During the recent holidays, I spent a few days in Seattle. One of the things I’ve wanted to do there for awhile is visit Metrix Create Space, Seattle’s hackerspace.
Conveniently, they have a regular 3d printer night on Thursdays and that happened to be the night I had free to visit.
Upon arriving, I was greeted by Matt, the owner of Metrix and he gave me a tour. It’s definitely a maker’s dream space with lots of room, tools and even a sushi place upstairs that delivers to nerds in need.
There is an array of cool tools to use including 3d printers, a laser cutter, a giant CNC machine and lots of soldering/laptop workstations.
One of the things I had read about Metrix is that they have been making clonedel parts for 3d printers which are basically molds that you use to create objects out of whatever material you pour into the molds. It was cool to see the setup in person and check out the quality of the parts:
There was also a couple of reprap printers built with the clonedel parts:
They also have a vending machine filled with arduino microcontrollers and other geeky toys, snacks (including MREs!) and electronic kits. I ended up buying a bunch of things for myself from the machine:
Since this was a 3d printer night, Matthew brought down his CupCake:
(aka a FakerBot since it was a copy of Makerbot’s open source design that they made at Metrix) which he had modified to make it quite similar to my beloved Thing-O-Matic in how the Z stage operates.
I brought some of my prints and we compared parts. His modified CupCake was printing incredibly well…just as good as my Thing-O-Matic and much better than the output I had seen from stock CupCakes, thanks to his mods (which he posted on Thingiverse shortly after my visit).
I love how the CupCake has all the electronics and wiring on the OUTSIDE…so much more accessible:
It was a very fun way to spend a Thursday night in Seattle…I highly recommend checking out Metrix if you’re in Seattle as they offer lots of interesting workshops and a really cool atmosphere.
One thing I get asked all the time about my 3D printers is where do I get the models that I print? I follow Thingiverse daily to see what others have created but sometimes you need something very specific. So you have to create it yourself.
One method I’ve used is 2D extrusion which how I made the page keeper gadget for a coworker.
Another method is called solid modelling. There is a relatively new website, called Tinkercad, that gives you the tools to create 3D objects right in your browser, for free. It is built on the WebGL platform so requires a modern browser (and in some cases, modern graphics cards) to run it…I used Chrome as Safari doesn’t currently support WebGL.
Using a number of different shapes you can add or subtract the shapes to build up your design.
You choose the height and the size of the shape using direct numeric entry or a slider.
Choosing the workplane allows you change the level or angle you’re working on.
The measure tool allows you to create a positionable ruler to assist with measurements of your design.
The top left menu item, “Print 3D”, is how you export your model. You can either export it to an *.STL file (which is compatible with other 3d software packages as well as the software I use to print with my 3d printer) or you can send it to a 3d printing service like Shapeways.com if you don’t own a 3d printer. They’ll print it for you, in a number of different material options and ship it to your door.
Here’s their quick start tutorial that should give you a better idea of how it works:
I wanted to design a mount that would allow me to attach my GoPro camera to a remote control quadcopter. I couldn’t find a design on Thingiverse so I toyed with modifying some other GoPro mounts on there for the purpose but nothing looked like it would work any better than simply duct taping the camera down.
I also didn’t want to modify the quadcopter at all so opted to use the same mount point for the battery which already has velcro to hold it in place. I did find a mount online that someone designed and printed with a 3d printer who was selling it but there wasn’t any good detail photos of it so I had to come up with my own version and used my calipers to measure everything.
It took a few iterations before I found a design that worked:
The final version (I had to print two of them):
Here’s the results of this mount attached to the quadcopter with GoPro camera installed:
Turned out pretty good! Now to design one that fits underneath the quadcopter for an unencumbered view.
Another cool thing about Tinkercad is that you are given a permalink to your design that you can share. Then others can make a copy of it and make other things with it. I did this with something I found on Thingiverse, a tool holder for my 3d printer, that was a cleverly designed mount for tools that are commonly used when operating the 3d printer. I thought the same object, minus the tool parts, would be great for mounting my webcam onto the printer. The creator of the tool holder had used Tinkercad to create it so it was easy to duplicate it and then erase the unneeded bits to make this:
So I made a couple versions, a big and small one depending on what you wanted to attach to the platform.
So far, I’ve been really impressed with Tinkercad. I’ve found it the easiest way to get designing something, without all the usual technical stuff. It did take a little getting used to and it was a little tricky to figure out the workplane stuff, but once I spent a little time with it, it got much easier. I also now have two different designs that I have successfully printed and are working great.
There’s also a newer beta version you can try out at labs.tinkercad.com.
Figured it was time for a build update on my Prusa Mendel 3D printer. I had some friends over this past weekend from our RepRap user group and we ended up spending the whole day tinkering with the printer.
With huge help from Brad and Eugene, we were able to get everything wired up and the motors moving.
It was pretty cool to finally get to this point and have things generally work as they were expected. The only issue I noticed was that the Z axis was inverted so it was simply a matter of flipping the connector around.
It wasn’t without some casualties though…we managed to break off 3 different PLA bushings while testing things.
If I was doing this from scratch tomorrow, I’d definitely skip the PLA bushings and go for LM8UU or brass bushings…the PLA bushings plus the epoxy is just a pain in the butt.
When testing out the Z axis motors, it became apparent right away that that original couplers weren’t going to work. The threaded rods wobbled like crazy and I may have stripped the plastic parts when assembling. Fortunately I had a set of the updated couplers printed which worked really well after a quick trip to Home Depot for some tubing.
At Brad’s suggestion, I swapped out the original belt clamps for the new ones in the 2nd Iteration of the Prusa files as it’s taller, has grooves for the belt teeth to hold it and helps the belt line up better with the motor and bearings on the Y axis.
I had printed some M3 nut thumbwheels for use elsewhere and they came in handy for leveling the build area on the aluminum thick sheet I have.
Brad also soldered the wires to the heated build plate PCB (Mk1) after my failed attempts…seems my new soldering iron tip wasn’t heating up enough but Brad was able to make it work. The PCB works great and gets toasty hot pretty quick.
The RAMPS 1.4 board almost fully wired up…just missing the extruder and thermistor connections:
Note the fancy fan with blue leds – everyone seemed to like it and wanted to get one for themselves. It’s an Antec SpotCool Fan with 3 speeds and is SUPER quiet. It’s mounted to the Prusa frame via this simple mount.
We also had quite the adventure figuring out how to make a usable hot end out of the parts I had from Mixshop. The brass barrel was too short so we cut down the PEEK block and also milled out the heater block with a drill bit and some fancy dremeling by Brad.
Not a lot left to do: mount the endstops, clean up the wiring, finish building the extruder/hotend and check everything is tight and level. Hopefully this weekend I should knock those off the list and possibly even get to the point of extruding some plastic! I can already tell that I’ll have lots of calibration to do…it’s definitely not as solid yet as my MakerBot is so the fine tuning will be critical to getting some decent prints with it.
Also have to say thanks again to Brad & Eugene…they were a huge help and I’m not sure where I’d be without their assistance at this point. One of the things that’s good & bad about RepRaps is that there are an infinite number of ways to build them…having Brad & Eugene share their wisdom was awesome and really sped up the build since I didn’t have to make some key decisions because they’ve already been through the process.
UPDATE: Here’s a couple videos of the motors running. The extruder is just clamped in place (for now) for testing purposes. Yes, it’s a printed clamp :)
I’m currently running the Sprinter firmware on the RAMPS and using PronterFace (running on Mac OSX) to control everything but it also works with Replicator G:
So much quieter than my MakerBot! Although the motor speeds in the videos are pretty low…it can go MUCH faster.
UPDATE #2: Success! Last night the bot extruded it’s first plastic (PLA). The hotend worked perfect right out of the gate (once I had all the wires properly connected), it just needs to be tidied up with some kapton tape. Next step is to calibrate and actually print something:
I was a little disappointed though. I had read that PLA (which is basically cornstarch) smelled like candy when extruded in this manner…sadly it doesn’t…in fact it doesn’t smell like anything although I haven’t had it printing for hours…perhaps it will be more noticable once I start printing objects.
UPDATE #3: Printing! Sort of!
Had an issue with the Z-axis voltage being too low to move the whole extruder (now properly installed), the whole X-axis fell down and the filament was sliding off the hobbed bolt teeth (results of which are in the video above). I’ve printed a filament guide that should help with this so I hope to actually be printing something recognizable tonight.
My original plan was to use Replicator G but I’m quite liking PronterFace with SFACT installed instead of the regular Skeinforge. It’s almost like the Print-O-Matic settings options I have for my MakerBot and aside from my filament issue, the above print is done with no calibration at all! It definitely looks correct when it’s going thru the motions.
I’ve been busily printing Prusa Mendel RepRap parts for people on my MakerBot for awhile now and decided to finally setup a proper online store for them and other printed objects at AllThings3D.com
After playing with a bunch of different storefront options, I’ve decided to just use a simple PayPal order button for now. There is just too many options and settings to sift through before I’d feel comfortable running one of these stores so I thought I’d keep it simple to start.
There is also a capacity issue as I can only print so much with only one printer online (the 2nd, my Prusa, should be online in a week or two) so it’s currently only offering Prusa parts at the moment with up to a one week lead time.
I plan on expanding the printed item offerings (and the storefront) at AllThings3D.com as soon as feasible. I’m also planning on detailing my Prusa build on the blog over there (as well as here still) to help illustrate using the parts I’m printing to build a 3D printer…hopefully a value add over other sellers of the parts, and definitely better than what you get on eBay.
I have created other things (mostly font based objects) but this is the first thing I literally sketched out and ended up with a physical object.
It’s taken awhile to finally get up to speed on all the different tools and techniques required to do this (and I’ve still got a lot to learn)…and it technically wasn’t even my idea to start with.
Let’s say I was inspired by another design. Yeah, that’s it.
What is it? I call it the “Page Keeper”. Inspired by something my coworker showed me (a low res photo) and asked if I can print her one.
So I tried. It actually seems to work too!
This lead me to post my first truly, designed from scratch, 3D object to Thingiverse (my face doesn’t count since it was technically scanned and printed unaltered).
It’s easy to see why going from idea to physical object, in a short period of time, in your own home, is so gratifying.
It’s been awhile so I thought I’d post a quick update on my Prusa Mendel build progress.
Technically, I’ve got everything I need to assemble the 3D printer…just a lack of time lately. I’m hoping to fix that this weekend though.
I’ve got all the electronics now and just need to wire them up.
I ended up going with RAMPS 1.4 that I bought preassembled from Ultimachine. They seemed to have the best reputation and easiest shipping options for me. I also got my heated build platform from them as well. I’ve got the RAMPS mounted to an acrylic mounting plate from Lulzbot.com (I bought just the plate, not the kit, by mistake so had to find some compatible hardware to mount it and fortunately, they posted the mounting clamps on Thingiverse so I was able to print them myself) as I liked how it looked. It also has room to hold an LCD or keypad which I’ve also purchased although I haven’t landed on specifically which firmware to use yet that will ultimately dictate these extras usefullness. My plan is to ultimately be able to print from SD cards using the LCD/keypad combo directly but that’s another hurdle I’ll tackle when the main build is finished.
A friend cut some glass and I now have a 20cm x 20cm heated build platform…nearly double the size of my MakerBot’s!
The Y-axis motor has been mounted as has the lower thick sheet, belt and bushings.
I’m still concerned my bushings are too stiff so will be attempting to loosen them up this weekend using the heat gun on the smooth rod trick I’ve heard about.
And lastly, I’ve figured out what I’m going to do about the extruder and hot end. In the photo, it’s just sitting on the rods for the X-axis and not mounted nor fully assembled. I’m going with Greg’s Accessible Wade’s extruder and the standard hotend for the Wade’s that I got from Mixshop.com. I’ve been waffling back and forth over which diameter to use for the extruder given I have so much ABS plastic filament and PLA is generally harder and more expensive to get in Canada. But I’ve decided to go with the 1.75mm PLA filament for now, as I had originally planned. I bought the parts to make two complete extruders (one in each diameter) so I could always swap it out at a later point if I decide to change my mind.
The biggest challenge during this process is the constantly evolving Reprap community. While I’m half way through my build, a number of revisions to parts I’ve already printed have shown up that makes me ponder reprinting the new parts vs going with what I have and swapping out later. Also, as you can see from the various parts listed, I’ve had to literally source parts from all over the place. Places like Mixshop and others are now starting to put together complete kits for sale but I guess the benefit of sourcing things from all over, it gives me more control over the options that I build into the Prusa.
It’s definitely not for the faint of heart and unfortunately it’s a fairly technical process…but it is a hell of a lot of fun to work on.
As a side note, I just sold my first complete set of Prusa printed parts to someone locally so they can start building their own 3D printer:
I’ve already started printing another set. Contact me if you’d like a set to build your own 3D printer.
Bre’s passion for this technology was a huge reason for me buying my own Thing-o-Matic 3D printer and getting into 3D printing in the first place. I think the video captures this quite well along with perfectly explaining the reasons why I think 3D printers are a huge disruptive technology that is in people’s hands right now, thanks to people like Bre.
I finished printing all the plastic parts needed to build a Prusa Mendel. Also a box of hardware and motors I ordered from Mixshop arrived so I was able to start assembling.
I decided to print all the plastic parts with 30% infill except the pulleys and gears which I did at 50% infill. I used a 0.28mm layer height, 0 extra shells and 2.88mm ABS filament in Print-O-Matic to print them on my Thing-o-Matic.
I followed Gary Hodgson’s excellent Visual Guide to Prusa on my iPad…made it really easy to see what order the parts needed to be attached and assembled.
I’m still waiting on some PLA bushings I ordered from eBay that are needed before I finish assembling the frame. They should arrive next week sometime.
As you can see from the photos, I opted to go with the army green coloured plastic parts. They printed really well and I think the end result looks pretty cool. I still have to assemble the extruder which I printed in ‘nuclear green’ but I may reprint it in a better matching colour (I can always sell the nuclear green parts).
The Prusa beside my Thing-O-Matic
After much research, I decided to order the necessary electronics for the Prusa from Ultimachine. I’ve placed my order for their pre-assembled RAMPS (RepRap Arduino Mega Pololu Shield board – basically a stack of electronics that runs the Prusa), Kliment’s SD RAMPS (an add-on that lets me print from SD cards without a computer attached), a heated build platform (which almost doubles the print area from my Thing-o-Matic) and a few pounds of PLA (green and blue) so I can print as soon as it’s all assembled.
Cost so far (including shipping and taxes) in case you’re interested in building your own:
Mixshop motors & hardware: $325
Ultimachine electronics & PLA: $364
Total: $689 not including plastic printed parts
Keep in mind I did purchase some higher end and brand new parts. You could easily bring this cost down by getting used motors from ebay, sourcing cheaper electronics (or buy them unassembled to save some money if you can solder).
That’s it for now until some more parts arrive or I assemble the extruder. I’ll leave you with this video that I hope to replicate soon enough when the electronics arrive and I get to test out the stepper motor operation:
Fan with 3 speeds and is SUPER quiet. It’s mounted to the Prusa frame via this 
