- Availability: In Stock
- Product Code: 10InchFrame
- Product overview
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The 10-Inch Carbon Fiber Tactical FPV Drone Frame is a heavy-duty, high-stiffness structural platform explicitly engineered for mid-sized operational unmanned aerial vehicles (UAVs) deployed in multi-role security applications, including tactical reconnaissance, payload dropping setups, and high-velocity precision flight profiles. Manufactured from premium, high-density 3K monolithic carbon fiber plate stock, this airframe is optimized to support 10-inch propeller configurations. The geometry balances structural mass distribution with rigid arm reinforcement layout design parameters, providing exceptional torsional resistance and minimizing high-frequency motor vibration harmonics to maintain pristine sensor performance during aggressive operational maneuvers.
Features
Tactical Multi-Role Mission Optimization: Custom-tailored to provide a resilient, heavy-payload structural foundation for reconnaissance gear configurations, mechanical servo-drop releases, and high-impact deployment profiles.
Premium 3K Monolithic Carbon Stock: Precision CNC-machined entirely from premium 100% genuine 3K matte carbon fiber sheets, delivering extreme structural rigidity and high tensile strength limits.
Optimized 10-Inch Propeller Clearance: Engineered with a stretched layout configuration that accommodates high-efficiency 10-inch propellers with ideal tip clearance, maximizing thrust-to-weight generation matrices.
High-Stiffness Anti-Vibration Geometry: Structured with heavy-gauge interlocking arms that eliminate low-frequency oscillation ripple, reducing sensor blur and helping flight controller gyroscopes track steady flight paths.
Symmetrical Electronics Mounting Bays: Incorporates universal multi-stack hardware pathways to support standard flight controller stacks, heavy video transmitters, and diverse payload configurations.
Streamlined Aerodynamic Topography: Features a low-profile deck arrangement that reduces structural drag coefficients during high-speed forward trajectories, enhancing battery cell efficiency.
Specifications
Model Name: 10-Inch Carbon Fiber Frame
Primary Structural Material: 100% Genuine Monolithic 3K Twill Carbon Fiber Plate
Target Aircraft Classification: Mid-Sized Multi-Role Tactical UAV (Reconnaissance / Payload Drop)
Target Propeller Size Standard: 10.0 Inches (High-Efficiency Profiles)
Primary Frame Geometry Profile: Stretched-X / DeadCat Symmetrical Layout Matrix
Flight Electronics Mounting Templates: 30.5 mm × 30.5 mm / 20.0 mm × 20.0 mm Dual-Bay Infrastructure
Motor Hardware Mounting Grid: Standard Multi-Slot Layout Patterns
Structural Arm Plate Gauge Thickness: Heavy-Duty Rigid Arm Profiling
Chassis Hardware Component Materials: High-Tensile Black Anodized Aluminum Standoffs / Grade 12.9 Steel Screws
Operational Instructions
Structural Workspace Preparation: Layout all CNC carbon fiber plates, structural arms, and aluminum hardware standoffs on a clean surface. Inspect carbon edges for manufacturing dust residues and wipe down parts with a lint-free cloth prior to assembly layout.
Arm Grid Mechanical Interlocking: Align the heavy-duty structural arms over the primary bottom center plate index positions. Insert high-tensile steel mounting screws through the bottom index tracks, guiding them up through the structural arm hubs, and secure them with locknuts or matching hardware plates to create a rigid, vibration-isolated anchor point.
Standoff and Electronics Installation: Fasten the black aluminum hardware standoffs onto the lower plate grid. Install your power distribution board, electronic speed controllers (ESC), and flight controller (FC) hardware stack using soft rubber vibration isolation grommets, making sure carbon surfaces do not pinch motor lead connections.
Top Plate Canopy Final Closure: Route your payload electronics, receiver antennas, and battery straps securely through the designated cutout slots in the carbon framework. Place the top plate canopy onto the aluminum standoffs and torque down all structural screws evenly until firm resistance is met.
Notes
Carbon Fiber Electrical Conductivity Hazard: Carbon fiber composites are highly conductive materials. When routing your primary battery leads, ESC power wires, or payload power lines, wrap edges in heat-shrink tubing or route them clear of carbon plate edges to prevent frame grounding shorts.
Thread-Locking Compound Protocol: High-torque motors turn high-mass 8-inch propellers and generate sustained physical strain. To prevent structural hardware backing out during intense flight profiles, apply a drop of medium-strength blue thread-locking compound (Loctite 242/243) to all metal-to-metal screws.
Avoid Mechanical Over-Torque Damage: Tighten all carbon plate frame fasteners until firm physical resistance is felt. Forcing structural screws past standard mechanical limits can cause delamination or micro-fracturing within the 3K carbon matrix, compromising overall airframe strength.
Aerodynamic Balances and Center-of-Gravity Tracking: When setting up reconnaissance optics or dropping payloads, always ensure the aircraft's center of gravity remains focused near the geometric center of the flight controller stack to maintain stable flight dynamics.
Package
1 x 10-Inch Tactical 3K Monolithic Carbon Fiber Flight Frame Structure
For wholesale orders the price will be lower.