Push Rods and Control Rods

(31 products)

Maintain precise control and stability in the air with our selection of push rods and control rods for RC planes. Crafted from durable materials and engineered for optimal performance, our rods offer smooth and responsive movement of control surfaces, ensuring precise maneuverability during flight. Whether you're building a new aircraft or replacing worn-out components, our collection includes a variety of lengths and styles to suit your needs. With easy installation and reliable operation, our push rods and control rods are essential components for achieving peak performance in your RC plane. Explore our selection and upgrade your aircraft's control system today!

RC plane push rods and control rods are essential components of the control system that transmit movement from the servos to the control surfaces, such as the ailerons, elevators, and rudder. They come in various materials and configurations to suit different types of aircraft and flying applications. Here's an overview of push rods and control rods for RC planes:

1. Types of Rods:

  • Push Rods: Push rods are typically used to transmit pushing motion from the servo to the control surface. They are commonly made of materials like steel, carbon fiber, or fiberglass, and they can be solid or hollow depending on the application.

  • Control Rods: Control rods are used to transmit pulling motion from the servo to the control surface. Like push rods, they are available in various materials and configurations to suit different aircraft types and sizes.

2. Materials:

  • Steel: Steel push rods and control rods are durable and rigid, making them suitable for high-stress applications or larger aircraft where strength is critical. They are often used in scale or aerobatic models.

  • Carbon Fiber: Carbon fiber rods are lightweight and stiff, providing excellent rigidity and resistance to bending. They are commonly used in high-performance or lightweight models to reduce weight and improve responsiveness.

  • Fiberglass: Fiberglass rods are flexible and lightweight, making them suitable for smaller or slower-flying aircraft where weight is a concern. They offer a good balance of strength and flexibility for general-purpose applications.

3. Configurations:

  • Straight Rods: Straight push rods and control rods are the simplest and most common configuration. They transmit motion in a straight line from the servo to the control surface, with no bends or curves.

  • Z-Bend: Z-bend rods feature a small bend at one end that allows for easy attachment to the servo arm or control horn. They are simple and effective for many applications and can be adjusted for length if necessary.

  • Clevises: Clevises are small metal or plastic connectors that allow for quick and easy attachment of push rods and control rods to servo arms or control horns. They provide a secure connection and can be adjusted for length as needed.

4. Installation:

  • Proper installation of push rods and control rods is essential for smooth and precise control surface movement. Ensure that the rods are securely attached to the servo arms and control horns using appropriate hardware such as clevises or Z-bends.

  • Check the alignment and length of the rods to ensure that they provide the correct range of motion for the control surface without binding or interference.

5. Considerations:

  • Choose push rods and control rods that are appropriate for your aircraft's size, weight, and flying characteristics. Consider factors such as material strength, flexibility, and weight when selecting rods for your model.

  • Inspect push rods and control rods regularly for signs of wear, damage, or fatigue, and replace them as needed to ensure safe and reliable operation of your RC plane.

Push rods and control rods are critical components of the control system in RC planes, allowing pilots to precisely maneuver their aircraft in the air. By selecting the right type, material, and configuration for your specific model and flying style, you can optimize the performance and responsiveness of your RC plane's control system.

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