May 31, 2014

DIY 3d printable underwater housing for a digital camera

Here is a great project of homemade 3d printable casing for underwater photography made by MoonLanding. Underwater photographs show it works well and it's fully functional.
It consist of handles and enclosure mechanism mounted on thick acrylic pipe. The project is in development and end goal is to create fully 3d printed waterproof enclosure with only lens window as non-printed part.

Here are all the details, STL files and example photographs:

Titan modification for Prusa Mendel

If you think that your Prusa Mendel sucks you can upgrade it in various ways. Here is one possibility: the Titan developed by Justin Trisnamawan and Andy Chu.
It is not well documented and there are no details or designs for the frame available, but maybe they will come in the future. It looks good.

Quadcopter made with 3d drawing pen

This quadcopter was made with 3D Air pen which is probably just another Asian 3d drawing pen (which may not be a bad thing). Build time was approximately 2.5 hours.

Now there is also flying RC plane made with 3Doodler.

here is also tutorial on how to 3d draw your working propeller:

May 30, 2014

SCADBoard Library and SCADuino 3D printable Arduino breadboard

SCADBoard Library is an OpenSCAD library for making 3D printed circuit boards. You can load it into OpenSCAD and develop your own electronic boards.

SCADboard running in OpenSCAD

First project made with SCADboard is SCADuino, hopefully many more will fallow and library will grow in functionality.

SCADuino is a 3D printable version of the Breadboard Arduino from Using OpenSCAD and the SCADBoard library it is easy to create a 3D printable breadboard like the Breadboard Arduino.
Basically, you can 3d print a board where you can attach all the components needed to get functioning Arduino.

You will also need:
  • (1) Atmega328P with Arduino bootloader
  • (1) 7805 5V Voltage regulator
  • (2) LEDs
  • (2) 220 Ohm resistors
  • (1) 10k Ohm resistor
  • (2) 10 uF capacitors
  • (1)16 MHz clock crystal
  • (2) 22 pF capacitors
  • (1) Momentary normally open (“off”) button
  • Red and Black 22 AWG wire

Red surface board is printed with holes to fit the elements which are then connected with wires

All the STL files, guide and code to make it and run it can be found at:

MOD-t 3d printer by New Matter

MOD-t is new contender at lowest priced consumer home 3d printer previously held by (still undelivered) M3D Micro. They also claim ease of use and combine their machine with model marketplace developed by Frog.

MOD-t technical specifications

The design is definitely beautiful 

MOD-t vs. other 3d printers

MOD-t with marketplace on iPad

The Verge also ran a short video on it:

Here is the Mod-t Indiegogo page:

New Matter hompage:

Same as with Mico, there are no independent reviews of this machine or more detailed videos or photographs of real printed objects.

May 29, 2014

Print The Legend 3d printing revolution documentary

I love documentaries and here is the one I'm waiting for. Print the Legend. Oh yes. Here is the trailer:

Here is interview with makers Luis Lopez and Clay Tweel (who previously made THE KING OF KONG, and MAKE BELIEVE) at SXSW 2014:

The documentary was bought by Netflix and will be available in 2014 for you lucky guys living in the countries with Netflix. For rest of us third world jungle dwellers without indoor plumbing, date of torrent release is unknown.

Print the Legend homepage:

Makerchair full size 3d printable chair

You will need a lot of filament for this project! It is a full size 3d printable chair which you can print on your standard home 3d printer in 202 or 77 interlocking pieces. Number of pieces depends on the model of chair. Makers say that it can be printed in ten days for cost of 30 USD.

You can download the files and learn more here:

May 28, 2014

OpenExposer low cost open source SLA 3d printer

Mario Lukas developed OpenExposer, low cost open source SLA 3d printer. OpenExposer is much more than just a 3d printer, it can also be used as UV PCB exposer, laser harp or show laser. It will have different modules for different uses.

Mario writes in project comments:
"The main focus of the OpenExposer Project is on the little red box which should contain all electronic and optical parts. This box should be clampable to different modules. The 3D printer which i am building currently is only one of those clampable modules. For PCB etching i am planing to design a module which works like a laminator."
The frame is made from standard RepRap rods and parts. The main part of 3D printer system is a small slit cut into the bed, and a build platform that moves in the Z axis. The bed contains a  UV laser and a polygon mirror recycled from a junk laser printer. By moving the bed in the Y direction, laser can be targeted anywhere on an X-Y plane. By adding a tank filled with UV curing resin on the bed there is a complete SLA printer.

It is currently still under heavy development but it looks very promising. There will be many problems to solve like varying focal length laser traces the arc from the polygon mirror since laser printers use a specialized type of lens to insure the focus is consistent, allowing a consistent spot size over the entire sweep of the beam.

Mani features:
  • unit for multiple laser exposing processes 
  • Arduino compatible 
  • low cost (standard laser printer) parts 
  • case parts lasercut or 3d printable 
  • up to 2 stepper motors can be connected 
  • additional I/O ports for custom extensions 
  • simple protocol 
  • extendable host software 
Project homepage with more details, build log and development updates:

OpenExposer GitHub repository:

The "Red Box" with SLA module. There are different modules planed like the one for PCB etching. 

First test SLA print results of OpenExposer

Update (20.8.2014.):

Here is OpenExposer shown as working SLA 3d printer and its software tool chain:

Sand blasting 3d printed objects for matte surface finish

Andreas Bastian made this guide for sand blasting 3d printed PLA objects to give matte surface finish with reduced visible layering and shiny parts.
His conclusions were:
  • Even blasting helps the final surface quality.
  • Additional shells (3 or 4) help keep the print sealed during washing.
  • After blasting, the matte surface is prone to absorbing skin oils and other particles, much the way an SLS print does.
  • The blasting grit will alter the color of lighter PLAs, the white took on more of a bone hue and the natural clear developed a somewhat murky color. The black PLA blasted to a very nice matte grey.

White PLA object inside sand blaster

Close-up of sand blasted black PLA object

Non-sand blasted compared to sand-blasted PLA

Source with more details and results photos:

Andreas is also well known for his work on e-Nable and Open SLS 3d printer.

If you are more interested in surface finish and smoothing of 3d printed objects with acetone look at:

QU-BD One Up 200$ 3d printer from Arkansas

QU-BD One Up is one of the most affordable 3d printers sold and DELIVERED. Maybe even the most affordable on with price of 199 $. It is produced by Quintessential Universal Building Device, Inc. from Little Rock, Arkansas.
It is an interesting little low cost device and I'll look into it more in the future.

One Up Specs :
  • Minimum Layer Height: 50 Microns (Lower is Better)
  • Frame Material: Black Melamine MDF
  • Max Travel: Approximately 100x100x125mm
  • Maximum Travel Speed: 150mm/s
  • Maximum Print Speed: 100mm/s
  • Bed Material: Melamine Faced MDF (or Basalt)
  • Heated Bed: No, electronics support it so it can be added later
  • Linear Motion Type: X/Y Belts and Linear Bearings | Z Precision ACME Screws / Linear Bearings
  • X-Motor: NEMA 17 Motors w/ Up To 16x Microstepping
  • Y-Motor: NEMA 17 Motors w/ Up To 16x Microstepping
  • Z-Motor: NEMA 17 Motors w/ Up To 16x Microstepping
  • Electronics: Printrboard Electronics
  • Firmware: Marlin
  • Extruder: anUBIS w/ PTFE Liner
  • Filament: 1.75mm PLA, HIPS, Carbon PLA, Laywood (with optional heated bed upgrade it gets support for ABS)
There is also a version in acrylic which is little bit more expensive.

QU-BD got almost half a million dollar of funding on their Kickstarter campaign (they asked only for ten thousand): 

One Up homepage:

QU-BD has wide variety of machines, one of the most interesting is this hybrid CNC with high power:

May 27, 2014

Robo 3d R2 printer with Titan controller and Makable marketplace

Robo 3D announced their new flagship, the R2 which will be available for pre-order this summer.

Robo 3D R2

R2 technical specifications:
  • 10 x 10 x 10 inch build volume that is 40% larger than one on the Robo 3D R1
  • Equipped with dual nozzle and are therefore able to print with two different colors / materials combinations.
  • Metal hotends for multimaterial
  • Wifi enabled using the new Robo 3D Titan electronics board
  • Automatic leveling mechanism
  • R2 Rapid Speed Technology
  • LEDs
  • Teeter mechanism for ooze and knock prevention when extruding materials
  • Carbon filter to ensure safe, non-toxic 3D printing
  • Heated removable build plate
  • Nearly fully enclosed build chamber to get stabilized temperatures
  • Optimized software to get your printing quicker and easier
  • Price: unknown

R2 will be controlled with new Titan board:

Titan tech specs:
  • Power up to 25amps with 24volts = 600 watts
  • On board SD Card Port
  • Triple extruder capabilities or Dual Z drivers and Dual extruders
  • 10 fans for optimal cooling of hot ends, motors and prints
  • On board rocker switch to turn printer on and off with flick of a switch
  • On board thermistor with fan control for active Titan cooling
  • 2 RGB LED ports for lighting up your 3D printer
  • Use up to 6 motor drivers
  • Users the popular Arduino MEGA 2560 - works with Marlin, Sprinter, & Repetier Firmware

As many other 3d printer manufacturers, Robo 3d developed Makable marketplace to be the main space for getting models for their printers:

Looking good Robo 3D!

3Dvix - a new marketplace for 3d models

3Dvix is a new marketplace for 3d models.

From their description:
3DVIX is an online marketplace where you can buy and sell 3D models and 3D-printed objects. Here you will find amazing designs by 3DVIX community members who have chosen to make them available for sale. There are lots of cool designs to choose from. You choose, we print. You get it in the mail.
If you want to set up a store for your own designs, you’ll be in business in no time. You design it, we sell it – and manage the entire sales process so you don’t have to worry about machines, processes, inventory, invoicing or shipping. You focus on designing and promoting, we’ll do the rest – and will send you payments monthly for your portion of the sales proceeds.
If you don’t know how to design for 3D printing and want to learn, we will point you in the right direction. You will be creating your own models in no time. But if you’d rather hire a designer to convert your ideas into printable 3D models, we offer you that service as well. Just send us a brief description of your idea and a sketch for a design quote. We have a team of 3D designers ready to work on your project.
You can also shop for desktop 3D printers, printing supplies and training programs.
3DVIX is part of Prinvix, a global 3D-printing company with headquarters in Miami, Florida (USA).
Go and check it out:

Form 1 3d printed molecule models

Here are some cool colored 3d printed molecule models printed on Form 1.

From top to bottom, DNA, a bacteriophage, a carbon nanotube, ATP synthase, and an unfinished model of chromatin with DNA, nucleosomes, topoisomerase, and a transcription factor.

Here are some tutorials how to 3d model molecules for 3d printing:

May 26, 2014

3d printing with guided slew ring wire embedding

Bas de Bruijn, well known for his "pressure adjusted velocity controlled extrusion", made made this interesting wire embedding setup where a slew ring turned by a stepper motor connected to a 5th axis on the control board guides the copper wire in front of the extruder head. The wire is covered by extruded material and be shaped on a surface into various forms.

There are some obvious limitations: the wire has to be continuous, wire can not be cut, no possibility to connect the electronic components which make it unsuitable for making of electronic components. However, according to Bas,  it is quit suitable for other purposes like:
  • Coils
  • Antennas 
  • RFID / NFC antennae
  • PCB’s
  • Flexible PCB’s (FPC’s)
  • embed tubes and other filament types into plastic or other materials, like starch, organic printable stuff etc. etc.
  • Use dissolvable PVA as an intermediate to bring wire/chips into tissue
Hopefully the project will be developed further!

Here are some attempts without the guide ring and with pre-positioned and fixated wire:

Source blog post with instruction details on setting the electronics:

Don't forget Spoolhead project which tried to develop wire embedding toolhead for 3d printers:

Print results. It looks like nice small 3d printed antenna. 

No, it is not a fruit 3d printer!

Hype machine is in action again with this "fruit 3d printer" contraption. Let us give some perspective to this:

  1. It doesn't print actual fruit
  2. Only "fruit" "printed" is a "raspberry" or to be more blunt, probably the only shape you can get from tiny spheres is raspberry. It is not even convincing raspberry. 
  3. It prints with tiny spheres of fruit paste or puree
  4. All the parts of the machine look as made from technology that exist for some time and it is open sourced (any 3d printer + syringe extruder like Cellstuder)

From the source:
Cambridge design company Dovetailed is today launching its 3D fruit printer, creating ‘fruit’ you can eat.
The company, which is working with Microsoft in Cambridge, says it takes just seconds to print an apple or a pear, or any other type of fruit.
The printer uses a molecular-gastronomy technique called spherification. It combines individual liquid droplets with different flavours into a fruit shape.
It is aimed at chefs, foodies and anyone interested in making creative dining experiences. No specialist knowledge of cuisine or molecular-gastronomy is required, and, the fruit produced is all organic.
On of the commentators got the point of the technology with the touch of sarcasm (aka. in the correct way):
"So you basically have to load it with apple in order to print an apple? Ingenious!"
The technology could be very useful for some specific purposes and niche markets but no one benefits from the marketing hype.

Source article with more information:

Here is the company page:

Fruit 3d printer. Nothing spectacular here. 

You can see the "3d printed fruit" on the spoon here. I've seen some fruit before, this doesn't look like it ...


Here is the video of Dovetailed "fruit 3d printer" in action. It still doesn't look like anything near fruit printing.

AstroPrint wireless 3D printing platform by 3Dagogo

From the people who brought you 3Dagogo comes AstroPrint wireless 3d printing control platform. They are on Kickstarter now and managed to get funded in on day.

You can see their full campaign here:

Here is the summary:
AstroPrint allows you to use any smartphone or tablet as a beautiful and effective 3D printer interface. In addition, we built it to reduce failed prints by offering cloud based slicing that gets smarter over time.
What is AstroPrint?
AstroPrint is a software platform that performs all the functions of your favorite printer controllers and slicers, but with some huge benefits:
  • Wireless Printing - your printer is now wifi enabled!
  • Access from Anywhere - print from your local network or the internet.
  • Beautiful Interface - UI design is incredibly important to us...
  • Cloud Slicing - updates and optimizations are automatic.
  • Slicing Intelligence - recommended settings improve over time.
  • Camera Support - live viewing online & auto updates via text or email.
  • Online File Storage - access your files anywhere, anytime.
  • No Maintenance - self updating.
The AstroPrint platform consists of two parts that operate seamlessly together:
The AstroBox™ allows you to connect to, and control, your 3D printer over wifi from phones, computers, and tablets. The AstroBox can be used standalone, or in conjunction with our free online cloud slicing and file storage services at slices, organizes, and stores your designs in the cloud. In addition, through, you can connect to your AstroBox to control your printer.
Who is it for?
  • Beginners to 3D Printing - AstroPrint makes your 3D printer a 1-click-print device. AstroPrint will automagically set the most ideal settings for each of your prints, reducing your failed prints. This is based on your printer and filament manufacturer's suggested settings as well as our expert experience.
  • 3D Printing Power-Users - Let's face it, sometimes you want to twerk every setting in Slic3r, but most of the time you want something super simple, right? AstroPrint has a simple interface, but gives you easy access to every advanced setting you could desire. Also, we organize your gcodes in relation to the STL's they were sliced from. This lets you print hassle free from anywhere, anytime.
How does it work?
Simply plug your printer's USB cable into the AstroBox, connect to the 'AstroBox Wifi' network, and the box does the rest.
Instead of using Repetier Host or Pronterface to control your printer, you can now use AstroPrint straight from your phone, tablet, or computer.
So, what if the internet goes down, you ask? No worries, the box creates its own local wifi network. Using this network you can still control your printer through the AstroBox! Also, your print will not fail because of internet issues. The AstroBox automatically stores your gcode. Once the print begins, it will not need any connection to the internet, wifi, tablet, computer, or phone to proceed normally through the printing process.

When connected to the internet, the AstroBox uses your free account to slice, store/retrieve, and organize your files.
The AstroBox can automatically create and manage this account for you, or you can link your box to an existing account if you have already created one.
Another great feature of is that you can connect to your AstroBox (and therefore, your printer) from anywhere you have internet access. This allows you to check up on your printer, see a live report of your print, start/stop print jobs, and more. If you have a camera installed you can even watch the print as it happens.

AstroPrint homepage:

Update (2.1.2015.):

AstroPrint is deveoped and fully functional remote 3d printer management software now. It is open source and runs on Rapberry Pi, you can conrole your machine via web interface and use cloud slicer or any of many many options.  Here is a review by Noe Ruiz of Adafruit:

You can also learn about it with full tutorial on Adafruit learning system:

Virtual reality interface for 3d printing with CastAR glasses.

Ryan Smith developed this virtual reality interface for 3d printing with CastAR glasses. When you look at your 3d printer it will show VR version of printed object which can be animated to show more information about the object and interacted with. It enables preview and overlay to control interaction of two objects. Cool.

Something like this was already presented in much more advanced form with designing and control functionality based on Meta VR glasses:

More about CastAR glasses:

CastAR glasses source: (probably prototype version)

May 24, 2014

What happens when you send an Excel file to your 3d printer?

... accidentally .... :-)

Source: drawn by Jon Carter

PS: I wonder how come nobody made an Excel chart to STL tool or script or something ...

May 23, 2014

E3D v6 hotend released!

E3D is well known for their excellent hotends. Now they have released new model: the v6. v6 is next-generation full metal hotend for RepRap 3D printers.

E3D v6 hotend

v6 release video:

Here is v6 video  review by Thomas Sanladerer:

How to assemble the v6:

v5 hot end was a success and lessons learned on it influenced the development of v6, Here are desgn guidelines by E3D:
  • Decrease bulk.
  • ​v5 is longer in the Z axis than many other hotends on the market due to significant safety margins in heat dissapation, screw in bowden fittings make bowden hotends even longer.
  • Our printed fan duct is a little bulky in X/Y which can create issues when space under carriages is restricted.
  • Make assembly and maintenance easier for the user.
  • ​Securing thermistors with kapton works well, but is difficult to achieve easily and neatly, especially for the new user. It also makes changing out thermistors a bit time consuming. Cementing in thermistors with fire cement or similar works well, but is messy and difficult, it also makes changing thermistors nearly impossible.
  • The printed fan duct is a bit tricky to remove as it has to be slid off the heatsink either up or down which can be tricky with wiring etc in the picture.
  • Improve support for flexible materials.
  • ​v5 works as well as any other hotend on the market for flexible filaments, however this inevitably means printing very slowly, getting messy prints and having to constantly battle with buckling in the extruder.
  • Flexible filaments are entering the market and have some exceptionally useful properties and we want to enable more people to use them with a better printing experience.
  • Shorten heat up times and increase accurate control of temperature.
  • ​v5 uses a set screw to secure the cartridge which works well, but because of the slight variances in heater cartridges the hole in which the cartridge sits has to have some clearance to allow it to easily slide into place, this affects heat up times and control.
  • Thermistor placement in v5 is close to the surface of the block, which makes things easier when your thermistor has to be insulated with kapton but this has some impact on the precision of the readings.
  • Fix niggling reliability issues.
  • ​v5 has a great track record of reliability with less than a fraction of one percent of users experiencing issues due to manufacturing issues, however we really wanted to eliminate any chance of future defects.
  • 1.75mm Bowden users were experiencing a disproportionate amount of problems, which was traced back (with much help and hard work from Michael Hackney) to nozzle geometry in certain situations needing high extrusion pressures that resulted in starvation of filament flow. 
  • Make different sized nozzles more suitable for their application and each size more identifiable.
  • ​All v5 nozzles share the same shape of tip that lays down the track of filament, we wanted to make the shape of each nozzle more suited to their particular use case and application so people can get the best results from each nozzle size.
  • Because all nozzles share the same shape they are hard to tell apart, particularly when there is plastic residue remaining on the nozzle. We wanted to make it easy to differentiate between nozzles.
  • Make it beautiful.
  • Looks matter! Our machined metal parts look awesome, but with them hidden behind a printed fan duct you can't admire all that wonderful engineering.

v6 on the left compared to v5 on the right.
You can also see that the entire Bowden coupling is contained inside the heatsink on v6.

v6 technical specifications:
  • Compact size: v6 is now 62mm in overall length, and the new polycarbonate fan duct results in significantly less bulk in X and Y dimensions.
  • Easy assembly and maintenance: All assembly is performed by either clipping or screwing together parts, no messy Kapton or adhesives are needed – The thermistor secures with a neat screw clamp and is insulated with high temperature glass fibre sleeving. Supplied ferrules mean that no soldering is needed.
  • Fast heat-up and better temperature readings: The heater cartridge is secured with a wrap-around clamp for excellent thermal contact, this reduces warm-up times and increases temperature control. The thermistor has been placed deep into the block and near to the nozzle in a close fitting hole for the most accurate readings and fast response.
  • Overhauled manufacturing techniques for increased reliability: The HeatBreak has a radically improved surface finish stemming from updated manufacturing techniques. The nozzle has been optimised for easier flow at low pressures.
  • Improved performance with flexible materials: Internal PTFE tubing runs deep into the hotend and can be arranged so that flexible filaments are constrained in the PTFE tubing right from the drive gear to deep in the hotend. PTFE never enters hot areas and so high temperature capability is maintained.
  • Maintains Compatibility: By keeping our previous mounting dimensions we have maintained compatibility with our plethora of community created mounting systems. Nozzles have kept their M6 threaded dimensions and so are interchangeable between v5 and v6.
  • Universal 1.75mm HotEnd: The incredibly compact tubing coupling system that is internal to the hotend means that we are able to eliminate the 1.75mm Direct and 1.75mm Bowden products and replace them with a single 1.75mm Universal product.

E3D v6 technical specifications

Here are cross sections of three versions of v6:  from left to Right: 1.75mm Universal, 3mm Direct, 3mm Bowden.

E3D v6 is priced at £43-£48 range for a kit and £31-£33 for metal hotend only. 

E3D v6 release page with much more details:

DIY wearable RaspberryPi display project by Adafruit

Adafruit has another great DIY project with wearable technology. They show you how to make wearable RaspberryPi display where the display attachment is 3d printed and can be attached to standard glasses frame. It's a sort of DIY Google Glass but with separate processing unit, no camera or even mobile internet access.

Here you can get the STL files:

Detailed guide on Adafruit learning platform:

Thingiverse user D10d3 made his version which doesn't need standard glasses frame:

Here are some other similar projects:

3d printing Nutella with Discov3ry extruder

Mmmm ... Nutella ... and Discov3ry extruder 3d printing with it ...

May 22, 2014

Compact 3d printed macro photography stand

Photography equpiment is expensive and there is more pleasure in making it yourself. JonasK designed and made this 3d printable mini macro photography studio.

Construction manual, STL files and example photographs can be found here:

How to upgrade RepRapPro Huxley with "Fanned Up" modifications

Four university students (Aaron, Ananda, Matt & Michael) created an upgrade kit and guide for RepRapPro Huxley model. The upgrade includes: laser cut frame is in 6mm MDF, z axis bracket, fan upgrades and maintenance guide.

They also summarized the maintenance needed for Huxley model:
  • Use acetone based cleaning solution (nail polish remover will work) to wipe the bed, ensure it is not heated.
  • Ensure rear fans are clear of cable obstruction.
  • When feeding filament ensure it has a pointed end, this will help its feeding into the hot-end and extruder.
  • Ensure the y axis linear rods are in place in the supports.
  • Ensure that the nut holding the x axis idler is finger tight.
  • Run the printer fans for no less than 3 minutes before print to ensure smooth operation.
  • All the daily checks plus:
  • Ensure all the nuts are tight (there are 48 of them).
  • Check that all 6 bearings are in place.
  • All the Daily and Weekly checks plus:
  • Cleaning the nozzle: Raise the z axis 50mm from home and the hot-end to 200 through 'Pronterface'. Clean the nozzle of any excess material using a wooden spatula or knife **CAUTION** THIS MUST BE DONE WITH EXTREME CAUTION, the hot-end is at up to 250 degrees C!
  • Check belt tension on x and y axis. (refer to assembly instructions)
  • Check that all five steppers are firmly attached to the frame/supports.
  • Tighten the U brackets connecting the z axis motors to the threaded rods.
  • Check end stops for wear.
  • Grease linear rods x6 with WD-40 or similar lubricant.
  • The electric connectors and screws should be checked for tightness.
  • Check bed wires for integrity replace if worn.

Here is Instructables page with all the details:

Thingiverse page (not public at the moment):

May 21, 2014

Hot to build DIY Delta from junk matrix printers and a scanner

This homemade Delta  was built by Hesam with parts from old paper dot matrix printers and scanner. Frame is made from 16mm MDF board. MDF and some steel parts are cut on CNC but there are no 3d printed parts. It is controlled by Arduino Leonardo.

Primary design guidelines were:
  • Build volume: 200x200x200 mm
  • Footprint: 600x650 mm
  • Print surface: 200x200 mm heated glass which never moves.
  • Mass of end effector with hotend: less than 600 grams.
  • Positioning speed: up to 80 mm/s in all 3 directions.
  • Positioning accuracy: at least 10 steps/mm in all 3 directions.
  • Simplicity and use of recycled parts
  • Hardware cost: less than 400 USD.

Sliders were made three Epson LQ 2170 dot matrix printers bought from scrapyard for less than 20$

Heated build platform made from Epson flatbed scanner and heating element which can heat it up to 120 C and is controlled by thermostat

Detailed guide and files to CNC cut the wooden frame:

Here is first post about 3d printer made from old inkjet printer and scrap scanner:

For another wood frame ultra low cost Delta with NO cnc cut or 3d printed parts take a look at:

or look at: (detailed guide focused on printer made from salvaged inkjet parts with DC motors)

No, it is not first Croatian 3d printer!

Most of the big news blogs on 3d printing scene published a news article about "first Croatian 3d printer" and it was all over our local news portals as major technology breakthrough news.
When I first saw it on TV my reaction was:


Judge for yourself:

Forcebook UltraPrint 3D printer by HG Spot aka. Myriwell 3d printer

One Croatian commentator (yes, you Čop) wrote:
It's not "similar" to the Chinese printer. It is the very same Chinese printer. But for 120 Euro more. This is hardly newsworthy, and being from Croatia I strongly resent this being published in the context of "first Croatian printer" there's nothing first nor Croatian about this. Just a company reselling Chinese stuff at a higher price, trying to rip off people with a crappy printer while the hype is still on.
This is a great summary of the whole situation.

Now, our local Croatian media are not known for their investigative work, they basically take any PR statement and broadcast it so I didn't expect more for them. I also didn't expect any better from HG Spot. I'm just a little sad that there are no competitors in Croatia and that the our public TV isn't promoting DIY culture more.
And I'm disappointed that we are still just sinking deeper in economic crisis as a country and this is not a type of behavior that will help us.

Croatia does have small but vibrant DIY and 3d print community which I hope will grow more in the future and educate more people. Maybe even produce truly first Croatian 3d printer.

ResinRack simple and useful accessory for your Form 1

There are many accessories for filament printers, but what can you get for your SLA machine? Here is nice useful simple innovation: the resin rack.

From the product description:
Designed to be the ultimate accessory to the Formlabs FORM 1 3D Printer, ResinRack is a UV light protected enclosure that allows you to safely store and protect up to 3 FORM 1 liquid resin trays at once.
Made from durable acrylic glass, ResinRack allows you to easily swap resin colors without the need to empty and clean your resin tray between each color change, saving you time, effort, and more importantly: resin.
As 3D printers, we designed and built ResinRack to scratch our own itch. We couldn't be happier with the result, and we know you'll feel the same.

Product Dimensions:
-8.25” Width
-6.75” Height
-7.75” Depth

Maybe the price is little to high but you can decide on your own if it is worth it.

You can get it on Etsy:

May 20, 2014

e-Nable community and network for 3d printed prosthetic arms

Andreas Bastian from e-Nable presents printed hand prosthesis. e-Nable is network of volunteers and community website that tries to create, improve and inform about this growing success technology that helps many people all over the world by providing them with highly adaptive and customizable low cost prosthetics. The site also provides tutorials and files for creating your own 3d printed hand prosthesis.

AP report on titanium printed hip replacement surgery

Helping the elderly lady with high tech medical scanning, 3d modelling, custom laser fused titanium powder hip replacements and stem cells organic glue. Technology is amazing!