Showing posts with label multitool. Show all posts
Showing posts with label multitool. Show all posts

Trinus 2-in-1 3D Printer

Trinus is a new 2-in-1 solution with option for user to mount 3D printer or laser head.

Tech specs:

  • Print Volume: 120mm x 125mm x 125mm
  • Print Speed: up to 70/mm
  • Minimum layer height: 0.05mm(50 micron)
  • Print Material: 1.75mm PLA,  ABS
  • OS Supported: Windows, Mac
  • Conectivity: USB, SD Card (autoprint)
  • Power consumption: 60W
  • Weight: 9.8kg


For more see:

http://www.trinus3d.com/

It will be on Kickstarter soon, you can get if for 199 USD as a super-early-bird offer.

DIY Ultimaker Tool and Extruder Changer Mechanism

Ultimaker forum user by the name of FoehnSturm presented his approach to toolchanger mechanism on the original Ultimaker machine.

It uses a custom modular direct drive extruders with hot end placed in holders mounted on printer's frame. This extruder is powered by NEMA 8 motor and has a   hotend like Merlin, Prometheus, E3D or similar. In the future it will use other tools also.
This system can hack your Ultimaker in true multitool hybrid digital fabricator.




Do keep in mind that this project is still in the development but it looks very interesting. It could be also adapted to other 3d printers. My opinion was always that the multitool machines are the future.


Here is the first prototype:




... more developed version with higher accuracy and repeatability:




Here is the mechanism working well with dual extruders doing two color printing:




Here is the high speed tool change in action:




The mechanism can have magnetic connectors and supports different tools like polishing head:



You can see the entire thread on the UM forum with much more information and insight in the development process:

https://ultimaker.com/en/community/10657-a-different-multi-extrusion-approach-um-tool-printhead-changer?page=1


You can see some of the files on Youmagine. Here is the one for the modular Ultimaker printhead that uses a direct extruder:

https://www.youmagine.com/designs/modular-printhead-nema8-worm-gear

... here are some of the files for the magnetic exchangers:

https://www.youmagine.com/designs/um-magnetic-printhead-changer


Iteration and Repair of Existing 3d Printed Objects Without Re-printing

I have seen the future! Changing already 3d printed objects without the need to 3d print them again! Group of researchers developed this method that uses multifinctional 3d printer with laser 3d scanner and CNC milling head to make changes to the already 3d printed object to add or subtract from the previous design.

You can also repair failed prints and make changes on the fly. The developers call this system "Patching". It saves a lot of time and material. Imagine spending few minutes repairing object that would take hours to reprint!

Seeing it in action is very impressive:




Hopefully this technique will find wider application and adoption on mainstream machines and design/control software.


Project description:

Personal fabrication is currently a one-way process: Once an object has been fabricated with a 3D printer, it cannot be changed anymore; any change requires printing a new version from scratch. In this paper, we propose a different approach: instead of re-printing the entire object from scratch, we suggest patching the existing object and replacing only the unsatisfactory parts. This saves material and reduces waste, making a first step towards more sustainable 3D printing.
This project is a collaboration between Hasso Plattner Institute and Cornell University.
More Information: 
https://hpi.de/baudisch/projects/patching-physical-objects.html

The machine has several additional axis of movement with laser 3d scanner and CN mill head


Patching Physical Objects is a research project by:
Alexander Teibrich, http://www.teibrich.de
Stefanie Mueller, http://www.stefaniemueller.org
François Guimbretière, http://www.cs.cornell.edu/~francois/
Robert Kovacs, http://robertkovax.com/
Patrick Baudisch, http://www.patrickbaudisch.com

Makerarm Robotic Multitool

Makerarm is another step towards full desktop manufacturing system. It is a robotic arm with many tool attachments for 3d printing, milling, drawing foam cutting, PCB manufacturing and other.
It still looks like hobby or entry-level system but we are slowly moving towards prosumer home production robots.
It supports both FDM and SLA 3d printing.


Makerarm promotional video:




Makerarm homepage:

http://makerarm.com/

It is also on Kickstarter where you can get it:

https://www.kickstarter.com/projects/1849283018/makerarm-the-first-robotic-arm-that-makes-anything


3d printing Makerarm attachment. It also supports SLA 3d printing.  

ZMorph 2.0S 12 Toolhead 3D Printer

ZMorph is a machine that has 12 interchangeable toolheads.

Technical specifications:
  • CONSTRUCTION alluminium 6 and 3 mm (precise and very rigid), other parts made of 3mm clear policarbonate and ABS
  • WORKING AREA 250 x 235 x 165 mm . Maximum possible work area 300 x 235 x 165 mm (with removed/open covers)
  • MATERIAL ABS, PLA, PVA, nylon (Taulman or other source), Stick filament, policarbonate, BandLay, LayBrick, LayWood, rubber, ceramics, cake and chocolate, metal engraving, wood engraving and milling , paper cutting.
  • NOZZLE TYPE interchangeable hot-ends : 0.3mm, 0.4mm
  • MATERIAL FILAMENT DIAMETER SUPPORTED 3 mm and 1.75 mm, depending on the extruder
  • MAX. TRAVEL SPEED (TESTED) 500 mm/s
  • RECOMEMMENDED PRINT SPEED WITH ABS 0.3mm LAYER 60 – 150mm/s depending on the quality required. Faster speeds possible with lower layer height. PLA can be printed faster too
  • MAX ACCELERATION 3000 mm/s^2
  • AXIS PRECISION 14 microns for X and Y axis, 0.625 microns for Z axis
  • RECOMMENDED MINIMUM LAYER HEIGHT 0.1 for ABS and 0.025 for PLA.
  • HEATED BUILD PLATFORM hardened glass 5mm, silicone heater 140W, temperatures up to 145 degrees.
  • INTERCHANGEABLE TOOLHEADS plastic 3mm, plastic 1.75, plastic dual head extruder, ceramics, food (chocolate or paste etc.), dremel mount for 2D and 3D CNC milling, touch probe (buildplate calibration and 3d touch-scanning), LASER toolhead for cutting and engraving, experimental 5-axis toolhead. More toolheads are planned to be released in upcoming months.
  • ELECTRONICS Sunbeam 2.0, with ARM LPC1769 processor, equipped with 5 stepper motor drivers – 3 for XYZ axis, 2 more for double-material extruder. Run by Smoothieware (http://smoothieware.org/).Internal disk drive accessible via USB.
  • NAVIGATION LCD display panel with custom menu and graphics
  • COMMUNICATION USB and LAN (can use WIFI to communicate). Stand alone printing supported via Panel + internal SD card.
  • EXTERNAL DIMENSIONS 530x555x480 mm
  • WEIGHT 20kg with packaging (basic version)





Here is ZMorph PCB milling:




... and here it is laser etching:




Here is the short overview of tool changing procedure:



ZMorph homepage:

http://zmorph3d.com/3d-printers/



5axismaker is next generation of desktop manufacturing machines





WOW! I really dig this concept of five axis multi-tool! It gives you 5 axis CNC machine that includes milling and 3d printing heads, touch probe, hot wire-cutter and a special mount for custom tools. This is probably a dawn of low cost multi-axis and multi-tool digital fabrication devices.

The company that is developing it also created open source Grasshopper script that allows programming of this 5-axis machine.

It was sold on pre-order from Kickstarter campaign for £4,499 (about $7000). The pack included:
5AXISMAKER KICKSTARTER SPECIAL:
Base 5axismaker: 5axis machine + 1 milling tool head + Set of Tools (Touch-probe, 3d printer, Wire-cutter, Adapter for other tools). 5axismaker cutting/making volume 400x400x400 mm.
I'm really looking foreward for developments in this field! Only 3 axes is sooo yesterday!

Here you can see a close-up video of conformal 3d printing in 5 axis:




Company homepage: http://5axismaker.com/

Technical specifications: http://5axismaker.com/5x/tech-specs/

KS campaign page:

https://www.kickstarter.com/projects/2003668803/5axismaker-first-ever-affordable-5axis-multi-fabri





TwinTeeth home manufacturing PCB factory mulitool with 3d printer

There are more and more home manufacturing tools and TwinTeeth is one of the more developed I saw.
It is a multitool reversed Delta machine mainly orientated towards PCB manufacturing but it can serve as 3d printer also. It is fully open sourced with plans so you can easily build it yourself or customize it to your needs. True ability for distributed manufacturing.

It has following functions and exchangeable tool options:
  • UV Laser photoengraving on sensitive film or pre-sensitized boards using an ultraviolet laser.
  • Drilling vias and holes using any mini-rotary tool like Dremel® or Proxxon®.
  • Dispensing solder paste with precision on SMD PCB pads.
  • Plotting circuits with a permanent pen-maker
  • 3D printing knobs, casings, front-panels, even print circuits with conductive filament, or make circuits supports.
  • Milling/Carving soft materials or etching PCB copper with a v-bit (if you prefer this etching method).
TwinTeet core inverse Delta and replaceable toolheads in front of it







Here is a video of it in action:



TwinTeeth technical specifications from the project page:
  • Working area (X,Y,Z): 70x80x60mm reduced considerably to an “Arduino™ shield-size” because it's preferred to do something small but precise. Users rarely create big circuit boards and reducing the working area has some benefits: the robot is cheaper, more precise, more robust, smaller and more manageable. However, it’s scalable, so you can make it bigger if you want.
  • Motion: TwinTeeth is powered by three Nema 17 motors, lead-screws and anti-backlash nuts.
  • Speed: it can go as fast as 1200-1500mm/min.
  • Code: it supports G-Code, postscript and BMP files. Eagle CadSoft can export to postscript format very easily. Support BMP files means than in addition to PCBs it can also print and etch photos on copper, alu or bronze.
  • Laser: using the same PHR-803T optical pickup than DiyouPCB with a wavelength of 405nm.
  • Rastering: the robot draws the PCB circuits in rastering mode in a similar way any paper printer does: moving the laser (or the bed in our case) from one side of the printer to the other.
  • Resolution: In rastering mode it's printing at 600DPI resolution. The laser beam spot is approx. 0.04 wide when is focused. Incredibly thin! Theorically mechanical precision is 0.94um.
  • Auto bed-levelling – it keeps the bed flat with a tolerance of less than 0.01mm while the robot is moving. It’s very important to improve printing quality and provide precision.
  • Auto-Focus: - small focus differences on the PCB surface affect printing quality so implemented a robust focusing system which takes some points on the PCB and extrapolates the results with a bilinear equation. With that info the robot adjusts the focus automatically while printing.
  • Infrared focusing: the auto-focus system uses an infrared laser to avoid film blurring. Films or presensitized boards are only sensible to ultraviolet light.
  • Electronics – using the well known combination of Arduino™ Mega + RAMPS 1.4 + A4988 Motor Drivers. Improved the Pickup Driver Circuit developed for DiyouPCB and now it includes new features.
  • Precision fixture bed – it is very important to keep the PCB fixed to the bed while the robot is moving. Also, when printing two-sided PCBs you have to be sure that both sides are correctly aligned. TwinTeeth includes a precision aluminium fixture bed and dowel pins which allow correct fixing and positioning of the PCBs. A stencil is also included which helps to drill the PCB’s 4-positions holes.
  • Camera – included a small USB camera because it is difficult to see tiny details on high-density PCBs. The camera is also useful to set the home position which is very important to obtain accuracy.
  • 3D Printing:  FFF (Fused Filament Fabrication) with 1.75mm PLA/ABS and a 0.35mm extrusion nozzle. Printing quality is similar to any 3D printer you can find in the market.
TwinTeeth software:
  • TwinTeeth Firmware: deeply modified Marlin firmware to support multiple tools, manage and control the laser, implement the auto-focus system, print in rastering mode, improve the buffering, and much more.
  • TwinTeeth Management Console – TwinTeeth comes with a new easy-to-use management console which includes functionality specially designed for the multi-tool environment. Included functions to calibrate the printer, move the axis (jogging), and adjust the parameters of each tool. This software communicates with the robot through an USB 2.0 port.
  • TwinTeeth Eagle ULPs – developed some ULPs (Eagles’s user language programs) to generate the drilling and paste dispensing g-code files. You can also use the files generated by other ULPs like PCBCode.
  • Eagle Cadsoft – It is a popular electronic CAD software company. They provide a freeware version for non-commercial use. It easily generates the postscript, drilling and solder paste dispensing files which TwinTeeth uses to make the circuits.
  • 3D Slicing software– for 3D printing you can use any slicer software like Slic3R or Cura.

TwinTeeth homepage:

http://www.diyouware.com/front

Since it is an open source project you can get all the files to make it here and start your own home PCB factory:

http://www.diyouware.com/twth_getit


Uber-cheap small CNC with fully 3d printable frame and salvaged motors

Instructables user wootin24 developed a small multifunctional machine that can be a small (very small) CNC, plotter or 3d printer. It has fully 3d printable frame and it is powered by junk optical drive motors.  3d printable frame and recycled motors make it very cheap to make ...



































All the files for this machine and instructions to make it can be found here:

http://www.instructables.com/id/Extremely-Low-Cost-3D-Printable-3D-Printer-Plotter/?ALLSTEPS

FLUX multitool Delta 3d printer




Flux is a new delta 3d printer that has easily exchangeable tool heads and integrated 3d scanner. Currently available tool heads are 3d printing head and laser engraver head with several modules under development like: a dual extruder, a ceramics extruder, and a pastry extruder.

It is on Kickstarter now

https://www.kickstarter.com/projects/2117384013/flux-all-in-one-3d-printer-unlimited-elegant-simpl

Currently, 38 days before campaign end, it has $348,923 pledged of $100,000 goal.

Flux certainly has minimal and cool design:

























Comparison chart of Flux with devices it replaces:



Flux technical specifications:


Flux company page: http://flux3dp.com/


OpenPnP toolhead changer by Neil Jansen




Neil Jansen is working on a toolhead exchange system that will enable you to quickly replace different tools on your 3d printer.
A small microprocessor like the ATTiny45 on a small circuit board is planned, for each tool. The hotend mosfet and thermistor circuit will be part of this board, rather than the RAMPS/Sanguinololu/Melzi, etc, and will communicate to it via serial over IRDA module (one on the ATC head / end-effector, and one on the tool). Power will be delivered to the board via pogo pins or via gold-plated contacts near the magnets.









FLX.ARM.S16 multitool low cost SCARA robot that can 3d print







FLX.ARM.S16 is industrial grade multitool SCARA motion robot that can 3d print, cnc mill, pick - place, dispense and probe.
This machine is industrial or laboratory grade tool priced at some 2000 USD which is in range of current DIY 3d printers. Similar tools at that market segment sell in 10-40 000 USD range. One can conclude that the quality is increasing, prices ar decreasing and more high-end equipment makers are going down into "prosumer" segment. This is also a part of digital fabrication and distributed manufacturing  trend where in near future you could see small robotic manufacturing cells in garages and micro companies.
It is made by Flux Integration LLC from Biddeford, Maine, USA.

Technical specifications:
  • Motion Control and Simulation: FLX.IDE
  • Motion Control Hardware Interface: FLX.CTL
  • Connectivity: Ethernet
  • Power: 100-120 VAC - 6 A 50/60 Hz or 200-240 VAC - 3 A 50/60 Hz
  • Motors: Hybrid Stepper
  • Reach: 16" [406.40 mm]
  • Shoulder Joint Range: +/- 180 degrees
  • Elbow Joint Range: +/- 155 degrees
  • Angular Speed: 360 degrees/s (1)
  • Linear Speed: ~ 3 ft/s [1 m/s] (1)
  • Repeatability: 0.001" [0.025 mm] (1)
  • Payload: 10 lbs [4.50 kg]
  • Material: Aluminum - Stainless Steel - UMHW - ABS
  • Weight: 15 lbs [6.80 kg]
  • Environmental IP50 Rating

http://www.fluxintegration.com/pages/flx-arm#specs


FLX.ARM.S16 robot

FLX.ARM.S16 replaceable tool heads

































Update:

Flux Integration has just successfully crowd-funded the low-cost version: the FLX.ARM.S16.Z8. They raised $82,905 out of $50,000 goal. I'm not sure what are the differences between models if any exist.

https://www.kickstarter.com/projects/535786699/flxarm-low-cost-precision-robotic-arm




Here are the technical specifications:




Here is the work area compared to other commercially available 3d printers:





Matsuura Lumex Avance 25 hybrid metal laser sintering and high precision milling machine

This is not your Prusa Mendel. This is the Godzilla of advanced industrial 3d printers, a hybrid metal laser sintering and high precision milling machine.
It can produce highly precise medical and dental implants and high end custom aerospace industry parts. The structures can have intricate internal structure that can decrease weight, improve cooling or add advanced structural properties.
Lumex Avance can also print complex molds and casts with integrated cooling for high cycle injection molding.
Typically, milling produces debris, or chips, of removed material that vary in size. However, the LUMEX machine utilizes dry cutting, meaning no coolant is used. For this reason, the cutters are very small and the machining metal removal is a fine powder. Thus, the porosity is theoretically equal to the particle size of the powder and gets incorporated into the powder mix. Usually, no removal of milling chips is needed.

Machines like this are the future of manufacturing which is already here, just not evenly distributed.







Technical specifications:













Matsuura will go to north American market with their  hybrid 3d printer. They plan to sell ten machines in 2014 which cost 800,000 - 1,000,000 USD per piece. This reminds me of the time in early history of computing when IBM executives claimed that the world needs only 8 computers.

Matsuura press release in PDF:

http://www.matsuura.co.jp/english/pdf/2013/Matsuura_PR_LUMEX_Avance-25_Release_in_North_America.pdf

Matsura Lumex page:

http://www.matsuura.co.jp/english/contents/products/lumex.html



For even more powerful laser metal printer and 5 axis CNC mill check out this DMG Mori Lasertec 65:

http://diy3dprinting.blogspot.com/2014/02/dmg-mori-lasertec-65-high-end-hybrid.html

MTM Multifab multitool desktop manufacturing machine

MTM Multifab is truly multifunctional desktop manufacturing machine that was very innovative and ground breaking in the field of  DIY 3d printing when it was developed. Ultimaker, very well known and powerful 3d printer,  is based on this machine.
Multifab has several replaceable tool head options:

  • MACHINING SPINDLE, A high-speed (20K RPM) spindle supports light subtractive machining. The spindle can be constructed entirely from off-the-shelf compoents.
  • VINYL CUTTER, A razor blade tool which allows 2D cutting of sheet material. Some applications are flexible circuit boards, stickers, silkscreen masks, and more.
  • REPEATING PIPETTER, This fluid dispensing toolhead was created in collaboration with MIT's Innovations in International Health program, and has uses in automated biology research and disease diagnostics fabrication.
  • PLOTTER HEAD, A pen attached to the multifab can allow easy labeling of objects, caligraphy, etc...
  • 5 AXIS TRUNNION, This attachment permits 5-axis machining of components on the Multifab. Potential applications include variabl-helix screws, impellers, and 5-sided machining operations.
  • PLASTIC EXTRUDER, Based on the Rep-Rap project, this extrusion head will enable additive manufacturing in plastics such as ABS.



MTM Multifab 3d printing






























Here are some videos of Multifab in action writing and pipettering:





Demonstration of the MTM Multifab fitted with an auto-pipetting toolhead. The toolhead was designed with Amber Houghstow and Jose Gomez-Marquez of the MIT Innovations in International Health program, with the goal of automating production of XoutTB diagnostic assays. Perhaps it can also find a use in the DIY Bio community.
The MTM Multifab is part of the MIT Center for Bits and Atoms Machines That Make project.

Here is overview of Multifabs components, tools and development status:


http://mtm.cba.mit.edu/fabinabox/devmultifab.html

The instructions, plans and BOMs should be available for anyone who wants to build it, but all the files and documents links I tried on the site were broken. I hope it will be repaired soon, the public could benefit greatly with this machine.

Fab-in-a-Box


The Multifab is core machine of FAB in a Box framework system that should provide full digital fabrication environment that user could make at their home from simple parts. It contains:

Infrastructure. All of the key services which allow Fab-in-a-Box to be a cohesive toolset. These include the network, the box itself, power distribution, etc. It consist of the:

  1. VIRTUAL MACHINE ENVIRONMENT, The flexible Fab-in-a-Box machine control and interface environment.  
  2. THE NETWORK: FABNET, An RS485-based network is the nervous system of the toolset, which connects the "brain" - a laptop running control software - to the tools and sensors comprising Fab-in-a-Box. 
  3. THE SUITCASE, The suitcase is the heart of the matter. It is what contains the entire fab in a box project.

Multifab. A computer-controlled multipurpose fabrication tool. Work includes integration into the box, the xyz motion stage, and multiple toolheads to perform various fabrication tasks. Multifab has many subsystems, components and parts:

  1. XYZ GANTRY, The key component of the multifab tool is a high-speed and rigid xyz gantry capable of accomodating a wide range of fabrication processes.  
  2. 3-AXIS MOTION CONTROL, The multifab gantry is controlled by a networked controller board capable of controlling three stepper motor drivers simultaneously.  
  3. H-BRIDGE, This module is able to control the average voltage across a load, such as the spindle's DC motor, using a technique called Pulse Width Modulation (PWM).  
  4. RC SERVO CONTROLLER, RC servos, typically found in radio controlled airplane models, use feedback to control the position of their output shaft. This controller can set the position of up to 8 servos, and is used in the auto-pipetter toolhead.  
  5. MACHINING SPINDLE, A high-speed (20K RPM) spindle supports light subtractive machining. The spindle can be constructed entirely from off-the-shelf compoents.  
  6. VINYL CUTTER, A razorblade tool which allows 2D cutting of sheet material. Some applications are flexible circuit boards, stickers, silkscreen masks, and more.  
  7. REPEATING PIPETTER, This fluid dispensing toolhead was created in collaboration with MIT's Innovations in International Health program, and has uses in automated biology research and disease diagnostics fabrication.
  8. PLOTTER HEAD, A pen attached to the multifab can allow easy labeling of objects, caligraphy, etc... 
  9. 5 AXIS TRUNNION, This attachment permits 5-axis machining of components on the Multifab. Potential applications include variabl-helix screws, impellers, and 5-sided machining operations. 
  10. 1-AXIS MOTION CONTROL, Additional axes can easily be simultaneously controlled by adding them onto the network. The disadvantage as compared to a multiple-axis controller is increased network load.
  11. PLASTIC EXTRUDER, Based on the Rep-Rap project, this extrusion head will enable additive manufacturing in plastics such as ABS.
  12. JOG DIAL, The multifab can be positioned by hand using a networked jog dial. This interface can also provide more complex control of parameters typically adjusted on the computer such as feed rate.

Other Fab. All other tools needed to make something. Examples are the soldering iron, hand tools, and programming interfaces.

  1. SOLDERING IRON, A soldering iron with temperature adjustment over the network.
  2. AUTO BINS, Parts bins which light up to indicate where a needed component is located. This could be part of a computer-assisted-stuffing project.
  3. FUME EXTRACTOR, A fume extractor with a ring of LED lights around its intake.
  4. IN-CIRCUIT PROGRAMMER, A network-attached microprocessor programmer.
  5. NETWORK BOOTLOADER, A bootloader which fetches programs over Fabnet.

Measurement. Networked instrumentation such as a multimeter and oscilloscope. This is one area which will hopefully expand greatly on the road.

  1. MULTIMETER, A multimeter which displays and records its readings on the Fab-in-a-Box laptop.
  2. OSCILLOSCOPE, An oscilloscope which displays and records its readings on the Fab-in-a-Box laptop.

Autodoc. Everything related to making it possible to document a project "without thought".


  1. EYE-FI CAMERA, A camera which wirelessly tranfers its time-stamped images to the Fab-in-a-Box auto-documentation software.
  2. RFID READER, Keeping track of which hand tools were used, and when, is made easy with an RFID reader.


Some of the components were never developed, and most of the building related file links can not be opened. Probably all the files are somewhere on the internet, it would be terrible if they get lost forever. I REALLY hope someone publishes them as open source soon.


Here is the Fab-in-a-Box website:

http://mtm.cba.mit.edu/fabinabox/

PDF presentation:

http://mtm.cba.mit.edu/fabinabox/fabinabox.pdf

HYREL System 30

Very powerful 3d printer from Hyrel! Many advanced functions and technologies like: embedded PC with touch LCD screen,  interchangeable hot swappable programmable multiple extruders, live Z trim on-the-fly, real time changing of print settings, air filter, remote control ...


Makeraser - 3d printing tool for smoothing and gluing

Makeraser is a tool that smooths, glues and strengthens 3d printed object by applying acetone or acetone based "ABS juice".  It looks like nifty little simple and useful tool.






http://www.makeraser.com/

Update:

here is the video review of Makeraser:

http://diy3dprinting.blogspot.com/2014/02/review-of-makeraser.html

Ghost Host - 3d printed scales for Atwood Ghost pocket tool

Atwood pocket tools and knives have cult following and collecting community.  One of them decided to design and print custom scales with pocket clip for Ghost G1 model (called Ghost Host), upgrading it and making it more usable.
















Via:

https://www.facebook.com/mario.capolongo?hc_location=stream

https://www.facebook.com/groups/366416363885/

Printing working model multitool on industrial 3d printer

I am fan of multitools. Many functions in one package. Transformers of tool world.
This is a video of functioning multitool model with moving components being printed on industial 3d printer. I can see that material innovations will drive 3d printing technology and vice versa. I hope to see similar 3d print quality on diy or home 3d printers in 2-3 years. Or maybe sooner?

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