Just another 5 hour endurance full electric VTOL

We VTOLized the Raptor E1, at the same time we further optimized the power plant to achieve 50-80 Watt power consumption at cruise speed at 16.5 m/s with 3.5 Kg payload.

 All in all very happy with the conversion. If anyone interested we are taking pre-orders to setup a manufacturing line with an aerospace composite partner company in England UK. This would allow us to release a high quality full composite platform at an accessible price tag. 

Check http://www.raptoruas.com/ev.html for more info

You need to be a member of diydrones to add comments!

Join diydrones

Email me when people reply –

Replies

  • Oh, ha! I thought that sounded too low! £19-24K sounds more reasonable. I'll get in touch.



    Duffy said:

    Hi Dale,

     The platform is not available for purchase right now, here is the latest video with take off and transitions https://youtu.be/kjujvE9UsIE

    The actual price of the complete product will be somewhere between £19-24K, it is the nature of aerospace composites and nomex sandwich composites that makes it impossible to get the cost down to $500, this is the deposit for a pre-order.

     Please drop an email at info@raptoruas.com if you would like to discuss about this platform.

     Many thanks



    Dale Greer said:

    What's the status of this? It's hard to tell from your website. Is it $500? What exactly do you get for that? 

    The webpage throws out "ISR, Mapping, LIDAR, Multispectral" and even "transponder". Are these available options or just suggestions? What about ADS-B?

    What about the dimensions of the payload bay?

    Kind of hard to plan on a purchase without that kind of info.

  • Hi Dale,

     The platform is not available for purchase right now, here is the latest video with take off and transitions https://youtu.be/kjujvE9UsIE

    The actual price of the complete product will be somewhere between £19-24K, it is the nature of aerospace composites and nomex sandwich composites that makes it impossible to get the cost down to $500, this is the deposit for a pre-order.

     Please drop an email at info@raptoruas.com if you would like to discuss about this platform.

     Many thanks



    Dale Greer said:

    What's the status of this? It's hard to tell from your website. Is it $500? What exactly do you get for that? 

    The webpage throws out "ISR, Mapping, LIDAR, Multispectral" and even "transponder". Are these available options or just suggestions? What about ADS-B?

    What about the dimensions of the payload bay?

    Kind of hard to plan on a purchase without that kind of info.

  • What's the status of this? It's hard to tell from your website. Is it $500? What exactly do you get for that? 

    The webpage throws out "ISR, Mapping, LIDAR, Multispectral" and even "transponder". Are these available options or just suggestions? What about ADS-B?

    What about the dimensions of the payload bay?

    Kind of hard to plan on a purchase without that kind of info.

  • Hi Hugues,

     General specs from this file: https://drive.google.com/open?id=0B8_BlgYnzOFGellNOUx5ekF6QzQ

     If you want to know our secret ingredient of long endurance here is some information for designers: https://drive.google.com/open?id=0B8_BlgYnzOFGcHBwUVRiT2pCeGM

    In simple terms: The most important factor is to reduce wing-loading, so you need both use a superlightweight construction and or increase wing area accordingly. To give you an example the fuselage when it comes out of the mold it weighs only 420-460 gm and in fact it will loose ~ 50 gm during hatch cut-outs.

    Our wings have a total area of 0.75 sq meter and they weigh ~1.5 Kg ,

    So with our motor only weighing ~ 600 gm you can see how it really compares to other UAVs where they weigh in excess of 7 kg just for the airframe. We have a RTF airframe with 7 kg battery and everything. In fact you can have a smaller battery and payload and still be under 7 kg.

     Anyhow, once you have sorted out the wingloading which is the predominant factor for minimum power flight for powered aircraft , then next thing you have to do is reduce drag. Two things we have done for this problem.  By the way wingloading and construction is why the Zephyr and Solar impulse have such exceptional endurance figures.

     1) The airfoils have been designed for maximum power factor, that is we have maximized the lift:drag ratio as the dominant requirement during airfoil design process, the other factor we used during airfoil design was pitching moment (Cm) this allowed us to reduce the size of the elevator required to balance the aircraft.

     This brings us to point number 2) Minimize total drag.To this end we created a fuselage with a single design factor: minimum drag. For this we used a natural laminar flow fuselage optimized for the Reynold numbers of cruise flight.

     Now the other things we are doing right now, is working towards a set of wing tips that would allows to gain further performance in minimum power flight. This is quite important, as you know wingtips are optimize for a specific condition only. By optimizing for flight in minimum power it is theoretically possible to achieve as high performance gains as ~ 10%. I understand that you say wow that is too much. But in fact if you optimize your wingtips for minimum power essentially you are reducing the impact from tip vortex. As you would know wing tip vortices are most severe under high Cl conditions.

     Hope this helps.

     With respect to payload, we can customize payload bay to your requirements. do you need brushless gimbal stabilization for a sony A7, no problem, do you need to drop a bottle of whiskey? again plenty of volume for integration.

    Best

    Trias

    info@raptoruas.com

    https://youtu.be/kjujvE9UsIE



    Hugues said:

    Hi,

    Can you please provide some basic specs about the ship:

    -Total weight ?

    -Wingspan ?

    -Motors/ESC used for VTOL ?

    -Internal payload bay dimensions ?

    -Any traps/opening for camera pointing downward ? Can camera openings be customized ?

    thx

  • MR60

    Hi,

    Can you please provide some basic specs about the ship:

    -Total weight ?

    -Wingspan ?

    -Motors/ESC used for VTOL ?

    -Internal payload bay dimensions ?

    -Any traps/opening for camera pointing downward ? Can camera openings be customized ?

    thx

  • It is 6S Gen Ace

    Thanks

    Jay Case said:

    No it doesn't, just a 28,000 mah LiPo

    Ah, It all makes sense now. What voltage

  • Didn't manage to arrange this,

     got some transitions https://youtu.be/kjujvE9UsIE

    The specs for the max endurance flying:

     Airspeed: 16 m/s

     Current consumption: 2-5 A (level flight)

     Total Payload : 3.65 Kg (battery inclusive)

     Prop: 20*10 with 2.5o + on hub

     6S , 28,000 mAh battery

     Motor: 5325/16 V2

    Of course subject to payload and flying speed and conditions max endurance drops. 

    Currently designing new wing-tips that based on CFD will provide another 3-6 % gain at minimum power / max Cl

     

     Best

  • Moderator

    How's the 5 hour flight coming along?

  • No it doesn't, just a 28,000 mah LiPo

    Ah, It all makes sense now. What voltage

  • Moderator

    Ok Duffy PM me the place and we can do that! A 5.6 amp/h draw is pretty impressive. How long is the hover time in that?

This reply was deleted.

Activity

DIY Drones via Twitter
RT @MarvelmindMaxim: Extreme precision for 60 swarming robots. #marvelmind #autonomousrobotics #robotics #swarmrobotics #rtls #ips #indoor…
9 hours ago
DIY Drones via Twitter
RT @MarvelmindMaxim: Precise (±2cm) tracking for racing boats and autonomous boats. Works outdoor and indoor. #autonomous #AutonomousVehic…
9 hours ago
DIY Drones via Twitter
RT @MarvelmindMaxim: Helping PixHawk folks to fly autonomous quadcopters using PX4 and ArduPilot. https://marvelmind.com/drones/ Equally suitab…
9 hours ago
DIY Drones via Twitter
RT @davsca1: Here is the video of the performance. This paper was a huge group effort and more than one year of work, where we combined and…
Jul 16
DIY Drones via Twitter
RT @chr1sa: My talk on PX4 and FAA certification is coming up at 1:45 PST today on the PX4 Dev Summit livestream. Includes some cool new st…
Jul 7
DIY Drones via Twitter
RT @seesharp: I'm tuned into the PX4 / Dronecode free live conference. Great stuff. Microsoft AirSim talk in 10 minutes. https://t.co/0zbZ2…
Jul 6
DIY Drones via Twitter
RT @chr1sa: Here's today's best times in the @DIYRobocars/@donkey_car virtual race of AI cars compared to last month's race on the same tra…
Jun 20
DIY Drones via Twitter
Jun 19
DIY Drones via Twitter
The difference between proper RC cars and toys (when you’re turning them into robots) https://ift.tt/2MUTvxd
Jun 14
DIY Drones via Twitter
RT @Struktur3D: We have just posted on @DIYDrones for the first time in a long time. Continuing with our search for a #lasercutting service…
Jun 5
DIY Drones via Twitter
Review of the new Nivida Jetson NX for robocars https://ift.tt/36TrS0G
Jun 2
DIY Drones via Twitter
RT @chr1sa: Somehow I missed this, but last week @Nvidia released a new version of its Isaac robot development framework. Lots of new Lidar…
May 31
DIY Drones via Twitter
Welcome to the new DIY Drones design!. You may have noticed that DIY Drones looks a little different today. That's… https://twitter.com/i/web/status/1265714415137153024
May 27
DIY Drones via Twitter
New! Online Training on Drones for Disaster Response https://ift.tt/3ehdHoT
May 26
DIY Drones via Twitter
RT @chr1sa: Our next @DIYRobocars autonomous car virtual race is this Saturday. Sign up here to compete or just spectate on @Twitch https:/…
May 19
DIY Drones via Twitter
Definitive Guide to Setup Drone Delivery System https://ift.tt/3g3nSPn
May 19
More…