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Avionics 3D Models

Find the best Avionics 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Anonymous1763945347
Solid-body industrial UAV chassis, aerodynamic monocoque 7-inch cinewhoop. The airframe is a single thick unibody with four large 194mm vertical circular propeller ducts integrated into the shell. Central torso is a dual-deck structure: a long upper spine and a large rectangular underslung avionics vault hanging below the center (105mm x 70mm x 45mm). Three distinct 32mm circular socket indentations are recessed into the nose, the bottom belly, and the top spine. Teardrop-shaped nose with a secondary small camera port above the main socket. Four high-clearance landing struts attached to the duct bases. Stealth matte black finish, carbon-fiber texture. No thin arms; the fuselage and ducts are a continuous solid piece. Industrial, tactical, low-drag profile.
Anonymous1777396456
Create a realistic aerospace-grade Hybrid VTOL fixed-wing medical drone optimized for 10 kg payload capacity. Use a balanced quadplane VTOL layout with symmetrical motor placement and proper aerodynamic proportions. Design a larger carbon-fiber fuselage with reinforced wing roots, long high-lift wings, tall T-tail stabilizer, and a powerful rear pusher motor sized for long-endurance cruise flight. Add 4 equally aligned VTOL lift motors mounted on strong carbon booms with realistic spacing and thrust balance. Include rugged landing gear with high ground clearance for detachable medical pod operations. The fuselage must contain a centered detachable payload bay with proper CG alignment and smooth airflow continuity. Add Pixhawk avionics housing, GPS dome, AI camera, LiDAR, navigation LEDs, cooling vents, and realistic aerospace panel lines. Style should be futuristic but realistic, similar to professional military logistics UAVs. Use clean aerodynamic geometry, realistic engineering prop
Anonymous1777891778
Design a realistic modular VTOL medical drone with TWO completely separate units: (1) reusable VTOL carrier drone and (2) detachable bio-secure medical payload pod. The pod must detach cleanly without affecting drone flight. After detachment, both systems remain fully operational independently. Drone includes Pixhawk 6C, quad VTOL motors, pusher motor, GPS, avionics, docking bay, sealed payload doors, and autonomous flight systems. Payload pod includes independent battery, PCM cooling, Peltier TEC, thermal sensors, HOTP security, GPS tracking, HEPA vent, shockproof medical storage, and standalone telemetry. Add realistic aerospace docking system with electromagnetic locks, mechanical latches, pogo-pin connectors, alignment rails, vibration dampers, and auto-sealing interfaces. Show hover deployment animation: unlock → disconnect → pod release → drone bay closes → pod enters standalone mode. Ultra-realistic aerospace engineering style.
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Anonymous1777681981
The HAL Tejas is a compact, 4.5-generation supersonic fighter featuring a tailless, compound delta-wing. Its "cranked-arrow" geometry uses a dual-sweep leading edge—50° at the root and 62.5° outboard—to balance high-speed stability with agility. Lacking tailplanes, the wing uses trailing-edge elevons and leading-edge slats for pitch and roll control. The fuselage utilizes "Coke-bottle" area ruling to reduce transonic drag. Its structure is composite-heavy, with carbon fiber making up 45% of weight and 90% of its surface. Side-mounted Y-duct intakes cleverly shield the engine from radar. The landing gear is a tricycle setup: a steerable twin-wheel nose unit retracting forward and single-wheel main units retracting inward. Speed is managed by four petal-type airbrakes on the rear fuselage. Exterior highlights include a bubble canopy, a dorsal spine for avionics, and a fixed refueling probe on the Mk1A. It stands as a masterclass in lightweight, high-agility aerospace design.
Anonymous1757259894
A highly detailed, parametrically defined 3D CAD visualizer specifications for a hybrid VTOL Rocket Drone frame, specifically designed for high-speed interceptor and defense research, and optimized for FDM 3D printing on an Ender 5 Plus (350x350x400mm print volume). The central fuselage is a streamlined, monolithic cylindrical structure, integrated into a smooth, pointed ogive nose cone, mimicking a high-performance rocket. This entire central body is to be rendered as a hollow, thin-walled (e.g., 2mm wall thickness) structure, designed to house all internal avionics, batteries, and the Python-based flight controller, with clear provisions for access panels and ventilation (represented as cutouts). Protruding from the lower-mid section of the fuselage are four aerodynamic, slightly swept-back arms arranged in a precise X-configuration, specifically optimized to prevent visual obstruction for an AI-driven obstacle avoidance system. These arms are designed to mount powerful brushless D
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Anonymous1775762521
Create a highly detailed, realistic 3D cockpit interior inspired by a modern F-16-style fighter jet. Focus on the pilot’s seat viewpoint inside the cockpit, with accurate military aviation styling, compact ergonomic layout, and authentic aerospace materials. Include: * Main instrument panel with dense avionics, multifunction displays, analog/digital flight instruments, switches, warning lights, and labeled controls * Center console and side panels packed with toggles, buttons, throttle controls, and operational systems * Detailed control stick / sidestick and throttle assembly * Ejection seat with harnesses, cushions, survival pack details, and realistic mechanical framing * HUD combiner glass and forward canopy framing * Canopy interior with locking mechanisms, structural rivets, seals, and clear glass * Rudder pedals, footwell details, wiring, and under-panel structure * Realistic military textures: matte black panels, dark gray painted metal, worn edges, brushed metal, rubberized
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Anonymous1774950801
未来应急救援eVTOL飞行器外形设计,采用升力+巡航构型,高置直翼布局,机翼上均匀分布6个垂直升力旋翼,尾部单推进螺旋桨,双尾梁结构连接水平尾翼,机身整体呈流线型,短机头、紧凑比例,机翼与机身过渡自然,旋翼布局对称且结构清晰,滑橇式起落架,整体强调空气动力外形与工程结构逻辑,造型简洁现代,工业设计风格表达,三视图展示(正视图、侧视图、俯视图),正交投影,无透视变形,三视图严格对齐、比例一致,技术线稿风格,黑白表现,白色背景,高细节
Anonymous1714361944
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