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Super Stingray

29.99 $

Super Stingray – High Performance 3D Printed FPV Wing with modular design.

Wingspan

1130mm

AUW

1000-2500g

Optimal Speed

70-90 km/h

Bed Size

min. 220x220mm

Material

LW-PLA + PETG

CHECK ALSO

Stallion

Stallion - High performance 3D printed twin-motor RC Plane with a modular design. Crafted for optimal performance and customization for various applications.

34.99 $

OVERVIEW

General Data

Introducing the Super Stingray: a 3D-printed FPV Wing. The aircraft features a swept wing configuration with a single pusher motor at the rear. Its geometry has been carefully designed using CFD and flight testing. The aircraft has detachable wings, making it easy to transport. The detachable nose allows for customization to accommodate various payloads depending on the mission requirements. By default, it is configured for a 19x19mm FPV camera and any VTX. All files are available in STL format, and some are in STEP format, allowing for easy editing and adaptation to different cameras, sensors, etc. All parts can be printed on a 220x220mm print bed. Using the recommended equipment ensures high performance and stable flight below half throttle. The maximum recommended battery is a 4S4P 14Ah, which allows for nearly 3 hours of flight time. Choice of motors and battery capacity depends on the user and is crucial in determining the aircraft's performance for specific purposes.

Check assembly manual, full list of needed accessories and more tips here:

MODULAR NOSE 

Modular nose design for versatile payload options. Easily customize your UAV's nose section to meet specific mission needs. Also available in STEP format.

STEP FILES

STEP files of important parts provided for easy customization. Modify and adapt components effortlessly to suit your unique requirements.

GALLERY

VIDEOS

CFD RESULTS

The airfoil used is Selig S5020. With the correct center of gravity set at a distance of 60mm from the leading edge (measured at the wing root), the aircraft maintains a longitudinal stability margin and zero pitching moment at zero angle of attack. The highest aerodynamic efficiency occurs between 2 and 4 degrees of AoA at a cruising speed between 60-90 km/h. With the recommended motor, propeller and 4S battery, the aircraft flies steadily in level flight at approximately 40% power, resulting in an average current draw of 5A and providing nearly 3 hours of flight time. There is considerable
flexibility in the choice of motor and battery, depending on user preferences.

Required accessories:

ITEM QUANTITY
12x460mm Carbon Tube (MAIN SPAR) link / link 1
6x680mm Carbon Tube (SECONDARY SPAR)  link / link 1
6x350mm Carbon Tube (WING SPAR) link / link 2
Thin CA Glue link 20g tube
CA Activator link 1 (optional but useful)
M3 Threaded Insert (Outer Ø5mm, height 5mm)  link 16
M3 screw 22
M3 nut 4
LW-PLA  link / link 1 roll
PETG link Small amount
Polyester CA hinge 25x20mm e.g.  link 8
Pen spring 2
Velcro strap link 2
Servo extension cable link 2
Conrtol Horn link 2
Pushrod e.g. link / link 2

Reccomended electronics:

Motor 23XX 1000-1400 KV e.g. link / link
Propeller 10x5 / 10x6 e.g. link
Flight Controller Speedybee/Matek F405 Wing or any other Mavlink FC  link / link
GPS Matek M10Q or similar GPS with compass  link
Servos 2x Emax ES08MAII Metal Gear or similar  link / link
ESC BlHeli 30-40A  link
Battery 4S (max 4S4P 14Ah Li-Ion) or smaller pack / LiPo link
Receiver Matek R24-D ELRS or similar link
VTX Walksnail Avatar or any digital or analog VTX link / link

Print Settings:
Check the specified print settings on the Print Settings Page

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