getting acquainted with 3D technologies, users often come across the term "ReRap". In this section, we will explain what RepRap technology is and what its benefits are.

The RepRap project started in 2005, when 3D printing was just starting to take off. Its founder is Dr. Adrian Bower, a lecturer in mechanical engineering at the British University of Bath. The purpose of the RepRap project is to enable people to set up their own production system at minimal cost. nine0003

Initially, the RepRap project was open source and all source materials were available for download on the Internet. The activity was carried out through the founder's blog, and anyone could download drawings and diagrams of interest. Actually, accessibility is one of the main advantages of the project.

RepRap 3D printer

RepRap stands for Replicating Rapid Prototyper. Literally translated, it is “a (self) replicating rapid prototyping mechanism”. It is the ability to independently reproduce their own parts that the RepRap 3D printer is interesting in the first place. With the purchase of such a printer, users get the opportunity not only to complete 3D printing with a variety of materials, but also, if necessary, to manufacture a similar, “daughter” device. nine0003

This useful ability of this 3D printer significantly reduces its cost. Thanks to this, the user gets the opportunity to produce quite complex products without organizing an expensive production infrastructure. Thus, this technology allows anyone to create the necessary objects without much cost and effort. You will only have to spend money on plastic for 3D printing.

Other questions and answers about 3D printers and 3D printing:

RepRap 9 technology0262

Since its inception, RepRap technology has received a lot of positive feedback. RepRap 3D printers have earned the name of the simplest and most affordable 3D printing devices on the planet. An even greater public outcry was caused by the news that 3D printers of this class were able to reproduce electrical circuits. This is a new step in the development of non-self-replicating devices.

This was a brief description of the RepRap technology. We hope the information was helpful. If you have additional questions that we have not covered, write to us by e-mail and we, if necessary, will add your questions! Best regards, 3DDevice team.

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