FPV Nylon Pan & Tilt Kit (Without Servo)

DFRobot FPV Nylon Pan and Tilt provides a lightweight mechanical platform for adding directional movement to cameras, sensors, or creative payloads on robots and drones. The nylon pan‑tilt bracket supports common 9–12g micro servos, enabling smooth horizontal and vertical motion for FPV viewing, tracking systems, or experimental robotics projects. This compact robotics mounting kit simplifies installation of small modules such as cameras or laser emitters while maintaining low weight for mobile platforms. Compatibility with widely available micro servo motors and straightforward assembly make this motion control accessory suitable for hobby robotics, research prototypes, and interactive projects.

Note: This product doesn't contain servos. Please choose the servos separately.

Dual‑Axis Motion for Cameras and Robotics Modules

This FPV pan‑tilt mechanism enables independent horizontal (pan) and vertical (tilt) movement using two micro servos. The articulated nylon structure allows cameras, laser modules, or lightweight experimental equipment to track targets or scan surroundings. Such two‑axis motion expands robotic perception and interaction capabilities, supporting applications like FPV viewing, object tracking, and dynamic sensing systems on mobile robots, drones, or remote monitoring platforms.

Lightweight Nylon Structure with Micro Servo Compatibility

The compact servo mount uses durable nylon construction to maintain strength while minimizing added payload weight. Mechanical compatibility with common micro servo sizes allows straightforward integration with widely used models such as the 9g micro servo. Mounting holes and bracket geometry support fast installation of small electronics modules, making the motion platform suitable for rapid prototyping, educational robotics builds, and compact robotic assemblies.

Creative Project Integration for Interactive Builds

This robotics pan‑tilt kit integrates easily into interactive electronics projects and educational demonstrations. Example builds include animated toys, expressive robotics heads, camera trackers, and classroom robotics experiments. A reference project demonstrates integration with a microbit controller and servo motors for a playful robotic bear capable of displaying yes/no responses through coordinated servo movement and LED display interaction.

Common applications include FPV camera mounts, robotic vision systems, interactive educational models, and experimental sensing platforms. The compact servo-driven gimbal frame enables controlled positioning of lightweight modules in robotics prototypes, maker builds, and STEM project demonstrations.