Doboz 2 h-bot 3d printer

Doboz 2 is h-bot type of 3d printer under development by ckaos. It features large(er) build volume of 220*350*400 mm that can be expanded further.





All the files and updates on Doboz 2 can be found at:

http://www.thingiverse.com/thing:27202

https://github.com/kaosat-dev/Doboz-2

Based on this design, Thingiverse user librav made his improved version:

http://diy3dprinting.blogspot.com/2014/04/libravs-h-bot-configuration-3d-printer.html


Here are some more H-Bot movement 3d printers:

http://diy3dprinting.blogspot.com/search/label/h-bot

Doboz 2 in OpenSCAD

Doboz 2 without Z axis or printbed 

Read More

QuadStrap low cost 3d printer with large volume and no 3d printed parts

QuadStrap is machine developed by Dr. Shauki Bagdadi, it is designed to produce other printers and therefore has no 3d printed plastic parts. It is ultra low cost with price at some 300 euro for 1 cube meter of print volume. That is very affordable!
It moves with transmission by mason cord or packing tape which further lowers the cost.




Project blog:

http://quadrap-3d-printer.blogspot.com/2014/04/quadstrap-on-github.html

Very detailed building manual:

https://docs.google.com/document/d/1zst22M3gSSgdRRNE0qyOXfLRTOhxbmwzwo-z1XO42rE/edit

GitHub repository with project files:

https://github.com/ShaukiBagdadi/quadrap

QuadRap in first version

There seams to be two or more different versions, so excuse me if mixing QuadStrap and QuadRap variants ...

If you are interested in different low cost 3d printer with no 3d printed or CNC parts take a look at Delta Twister, it also has very detailed step-by-step building tutorial:

http://diy3dprinting.blogspot.com/2014/03/delta-twister-ultra-low-cost-diy-3d.html

Read More

RepRap Magazine 3 is out! Go and read it! It's free!

This edition is the best one. I enjoyed it very much. There are many great articles and tutorials for beginners.

Homepage:

http://reprapmagazine.com/issues/3/

PDF download link:

https://s3-eu-west-1.amazonaws.com/reprapmagazine/RepRapMagazine_Issue_3_lowres.pdf

Read More

RepStrap CoreXZ vertical h-bot prototype 3d printer by Nicholas Seward

Here is vertical H-bot proof of concept 3d printer by Nicholas Seward. He will release the files so you will be able to build your own.

Here are some other H-Bot movement 3d printers:

http://diy3dprinting.blogspot.com/search/label/h-bot

Update:

Here is CoreXZ walk-around:

Read More

3DPrintMi minimalist open frame style RepRap 3d printer

3DPrintMi combines the minimalistic, open frame style of the Printrbot/Wallace with the fixed Y Gantry system of the Mendel. The printed parts are designed to be produced rapidly, efficiently and assembled easily. A primary goal for this printer was to incorporate the maximum number of printed parts, thus enabling self replication. Built from the ground up, this Reprap requires very little tooling and does not need specially made parts (e.g. lasercut pieces) for it to function. It is also Gada Prize Bronze Medalist.

Technical specifications:

• Printed Parts: 31-35
• Non-Printed Parts: 279 - 281
• Total Cost: $340 - $450
• Material Cost:
• Printed Parts: ?
• Vitamins: $105 - $130
• Electronics: $240 - $315
• Printer Dimensions: 38cm x 43cm x 41cm (15" x 17" x 16")
• Build Area: 152mm x 152mm x 200mm (6" x 6" x 8") or 200mm x 200x x 200mm (8" x 8" x 8")
• Precision: ???
• Accuracy: 0.15mm (current layer height tested)
• Speed: 60mm/s perimeter, 120mm/s infill
• Units of Measurement: Metric
• In compliance with Vertical X Axis Standard, compatible with Mendel style X gantry
• Fully printed Y carriage platform
• Extruder mount compatible with Wade Extruder/Bowden or Direct Drive(QU-BD MBE)
• Adjustable frame allows increased build volume (Working)
• Fully parametric
• 56% Plastic, 44% vitamins (Volume)
• Estimated assembly time = 2 - 3 hours (excludes electronic/board assembly)
• Estimated total print time of a printed set = 28+ hours
• Estimated total plastic usage of a printed set = 370 cc @ 60% infill
• Power requirement = 80W to 100W (Hotend @ 240C, Hotbed @ 95C)

Very detailed building guide:

http://www.instructables.com/id/3DPrintMi-Assembly-Guide/?ALLSTEPS

All the files, BOms etc.:

http://www.thingiverse.com/thing:95339

Project homepage:

http://gyroe3dprinter.blogspot.com/

http://reprap.org/wiki/3DPrintMi

Read More

RepRap Wilson 3d printer

RepRap Wilson is derivative from Josef Prusa's i3 with the following goals:

1. Replace the waterjet metal frame / wooden box frame with an inexpensive and rigid frame made from standard 2020 Aluminum Extrusion.
2. To make the build volume parametric (easy to scale up or down by 50%), with a parametric BOM tool (spreedsheet) to assist in part selection.
3. To simplify construction of the printer by reducing vitamins and including detailed assembly steps as part of the design files. I've made an effort to reduce the number of unique parts (nuts & bolts) as much as possible. I've also incorporated single-piece Y ends that eliminate about 20 more hardware items.

GitHub repository for Wilson:

https://github.com/mjrice/wilson

RepRap wiki, includes assembly guide:

http://reprap.org/wiki/Wilson

Read More

FoldaRap folding open source 3d printer

Technical Specifications

• Printed Parts: 21
• Non-Printed Parts: 285 (including every bolts/nuts/washers/ferules/etc.)
• Material Cost: ?
• Cost: 600 €
• Printing Size: 140mm x 140mm x 155mm (or 5.5"x5.5"x6.1")
• Resolution : XY = 0.0125 mm ; Z = 0,00025 mm
• Accuracy : 0.1mm (100 microns is the lowest layer height tested yet)
• Speed: 75-500 mm/s (print-travel, max speed tested yet)

Special Features

• Foldable !
• Based on standard/cheap 20x20mm aluminium extrusion (with 6mm slot)
• Easy to build, with few tools (the printed parts are based on a 20mm grid (for overall aesthetic and mostly to ease the design), are generally 3-4mm thick, and fit the beams in a way you have nothing to measure during the assembly
• 1.75mm Direct Driven Bowden Extruder ; fixed on the x-axis for less hysteresis and higher z-print
• Peltier Heatbed (fast heat-up) or cold-bed ala Ultimaker
• Low energy consumption (40-110W)
• Big Blue Power Switch (my favorite detail ^^)
• Print volume 140 x 140 x ~150 mm (or ~3000 cm^3)
• Footprint : 208 x 348 mm / Total volume : 335 x 348 x 318 mm (+21mm with the handle) / Folded and slided : about 335 x 376 (+21mm with the handle) x 98 mm / 3-4kg

http://reprap.org/wiki/FoldaRap

https://github.com/EmmanuelG/Foldarap

http://www.thingiverse.com/thing:15877

For a different type of foldable 3d printer made from plywood, look at Mowi:

http://diy3dprinting.blogspot.com/2014/01/mowi-foldable-open-source-3d-printer.html

Foldarap 2 is under development:

FoldaRap 2 prototype

Read More

Wood framed Mendel detailed construction guide

Bram created this very detailed guide on how to DIY this Mendel with wooden A-frame. The total cost is some 350 euro.

Very detailed build guide, with code for controllers, files and drawings:

http://www.instructables.com/id/3D-Printer-2/?ALLSTEPS

project site in Dutch:

http://project.nerdz.nl/?cat=7

 

There are downloadable cutting drawings and guides 

Read More

RepRap X2V3 3d printer with two independently moving extruders

RepRap X2V3 is the new generation of the RepRap X2 dual extruding 3D printers line. It features two independently moving extruders on X axis, so you can print in two different colors or types of filament (base and support material).

Hardware features:

• Support independently moving X axis carriages for 2 extruders
• Nozzle wiping / cleaning 
• Frame modifications allowing X stage to move higher
• Printing area casing
• The hardware design is similar to RepRap X2 (that is based on SAE Prusa's Mendel), but X2V3 has to be slightly wider and therefore requires some of the metal rods to be longer (basically all the rods that are positioned horizontally).

Firmware features:

• Dual X or Y drive machines support
• Support for simultaneous duplicate or mirror printing
• Filament compression compensation (experimental)
• Various new and existent command improvements

Independently moving X axis carriages for each extruder hotend
Typical dual extruder machines have both hotends located on the same carriage. That design has several disadvantages like idle extruder leaking plastic or catching and knocking off the printed object. RepRap X2V3 has two hotend carriages driven by independent motors of X axis. While one hotend is printing the other one can be positioned it its docking space away from the "action". The independent drive also allows to utilize all the available platform space for the "follow-me" mode for printing two identical objects simultaneously. Each carriage has its own independently controled hotend fan.

Nozzle wiping/cleaning capabilities
The docking positions for hotends are at the ends of the X stage. The nozzles are cleaned when hotends are sliding over cleaning element on the way back to the printing area. The silicone tube piece with triangular cut on the side where nozzle slides over the tube to get cleaned is used on my machine. Mounting of other cleaning mechanisms can be easily achieved. This feature allows priming the extruders minimizing leakage and inconsistent startup of the extrusion when switching to the hotend being idle for a while.

Frame modifications allowing X stage to move higher
The triangular pieces of the frame (sides) are changed from being equilateral to get wider at the top. That allows X stage to move up all the way over Z threaded rods without being blocked by the frame structure. This adds 10-15mm to the height of the printing area without other dimensional changes of the machine.

0.35mm hotend nozzles
The 0.35 nozzles have been used on various RepRap machines for a while now. Switching to the smaller nozzle diameter allows slightly smaller detailers to be printed reliably.

Printing area casing
Printing area casing helps a lot to avoid heat dissipation from the heated printing bed and helps to keep heat from external source (I'm using 125Wt heat lamp) inside in the printing area. I've been using casing for a while now. Initially it was done from coagulated cardboard (that can be done for a typical Mendel machine under an hour). After it has proven to be useful the cardboard plates were swapped to acrylic for the RepRap X2V3 machine.

Motor fans
The 50mm fan mounts used on the RepRap X2V3 allow to attach fans easily to any of the machine motors. I'm currently using fans on the extruder and Y axis motors. The Y axis motor fan blows air away from the motor and out of the printer casing while the extruder fans blow onto the motors.

x2v3 homepage with in-depth descriptions of all components:

http://www.okob.net/projects/reprap_x2v3/

Thingiverse page with all the files:

http://www.thingiverse.com/thing:239745

Read More

Update on RepRap Wally - video of big objects printing

Nicholas posted new Wally video:


From video description:

It is about time to provide proof of Wally printing a large object. If you look closely you can see the bed going up and down to adjust for the bed level. It took about 7 hours to print the vase. It is 100mm x 100mm x 145mm. I used a .4mm nozzle and did .2mm tall layers. I used default slic3r speeds. I have gone as much as 4 time faster while I was watching but for an unattended print like this I wasn't as adventurous. I suspect that I can go about 2 times as fast before surface quality suffers.

https://github.com/NicholasSeward/ConceptFORGE/tree/master/Wally

http://forum.conceptforge.org/viewforum.php?f=7

Read More

3d printing blood vessels on a RepRap

Printing blood vessels out of sugar at Uni Pennsylvania lab.


From video description:

Bioengineers have been steadily advancing toward the goal of building lab-grown organs out of a patient's own cells, but a few major challenges remain. One of them is making vasculature, the blood vessel plumbing system that delivers nutrients and remove waste from the cells on the inside of a mass of tissue. Without these blood vessels, interior cells quickly suffocate and die.
Scientists can already grow thin layers of cells, so one proposed solution to the vasculature problem is to "print" the cells layer by layer, leaving openings for blood vessels as necessary. But this method leaves seams, and when blood is pumped through the vessels, it pushes those seams apart.
Bioengineers from the University of Pennsylvania have turned the problem inside out by using a 3D printer called a RepRap to make templates of blood vessel networks out of sugar. Once the networks are encased in a block of cells, the sugar can be dissolved, leaving a functional vascular network behind.
"I got the first hint of this solution when I visited a Body Worlds exhibit, where you can see plastic casts of free-standing, whole organ vasculature," says Bioengineering postdoc Jordan Miller.
Miller, along with Christopher Chen, the Skirkanich Professor of Innovation in the Department of Bioengineering, other members of Chen's lab, and colleagues from MIT, set out to show that this method of developing sugar vascular networks helps keep interior cells alive and functioning.
After the researchers design the network architecture on a computer, they feed the design to the RepRap. The printer begins building the walls of a stabilizing mold. Then it then draws filaments across the mold, pulling the sugar at different speeds to achieve the desired thickness of what will become the blood vessels.
After the sugar has hardened, the researchers add liver cells suspended in a gel to the mold. The gel surrounds the filaments, encasing the blood vessel template. After the gel sets it can be removed from the mold with the template still inside. The block of gel is then washed in water, dissolving the remaining sugar inside. The liquid sugar flows out of the vessels it has created without harming the growing cells.
"This new technology, from the cell's perspective, makes tissue formation a gentle and quick journey," says Chen.
The researchers have successfully pumped nutrient-rich media, and even blood, through these gels blocks' vascular systems. They also have experimentally shown that more of the liver cells survive and produce more metabolites in gels that have these networks.
The RepRap makes testing new vascular architectures quick and inexpensive, and the sugar is stable enough to ship the finished networks to labs that don't have 3D printers of their own. The researchers hope to eventually use this method to make implantable organs for animal studies.
Text by Evan Lerner
Video by Kurtis Sensenig

via: http://go3dprinting.tumblr.com/

http://www.upenn.edu/spotlights/rep-rap-3d-printing-blood-vessel-networks

Read More

Developments in RepRap Simpson family of 3d printers by Nicholas Seward

Nicholas Seward made an update post about Simpson family of printers with some recent developments:

Today was a huge day for the Simpson family.
It started off with a post from +Solidus Labs that showed the GDR's (a worm drive Simpson derivative) first print.

It was quickly followed by my friend +Danny Dd getting his carbon fiber LISA Simpson printing for the first time.

I did some updates to my GUS to reduce drag in the bowden tube. That paired with updates to my gcode preprocessor allowed me to do a reasonably big print. I hope to up the size of some of my next prints even more.
Simpsons are still very experimental but progress is being made daily. It will be very exciting to see how Simpsons evolve during 2014.

Read More

RepRap GUS Simpson motion range and build envelope demonstration

Read More

22 RepRap BNC 3d printers production farm

22 printer production farm of Spanish RepRap BNC.


http://www.reprapbcn.com/

Read More

RepRap Ecstock 3d printer PoC

RepRap Ecstock is proof of concept design as response to group thread on how to design an extremely compact delta printer, with a really large print area.

https://groups.google.com/forum/?fromgroups#!topic/deltabot/KNuejGXg_rg

RepRap Ecstock design by Nicholas Seward

Initial design in the group by Enrico Cianni

Read More

Mother and son run small 3d printing company - Robison Industries

Mother and son present their company, Robison Industries, making and selling 3d printers, kits and other related parts. I wish them success. I have a soft spot for small family run businesses.




http://www.robison-industries.com/


Besides RepRap kits they offer parts like Assembled Modified Wildseyed Simple Hot End for 3mm filament

Assembled Modified Wildseyed Simple Hot End for 3mm filament. The original Wildseyed Simple Hot End is easy to make with relatively easy to obtain and machine parts (although Teflon rod is not so simple to obtain on the east coast). We use nichrome wire for heating instead of the heat sink and resistor in the original hot end, as it is much more compact. We insulate the wire with furnace cement, and bake it to cure it. You will need to drill two 1/8” holes to secure the hot end to the oak mount. The oak mount is our contribution to the Wildseyed Simple. It isn’t in any danger of ignition as it does not touch the metal of the hot end; the wood serves as a simple mechanical link between the Teflon rod at the top of the hot end and the cold end of the extruder. The hot end comes with short lengths of Teflon wire attached, which can be connected to your wiring harness with ordinary wire.

Source: Slashdot

Read More

RepRap Lisa makes first good prints

This wonderful project is advancing, Lisa is printing first good objects.
Here is first post about RepRap Lisa with more details:

http://diy3dprinting.blogspot.com/2013/12/reprap-lisa-simpson-makes-first-moves.html

Update:

Here is a video of RepRap Lisa printing upside down:

Read More

Video updates on Theta polar 3d printer

Theta printer has unique design, you can check the first post about it here:

http://diy3dprinting.blogspot.com/2013/11/theta-printer-4-extruder-polar-3d.html

Here are some videos that show how the printer construction is progressing:




Simultaneous printing on Theta. The blue plastic is PLA and the yellow is ABS.



Two extruders printing on the same object at the same time.




Videos by Tyler Anderson

All files are at GitHub:

https://github.com/unlimitedbacon/Theta-Printer

Theta printer project blog:

http://csulbmae472group7.weebly.com/

First print results in PLA and ABS at the same time on same object

Update (12.1.2014.):

here is a new video and successful print of the iconic Octopus:

From video description:

Testing the new firmware by printing an octopus. This print took about 1.5 hours with a feedrate of 20 °/s. In this case, thats roughly 55 mm/s. This printer should be capable of at least 40 °/s.

Update (21.8.2014.):

Theta was submitted for Hackaday prize contest:

Read More

RepRap TK300 3d printer

TK300 by RockyShi is on Thingiverse now ... information may be limited, design looks sturdy, it is made with steel side plates and CNC aluminum connecting parts ...

From Thingiverse description:

• Ultimaker main board, will change to Rumba soon
• dual DD2 extruders, direct driving
• dual metal hotends E3D with cooling fans,Fast heat up
• lcd controller
• use prontface,cura or other opensource software
• 1.75mm ABS or PLA filament
• Fast change filament function
• Steel cabinet for power supply and electronics
• Borosilicate glass
• Mk2a 300mm pcb heatbed with 24v,can reach 140 centigrade
• building size 300*300*320mm
• layer thickness 0.1-0.4mm
• Steel side plates
• CNC aluminum connecting parts
• Modular packing

Dual extruder version:

http://www.thingiverse.com/thing:212131

Base version:

http://www.thingiverse.com/thing:212115

Read More

Solidus Labs Dogleg grounded delta robot (GDR) 3D Printer

Solidus Labs Dogleg GDR Delta 3d printer is interesting variation of RepRap Simpson. Information is limited, hopefully more will be available soon.




From video description:

First movements of our dogleg grounded delta robot(GDR) 3d printer. This is the first motion test using the delta marlin firmware on a gen 6 board controlled through printrun. The GDR idea is from the Simpson 3d printer but we utilize lead screw/worm gears for motion

Source:

http://www.youtube.com/channel/UCS9dnQROWtxe3Tqcf3pWnYQ?feature=watch

Update here:

http://diy3dprinting.blogspot.com/2014/01/developments-in-reprap-simpson-family.html

Update 2:

Solidus Labs released single arm SAPE 3d printer PoC:

http://diy3dprinting.blogspot.com/2014/06/single-arm-sape-3d-printer-by-solidus.html

Read More