Category Archives: Community News

WikiMode and Jam released on YouMagine

The Jam Logo

Jam

We’re continuing to improve YouMagine for you and have quashed a lot of bugs in the past two weeks. We’ve also released the alpha version of Jam. We’ve been talking about Distributed Innovation at YouMagine for a while, the idea that people will increasingly use digital manufacturing tools and software to collaborate worldwide on open source projects and businesses. This is a trend that has been occurring gradually over decades but with 3D printing hardware becomes malleable changeable and can be iteratively improved. Agile engineering and product development will increasingly occur and barriers to entry to many industries will be significantly lowered. It is for such a world that we are building YouMagine.

Jam is a key tool for us that will help make 3D design and collaboration more social and interactive. At the moment Jam is the 3D viewer that you can see on YouMagine in the carousel on your model page. Check out any model in the gallery to see that. You can zoom in and out and look at files using it. Gradually however we will add new features to it. Jam is a key piece of infrastructure that the 3D printing world is missing, a tool to with a group of people work collaboratively on 3D printing files. We called it Jam because we’d like it to be a tool that could let you have a Jam session but then for 3D printing, also because Jam is a disparate but delicious mix of things and because we’re in Geldermalsen in the Netherlands where people make a lot of jam (and 3D printers!) Do take it for a spin and give us feedback!

WikiMode

WikiMode

WikiMode is another social design feature. You can in the Edit tab of any uploaded model enable WikiMode. This lets anyone else who is logged in to the site add documents, descriptions, categories, tags, designs and images to your design. WikiMode is a way for groups of people to design things together. The original file can not be deleted by other users.

Bugs & Improvements

We’ve moved our servers to Cloud66 and Digital Ocean, this has increased the response time of the site and lets us serve up your delicious triangles at higher speeds.

We’ve also made a new Postmark account to serve up welcome and other automated emails to you. Some people have responded very positively to our emails, others have been skeptical. We’ll continue to tinker with the emails but do tell us if you hate or love them. You now get an automated email if someone starts to follow you or if you are added to a collection. One of our automated emails was actually generating links to 404’s and this has been fixed as well.

We’ve added images of 3D printers that you can add and now can only pick from a list of printers in your profile to show people which machine(s) you have. For the moment we’ve only added very few printers including the current Printrbot machines, the Ultimakers and the Prusa i2 & i3 (Update: We’ve added an expanded list of printers, for now email joris (at) youmagine.com if you’re printer is not on it. Have no fear we will add many more in the weeks to come its just that there are rather a lot of 3D printers out there and we want to see how we can do this in a manageable way.

Manage your printers in your profile.

There was a bug whereby the message counter for some people indicated that they had a new message but this was not the case. This has been fixed. We also made the drop down in the categories field have one blank option rather than be set default to one of the categories to let people tag and archive things better. We got rid of the “Droste effect” bug whereby you could enter an existential minefield through YouMagine by following yourself.

You can now copy our RSS feed and the social media links at the bottom of the home page have been improved as well. We’ve slightly updated the design of the home page with tweaks and improvements. We made some improvements to our API and the documentation of our API.

We hope you like the changes and keep the feedback coming.

Results of the YouMagine 3D printing survey part 2

Previously we told you about the results of our community survey amongst 500 members of our 3D Printing community. This is the largest and most in depth desktop 3D printing survey conducted to date. Today we can share you the second part of this survey.

At YouMagine we want to enable collaborative worldwide innovation in 3D printing and build the tools to let people in a distributed way work together to create, remix and share open source technology. We call this Distributed Innovation and want to build the tools for our community to engage in letting more people make better things.

In order to make sure that we are building the right future we want to understand our community and get feedback on what we need to do better. Through this process of letting our community guide our roadmap and development we can also give people an insight into what is happening in 3D printing. We would like to qualify this information to a certain extent however because we would expect our community to skew towards people who have been involved with 3D printing longer & be more open source minded than a random sample of the 3D printing community.

We asked Alexey Butakov to make us some nice illustrations to show off some of the graphs.

What do we need to improve about YouMagine?

Probably the most important thing for our development is the above graphic. We need to improve search and navigation. We’re working hard on this and have adapted our roadmap to the findings. We also received a lot of individual feedback about bugs and issues that need addressing, we found this super helpful also. We’ve identified different types of users whereby we’re generally seeing that one group wants more interaction and collaboration whilst the other seeks quick access to many designs. We’re making lots of quick steps forward on improving our overal design and user experience.

What needs to be improved in order to make 3D printing better for you?

The main thing that needs to be improved is the reliability of the 3D printers. If we drill down into these numbers we can also see that certain issues such as bed adhesion and dialing in new materials is also an issue for people. Reliability not only encompasses machines and in order to improve the overal experience improvements in software, electronics, materials & machines will have to be coordinated. People also want larger build volumes and faster 3D printers. Cost is not an issue for many.

One thing affecting many is warping and bed adhesion. Here we see that it is still critical to get your first layer right. Rather than be a solved issue for many we can see people looking at many different strategies to make materials adhere to beds. The best strategy is also very material dependent and depends on if you have a heated bed or not. Over the past few years a lot of new types of materials have become available for desktop 3D printers. These have exacerbated this problem especially since the best bed adhesion solution differs per material. Personally I’ve taken to washing down my glass heated build plate with a dishwashing soap with a high alcohol content. This degreases it and makes for excellent adhesion. As a YouMagine team we are leaning towards using only soap but some still use glue or tape.

There is a wide distribution of bed adhesion solutions for 3D printers

We’re seeing that even though there are a number of products out there to solve the issues. Most people still use glue or blue painter’s tape. Hairspray is also quite a popular solution. There is still scope to as an industry make better beds or come up with better solutions to this issue. Bed adhesion issues and warping are still the leading cause of failed prints. It would make a lot of people really happy if someone solved this issue.

I hope you enjoyed these results, thank you so much to all who participated. The third and final installment of our survey results can be found here.

Aidan Leitch’s Silicone 3D printing process

Aidan’s Syringe Extruder Top View

A few months ago we held a Contest whereby we challenged our community to develop a new 3D printing technology using an Ultimaker Original. 13 year old Aidan Leitch was one of the winners and attempted to make a Silicone 3D printing process.

You can download the files here on YouMagine.

Aidan made a Syringe extruder that uses a peristaltic pump to extrude a two part silicone into a basin to cure. The resulting shapes he’s been able to create are closer to blob than Michelangelo but this is a very promising idea. There are many two component materials such as polyurethane & epoxy adhesives. If we could make it possible to print materials such as these reliably it would be a big step forward.

I asked Aidan about his project and he said that,

“One of the biggest issues was making a good syringe extruder. There were some designs already out there but none that truly fit what I was doing. The part that took me longest was making changes in Cura. “

What more work will you do to improve the project?

“To improve, I’d need to make a better syringe extruder (possibly a direct one, as opposed to using the filament to push the syringe) and also a better system for delivering the other part of the silicone mix. The peristaltic pump I used was really slow.

The basin fixed to the build plate

What results do you have right now?

As of right now, I have successfully had the printer add one part of the silicone into the basin of the other part and have them cure. To make it work better, I’d to make the previously mentioned changes (better syringe extruder and better delivery system) along with further tuning of the software. Many of the parts for the paste extruder are fully 3D printable and attach directly to the printhead. Besides this, there are the electronics/pump, the basin, and some changes in the software.

What did you learn?

I’ve learned quite a bit from this project! Here’s some examples:

-How to read and write basic Gcode

-How to accommodate in software for physical issues (like friction in the syringe)

-Uncured silicone is messy stuff

Because it is all deliciously open source you can download and build on Aidan’s project here.

YouMagine updates, scrum & agile.

We’ve learned a lot about what our community needs and would like to see changed at YouMagine. We have gotten direct feedback from you and reached out to you in our YouMagine 3D Printing community survey. Based on that we’ve expanded our team and already done some significant changes to the design of the home page. We’re going to be doing a lot more and I’d like to give you an update on the most recent changes.

Scrum

We’ve adopted Scrum which is a process whereby you continually improve websites or applications. This lets us plan Sprints, two week development periods, whereby we can home in on your needs and build what you wish for us to build. We didn’t adopt scrum because it was hip but rather because it lets us act more directly based on your feedback and ideas. We’ve also switched to doing continuos deployments which means that we release bugfixes and updates several times each day. We also wrote a lot of unit tests that should trigger if we break something important. We do test before releasing and we have a continuous integration server where we deploy to first.

Demos

We also internally do demos where we show the team and people like Joris our Community Manager and Ronald who does our educational outreach what the development team has built. They can then give feedback and be your voice in the demo. We’ve found that this method eases issues that arrive when there is a disconnect between expectations and reality.

First Demo

I’m going to share with you our first demo.

We fixed a bug whereby the dropdown menu in the “I’ve created this design” view. It now shows designs you’ve created. So you can now add your design as a solution to a challenge. You cannot just add any design, which used to be possible. This means that the drop down will be smaller and load a lot faster.

We’ve created a dashboard so we can monitor and visualize our own development work and the site.

We added an updated Notice and Takedown policy to the footer of the site.

We’ve altered the main navigation and improved its performance & design for mobile devices.

We’ve been trying to improve our search significantly based on your suggestions that it needs to be improved. At the same time, we realize search is a core function that should never break. We found a solution to enable fast development without breaking search. If there is a bug or issue with the search it automatically runs a Google query (with YouMagine as a site filter), this means that we have the time to fix our search without you really waiting for it to be fixed.

A lot of people like our messaging system but we had a bug whereby you were not able to search for users, we fixed this.

We’ve added a functionality whereby you get an email notification as soon as someone adds your model to their collection. You can turn this off in your profile if you find it annoying.

We’ve also added an automatic email should you get a new follower. Both these suggestions are in response for people requesting greater interaction on the site.

An email also is generated if someone prints your design and uploads a contribution to it in the site.

We’ve deployed Mixpanel in order to better analyze what you are doing on the site and what could be broken or needs to be improved.

Your photograph is now visible on the link to your profile and we made the message notifications much more obvious.

YouMagine Community 3D Printing Survey Results Part 1

In order to find out how to improve YouMagine we conducted a survey with 501 Community Members. We’d like to thank all of you who participated! We’ve analyzed the answers and read through all of the input and suggestions you gave. In addition to the responses that we can tabulate directly we asked for a lot of “open” responses in order to get suggestions & ideas. We’re currently comparing these ideas & suggestions with our development roadmap to see how we can change the roadmap in order to better meet our community’s needs. We’ve already put a number of easier to implement ideas and improvements into our development backlog and these will be built soon. We’re also going to be doing more analysis in order to see what YouMagine should become in the future. We are building YouMagine for you and the better we can make it suit your needs the better it will be. Because of this the survey was very important to us. We are looking for more mechanisms whereby we can let users tell us what to build and what to change. If you have any ideas in this regard, please do tell us.

Survey Limitations

Even though 501 respondents is a significant sample of our community and can be used as a representative sample for the 3D printing community globally due to its nature this survey will have some limitations. Firstly, the people who are likely to complete a survey will tend to be predisposed to caring about the subject of the survey. What the silent majority thinks is not something you can actually ever survey. Or in other words, “What percentage of people don’t like surveys?” & Why don’t some people like surveys?, is something we’ll never know. Our community consists of people who tend to be passionate about open source and open hardware. Our sample is also skewed towards people who are experienced 3D printer operators. We will also tend to have more people who have been 3D printing for longer and have built their own kits as well as designed and built their own 3D printers. Because YouMagine is supported by Ultimaker we will also tend to have more Ultimaker users and Ultimaker-minded people than the 3D printing population at large. We will also tend to reach more people who like to share their open source designs online because that is what the site does at the moment. We therefore are assuming that we’re missing many companies, closed source people and noobs in the sample. But, generally the sample, if qualified as above, can be used to gauge what our community needs and be used to generally learn about 3D printing peoples.

Survey Feedback

We got some feedback about the survey itself. Many found it a very positive thing and told us that it was good that we were listening to our community in this way. Some did however think that the survey was too long. We will make any surveys we do in the future shorter. Some others thought we should have more “other” and Not Applicable responses. We will do this next time. Some were confused by the bed adhesion question. In this question we asked “For bed adhesion I use…?” People noted that it would depend on the bed and material. We added this question also as a control question but understand that it may be confusing. Similarly for the slicer and 3D modeling software questions people indicated that they used several instead of just one.

Findings

Where does the YouMagine community live?

We know from Google Analytics that our community comes to us from 218 countries and territories worldwide. People from 49 different countries completed the survey. Immediately this shows us the limitations of our survey approach. The most popular country by far is the Unites States.

Analytics top ten

USA
Germany
Netherlands
UK
France
Spain
Canada
Italy
Australia
Switzerland

Survey top ten

USA
Netherlands
Germany
UK
Canada
Spain
Sweden
Switzerland
Belgium
France

We can see differences between the popularity of the site versus the respondents and should be mindful of these. Below you can see a heat map showing you the top 25 countries and the relative popularity.

What do we need to improve most about YouMagine?

We can clearly see that the biggest point of improvement needs to be search. We’re working on this and it will be improving soon. People also think we need to have better navigation. Generally if we read through the comments people also feel that we can improve the usable space. A lot of people don’t like the margins around the pages and think that images can be larger and we can be using the space more efficiently. We will be working on a complete site redesign that incorporates these wishes.

If we break out the users we can see that two different distinct user groups can be identified. One group wants things such as pagination, see many designs at once, scroll quickly through many designs etc. They want to find and download things quickly. We’re looking at how we can speed up the workflow from this group. The other group wants more interaction and social features. We also learned from the survey that often single features such as issues with the aspect ratio of the photos is a huge turn off for individual community members. We’re using the outcome of this survey to build the site as you would like to have it built. If you have any suggestions as to a feature or improvement, please do email joris (at) youmagine.com

The second part of the survey is here and the third here.

New release at YouMagine

Our developers Wilco & Martijn continue to improve YouMagine according to your feedback. They’ve made some small bugfixes and design tweaks. Please do keep your feedback and suggestions coming. Additionally YouMagine has been improved so that:

When you hover and hold your mouse cursor over a design, more images will appear.
The counting of Favorites has now been improved, it will now show how many times a design has been favorited.
You can now change and delete an “I printed this design” image.
The RSS feed now includes Images (thank you Lawrence for the suggestion!)
The site search has been improved.
Increased the stability and performance of YouMagine.
The site now loads faster and feels more responsive.
The images are now “vanity loaded”: the page is loaded first and then visible images are loaded. After that other images are preloaded.
We now have breadcrumbs on the top of the page so you can easily navigate through the site.
Pic Unrelated

Creative Commons Attribution by Ben Sale, image of a Rosy Footman (Miltochrista miniata) moth.

Interview with Ryan Adams of the MaplePrintMini 3D printer

We love it when our community shares 3D printer upgrades, improvements or entire 3D printers on YouMagine. Ryan Adams did just that, he made his MaplePrintMini 3D printer and shared it with the world. We were curious about his machine and asked him how he made it. We were especially intrigued since apart from the electronics, screws and motors the MaplePrintMini is entirely 3D printed.

Ryan Adams leaning forward next to his MaplePrintMini 3D printer

Ryan Adams and his MaplePrintMini 3D printer

Why did you make this printer?

My original reasoning for this printer was to prove that I could design and build a printer myself. All of the printers I had owned up to that point (A Printrbot and MakerFarm Prusa i3) were built from kits, and I wanted to prove that I could design and produce a similar printer to theirs. I was also captivated by the idea of the RepRap project, and wanted to see how far I could take the project’s philosophy in designing this printer, with the end result being one which is, excluding mechanical components, almost entirely 3D printed.

How did you do it?

When I set out to design this printer, I had two main goals, the first that I be able to print as much of the printer as possible, and the second be that the overall foot print of the printer be less than that of a legal-sized sheet of paper. Strange, I know, but I wanted to keep the printer’s foot print small and portable. The design process was fairly straight forward, I set up my size boundaries, and designed the printer within those boundaries. I used AutoCAD for most of this process, and relied heavily on my own calipers, and rulers to measure mechanical components that I’d then model in CAD, and build the printer around. It had been several years since I last designed or modeled anything with this sort of scale, so it was very much a learning process for me, trying to remember how to model and design parts correctly. The preliminary design took place over the winter holidays, and took about 30 hours from conception to printable designs.

Did you design the whole thing in one go and then build it? Or was it more an iterative process of improving parts?

Throughout the initial design process, there was multiple times that I would spot an issue, or think of a better way of designing a part. The extruder carrier, and X-axis have probably gone through 4 or 5 revisions before I even thought about printing. The revisions were far more minor once parts were printed though. I tried my best to catch as many errors and flaws as I could while still in the design stage, so that I could minimize my printed waste and build the printer quicker. With the exception of 4 or 5 parts, every piece was printed the way it was designed initially. I was honestly surprised that when the build process begun, that parts fit as well as they did, and that most everything just seemed to work correctly. As the build progressed, I revised a few parts to aid in the assembly process, or in the case of the extruder, to add additional cooling, but for the most part, it was a straight forward build with very few issues.

What’s so special about it?

I think what sets the printer apart is its printable design. No component on this printer is larger than 195mm x 195mm, which allows anyone with a average sized 3D printer to print all the parts for this project on their own. I also feel it embodies the RepRap philosophy better than some other machines with which to the extent of how much of the design is printable. I admire printers such as the Prusa i3, MendelMax and others, but seeing their wooden and metal rod construction takes away from the concepts of a true RepRap, so I feel this printer is proof that it is possible to build a strong, accurate printer using almost entirely 3D printed parts.

What would I need besides the design files on YouMagine to build one?

Aside from the design files on YouMagine, you will need a 3D printer or someone with a 3D printer to print the parts. Expect the parts to take 60 or so hours to print, it’s a long job, but worth it when it’s done. Once you have printed all the required parts, you will need the ‘standard’ mechanical components which consists of the usual NEMA 17 steppers (in this case, 36 oz smaller units are used), 8mm linear rod and LM8SUU linear bearings. You will also need about a meters worth of GT2 belt, and 16 or 20 tooth pulleys, 4mm threaded rod and couplings for the Z axis as well and you will also need 3 micro switches for the end stops. Extruder wise, I used a Printrbot Aluminum extruder, and a Ubis hot end, though you could mount your own direct drive extruder and hot end of your choice. Electronics wise, your choice of controller, RAMPS or a printrboard should fit in the enclosure. Lastly, you will need screws, a lot of them. There are about 150 M3x10 socket cap screws used, and about 30 M5x20 socket cap screws as well.

Shark test piece made on a MaplePrint Mini.

What kind of print results do you have?

Print results have been fairly decent given the relative state of calibration that it has received. I was very pleased that upon printing my first calibration cube, that the dimensions were accurate in both the X and Y axis, and that the details and layer heights seemed well defined. Subsequent prints such as Mr. Jaws have pretty well defined detail in the teeth and corners, and came out better than I was expecting. I’m still tuning the printer, and calibrating the e-steps and extrusion, so there are still improvements to be made, but overall, the printer prints better than some of my first prints on other machines.

What software did you use to design it?

All of the design was done in AutoCAD 2015. I prefer the work flow and familiarity of AutoCAD over that of Inventor or Solidworks. All of the mechanical components were modeled in AutoCAD as well. Before printing, I ‘plated’ the entire model, that is, disassembling my design into ‘plates’ of correctly orientated parts that could be exported to STL’s and printed. This saved a lot of time later on and removed the need to have to manipulate or optimize the part in my slicer.

What firmware does it run?

The printer uses a stock RAMPS 1.4 controller running ErikZalm’s MarlinFirmware. I selected Marlin over others for its configurability and simply configuration. Total time from downloading, modifying, flashing, to printing, was about half an hour.

What was the most difficult part of making the printer?

Probably the most challenging part of the entire process was printing the frame. Each frame panel required 5 hours of print time, which given my daily schedule made it difficult to fit these prints in. It meant that these pieces were printed on weekends and days off, which in turn delayed the entire process. Aside from that though, the process was fairly straight forward, if I had any other complaints about the process, it would be the almost-insane amount of screws required in the build. I wanted to ensure the printer was structurally sound and rigid, so I designed it with many mounting points, but it was only when I started building the printer did I realize juts how many I had used!

MaplePrint Mini 3D printer printing.

Where do you hope to go from here?

Well I’m on to bigger and better things already! Shortly after finishing this printer, I embarked on the design of its successor. While I’m pleased with how this printer came out, I recognize that there is still a lot of room for improvement and optimization. Now that we know it’s possible to build a printer from almost entirely printed parts, I’m again using this approach for version two. I’m finalizing the design now, and hope to be printing parts for it in the next week. I will again be publishing my progress and design, and releasing the designs for the printer on YouMagine shortly, but I can promise that it will have a much larger build volume, and equally small foot print, improved rigidity, and far fewer parts to print and assemble. Aside from that, I hope I can continue to design and release printers, components and upgrades that further the RepRap project, excite current 3D printer users, and introduce new users and designers to the amazing industry of 3D printing!

3DPL released: an Open Source License for 3D Printed things

Sketch by Olivier van Herpt

At YouMagine we’ve spent the last months creating the 3DPL for the 3D printing community. The 3DPL is a license for 3D Printed things that has been specially made so that people can create, improve and share their inventions with the world. Most of all we want to let us all stand on the shoulders of giants. We want people to build upon previous technologies, improve them, remix them and individualize them. We wish to create the preconditions for a 3D printed world where all the stuff in the world is iteratively and fluidly collectively improved. The 3DPL is a part of our effort to make all the things in the world malleable.

We’re doing this for you and so would like your help. Please give us feedback. Tell us what doesn’t make sense to you, what you hate, what we should change. Please involve others. We’re especially interested in home 3D printer users, companies that use 3D printing, lawyers, people from the wider open source community, inventors, artists, designers, makers and creators in the broadest sense. The 3DPL itself can be found here on Medium and you can comment on it there. Feel free also to ask questions or discuss it in the comments below this post. We consider the license to be in beta, so anything and everything is open for discussion and change. We would like to make it as inclusive as possible in order to cater to the entire 3D printing community so please get stuck in there and tell us what we need to improve.

Why should you get involved in shaping the 3DPL?

We have a real opportunity here to lay the foundations for a world where much of the emerging technology landscape will be available to all under an open source license. A world where a good portion of the inventions made in the future will be shared and created through 3D printing.
Other open source licenses were not created with 3D printing in mind.
In order to safeguard and encourage creation we have to properly protect inventors and innovators or progress and breakthroughs will be impeded.
In order to ensure progress on collectively developed technologies disputes over intellectual property should be resolved in a quick and efficient manner.
In order to encourage sharing and remix it should be clear what rights are held by whom and what one can do with a file that has been shared.
Since the 3DPL is the first and only license for 3D printed things it may just end up being the standard one everyone uses. And it would suck if the 3DPL sucked.

Sketch by Olivier van Herpt

What are some interesting things about the 3DPL?

The design must always be attributed.
All subsequent derivatives of a shared file must be available for remix and sharing.
If the creator requires that you include reference to be printed on or in the physical printed object, such as a logo or name, you have to respect that and are not allowed to remove that reference without the creator’s approval.
If one doesn’t abide by the terms of the license the rights granted under the 3DPL will be terminated immediately.
If you fail to comply with the license such as selling a work that was meant to be non-commercial then you must pay the creator 3 times the gross revenue you made on the sale.
Arbitration for conflicts between parties is arranged for in accordance with the WIPO Expert Determination Rules.

We have 3 license types:

REMIX: With a REMIX license your derivative work must be available to remix and share by others.

REMIX — NON COM A REMIX — NON COM license restricts the use of the Design File, the modified Design File and any Designed Product to non-commercial use only. The Design File, the Modified Design File or any Designed Product may not be used with the intent of making money directly or indirectly from it.

REMIX — RIGHTS MELT REMIX — NON COM for 12 months melting down to REMIX after 12 months. With a REMIX — RIGHTS MELT license your design file is available as a non-commercial share-alike file for 12 months. After this period the license will automatically become REMIX.

Process

We will be hosting a Google Hangout on Tuesday the 17th of March at 20:00 CET.
We will review your comments, ideas and suggestions and incorporate them whenever possible into the final version of the license.
We will then work with our lawyers to correctly implement your ideas.
You can read and comment on the license here.

Sketches by Olivier van Herpt

JJRobots cool open source robots on YouMagine

Open Source Air Hockey Robot by JJRobots

One very inspiring YouMagine community member is JJRobots. They make super fun robots such as an open source air hockey robot and an open source self balancing robot. This is just the kind of innovation we’d love to support here at YouMagine so I interviewed the team to find out what they’re up to.

Open Source Balancing Robot by JJRobots

What is JJRobots?
We are two electronic hobbyist who really wanted to share the ideas and knowledge with everyone who loves DIY robotics. JJrobots want to… fill the gap that exists in the DIY world, in which you need to have an electronics/ computing background in order to start a project. JJrobots is oriented to the MEDIUM skill level “maker”, we want to provide them with useful, affordable and flexible electronics that you can use for a lot of different projects. B-robot and the Air hockey robot are just two of a big list of projects we are developing right now. The following project will use the same electronics we are currently selling now in our shop.

Why did you start it?
The idea of JJROBOTS born nine months ago when I, Juan Pedro, working and living in UK, told Jose (my partner here) to open a web page to host the projects that Jose had been publishing in other blog and make it easier to people to make them by themselves (and create a platform to grow with new projects).

JJROBOTS is a blog with information about the projects, documentation, build manuals, schemes, a “how it works” section, and an online SHOP for the hardware parts (electronics, plastic parts…). Our goal is that people have fun making their own robots and, at the same time, learn how it all works. ALL will be OPEN, shared and documented. There will be a growing community behind with forums so you could get help from us and from other users.

We want that people take our projects as a base, and feel free to hack/modify them to the limits!

B-ROBOT is a good example. Starting from the design Jose published last year, we have been improving it in many ways. We have created a new electronics shield for an Arduino Leonardo, instructions, building manual and schemes. The code is now much simpler and better documented. This project is very FUN and ,as you can see in the video, the control is WIFI excellent too! (Kids love the robot)

This is an unique gadget that you could make by yourself (DIY). This is not a toy, it is a robot that uses good motors, quality electronics, and sophisticated control algorithms.
Our idea is also to reuse most of the components involved in the early projects in another future projects. For example, the Wifi module (which is not cheap) will be used soon in more projects (subscribe to jjrobots to keep you updated). You are investing in electronic components that could have several lives (motors, Arduino, wifi…)

Over the years we have realized that people love the open projects that we have been publishing here (B-ROBOT, arduspider, Air hockey robot…) but people have problems to reproduce them. Now there are no excuses! Everyone will have available all the parts and documentation to let them be successful!

Why do you share your designs on YouMagine?
I wanted to use YouMagine since I bought an Ultimaker 6 months ago and I knew about the existence of this website. I do love my 3D printer (now printing with FLEX PLA which has skyrocketed my “maker” capabilities!). This is a very good platform to spread the project.

How does your balancing robot work?
There is information here. But as a short brief:
“B-ROBOT is a remotely controlled self-balancing Arduino robot created with 3D printed parts. With only two wheels,B-ROBOT is able to maintain his balance all the time by using his internal sensors and by driving the motors. You can control your Robot, making him move or spin, by sending command through a Smartphone, Tablet or PC while he keeps the balance.

B-ROBOT reads his inertial sensors (accelerometers and gyroscopes integrated on the MPU6000 chip) 200 times per second. He calculates his attitude (angle with respect to the horizon) and compares this angle with the target angle (0º if he wants to maintain balance without moving, or a positive or negative angle if he wants to move forward or backwards). Using the difference between the target angle (let’s say 0º) and actual angle (let’s say 3º) he drives a Control System to send the right commands to the motors to maintain his balance. The commands to the motors are accelerations. For example if the robot is tilted forward (angle of robot is 3º) then he sends a command to the motors to accelerate forward until this angle is reduced to zero to preserve the balance.”

Why make an air hockey robot?
Everything started when Jose (my partner and friend) built his 3D printer. First, the possibility to design and build our own parts and second, how could we hack the components of a 3D printer to make something different?

Jose´s daughter loves the Air Hockey game and we love robotics so one day an idea was born in our mind… can we construct…??… Mmmmm …. it seemed very complicated and with many unresolved questions (puck detection??, robot speed??), but that is also part of the fun…

What do you hope to achieve with JJRobots? Why do you think its important to teach kids about robotics?
Well, we are loosing the contact with what lies beneath technology. You can buy an Iphone and play with its tactile screen but not know anything about how this device really works.
How does an industrial machine detect broken cookies during the packaging process?

Hacking can be performed only when you really know how a thing works. We want to “hack” ordinary stuff and create cool things showing how it is done. We want to let kids (and adults!) to do it by themselves and by asking for a helping hand in our webpage´s forum.

How large is the company?
Just Jose and I (Juan Pedro). Each one have our own jobs beside jjrobots, so right now, these ideas can not feed us, we will need to find time for this exciting project.

This is a really great initiative and you can check out their shop here or download the parts from YouMagine here..

Winners Create a New 3D Printing Technology Challenge

After long deliberation and discussion we’ve finally been able to decide on the winner of our “Develop a New 3D Printing Technology Challenge.” We looked closely at the level of innovation, feasibility & achievability of the technology. We also looked at to what extent the entries would revolutionize 3D printing and be a step change in 3D printing for the desktop 3D printing user. We tried to determine which technologies were not already being worked on within the open source 3D printing community. We also looked at which technology would let designers & makers explore new design directions in 3D printing and make new things possible. Our final conclusion was to award two Ultimaker Originals to two winners.

The First Winner is Laird Popkin with his “High Speed Large Format 3D Printing with Detail Finish” Idea. Laird wanted to solve the issue that 3D printing is too slow by creating a dual nozzle 3D printer. And “build a printer with two extruder nozzles, one very large (e.g. 1.2mm) and one much smaller (e.g. 0.4mm), and to configure/modify the slicer software so that it can use a single perimeter layer that is fine resolution (small nozzle, 0.1mm to 0.2mm layer height) and then interior perimeter and infill using much thicker lines of filament (large nozzle, 0.5-1mm layer height).” He wanted to, “make the modifications to the open source slicer software and configurations to optimize print speed and quality for such as configuration.” His goal was to, “Once the software and configuration are validated on standard hardware, my ultimate goal is to “hack” the Ultimaker to support 2x dimensions, for 8x the print volume, in order to be able to extremely rapidly print prosthetics for entire adult limbs in a single print.” He wanted to start with the Gigimaker design for a large format machine and go from there. We loved the ambition but also thought that he had considered the issues and problems well. We thought that this would greatly help the open source 3D printing community and that he had thought well about the issues and challenges at stake. We hope that Laird enjoys getting an Ultimaker Original and can’t wait to see what he shares with the YouMagine community.

Our second winner is XYZAidan‘s Silicone 3D Printing Process. Aidan made a video describing his process, you can check out above. We liked his ambition and by introducing new materials and a completely new way of 3D printing we could see that his idea could radically transform 3D printing for the home user. His idea to 3D print a silicone mix could be difficult to implement. If he is successful however it would be a significant advance for desktop 3D printing.

In addition to silicone his 3D printing technology would open up 3D printing to many more 2 component materials and this would greatly add to the home user’s 3D printing arsenal. Aidan wants to increase the resolution of 3D printing with his technology and also bring about higher print stability. He hopes to be able to extrude the silicone while having it cure inside the 3D printer’s nozzle. We love this idea and can’t wait to see him implement it! Congratulations to both Aidan and Laird on winning their Ultimaker Original’s. We hope they share their innovations with the YouMagine community and that their work lets others create more technology at home!

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