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K-1000 | High-Performance 3D-Printed RC Plane
9.jpg K-1000 | High-Performance 3D-Printed RC Plane
11.jpg K-1000 | High-Performance 3D-Printed RC Plane
7.jpg K-1000 | High-Performance 3D-Printed RC Plane
5.jpg K-1000 | High-Performance 3D-Printed RC Plane
10.jpg K-1000 | High-Performance 3D-Printed RC Plane
3.jpg K-1000 | High-Performance 3D-Printed RC Plane
Side.jpg K-1000 | High-Performance 3D-Printed RC Plane
1.jpg K-1000 | High-Performance 3D-Printed RC Plane
2.jpg K-1000 | High-Performance 3D-Printed RC Plane
4.jpg K-1000 | High-Performance 3D-Printed RC Plane
6.jpg K-1000 | High-Performance 3D-Printed RC Plane
8.jpg K-1000 | High-Performance 3D-Printed RC Plane
Fuselage.STL K-1000 | High-Performance 3D-Printed RC Plane
Fuselage Cover.STL K-1000 | High-Performance 3D-Printed RC Plane
Propeller.STL K-1000 | High-Performance 3D-Printed RC Plane
Left wing.STL K-1000 | High-Performance 3D-Printed RC Plane
Right Wing.STL K-1000 | High-Performance 3D-Printed RC Plane
Rudder.STL K-1000 | High-Performance 3D-Printed RC Plane
Connector.STL K-1000 | High-Performance 3D-Printed RC Plane
Ailerons.STL K-1000 | High-Performance 3D-Printed RC Plane
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8 files (STL) Close
  • Ailerons.STL
  • Connector.STL
  • Fuselage Cover.STL
  • Fuselage.STL
  • Left wing.STL
  • Propeller.STL
  • Right Wing.STL
  • Rudder.STL

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Publication date 2025-01-28 at 11:21
Design number 2685780
MarutiTheKhiskoli

MarutiTheKhiskoli

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3D model description

πŸš€ Print. Build. Fly. Experience the K-1000. πŸš€

The K-1000 is a cutting-edge, 3D-printed RC aircraft designed for high performance and modular customization. Engineered for stability, efficiency, and ease of assembly, it features a spacious fuselage with a removable front cover, making component installation seamless.

πŸ”Ή Optimized for Dual 2200Kv BLDC Motors – Achieve powerful, stable flight
πŸ”Ή Precision Aerodynamics – Requires only 2 servos for smooth controls
πŸ”Ή Massive Fuselage Space – Easily fits large batteries, flight controllers & payloads
πŸ”Ή Quick-Access Front Cover – Hassle-free maintenance and modifications
πŸ”Ή Aerodynamic Excellence – Designed for extended endurance & agility

πŸ”§ Easy to Assemble | πŸ† High Performance | πŸ› οΈ Fully Customizable

⚑ Ideal for: FPV pilots, RC hobbyists, drone developers & aerospace innovators

🌍 Get the STL files today & take your K-1000 to the skies!

πŸ”₯ β€œMaster the Skies – Fly the K-1000!” πŸ”₯

Manufacturing settings

πŸ–¨οΈ 3D PRINT SETTINGS & RECOMMENDED MATERIALS
πŸ”Ή Material: PLA+ / PETG / LW-PLA (for weight reduction)
πŸ”Ή Nozzle Size: 0.4mm (recommended)
πŸ”Ή Layer Height: 0.2mm (for a balance of strength and detail)
πŸ”Ή Infill:

Fuselage & Wings: 15-20% (Grid or Gyroid for strength)
Motor Mounts & Structural Parts: 50-70% (higher strength needed)
πŸ”Ή Walls (Perimeters): 3-4 layers for structural integrity
πŸ”Ή s:
Only for overhangs (motor mounts, certain wing sections)
Use tree s for easy removal
πŸ”Ή Bed Adhesion: Brim recommended for larger parts
πŸ› οΈ POST-PROCESSING & ASSEMBLY
1️⃣ Preparing the 3D-Printed Parts
βœ”οΈ Remove s & Sand Rough Edges – Use fine-grit sandpaper (400-600)
βœ”οΈ Check Fitment – Dry fit all parts before gluing/screwing

2️⃣ Wing Assembly
βœ”οΈ wing halves using CA glue or epoxy
βœ”οΈ Reinforce with Carbon Rods (if needed) – Insert in pre-designed slots

3️⃣ Fuselage Assembly
βœ”οΈ Secure Front Cover – Designed for easy access (use screws/magnets)
βœ”οΈ Install Servos (2x Required)

Aileron Servos: Mount inside wings with pushrods
Tail Control Surface: Standard setup
4️⃣ Motor & Electronics Installation
βœ”οΈ Recommended Motors: 2200Kv BLDC (x2)
βœ”οΈ ESC: 30-40A ESC (x2) with BEC
βœ”οΈ Battery: 3S 2200mAh LiPo (or larger for longer flight time)
βœ”οΈ Propellers: 6x4 or 7x5 for optimal thrust
βœ”οΈ Receiver: Standard 4+ channel receiver
βœ”οΈ Flight Controller (optional): ArduPilot / INAV-compatible for stabilization

πŸ“Œ FINAL CHECKS & FLIGHT SETUP
βœ… Center of Gravity (CG): Adjust with battery placement for balance
βœ… Control Surfaces Calibration: Ensure servos move correctly
βœ… Motor Direction Test: One clockwise, one counterclockwise for stability
βœ… Range Test: receiver connectivity before flight

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