Showing posts with label drone. Show all posts
Showing posts with label drone. Show all posts

Christoph 3D Printes a Brushless Motor to Power his Flying Wing

Christoph Laimer designed and made a very functional DC brushless electric motor.

Here is a test of his 3d printed brushless motor, it explodes above 30000 RPM:




Project homepage with data and files:

http://www.makesea.com/brushless-motor


He used this motor on a DIY RC flying wing with success. He even developed and 3d printed the propeller.




Here is a link for the propeller page.

Tom Stanton 3D Prints his RC Flying Wing

Tom Stanton show us his trials and tribulations to get a 3d printed flying wing RC aircraft in the air. Interesting watch if you are into this hobby.

Here is his first video where he goes into design and basic parts printing:



Here is the fully 3d printed flying wing being developed and tested:



The aircraft was printed from clear PLA filament with a 0,4mm nozzle at 220 degree Celsius to maximise the layer strength. Weight of the aircraft was 730g.

Tom's Thingiverse page:

http://www.thingiverse.com/StantonFrames/about

BoxBotix Open Source Robotics Platform

BoxBotix is an open source robotics platform that uses 3d printed modules to create several different types of robots.
























BoxBotix introduction video:



Quadcopter configuration:




BBTank with 3d printed threads made from TPE using a Lulzbot Taz6




BotBotix homepage:

https://boxbotix.com/

Project homepage on Wevolver with all the files and build instructions:

https://www.wevolver.com/coby.leuschke/boxbotix/main/description/


Cheap 3D Printable RC Plane

If you own a 3d printed and want to get into RC flying on a low budget, here is a great project that will get you in the air.




























Here is a very detailed build guide from design in CAD software to first flight instructions on Instructables:

http://www.instructables.com/id/Design-Test-Print-Build-an-Aerodynamic-RC-Plane-Tu/?ALLSTEPS

Low Cost Fully 3D Printed UAV Developed by Airbus

Thor is a fully 3D printable UAV (unmanned aircraft vehicle) developed by Airbus with production price of some 20000 Euro. The cost could probably go even further down, but it is many times cheaper when compared with simillar drones.
Thor is made of some 50 3D printed parts, two electric motors, and a remote control with some 4 weeks needed for printing and assembly. It weights 25 kg and has some 4 meters in wingspan.
It has some 40 km in range and 18 successful flight missions behind it.




























Here is the video presentation (in German):



Source and more info:

http://www.airbus.com/newsevents/news-events-single/detail/airbus-tests-high-tech-concepts-with-an-innovative-3d-printed-mini-aircraft/

Orbital Composites Advanced Carbon Fiber 3D Printing

Orbital Composites is a company which developed advanced carbon fiber and wire 3d printing with applications in space additive manufacturing. It should enable future missions to 3d print satellites and objects in orbit or to 3d print drones with carbon fiber structures.

Here is the interview with Orbital Composites Founder and CEO Cole Nielsen and presentation of their tech:



Orbital Composites homepage:

http://www.orbitalcomposites.com/


Coaxial extruder nozzle developed by Orbital Composites. It should deliver 10x increase in print speed. 

Coaxial extruder that can extrude carbon fiber,  plastic wire, solder epoxies and other materials.

Low-cost Easy 3D Printed RC Flying Wing

Samm Sheperd demonstrates how easy and cheap it is to develop and 3d print a flying wing pod that houses first person camera, transmitter, controls, motor, batter, drive shaft and propeller for a RC plane.

Her is a video of his design flying:



Here is a Thingiverse with all the files you need to print it yourself:

http://www.thingiverse.com/thing:1412963



CRACUNS flying and diving 3D printed drone

Johns Hopkins University developed 3d printed quadcopter drone that can both fly and be submerged under water. Since it was developed in cooperation with the military it will be probably be used as a weapon system sometime in the future. Cool technology, but we need more food delivery drones and less war-bots. It is named CRACUNS, which stands for "Corrosion Resistant Aerial Covert Unmanned Nautical System".




From the news article:
“Engineers at APL have long worked on both Navy submarine systems and autonomous UAVs,” said Jason Stipes of APL’s Sea Control Mission Area, project manager for CRACUNS. “In response to evolving sponsor challenges, we were inspired to develop a vehicle that could operate both underwater and in the air.” The resulting CRACUNS prototype system was developed and tested using internal research and development funding.

CRACUNS enables new capabilities not possible with existing UAV or UUV platforms. Its ability to operate in the harsh littoral (shore) environment, as well as its payload flexibility, enables a wide array of potential missions.
The most innovative feature of CRACUNS is that it can remain at and launch from a significant depth without needing structural metal parts or machined surfaces.To make that possible, the team needed to overcome two big challenges. First, the APL team leveraged advances in additive manufacturing and novel fabrication techniques available at the Laboratory’s extensive fabrication facilities. The team fabricated a lightweight, submersible, composite airframe able to withstand the water pressure experienced while submerged.
The second significant challenge was to ensure CRACUNS could not just survive, but operate effectively in a corrosive saltwater environment. To do that, the APL team sealed the most sensitive components in a dry pressure vessel. For the motors that are exposed to salt water, APL applied commercially available protective coatings. The team tested the performance of the motors by submerging them in salt water. Two months later, they showed no sign of corrosion and continued to operate while submerged.
Full press release:

http://www.jhuapl.edu/newscenter/pressreleases/2016/160317.asp


Syknet will know how to use this little guy

Aurora Flight Sciences 3D Printed UAV with Jet Power




Project description:
Aurora Flight Sciences, a Virginia-based manufacturer specializing in advanced UAV systems, is pushing the envelope of UAV design by teaming up with Stratasys to create the world’s first jet-powered, 3D printed aircraft.
Using 80% 3D printed parts, the UAV is composed of Stratasys’ ULTEM™ 9085 lightweight material to achieve flight speeds of over 150 Mph. The high-speed system boasts an impressive 9 ft wingspan and weighs in at only 33 lbs.



Press release with much more information:

http://www.aurora.aero/wp-content/uploads/2015/11/SSYS_News_2015_11_9_Stratasys_Corporate.pdf


SLA 3D Printed Working DIY RC Micro Drone "Air-Form 1"

Thingiverse user "niklasm" designed and 3d printed a fully working micro RC drone from tough resin on a Form 1.
























Technical specifications:
  • battery: 150mAh
  • thrust: 54g
  • weight: 60g
  • wingspan: 58cm
  • dihedral: 15deg
  • flight time: 11min
Non-Printed Parts:
  • specktrum ar6410
  • 150mAh battery
  • laTrax motor
  • laTrax bearings
  • laTrax gear/propshaft
  • laTrax prop
  • 3/32in X 7/32in X 3ft rectangular carbon rod
  • 3/16in carbon tube
  • 7/64 carbon rod
  • 3ft X 3in X 3/32 balsa board
  • 1/32in music wire
  • superglue

All the files to make it and instructions can be found at:

http://www.thingiverse.com/thing:1051655

Hexacopter Rapid Development with 3D Printers

One day soon there will be thousands and thousands of different models of DIY copters and robots moving around. What is now in hands of hackers, makers and hobbyists will become ubiquitous like bicycles...

This is just a preview of things to come and you will probably be able to make on your low cost home machine.



Description:
Students at Wentworth Institute of Technology were challenged to develop a functional hexacopter using six different manufacturing processes, including 3D printing. 95% of the 3D printed components were produced using the Stratasys uPrint SE and Objet30 3D Printers.

Red Swan Large Wingspan Fully 3D Printed RC Flying Wing

Here is a largest fully 3d printed and flying RC model airplane. It has no reinforcements and it reaches almost 2 meters in wingspan. Really pushing the limits of possible there.

Technical Specifications
  • wing span: 1950 mm
  • wing chord: 336 mm
  • aerodynamic center: 80.2 mm
  • aerodynamic center 8% stability: 61.4 mm
  • wing profil: Clark YS
  • wing overall weight: 1520 g
  • wing area: 65,52 dm²
  • fuselage overall weight 730 g
  • wing loading: 34,3 g/dm²
  • longitudinal stability (Thies) STFs: 65,0
  • motor: Robbe Roxxy BL Outrunner 2834-08
  • propeller: Aeronaut CAM 10 x 6”
  • static thrust: 1100 g (3S Lipo)
  • print time wing: 120 h
  • print time fuselage: 35 h
  • used PLA: 1.8 kg

Here are take-off, flight and lending in a video:





You can find all the files and instructions at Thingiverse:

http://www.thingiverse.com/thing:453090



Fathom Underwater Drone

3d printing is used here for prototyping of a small underwater submersible drone or R.O.V. Is the revolution in submersible DIY robots here? Quadcopters are everywhere, we need more submarines!




Company homepage:

http://www.fathomdrone.com/




More information:

http://www.rapidgrowthmedia.com/innovationnews/0129fathom.aspx

If you are interested in submersible DIY vehicles OpenROV is a must-see project:

http://www.openrov.com/


Pentacopter drone with 3d printed parts

... just a cool and unusual DIY pentacopter drone design I wanted to share. It uses 3d printed parts in motor housings and probably other structural sections.

It will certainly draw some attention when it flies ...









Project homepage with build log:

http://www.darkbutterflyrc.co.uk/tagged/pentacopter

Here is it flying in the night with LED strips:

US military will 3d print warheads and missiles for combat

Two weeks ago I posted about BEA Systems drones with internal 3d printing. In that post I wrote:
I also have slight suspicion that someone will want to 3d print bombs on-board of military aircraft. Still, all limitations remain. Why send something very expensive and heavy when you have proven delivery methods? Maybe some tactician is thinking of highly customized munition for very demanding missions with uncertain parameters for high-value targets.

Today I found put in article by Vice that this technology is actually in practical development:

“3D printing of warheads will allow us to have better design control and utilize geometries and patterns that previously could not be produced or manufactured,” James Zunino, a researcher at the Armament Research, Engineering and Design Center (ARDEC) in Picatinny, New Jersey, told Motherboard in an email.
The ability to print parts previously unimaginable using traditional manufacturing methods could radically open up the possibilities when it comes to what a warhead can do. For example, warheads using 3D-printed components could be designed to be more compact in order to pack in additional payloads, sensors, and safety mechanisms. Planning for printed parts in the design process will also allow the army to precisely engineer the blast radius of warheads for maximum effect.
“Warheads could be designed to meet specific mission requirements whether it is to improve safety to meet an Insensitive Munitions requirement, or it could have tailorable effects, better control, and be scalable to achieve desired lethality,” Zunino wrote.
As an organization with a shrinking budget—except when it comes to drones—the army weighs the cost of human life against that of building the instruments of its eventual liquidation. One cross-industry advantage of 3D printing is its cost-effectiveness since it enables the printing of complex structures in one go, instead of the many individual parts that go into it. Missiles are no different.
“3D printing also allows for integrating components together to add capabilities at reduced total life cycle costs,” Zunino explained. “It is expected that 3D printing will reduce life-cycle costs of certain items and make munitions more affordable in the long run through implementation of design for manufacturability, and capitalizing on the add capabilities that 3D printing and additive manufacturing can bring to munitions and warheads.”
The army doesn’t plan on stopping at merely printing warhead components, either. Eventually, they want to print the whole damn thing in one go. “Maybe someday an entire warhead or rocket could be produced as the technology further matures,” Zunino wrote.

BEA Systems wanted this type of technology by 2040, but it looks like there will be 3d printed warheads much sooner.

I searched around and found an DIY project where someone 3d printed plastic sabot round on a  Makerbot to be fired from homemade combustion cannon. The future will be very interesting.


Source: http://www.itclips.net/2013/02/20/touring-the-labs-at-make-hq-3-2/


In reality, the actual 3d printed warhead will probably look something like this:

Rytheon STM, source: http://weapons.technology.youngester.com/2011/04/new-warhead-small-tactical-munition.html





It is Rytheon's Small Tactical Munition, a new weapon specifically designed to be employed from unmanned aircraft systems. STM is a 13 pound guided munition that is approximately 2 feet long, making it the smallest air-launched weapon in the Raytheon portfolio. It has a 5 pound warhead. It is small, light and lethal and enables drones to fly longer, further and attack more targets.

So, it is possible that there will be small 3d printing factories in forward military air bases that will create munition similar to this, cutting the cost, reducing the need for supply lines and making custom munition for any purpose like anti personnel with more fragmentation, material penetration with more mass, anti-armor with shaped charges. For those small drone bombs plastic materials could be used or even locally sourced materials. Only non-printable parts are currently guidance unit, explosives and fuse. 
Those digital fabrication production cells could also make replacement parts for the drones themselves.  

War is hell people, we need more food and less bombs.   


Army Technology publication with focus on 3D printing:

http://usarmy.vo.llnwd.net/e2/c/downloads/352196.pdf

Source article: http://motherboard.vice.com/read/the-army-is-3d-printing-warheads

Update (19.7.2015.):

Raytheon announced it can print almost all the parts needed for guided rocket ammunition:

http://diy3dprinting.blogspot.com/2015/07/raytheon-can-3d-print-military-missiles.html


BAE Systems wants to have drones onboard 3d printing drones by 2040





BAE Systems is major military and aerospace technology company and they have presented some future concepts.

Scientists and engineers at BAE Systems have lifted the lid on some futuristic technologies that could be incorporated in military and civil aircraft of 2040 or even earlier.
Smaller unmanned aircraft -- or UAVs -- are created by super high-tech on-board 3D printers, via Additive Layer Manufacturing and robotic assembly techniques. The 3D printers respond to data fed to them by a remote control room where a human commander decides what should be produced.
The UAVs are best suited to each scenario -- be it a group of wide-winged aircraft for protracted or enduring surveillance -- or rotary-winged UAVs to rescue single civilians or soldiers from dangerous situations. After use the UAVs could render themselves useless through dissolving circuit boards or they might safely land in a recoverable position if re-use was required.
This creates the ultimate adaptable taskforce, with a lead aircraft able to enter any unknown scenario and quickly manufacture an effective toolset for any task.

Now, let's think about this:
  1. They want to do it by 2040. I am firm believer in technology, but this is going to require some STAR TREK technology guys.
  2.  If you don't develop micro fusion reactors and energy-matter conversion tech, this thing will have to carry a LOT of wight in machinery and mass for 3d printing. 
  3. Even if some similar but less developed technology is implemented, why would anyone send ultra high tech extremely expensive craft to rescue people in natural disasters when HELICOPTERS are well developed and widely used. 
  4. I also have slight suspicion that someone will want to 3d print bombs on-board of military aircraft. Still, all limitations remain. Why send something very expensive and heavy when you have proven delivery methods? Maybe some tactician is thinking of highly customized munition for very demanding missions with uncertain parameters for high-value targets. 
  5. To conclude: maybe someone should develop 3d printed guided sandwiches so we can feed all the hungry with high precision. Make food, not bombs. PEACE! 

BAE Systems page with more advanced technology future concepts like transforming drones, self-healing drones and other:

http://www.baesystems.com/enhancedarticle/BAES_168290/aircraft-technologies-of-the-future




























UPDATE:

Only two weeks from this article there is a confirmation that US military is actually working on 3d printed warheads:

http://diy3dprinting.blogspot.com/2014/07/us-military-will-3d-print-warheads-and.html

Fully functional AirDog drone prototype developed with 3d printing




AirDog is innovative quadcopter drone that will follow you automatically and record video of your activity guided with electronic bracelet "leash" or smartphone app. The fully functional prototype is 3d printed in ULTEM 9085 production grade thermoplastics.

Currently it has several flight patterns that can be expanded in future:
  1. Auto-follow. Will work with almost any sports. In this mode AirDog will follow you repeating exactly your movement trajectory while maintaining its position in preset distance and altitude from you. It will follow you at speeds up to 40 mph.
  2. Relative position follow. In this mode AirDog will maintain constant offset relative to magnetic north from the rider. For example, you can set it to keep a 10 meter distance at 4 meters high to the east from your position. Even when you change your direction, the AirDog will stay at the same preset angle from you. We suggest this mode for straight line wakeboard cable parks, surfing, and some other sports.
  3. Follow track. This is the safest way to operate AirDog. Simply go for one lap with AirLeash and it will record your track. Then adjust AirDogs trajectory to your liking in smartphone app. AirDog will repeatedly fly over the exact set trajectory and the camera will be continually adjusted to aim at the rider.This is the most creative mode where you can become a true director of your movie. Adjust AirDog's trajectory to avoid obstacles like buildings or trees. You can even make it to shoot you from different angle on different spots/kickers in the track. It might sound complicated, but its a simple few tap process in AirDog smartphone app.
  4. Hover and Aim. The Hover and Aim setting allows AirDog to stay in one position above the ground, but constantly directing the camera at the AirLeash. This setting is perfect for tight places such as smaller skateparks, narrow forest trails, or for activities such as bungee jumping or base jumping, where clearance from equipment is important.
  5. Circle. In this setting, AirDog makes circular rotations on a set radius and altitude, keeping the camera aimed at the AirLeash. This for slow speed or static shots to show impressive view around you.
  6. Look down. The most simple mode but can produce very stunning results. Simply "walk" your AirDog above a ramp or kicker where you are about to throw some epic tricks and with push of a button it will freeze its position and aim camera straight down. Now make sure you don't go too high.
  7. When it goes into production it will be produced with injection molding and it is clearly indicated on the timeline.

It was developed with Stratasys:

From Stratasys blog post:
The working prototype, currently flying in demonstrations over the United States, was produced using 3D printing technologies from Stratasys, with guidance from Stratasys’ Latvian partner, Baltic3D, and Polish reseller Bibus Menos.
“As the world’s first auto-follow action sports drone, AirDog not only grants end-users their own affordable and personal aerial video crew, but goes one step further in providing thrilling footage from distances and angles previously inaccessible to such consumers,” explained Edgars Rozentals, Co-founder and CEO of Helico Aerospace Industries.
A production-grade thermoplastic (ULTEM 9085), popular in the aerospace industry for its high strength-to-weight ratio, was used to create the AirDog quadcopter. “We were particularly impressed by how far we could push the boundaries of the ULTEM material,” said Rozentals. “The material’s functional stability enabled us to 3D print very thin walls that further reduced AirDog’s overall weight.
For the AirLeash, Helico chose to use rubber-like as well as rigid materials in a single prototype, relying on Stratasys’ PolyJet 3D printing technology, which allows for the incorporation of multiple materials in a single go.
“I’m not sure how we would have arrived at the stage of having a functional part, were it not for Stratasys 3D printing technology. I founded the company two years ago and we’re a staff of three, so for start-ups like Helico, this technology isn’t just a game-changer, but the ticket to the game itself,” ventured Rozentals.

AirDog Kickstarter:

https://www.kickstarter.com/projects/airdog/airdog-worlds-first-auto-follow-action-sports-dron

Source blog post from Stratasys:

http://blog.stratasys.com/2014/06/25/3d-printed-sports-drone-airdog/























Fully functional RC plane made with 3Doodler

We already saw functional quadcopter made with 3d drawing pen, now there is fully functional flying RC plane made with 3Doodler by Matthew Butchard from the United Kingdom.






I had my suspicions about usability and application of 3d drawing pens like 3Doodler but projects like this prove me wrong.
 
Project homepage:

http://mattbdreaming.wordpress.com/3doodler-plane/






















First successful flight video of Nomad fully 3d printed UAV




This is the third attempt and it was a good one. The Nomad modular 3d printed UAV is now airborne which is a great step forward for the project and DIY drone community!
Since the Nomad is scalable and modular, bigger versions with more interesting payloads could apper in the future.

Thnx Goig3D for sharing your work!




























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.

http://3dairpen.com/






















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

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

http://diy3dprinting.blogspot.com/2014/08/how-to-make-diy-quadcopter-propeller.html




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