Description

The K+ Flying Wing is an ultralight, aerodynamically optimized 700mm FPV flying wing designed for fast printing, rapid assembly, and maximum accessibility. This model was engineered to be fully 3D printable in under 24 hours using standard 0.2 mm layer height settings, while maintaining rigidity, stability, and high-speed performance.

The entire aircraft is composed of only 8 total printed parts, making it one of the most beginner-friendly yet high-performing printed wings available. The design visible in the attached render—featuring a sleek black-and-white dual-tone body, embedded servo housings, elevated fuselage profile, and rear-mounted motor—was optimized for aerodynamic cleanliness and easy fitment of standard hobby-grade electronics.

🚀 Key Features

Streamlined Flying Wing Architecture

The Kryma Wing features a compact delta-style profile with a slight forward-swept leading edge. Its geometry prioritizes:

• Smooth airflow over the entire wingspan

• Exceptional roll authority via large elevons

• Efficient glide performance

• Stable FPV penetration at speed

8-Part Modular Design

The drone is composed of just 8 printed parts:

• 2 Wings – lightweight internal ribbing to reduce print time

• 2 Elevons – reinforced hinge sections

• 2 Wing Tips – shaped for lateral stability and turbulence reduction

• 1 Fuselage – houses motor, ESC, battery, and camera

• 1 Canopy – removable, locking design for fast access

The image clearly shows:

• A smoothly curved fuselage with aerodynamic nose

• A recessed FPV camera port

• Integrated mounts for servos on each wing

• A rear motor mount built directly into the fuselage

• White accent panels along the leading edge for visibility

Optimized for Fast, Clean FPV

This design requires no traditional flight controller if paired with an FPV camera system that includes auto-level/gyro capability.
This makes the build dramatically simpler, lighter, and cheaper—perfect for beginners.

24-Hour Print Time

When printed at 0.2 mm layer height, the Kryma Wing can be completed within a single day using any standard printer with a 220×220 mm build plate.

📦 Parts List + Recommended Electronics

3D Printed Components (8 Total)

• 2 × Wings

• 2 × Wing Tips

• 2 × Elevons

• 1 × Fuselage (motor and battery bay integrated)

• 1 × Canopy (snap-fit design)

🛠 Electronics Required

Control & Propulsion

• 2 × 9g Servo Motors
  https://amzn.to/3H0UXK0
  Mounted inside the wing pockets shown in the render (blue covers visible).

• A2212 Brushless Motor (1000Kv or 2000Kv)
  https://amzn.to/3xfTElX
  Rear-mounted as shown in the image, using the integrated motor plate.

• 30A ESC
  https://amzn.to/3xmMmxV
  Fits inside the fuselage bay underneath the canopy.

• 6045 Propeller
  https://amzn.to/3mkzVfR
  Perfect fit for rear-mounted pusher setup.

FPV System

• Micro FPV Camera Kit (with transmitter & receiver)
  https://amzn.to/3GW10zj
  The nose compartment in the render shows a dedicated camera slot with optimal forward angle.

Radio System

• Standard RC Transmitter + Receiver
  https://amzn.to/3Mw279T
  The receiver mounts inside the fuselage below the canopy.

🔧 Assembly Overview (Updated With Image Specifics)

1. Fuselage Preparation

• Insert the motor into the reinforced rear mount.

• Mount ESC inside the fuselage, routed so the wires feed directly into the motor cavity.

• Install your FPV camera into the nose slot (visible in the render).

• Secure components with double-sided foam tape or Velcro.

2. Wing Installation

• Slide the wings into the fuselage side slots until fully locked.

• The internal channels ensure perfect alignment.

3. Servo Mounting

• Install the 9g servos into the wing servo pockets (with blue covers shown in your image).

• Run linkage rods to the elevons.

4. Wing Tip Attachment

• Fasten the wing tips—they improve stability and protect during landings.

5. Canopy Installation

• The canopy slides in and locks via a rear tab.

• Store your battery and receiver inside this compartment.

6. Final Setup

• Install propeller

• Bind transmitter

• Perform elevon mixing

• Center control surfaces

• Perform maiden flight tuning (if needed)

🖨 3D Printing Settings

Recommended Settings

📏 Specs

• Wingspan: ~700 mm

• Total Printed Parts: 8

• Flight Controller: Not required (FPV cam auto-level recommended)

• Motor Mount: Rear pusher

• Assembly Time: 45–90 minutes

• Print Time: < 24 hours

🎯 Perfect For

• FPV beginners

• DIY drone hobbyists

• Schools / STEM programs

• Drone clubs

• Pilots wanting an easy-to-fly, low-cost wing