common drone frames include: quadcopter drone frames: drones with four rotors. hexacopter drone frames: drones with six rotors. octocopter drone frames: drones with eight rotors. fixed wing drone frames: drones that have a more traditional airplane like configuration.
drone frame refers to the physical structure or frame that serves as the foundation for the entire drone system. It is the skeletal structure that holds and connects various components of the drone, such as motors, propellers, electronic speed controllers (ESCs), flight controllers, and batteries. the design and material of the frame impact the drone's stability, durability, weight, and overall performance.
drone frames are typically constructed from lightweight and durable materials to ensure structural integrity while keeping the overall weight of the drone low. Common materials include carbon fiber, aluminum, and various composite materials. drone frames come in different sizes and shapes to accommodate various applications, from small racing drones to large aerial photography platforms. The size and dimensions of the frame impact the drone's payload capacity and maneuverability.
the drone frame provides mounting points for attaching motors, propellers, and other components securely. These mounting points are usually standardized to accommodate commonly used components in the drone industry. some drone frames are designed to be foldable or collapsible, allowing for easier transport and storage. this is particularly useful for drones used in fieldwork or applications that require frequent movement.
to improve the performance of sensors and cameras, some drone frames incorporate features like vibration dampening mounts. These help reduce the impact of vibrations on sensitive equipment, especially in aerial photography and mapping applications. many drone enthusiasts and professionals prefer customizable frames that allow them to adapt the drone to specific needs and preferences. This may involve adjusting the frame size, adding or removing components, or integrating specialized equipment.
when building or choosing a drone frame, considerations include the intended use, payload requirements, flight characteristics, and the compatibility of the frame with other components. The frame is a critical element in determining the overall functionality and performance of the drones.
frame | propellers | motors | motor KV | Lipo battery | |||||
---|---|---|---|---|---|---|---|---|---|
120mm~mini | 3 inch | 1104 ~ 1105 | 4000KV | 80~800mAh 1s/2s | |||||
150mm~160mm | 3-4 inch | 1306~1407 | 3000KV+ | 600-900mAh 2s/3s | |||||
180mm | 4 inch | 1806~2204 | 2600KV+ | 1000~1300mAh 3s/4s | |||||
210mm | 5 inch | 2204~2206 | 2300KV~2700KV | 1000-1300mAh 3s/4s | |||||
250mm | 6 inch | 2204~2208 | 2000KV~2300KV | 1300-1800mAh 3s/4s | |||||
330mm~350mm | 7, 8 inch | 2208~212 | 1500KV~1600KV | 2200-3200mah 3s/4s | |||||
450mm~500mm | 9,10,11 inch | 2212 – 2216 | 800KV~1000KV | 3300mAh 4s or more | |||||
combination of FPV drone frame, FPV drone propeller blades, FPV drone propellers, FPV drone motors, FPV drone Lipo battery, |