Skywalker
Skywalker X8 Pro 升级版固定翼无人机
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稳定的飞行性能
优化的空气动力学与星级安全
超长续航
长达 120 分钟 · 高效运行
快速拆卸与组装
模块化设计 · 快速部署
EPO + 泡壳加固
机头 / 前缘 / 腹部保护
Skywalker X-8 Pro是一款翼展为 2350mm 的大型飞翼无人机。它创新地在尾部融入了 V 型尾翼 结构,显著提升了高速巡航飞行中的稳定性和操控性。
机身采用高强度 EPO 泡沫 材料制成,并在机头、翼前缘和腹部增加了泡壳加固,以抵抗磨损和冲击,大大提高了耐用性。内部布局合理划分了独立隔舱: 前舱 370×320×100mm(电池 / 飞控), 后舱 240×320×90mm(载荷 / 降落伞舱)。翼根处预装了 VTOL 转换接口,可轻松改装为 垂直起降 模式。
| 型号 | X-8 Pro |
| 材质 | EPO |
| 翼展 | 2350 毫米 |
| 机身长度 | 890 毫米 |
| 翼面积 | 109 平方分米 |
| 重心位置 | 距离机头 395 – 405 毫米 |
| 最大起飞重量 | 8 公斤 |
| 最大载荷 | 2 公斤 |
| 飞行时间 | 约 120 分钟 |
| 起飞 / 降落 | 弹射 / 降落 |
| 套件重量 | 约 2 公斤 |
| PNP 重量 | 约 2.6 公斤 |
| 前舱 | 370 × 320 × 100 毫米 |
| 后舱 | 240 × 320 × 90 毫米 |
| 项目 | 规格 | 套件 | PNP | RTF |
|---|---|---|---|---|
| 机身 | 上 / 下 | 2 | 2 | 2 |
| 机翼 | 左 / 右 | 2 | 2 | 2 |
| 机翼配件包 | 袋 | 5 | 5 | 5 |
| 机身配件包 | 袋 | 3 | 3 | 3 |
| V 型尾翼 | 对 | 1 | 1 | 1 |
| 快锁钥匙 | 对 | 1 | 1 | 1 |
| 电机座 | 个 | 1 | 1 | 1 |
| 碳管 | 根 | 5 | 5 | 5 |
| 碳条 | 根 | 4 | 4 | 4 |
| 前缘 | 对 | 1 | 1 | 1 |
| 电机 | 5050 KV550 | — | 1 | 1 |
| 电调 | 80A | — | 1 | 1 |
| 舵机 | 标准 17g | — | 2 | 2 |
| 螺旋桨 | 15×8E / 16×8E | — | 1 | 1 |
| 电池 | 6S 21000mAh 锂电池 | — | — | 1 |
| 遥控器 | 6 通道 (6ch) | — | — | 1 |
Skywalker V8 强力复合材料
Skywalker X8 2120mm 无人机
Skywalker 弹射架
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The X8PRO features a flying-wing design with an ultra-wide 2350mm wingspan, delivering exceptional aerodynamic gliding performance.
The fuselage, wings, and tail assembly feature a tool-free quick-release design, reducing installation steps and shortening assembly and disassembly times.
The streamlined fuselage features a compartmentalized structural design; the spacious forward section accommodates high-capacity batteries and equipment, while the aft section supports flexible modification (such as the integration of a parachute compartment), thereby balancing aerodynamic efficiency with mission configuration versatility.
The nose, wing leading edges, and underbelly are reinforced with thermoformed components to provide protection against friction and impact, thereby extending the aircraft's service life.
Precision electrical plugs work in tandem with a robust locking mechanism to ensure that every connection delivers lossless signal transmission and ample power, thereby guaranteeing the enduring and reliable operation of the flight system.
The wing employs a composite structure of carbon tubes and carbon strips, which, while ensuring a lightweight design, significantly enhances the wing's overall strength and flight stability.
The control surfaces feature a composite design utilizing carbon strips and high-strength plastic hinges; this enhances structural rigidity, ensures precise control and rapid response during flight, and improves overall flight stability.
Featuring a high-strength metal release hook, this component is compatible with launch racks, elastic bands, and other propulsion systems, ensuring stable and reliable launches every time while adapting to diverse operational environments.
We offer a comprehensive set of high-quality electronic components, including high-thrust motors, reliable ESCs, durable metal-geared servos, and propellers. This complete kit ensures that you can begin assembly immediately.
Technical Support & Operational FAQ
1. Mission Profiles & Payload Integration
Q: What is the maximum payload capacity for mapping sensors, and is it compatible with the Sony A7R series?
Mission Capability: The airframe supports a maximum recommended payload of 2.0 - 2.5 kg (subject to battery mass). The spacious front bay (370×320×100mm) seamlessly accommodates the Sony A7R series mirrorless camera paired with a lightweight gimbal stabilizer.
Q: Is this platform specifically engineered for airborne LiDAR deployment?
Sensor Suitability: Affirmative. The X8 Pro Upgraded Version was strategically designed with optimized internal volume and center-of-gravity (CG) adjustment margins to carry heavy tactical sensors such as airborne LiDAR systems and oblique photogrammetry arrays.
Q: Can the front compartment clear a 6S 22000mAh battery pack alongside the flight controller?
Hardware Clearance: Yes. The 370x320x100mm front bay provides ample clearance for a high-capacity 6S 22000mAh LiPo/Solid-State battery and standard form-factor flight controllers (e.g., CUAV V5+, Pixhawk Cube). Clean cable routing and component securing are highly recommended.
Q: Can this airframe be upgraded to a VTOL system post-purchase, and where can I acquire the conversion kit?
Upgrade Pathway: Yes. The airframe features factory-reinforced structural interfaces on the wings and fuselage for hybrid 4+1 VTOL conversion. Complete OEM VTOL upgrade kits (including vertical lift motors, carbon fiber booms, and hardware) are available directly through our customer support channel.
2. Flight Performance & Aerodynamics
Q: What is the projected flight endurance when operating under a 2 kg maximum payload?
Endurance Metrics: Under a standard mission profile (4S 16000mAh / 2kg payload), the aircraft cruises at 18 m/s with an expected endurance of 40–50 minutes. Utilizing a high-energy 6S 22000mAh setup combined with optimized, lighter payloads can extend time-on-station to over 70 minutes.
Q: What are the recommended cruise and stall speeds for flight parameter planning?
Velocity Envelope: The optimal cruising speed envelope is 15–20 m/s. The structural stall speed ranges between 9–11 m/s, strictly depending on the total Take-Off weight configuration.
Q: How does the Upgraded version resolve the wing flutter issues observed in legacy X8 models?
Aeroelastic Fix: The Upgraded edition integrates carbon fiber spar reinforcement plates along the wing joints and a dual-pin mechanical wing-locking mechanism, drastically eliminating wing oscillation and aeroelastic flutter during high-speed transits or turbulent atmospheric conditions.
Q: How should the dual-compartment layout be utilized to maintain correct Center of Gravity (CG)?
CG Balancing: Heavy components (batteries, flight controllers, optical payloads) must be positioned in the primary front bay. The secondary rear bay is designated for lighter telemetry modules, video transmitters, or parachute recovery systems. The optimal CG is located 395–405mm backward from the nose tip (approx. the front 1/3 of the main wing carbon tube).
Q: Does the inner fuselage feature dedicated ventilation paths for high-draw electronic components?
Thermal Control: Yes. The airframe features a dynamic ram-air intake at the nose and dual exhaust vents on the rear fuselage flanks to ensure constant cross-flow cooling. For extreme climates or high-power configurations, integrating a micro auxiliary cooling fan is supported.
3. Propulsion & Avionics Configurations
Q: What is the factory-recommended standard propulsion package?
OEM Hardware: For optimal performance, we recommend a Sunnysky X3520 KV600 brushless motor, an 80A industrial ESC, a 14x8 or 15x6 high-efficiency propeller, paired with either a 4S 16000mAh or 6S 12000mAh battery array.
Q: Can I deploy alternative third-party motors, such as a 5055 KV600?
Motor Ecosystem: Yes. Ensure the chosen motor weighs under 300g and complies with standard 25mm/30mm mounting hole spacing. Custom motor mount adapter plates may be required depending on the exact brand.
Q: What is the required launch force for a catapult deployment at an 8 kg MTOW?
Catapult Mechanics: Launching at an 8 kg Maximum Take-Off Weight requires approximately 25–30 kg of peak tension (utilizing a 6–8 kg heavy-duty bungee/elastic cord assembly) to safely achieve a launch velocity of 12–14 m/s.
Q: Is hand-launching feasible for this platform?
Launch Boundaries: Hand-launching is strictly limited to lightweight configurations (<3 kg) and requires a two-person coordinated deployment. For full-load industrial missions up to 8 kg, hand-launching is highly discouraged; a dedicated catapult system or runway landing gear must be utilized.
Q: Can an FPV pilot camera and video transmitter be integrated? How should antennas be routed?
Telemetry Routing: Yes. The nose features a dedicated cutout for FPV pilot sensors. The video transmitter should be seated in the rear compartment, with antenna arrays routed outwards via the fuselage side walls or tail section (minor foam modification required).
Q: What specifications are required for the control surface servos?
Servo Threshold: We recommend high-torque, digital metal-gear servos delivering a minimum torque rating of ≥2.5 kg·cm @ 6V (e.g., Futaba S3071 or Emax ES3154) to combat high aerodynamic load.
Q: Which flight control ecosystems are fully compatible with this platform?
Autopilot Ecosystem: The airframe natively adapts to major enterprise ecosystems including Pixhawk (Cube Orange/Black), CUAV V5+, Arkbird, and Mateksys F405-WING. Pre-configured ArduPlane PID tuning files are available upon request.
4. Procurement & Logistics
Q: What hardware is included in the Plug-and-Play (PNP) edition?
Package Breakdown: The PNP package includes the factory airframe integrated with a 3520 KV600 motor, an 80A electronic speed controller, and 4 premium metal-gear servos. It excludes the battery, flight controller, and receiver modules.
Q: What is the current pricing and availability for the KIT version?
Inventory Status: The barebone KIT edition (includes foam airframe, structural carbon spars, and basic linkage hardware) is priced at approximately $189 USD. Current inventory levels are stable with immediate worldwide dispatch available.
Q: What are the estimated shipping costs and transit times to international destinations?
Global Dispatch: We offer Tier-1 express air freight (DHL/UPS/FedEx). Average shipping to North America ranges from $75–$110 USD with a transit window of 3–7 business days. European corridors follow identical metrics.
Q: Given the fragile nature of large EPO airframes, how is international transit damage mitigated?
Heavy-Duty Packing: All platforms are secured using thick, dual-wall corrugated export cartons, custom internal foam shock-blocks, and vacuum thermal-shrink stabilization. Wings are packaged in separate protective sub-compartments.
Q: What is the standard protocol if components arrive damaged during transit?
RMA Warranty: We operate a zero-risk policy. Contact our support desk with clear photographic evidence within 24 hours of delivery. Replacement components will be expedited free of charge; returning the complete airframe is not required.
Q: Can you issue commercial invoices for corporate procurement? What is the standard Harmonized System (HS) code?
Enterprise Compliance: Yes. We issue complete Proforma and Commercial Invoices to streamline corporate customs clearance. The standard international HS Code utilized is 8806.23 (or 8802.19 depending on regional jurisdiction for unmanned aircraft).
5. Tactical Troubleshooting & Tuning
Q: Are there recommended ArduPlane parameter files available to bypass base PID tuning?
Tuning Presets: Yes. Optimized ArduPlane configuration profiles tailored specifically to the X8 Pro's wing area and control surface deflection efficiency are maintained by our engineering team and provided upon order confirmation.
Q: Why does the recommended 80A ESC trigger thermal protection after only a few minutes of flight?
Thermal Diagnostics: This typical symptom stems from: 1) Oversized propeller loads (exceeding 15x6 specs), 2) Continuous high-amp draws on 6S configurations, or 3) Blocked fuselage air ducts. We recommend dropping propeller pitch, optimizing cross-flow ventilation, or upgrading to a 100A ESC for high-ambient operations.
Q: How do I accurately determine the placement of the catapult launch hook?
Launch Safety: The tow hook must be securely anchored 10–15 cm forward of the Center of Gravity (CG). Ensure the launch line releases perfectly parallel to the aircraft's longitudinal axis. Refer to our engineering diagram for precise structural marking points.
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